Script start time: Fri Nov 13 00:31:34 MST 2020

Script end: Fri Nov 13 01:44:07 MST 2020


_______________________ESMF TRUNK RegridWeightGenCheck AND BFB Combinations TEST SUMMARY_____________________________

       BUILD  INSTALL  OS.COMPILER.COMM.ABI  RegridWeightGenCheck    bfb sanity
       BUILD  INSTALL  OS.COMPILER.COMM.ABI  RegridWeightGenCheck    bfb bs10  
       BUILD  INSTALL  OS.COMPILER.COMM.ABI  RegridWeightGenCheck    bfb bs15  
       BUILD  INSTALL  OS.COMPILER.COMM.ABI  RegridWeightGenCheck    bfb bs20  
       BUILD  INSTALL  OS.COMPILER.COMM.ABI  RegridWeightGenCheck    bfb bs21  
       BUILD  INSTALL  OS.COMPILER.COMM.ABI  RegridWeightGenCheck    bfb bs26  
       BUILD  INSTALL  OS.COMPILER.COMM.ABI  RegridWeightGenCheck    bfb bs27  
       BUILD  INSTALL  OS.COMPILER.COMM.ABI  RegridWeightGenCheck    bfb 801  
____________________________________________________________________________________
  PASS/FAIL   PASS/FAIL                        PASS/FAIL/SKIP PASS/FAIL/NOTFOUND
____________________________________________________________________________________
r13i7n1(O)      PASS        PASS    Linux.intel.intelmpi.64     165/0/0         165/0/               
r13i7n1(O)      PASS        PASS    Linux.intel.intelmpi.64     165/0/0        120/45/               
r13i7n1(O)      PASS        PASS    Linux.intel.intelmpi.64     165/0/0        120/45/               
r13i7n1(O)      PASS        PASS    Linux.intel.intelmpi.64     165/0/0        120/45/               
r13i7n1(O)      PASS        PASS    Linux.intel.intelmpi.64     165/0/0         165/0/               
r13i7n1(O)      PASS        PASS    Linux.intel.intelmpi.64     165/0/0         165/0/               
r13i7n1(O)      PASS        PASS    Linux.intel.intelmpi.64     165/0/0         165/0/               
r13i7n1(O)      PASS        PASS    Linux.intel.intelmpi.64     165/0/0        110/55/               

________________________________________________________________________________________

Fri Nov 13 00:36:24 MST 2020 on r13i7n1 

ESMF Checkout Source: https://github.com/esmf-org/esmf.git

Bit for Bit compare using Baseline1: ESMF_8_1_0_beta_snapshot_36-35-g260dae2aea , Baseline2: ESMF_8_1_0_beta_snapshot_10 , Baseline3: ESMF_8_1_0_beta_snapshot_15 , Baseline4: ESMF_8_1_0_beta_snapshot_20 , Baseline5: ESMF_8_1_0_beta_snapshot_21 , Baseline6: ESMF_8_1_0_beta_snapshot_26 , Baseline7: ESMF_8_1_0_beta_snapshot_27 and Baseline8: ESMF_8_0_1 are the baselines used .


Compiler and configuration information:

-------------------------------------------------------------- 

Currently Loaded Modules:
  1) ncarenv/1.3    3) netcdf/4.7.3    5) ncarcompilers/0.5.0   7) pnetcdf/1.12.1
  2) intel/19.0.5   4) nccmp/1.8.2.1   6) impi/2019.6.154

 


ESMF Repository:
origin	https://github.com/esmf-org/esmf.git (fetch)
origin	https://github.com/esmf-org/esmf.git (push)
 
ESMF_8_1_0_beta_snapshot_36-35-g260dae2aea
 
 
esmf-extended-tests  Repository:
origin	git@github.com:esmf-org/esmf-extended-tests.git (fetch)
origin	git@github.com:esmf-org/esmf-extended-tests.git (push)
 
fatal: No names found, cannot describe anything.
 
 
 
--------------------------------------------------------------
ESMF_VERSION_STRING:    8.1.0 beta snapshot
ESMF_8_1_0_beta_snapshot_36-35-g260dae2aea
--------------------------------------------------------------
On branch develop
Your branch is up-to-date with 'origin/develop'.
Untracked files:
  (use "git add ..." to include in what will be committed)

	tmp

nothing added to commit but untracked files present (use "git add" to track)
--------------------------------------------------------------
 
--------------------------------------------------------------
Make version:
GNU Make 4.0
Built for x86_64-unknown-linux-gnu
Copyright (C) 1988-2013 Free Software Foundation, Inc.
License GPLv3+: GNU GPL version 3 or later 
This is free software: you are free to change and redistribute it.
There is NO WARRANTY, to the extent permitted by law.

--------------------------------------------------------------
Fortran Compiler version:
mpiifort for the Intel(R) MPI Library 2019 Update 6 for Linux*
Copyright 2003-2019, Intel Corporation.
Intel(R) Fortran Intel(R) 64 Compiler for applications running on Intel(R) 64, Version 19.0.5.281 Build 20190815
Copyright (C) 1985-2019 Intel Corporation.  All rights reserved.
ifort: warning #10315: specifying -lm before files may supersede the Intel(R) math library and affect performance
ifort: warning #10315: specifying -lm before files may supersede the Intel(R) math library and affect performance

ifort version 19.0.5.281

--------------------------------------------------------------
C++ Compiler version:
mpiicpc for the Intel(R) MPI Library 2019 Update 6 for Linux*
Copyright 2003-2019, Intel Corporation.
Intel(R) C++ Intel(R) 64 Compiler for applications running on Intel(R) 64, Version 19.0.5.281 Build 20190815
Copyright (C) 1985-2019 Intel Corporation.  All rights reserved.
icpc: warning #10315: specifying -lm before files may supersede the Intel(R) math library and affect performance
icpc: warning #10315: specifying -lm before files may supersede the Intel(R) math library and affect performance

icpc version 19.0.5.281 (gcc version 4.8.0 compatibility)

--------------------------------------------------------------
Preprocessor version:
gcc (SUSE Linux) 4.8.5
Copyright (C) 2015 Free Software Foundation, Inc.
This is free software; see the source for copying conditions.  There is NO
warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.

--------------------------------------------------------------
NetCDF library version: netCDF 4.7.3
NetCDF Fortran version: netCDF-Fortran 4.5.2
 
--------------------------------------------------------------
 * User set ESMF environment variables *
ESMF_ABI=64
ESMF_BASELINE_DIR1=/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/dir/ESMF_RegridWeightGenCheck/
ESMF_BASELINE_DIR2=/glade/work/himanshu/nc_files/bs10/ESMF_RegridWeightGenCheck/
ESMF_BASELINE_DIR3=/glade/work/himanshu/nc_files/bs15/ESMF_RegridWeightGenCheck/
ESMF_BASELINE_DIR4=/glade/work/himanshu/nc_files/bs20/ESMF_RegridWeightGenCheck/
ESMF_BASELINE_DIR5=/glade/work/himanshu/nc_files/bs21/ESMF_RegridWeightGenCheck/
ESMF_BASELINE_DIR6=/glade/work/himanshu/nc_files/bs26/ESMF_RegridWeightGenCheck/
ESMF_BASELINE_DIR7=/glade/work/himanshu/nc_files/bs27/ESMF_RegridWeightGenCheck/
ESMF_BASELINE_DIR8=/glade/work/himanshu/nc_files/8.0.1/ESMF_RegridWeightGenCheck/
ESMF_BASELINE_REF2=ESMF_8_1_0_beta_snapshot_10
ESMF_BASELINE_REF3=ESMF_8_1_0_beta_snapshot_15
ESMF_BASELINE_REF4=ESMF_8_1_0_beta_snapshot_20
ESMF_BASELINE_REF5=ESMF_8_1_0_beta_snapshot_21
ESMF_BASELINE_REF6=ESMF_8_1_0_beta_snapshot_26
ESMF_BASELINE_REF7=ESMF_8_1_0_beta_snapshot_27
ESMF_BASELINE_REF8=ESMF_8_0_1
ESMF_BOPT=O
ESMF_COMM=intelmpi
ESMF_COMPILER=intel
ESMF_CXXCOMPILEOPTS=-g -traceback -fp-model precise
ESMF_DIR=/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf
ESMF_F90COMPILEOPTS=-g -traceback -fp-model precise
ESMF_INSTALL_PREFIX=/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir
ESMF_MPIRUN=mpirun
ESMF_NETCDF=nc-config
ESMF_NUM_PROCS=16
ESMF_OPTLEVEL=2
ESMF_OS=Linux
ESMF_SITE=default
ESMF_TESTEXHAUSTIVE=ON
ESMF_TESTHARNESS_ARRAY=RUN_ESMF_TestHarnessArray_2
ESMF_TESTHARNESS_FIELD=RUN_ESMF_TestHarnessField_1
ESMF_TESTMPMD=OFF
ESMF_TESTWITHTHREADS=ON
 
--------------------------------------------------------------
 * ESMF environment variables *
ESMF_DIR: /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf
ESMF_OS:                Linux
ESMF_MACHINE:           x86_64
ESMF_ABI:               64
ESMF_COMPILER:          intel
ESMF_BOPT:              O
ESMF_OPTLEVEL:          2
ESMF_COMM:              intelmpi
ESMF_SITE:              default
ESMF_PTHREADS:          ON
ESMF_OPENMP:            ON
ESMF_OPENACC:           OFF
ESMF_CXXSTD:            11
ESMF_ARRAY_LITE:        FALSE
ESMF_NO_INTEGER_1_BYTE: TRUE
ESMF_NO_INTEGER_2_BYTE: TRUE
ESMF_FORTRANSYMBOLS:    default
ESMF_MAPPER_BUILD:      OFF
ESMF_AUTO_LIB_BUILD:    ON
ESMF_DEFER_LIB_BUILD:   ON
ESMF_SHARED_LIB_BUILD:  ON
ESMF_TRACE_LIB_BUILD:   ON
ESMF_TESTEXHAUSTIVE:    ON
ESMF_TESTCOMPTUNNEL:    ON
ESMF_TESTWITHTHREADS:   ON
ESMF_TESTMPMD:          OFF
ESMF_TESTSHAREDOBJ:     OFF
ESMF_TESTFORCEOPENMP:   OFF
ESMF_TESTFORCEOPENACC:  OFF
ESMF_TESTHARNESS_ARRAY: RUN_ESMF_TestHarnessArray_2
ESMF_TESTHARNESS_FIELD: RUN_ESMF_TestHarnessField_1
ESMF_MPIRUN:            mpirun
 
--------------------------------------------------------------
 * ESMF environment variables pointing to 3rd party software *
ESMF_MOAB:               internal
ESMF_LAPACK:             internal
ESMF_ACC_SOFTWARE_STACK: none
ESMF_NETCDF:             nc-config
ESMF_NETCDF_INCLUDE:     /glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/include
ESMF_NETCDF_LIBS:        -lnetcdf
ESMF_NETCDF_LIBPATH:     /glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/lib
ESMF_NFCONFIG:           nf-config
ESMF_NETCDFF_INCLUDE:    /glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/include
ESMF_NETCDFF_LIBS:       -lnetcdff -lnetcdf -lnetcdf
ESMF_NETCDFF_LIBPATH:    /glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/lib /glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5//lib
ESMF_YAMLCPP:            internal
ESMF_PIO:                internal
 
--------------------------------------------------------------
 * ESMF environment variables for final installation *
ESMF_INSTALL_PREFIX:    /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir
ESMF_INSTALL_HEADERDIR: include
ESMF_INSTALL_MODDIR:    mod/modO/Linux.intel.64.intelmpi.default
ESMF_INSTALL_LIBDIR:    lib/libO/Linux.intel.64.intelmpi.default
ESMF_INSTALL_BINDIR:    bin/binO/Linux.intel.64.intelmpi.default
ESMF_INSTALL_DOCDIR:    doc
 
--------------------------------------------------------------
 * ESMF Benchmark directory and parameters *
ESMF_BENCHMARK_PREFIX:         ./DEFAULTBENCHMARKDIR
ESMF_BENCHMARK_TOLERANCE:      20%
ESMF_BENCHMARK_THRESHOLD_MSEC: 500
 
--------------------------------------------------------------
 * Other relevant environment variables *
PATH:    /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/:/glade/u/apps/ch/opt/pnetcdf/1.12.1/impi/2019.6.154/intel/19.0.5/bin:/glade/u/apps/ch/opt/ncarcompilers/0.5.0/intel/19.0.5/mpi:/glade/u/apps/opt/intel/2019u5/impi/2019.6.154/intel64/bin:/glade/u/apps/ch/opt/ncarcompilers/0.5.0/intel/19.0.5:/glade/u/apps/ch/opt/nccmp/1.8.2.1/gnu/8.3.0/bin:/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/bin:/glade/u/apps/opt/intel/2019u5/vtune_amplifier/bin64:/glade/u/apps/opt/intel/2019u5/inspector/bin64:/glade/u/apps/opt/intel/2019u5/advisor/bin64:/glade/u/apps/opt/intel/2019u5/compilers_and_libraries/linux/bin/intel64:/glade/u/apps/opt/vncmgr:/glade/u/apps/opt/globus-utils:/glade/u/apps/ch/opt/usr/bin:/glade/u/home/himanshu/bin:/ncar/opt/slurm/latest/bin:/glade/u/apps/ch/opt/lmod/8.1.7/bin:/usr/local/bin:/usr/bin:/bin:/usr/bin/X11:/usr/games:/opt/ibutils/bin:/usr/lib/mit/bin:/opt/pbs/bin:/sbin:/glade/u/apps/opt/hpss/hpss-client.5.0.2.p5/bin:/glade/u/apps/ch/os/usr/bin
LD_LIBRARY_PATH: /glade/u/apps/ch/opt/libfabric/1.8.1/gnu/8.3.0/lib:/glade/u/apps/opt/intel/2019u5/impi/2019.6.154/intel64/lib:/glade/u/apps/opt/intel/2019u5/compilers_and_libraries/linux/lib/intel64:/ncar/opt/slurm/latest/lib:/glade/u/apps/ch/os/usr/lib64:/glade/u/apps/ch/os/usr/lib:/glade/u/apps/ch/os/lib64:/glade/u/apps/ch/os/lib
 
--------------------------------------------------------------
 * Compilers, Linkers, Flags, and Libraries *
Location of the preprocessor:      /glade/u/apps/ch/opt/ncarcompilers/0.5.0/intel/19.0.5/gcc
Location of the Fortran compiler:  /glade/u/apps/ch/opt/ncarcompilers/0.5.0/intel/19.0.5/mpi/mpiifort
Location of the Fortran linker:    /glade/u/apps/ch/opt/ncarcompilers/0.5.0/intel/19.0.5/mpi/mpiifort
Location of the C++ compiler:      /glade/u/apps/opt/intel/2019u5/impi/2019.6.154/intel64/bin/mpiicpc
Location of the C++ linker:        /glade/u/apps/opt/intel/2019u5/impi/2019.6.154/intel64/bin/mpiicpc

Fortran compiler flags:
ESMF_F90COMPILER: mpiifort
ESMF_F90COMPILEOPTS: -g -traceback -fp-model precise -O2 -fPIC -assume realloc_lhs -m64 -mcmodel=small -pthread -threads  -qopenmp
ESMF_F90COMPILEPATHS: -I/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf/mod/modO/Linux.intel.64.intelmpi.default -I/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf/src/include -I/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/include -I/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/include
ESMF_F90COMPILECPPFLAGS: -DESMF_NO_INTEGER_1_BYTE -DESMF_NO_INTEGER_2_BYTE -DESMFVERSIONGIT='ESMF_8_1_0_beta_snapshot_36-35-g260dae2aea' -DESMF_MOAB=1 -DESMF_LAPACK=1 -DESMF_LAPACK_INTERNAL=1 -DESMF_NO_ACC_SOFTWARE_STACK=1 -DESMF_NETCDF=1 -DESMF_YAMLCPP=1 -DESMF_YAML=1 -DESMF_PIO=1 -DESMF_MPIIO -DESMF_NO_OPENACC -DESMF_TESTEXHAUSTIVE -DESMF_BOPT_O -DESMF_TESTCOMPTUNNEL -DESMF_TESTWITHTHREADS -DSx86_64_small=1 -DESMF_OS_Linux=1 -DESMF_COMM=intelmpi -DESMF_DIR=/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf
ESMF_F90COMPILEFREECPP: 
ESMF_F90COMPILEFREENOCPP: 
ESMF_F90COMPILEFIXCPP: 
ESMF_F90COMPILEFIXNOCPP: 

Fortran linker flags:
ESMF_F90LINKOPTS:   -m64 -mcmodel=small -pthread -threads -Wl,--no-as-needed  -qopenmp
ESMF_F90LINKPATHS: -L/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf/lib/libO/Linux.intel.64.intelmpi.default -L/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/lib -L/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/lib -L/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5//lib 
ESMF_F90LINKRPATHS: -Wl,-rpath,/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf/lib/libO/Linux.intel.64.intelmpi.default -Wl,-rpath,/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/lib -Wl,-rpath,/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/lib -Wl,-rpath,/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5//lib
ESMF_F90LINKLIBS:  -cxxlib -lrt -ldl -lnetcdf -lnetcdff -lnetcdf -lnetcdf
ESMF_F90ESMFLINKLIBS: -lesmf  -cxxlib -lrt -ldl -lnetcdf -lnetcdff -lnetcdf -lnetcdf

C++ compiler flags:
ESMF_CXXCOMPILER: mpiicpc
ESMF_CXXCOMPILEOPTS: -g -traceback -fp-model precise -std=c++11 -O2 -DNDEBUG -fPIC -m64 -mcmodel=small -pthread  -qopenmp
ESMF_CXXCOMPILEPATHS:  -I/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf/src/include  -I/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/include -I/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf/src/prologue/yaml-cpp/include
ESMF_CXXCOMPILECPPFLAGS: -DESMF_NO_INTEGER_1_BYTE -DESMF_NO_INTEGER_2_BYTE -DESMFVERSIONGIT='ESMF_8_1_0_beta_snapshot_36-35-g260dae2aea' -DESMF_MOAB=1 -DESMF_LAPACK=1 -DESMF_LAPACK_INTERNAL=1 -DESMF_NO_ACC_SOFTWARE_STACK=1 -DESMF_NETCDF=1 -DESMF_YAMLCPP=1 -DESMF_YAML=1 -DESMF_PIO=1 -DESMF_MPIIO -DESMF_NO_OPENACC -DESMF_TESTEXHAUSTIVE -DESMF_BOPT_O -DESMF_TESTCOMPTUNNEL -DESMF_TESTWITHTHREADS -DSx86_64_small=1 -DESMF_OS_Linux=1 -DESMF_COMM=intelmpi -DESMF_DIR=/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf -D__SDIR__='' -DESMF_CXXSTD=11

C++ linker flags:
ESMF_CXXLINKOPTS:   -m64 -mcmodel=small -pthread -Wl,--no-as-needed  -qopenmp
ESMF_CXXLINKPATHS: -L/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf/lib/libO/Linux.intel.64.intelmpi.default -L/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/lib -L/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/lib -L/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5//lib -L/glade/u/apps/opt/intel/2019u5/compilers_and_libraries_2019.5.281/linux/compiler/lib/intel64_lin/
ESMF_CXXLINKRPATHS: -Wl,-rpath,/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf/lib/libO/Linux.intel.64.intelmpi.default -Wl,-rpath,/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/lib -Wl,-rpath,/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5/lib -Wl,-rpath,/glade/u/apps/ch/opt/netcdf/4.7.3/intel/19.0.5//lib -Wl,-rpath,/glade/u/apps/opt/intel/2019u5/compilers_and_libraries_2019.5.281/linux/compiler/lib/intel64_lin/
ESMF_CXXLINKLIBS:  -lsz -lz -limf -lm -ldl -limf -lm -ldl -ldl -lrt -lpthread -lifport -lifcoremt -limf -lsvml -lm -lipgo -liomp5 -lintlc -lpthread -lsvml -ldl -lgcc -lgcc_s -lirc_s -ldl -lrt -ldl -lnetcdf -lnetcdff -lnetcdf -lnetcdf
ESMF_CXXESMFLINKLIBS: -lesmf  -lsz -lz -limf -lm -ldl -limf -lm -ldl -ldl -lrt -lpthread -lifport -lifcoremt -limf -lsvml -lm -lipgo -liomp5 -lintlc -lpthread -lsvml -ldl -lgcc -lgcc_s -lirc_s -ldl -lrt -ldl -lnetcdf -lnetcdff -lnetcdf -lnetcdf

Shared library build:
ESMF_SL_LIBS_TO_MAKE: libesmf
ESMF_SL_SUFFIX:       so
ESMF_SL_LIBLINKER:    mpiicpc
ESMF_SL_LIBOPTS:       -pthread -shared  -qopenmp
ESMF_SL_LIBLIBS:      

ESMF Tracing linker options:
ESMF_TRACE_LDPRELOAD=/glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf/lib/libO/Linux.intel.64.intelmpi.default/libesmftrace_preload.so
ESMF_TRACE_STATICLINKOPTS=-static -Wl,--wrap=c_esmftrace_notify_wrappers -Wl,--wrap=c_esmftrace_isinitialized -Wl,--wrap=write -Wl,--wrap=writev -Wl,--wrap=pwrite -Wl,--wrap=read -Wl,--wrap=open -Wl,--wrap=MPI_Allgather -Wl,--wrap=MPI_Allgatherv -Wl,--wrap=MPI_Allreduce -Wl,--wrap=MPI_Alltoall -Wl,--wrap=MPI_Alltoallv -Wl,--wrap=MPI_Alltoallw -Wl,--wrap=MPI_Barrier -Wl,--wrap=MPI_Bcast -Wl,--wrap=MPI_Bsend -Wl,--wrap=MPI_Gather -Wl,--wrap=MPI_Gatherv -Wl,--wrap=MPI_Iprobe -Wl,--wrap=MPI_Irecv -Wl,--wrap=MPI_Irsend -Wl,--wrap=MPI_Isend -Wl,--wrap=MPI_Issend -Wl,--wrap=MPI_Probe -Wl,--wrap=MPI_Recv -Wl,--wrap=MPI_Reduce -Wl,--wrap=MPI_Rsend -Wl,--wrap=MPI_Scan -Wl,--wrap=MPI_Scatter -Wl,--wrap=MPI_Scatterv -Wl,--wrap=MPI_Send -Wl,--wrap=MPI_Sendrecv -Wl,--wrap=MPI_Test -Wl,--wrap=MPI_Testall -Wl,--wrap=MPI_Testany -Wl,--wrap=MPI_Testsome -Wl,--wrap=MPI_Wait -Wl,--wrap=MPI_Waitall -Wl,--wrap=MPI_Waitany -Wl,--wrap=MPI_Waitsome -Wl,--wrap=mpi_allgather_ -Wl,--wrap=mpi_allgather__ -Wl,--wrap=mpi_allgatherv_ -Wl,--wrap=mpi_allgatherv__ -Wl,--wrap=mpi_allreduce_ -Wl,--wrap=mpi_allreduce__ -Wl,--wrap=mpi_alltoall_ -Wl,--wrap=mpi_alltoall__ -Wl,--wrap=mpi_alltoallv_ -Wl,--wrap=mpi_alltoallv__ -Wl,--wrap=mpi_alltoallw_ -Wl,--wrap=mpi_alltoallw__ -Wl,--wrap=mpi_barrier_ -Wl,--wrap=mpi_barrier__ -Wl,--wrap=mpi_bcast_ -Wl,--wrap=mpi_bcast__ -Wl,--wrap=mpi_bsend_ -Wl,--wrap=mpi_bsend__ -Wl,--wrap=mpi_exscan_ -Wl,--wrap=mpi_exscan__ -Wl,--wrap=mpi_gather_ -Wl,--wrap=mpi_gather__ -Wl,--wrap=mpi_gatherv_ -Wl,--wrap=mpi_gatherv__ -Wl,--wrap=mpi_iprobe_ -Wl,--wrap=mpi_iprobe__ -Wl,--wrap=mpi_irecv_ -Wl,--wrap=mpi_irecv__ -Wl,--wrap=mpi_irsend_ -Wl,--wrap=mpi_irsend__ -Wl,--wrap=mpi_isend_ -Wl,--wrap=mpi_isend__ -Wl,--wrap=mpi_issend_ -Wl,--wrap=mpi_issend__ -Wl,--wrap=mpi_probe_ -Wl,--wrap=mpi_probe__ -Wl,--wrap=mpi_recv_ -Wl,--wrap=mpi_recv__ -Wl,--wrap=mpi_reduce_ -Wl,--wrap=mpi_reduce__ -Wl,--wrap=mpi_reduce_scatter_ -Wl,--wrap=mpi_reduce_scatter__ -Wl,--wrap=mpi_rsend_ -Wl,--wrap=mpi_rsend__ -Wl,--wrap=mpi_scatter_ -Wl,--wrap=mpi_scatter__ -Wl,--wrap=mpi_scatterv_ -Wl,--wrap=mpi_scatterv__ -Wl,--wrap=mpi_scan_ -Wl,--wrap=mpi_scan__ -Wl,--wrap=mpi_send_ -Wl,--wrap=mpi_send__ -Wl,--wrap=mpi_sendrecv_ -Wl,--wrap=mpi_sendrecv__ -Wl,--wrap=mpi_test_ -Wl,--wrap=mpi_test__ -Wl,--wrap=mpi_testall_ -Wl,--wrap=mpi_testall__ -Wl,--wrap=mpi_testany_ -Wl,--wrap=mpi_testany__ -Wl,--wrap=mpi_testsome_ -Wl,--wrap=mpi_testsome__ -Wl,--wrap=mpi_wait_ -Wl,--wrap=mpi_wait__ -Wl,--wrap=mpi_waitall_ -Wl,--wrap=mpi_waitall__ -Wl,--wrap=mpi_waitany_ -Wl,--wrap=mpi_waitany__
ESMF_TRACE_STATICLINKLIBS=-lesmftrace_static


--------------------------------------------------------------
Compiling on Fri Nov 13 00:36:31 MST 2020 on r13i7n1
Machine characteristics: Linux r13i7n1 4.12.14-95.51-default #1 SMP Fri Apr 17 08:14:12 UTC 2020 (c6bab98) x86_64 x86_64 x86_64 GNU/Linux
==============================================================
 
Fri Nov 13 01:07:45 MST 2020 library build .............................PASS
Fri Nov 13 01:08:31 MST 2020 library install ...........................PASS
Fri Nov 13 01:08:33 MST 2020 library installcheck ......................PASS


|--------------------------------- Regrid Weight Gen Check --------------------------|



Fri Nov 13 01:18:32 MST 2020 run ESMF_RegridWeightGenCheck (4 PETS).....PASS


ESMF_MPIRUN: mpirun

ESMF_TOOLRUN: 

NUM_PROCS: 16

Tests to be run:
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9
ll2.5deg_grid_to_T42_grid_bilinear_test10
ll2.5deg_grid_to_T42_grid_patch_test11
T42_grid_to_ll2.5deg_grid_patch_test12
T42_grid_to_ll2.5deg_grid_bilinear_test13
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14
ll1deg_grid_to_ll2.5deg_grid_patch_test15
ll1deg_grid_to_ll2.5deg_grid_conserve_test16
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17
T42_grid_to_wr50a_090614_bilinear_test18
T42_grid_to_wr50a_090614_patch_test19
T42_grid_to_wr50a_090614_conserve_test20
T42_grid_to_wr50a_090614_conserve2nd_test21
wr50a_090614_to_T42_grid_bilinear_test22
wr50a_090614_to_T42_grid_patch_test23
wr50a_090614_to_T42_grid_conserve_test24
wr50a_090614_to_T42_grid_conserve2nd_test25
T42_grid_to_ar9v4_100920_bilinear_test26
T42_grid_to_ar9v4_100920_patch_test27
T42_grid_to_ar9v4_100920_conserve_test28
T42_grid_to_ar9v4_100920_conserve2nd_test29
ar9v4_100920_to_T42_grid_bilinear_test30
ar9v4_100920_to_T42_grid_patch_test31
ar9v4_100920_to_T42_grid_conserve_test32
wr50a_090614_to_ar9v4_100920_bilinear_test33
wr50a_090614_to_ar9v4_100920_patch_test34
wr50a_090614_to_ar9v4_100920_conserve_test35
wr50a_090614_to_ar9v4_100920_conserve2nd_test36
ar9v4_100920_to_wr50a_090614_bilinear_test37
ar9v4_100920_to_wr50a_090614_patch_test38
ar9v4_100920_to_wr50a_090614_conserve_test39
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51
ne30np4-t2_to_wr50a_090614_bilinear_test52
ne30np4-t2_to_wr50a_090614_patch_test53
ne30np4-t2_to_ar9v4_100920_conserve_test54
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55
wr50a_090614_to_ne30np4-t2_bilinear_test56
wr50a_090614_to_ne30np4-t2_patch_test57
ar9v4_100920_to_ne30np4-t2_conserve_test58
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66
T42_grid_to_mpas_uniform_10242_dual_patch_test67
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82
T42_grid_to_ww3a_120213_conserve_test83
ww3a_120213_to_T42_grid_conserve_test84
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88
wr50a_090614_to_wr50a_090614_neareststod_test89
T42_grid_to_T42_grid_neareststod_test90
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91
wr50a_090614_to_wr50a_090614_nearestdtos_test92
T42_grid_to_T42_grid_nearestdtos_test93
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114
mpas_uniform_10242_to_T42_grid_conserve_test115
T42_grid_to_mpas_uniform_10242_conserve_test116
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121
C48_mosaic_to_latlon_mosaic_bilinear_test122
C48_mosaic_to_latlon_mosaic_patch_test123
C48_mosaic_to_latlon_mosaic_conserve_test124
C48_mosaic_to_latlon_mosaic_conserve2nd_test125
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138
latlon_grid_to_SCRIP_1x1_bilinear_test139
latlon_grid_to_SCRIP_1x1_conserve_test140
SCRIP_1x1_to_latlon_grid_bilinear_test141
SCRIP_1x1_to_latlon_grid_conserve_test142
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153
C48_mosaic_to_latlon_mosaic_neareststod_test154
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158
C48_mosaic_to_C48_mosaic_nearestdtos_test159
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160
ll1deg_grid_to_ll2.5deg_grid_patch_test161
T42_grid_to_mpas_uniform_10242_conserve2nd_test162
ll2.5deg_grid_to_ll1deg_grid_patch_test163
ll2.5deg_grid_to_ll1deg_grid_patch_test164
ll2.5deg_grid_to_ll1deg_grid_patch_test165

Test or Dryrun Results:
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.out - PASSED
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.out - PASSED
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.out - PASSED
ll2.5deg_grid_to_T42_grid_bilinear_test10.out - PASSED
ll2.5deg_grid_to_T42_grid_patch_test11.out - PASSED
T42_grid_to_ll2.5deg_grid_patch_test12.out - PASSED
T42_grid_to_ll2.5deg_grid_bilinear_test13.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_patch_test15.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.out - PASSED
T42_grid_to_wr50a_090614_bilinear_test18.out - PASSED
T42_grid_to_wr50a_090614_patch_test19.out - PASSED
T42_grid_to_wr50a_090614_conserve_test20.out - PASSED
T42_grid_to_wr50a_090614_conserve2nd_test21.out - PASSED
wr50a_090614_to_T42_grid_bilinear_test22.out - PASSED
wr50a_090614_to_T42_grid_patch_test23.out - PASSED
wr50a_090614_to_T42_grid_conserve_test24.out - PASSED
wr50a_090614_to_T42_grid_conserve2nd_test25.out - PASSED
T42_grid_to_ar9v4_100920_bilinear_test26.out - PASSED
T42_grid_to_ar9v4_100920_patch_test27.out - PASSED
T42_grid_to_ar9v4_100920_conserve_test28.out - PASSED
T42_grid_to_ar9v4_100920_conserve2nd_test29.out - PASSED
ar9v4_100920_to_T42_grid_bilinear_test30.out - PASSED
ar9v4_100920_to_T42_grid_patch_test31.out - PASSED
ar9v4_100920_to_T42_grid_conserve_test32.out - PASSED
wr50a_090614_to_ar9v4_100920_bilinear_test33.out - PASSED
wr50a_090614_to_ar9v4_100920_patch_test34.out - PASSED
wr50a_090614_to_ar9v4_100920_conserve_test35.out - PASSED
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.out - PASSED
ar9v4_100920_to_wr50a_090614_bilinear_test37.out - PASSED
ar9v4_100920_to_wr50a_090614_patch_test38.out - PASSED
ar9v4_100920_to_wr50a_090614_conserve_test39.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.out - PASSED
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.out - PASSED
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.out - PASSED
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.out - PASSED
ne30np4-t2_to_wr50a_090614_bilinear_test52.out - PASSED
ne30np4-t2_to_wr50a_090614_patch_test53.out - PASSED
ne30np4-t2_to_ar9v4_100920_conserve_test54.out - PASSED
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.out - PASSED
wr50a_090614_to_ne30np4-t2_bilinear_test56.out - PASSED
wr50a_090614_to_ne30np4-t2_patch_test57.out - PASSED
ar9v4_100920_to_ne30np4-t2_conserve_test58.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.out - PASSED
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.out - PASSED
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.out - PASSED
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.out - PASSED
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.out - PASSED
T42_grid_to_mpas_uniform_10242_dual_patch_test67.out - PASSED
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.out - PASSED
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.out - PASSED
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.out - PASSED
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.out - PASSED
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.out - PASSED
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.out - PASSED
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.out - PASSED
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.out - PASSED
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.out - PASSED
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.out - PASSED
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.out - PASSED
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.out - PASSED
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.out - PASSED
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.out - PASSED
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.out - PASSED
T42_grid_to_ww3a_120213_conserve_test83.out - PASSED
ww3a_120213_to_T42_grid_conserve_test84.out - PASSED
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.out - PASSED
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.out - PASSED
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.out - PASSED
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.out - PASSED
wr50a_090614_to_wr50a_090614_neareststod_test89.out - PASSED
T42_grid_to_T42_grid_neareststod_test90.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.out - PASSED
wr50a_090614_to_wr50a_090614_nearestdtos_test92.out - PASSED
T42_grid_to_T42_grid_nearestdtos_test93.out - PASSED
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.out - PASSED
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.out - PASSED
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.out - PASSED
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.out - PASSED
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.out - PASSED
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.out - PASSED
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.out - PASSED
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.out - PASSED
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.out - PASSED
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.out - PASSED
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.out - PASSED
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.out - PASSED
mpas_uniform_10242_to_T42_grid_conserve_test115.out - PASSED
T42_grid_to_mpas_uniform_10242_conserve_test116.out - PASSED
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.out - PASSED
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.out - PASSED
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.out - PASSED
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.out - PASSED
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.out - PASSED
C48_mosaic_to_latlon_mosaic_bilinear_test122.out - PASSED
C48_mosaic_to_latlon_mosaic_patch_test123.out - PASSED
C48_mosaic_to_latlon_mosaic_conserve_test124.out - PASSED
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.out - PASSED
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.out - PASSED
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.out - PASSED
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.out - PASSED
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.out - PASSED
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.out - PASSED
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.out - PASSED
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.out - PASSED
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.out - PASSED
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.out - PASSED
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.out - PASSED
latlon_grid_to_SCRIP_1x1_bilinear_test139.out - PASSED
latlon_grid_to_SCRIP_1x1_conserve_test140.out - PASSED
SCRIP_1x1_to_latlon_grid_bilinear_test141.out - PASSED
SCRIP_1x1_to_latlon_grid_conserve_test142.out - PASSED
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.out - PASSED
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.out - PASSED
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.out - PASSED
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.out - PASSED
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.out - PASSED
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.out - PASSED
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.out - PASSED
C48_mosaic_to_latlon_mosaic_neareststod_test154.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.out - PASSED
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.out - PASSED
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.out - PASSED
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.out - PASSED
C48_mosaic_to_C48_mosaic_nearestdtos_test159.out - PASSED
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.out - PASSED
ll1deg_grid_to_ll2.5deg_grid_patch_test161.out - PASSED
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_patch_test163.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_patch_test164.out - PASSED
ll2.5deg_grid_to_ll1deg_grid_patch_test165.out - PASSED


The following tests pass: 
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9
ll2.5deg_grid_to_T42_grid_bilinear_test10
ll2.5deg_grid_to_T42_grid_patch_test11
T42_grid_to_ll2.5deg_grid_patch_test12
T42_grid_to_ll2.5deg_grid_bilinear_test13
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14
ll1deg_grid_to_ll2.5deg_grid_patch_test15
ll1deg_grid_to_ll2.5deg_grid_conserve_test16
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17
T42_grid_to_wr50a_090614_bilinear_test18
T42_grid_to_wr50a_090614_patch_test19
T42_grid_to_wr50a_090614_conserve_test20
T42_grid_to_wr50a_090614_conserve2nd_test21
wr50a_090614_to_T42_grid_bilinear_test22
wr50a_090614_to_T42_grid_patch_test23
wr50a_090614_to_T42_grid_conserve_test24
wr50a_090614_to_T42_grid_conserve2nd_test25
T42_grid_to_ar9v4_100920_bilinear_test26
T42_grid_to_ar9v4_100920_patch_test27
T42_grid_to_ar9v4_100920_conserve_test28
T42_grid_to_ar9v4_100920_conserve2nd_test29
ar9v4_100920_to_T42_grid_bilinear_test30
ar9v4_100920_to_T42_grid_patch_test31
ar9v4_100920_to_T42_grid_conserve_test32
wr50a_090614_to_ar9v4_100920_bilinear_test33
wr50a_090614_to_ar9v4_100920_patch_test34
wr50a_090614_to_ar9v4_100920_conserve_test35
wr50a_090614_to_ar9v4_100920_conserve2nd_test36
ar9v4_100920_to_wr50a_090614_bilinear_test37
ar9v4_100920_to_wr50a_090614_patch_test38
ar9v4_100920_to_wr50a_090614_conserve_test39
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51
ne30np4-t2_to_wr50a_090614_bilinear_test52
ne30np4-t2_to_wr50a_090614_patch_test53
ne30np4-t2_to_ar9v4_100920_conserve_test54
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55
wr50a_090614_to_ne30np4-t2_bilinear_test56
wr50a_090614_to_ne30np4-t2_patch_test57
ar9v4_100920_to_ne30np4-t2_conserve_test58
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66
T42_grid_to_mpas_uniform_10242_dual_patch_test67
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82
T42_grid_to_ww3a_120213_conserve_test83
ww3a_120213_to_T42_grid_conserve_test84
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88
wr50a_090614_to_wr50a_090614_neareststod_test89
T42_grid_to_T42_grid_neareststod_test90
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91
wr50a_090614_to_wr50a_090614_nearestdtos_test92
T42_grid_to_T42_grid_nearestdtos_test93
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114
mpas_uniform_10242_to_T42_grid_conserve_test115
T42_grid_to_mpas_uniform_10242_conserve_test116
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121
C48_mosaic_to_latlon_mosaic_bilinear_test122
C48_mosaic_to_latlon_mosaic_patch_test123
C48_mosaic_to_latlon_mosaic_conserve_test124
C48_mosaic_to_latlon_mosaic_conserve2nd_test125
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138
latlon_grid_to_SCRIP_1x1_bilinear_test139
latlon_grid_to_SCRIP_1x1_conserve_test140
SCRIP_1x1_to_latlon_grid_bilinear_test141
SCRIP_1x1_to_latlon_grid_conserve_test142
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153
C48_mosaic_to_latlon_mosaic_neareststod_test154
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158
C48_mosaic_to_C48_mosaic_nearestdtos_test159
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160
ll1deg_grid_to_ll2.5deg_grid_patch_test161
T42_grid_to_mpas_uniform_10242_conserve2nd_test162
ll2.5deg_grid_to_ll1deg_grid_patch_test163
ll2.5deg_grid_to_ll1deg_grid_patch_test164
ll2.5deg_grid_to_ll1deg_grid_patch_test165

Found 165 external tests, 165 pass and 0 fail.

 The following are the output files of the external tests. 



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -w wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc -m bilinear  -i --src_regional --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.41429564477789          Grid 2 max:    2.87819347310626     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.918307323747436     
  
 Mean relative error     =   2.968510884942252E-006
 Maximum relative error  =   1.149300489931093E-005
 Least squares error     =   1.748847482720824E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -w wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc -m patch  -i --src_regional --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.41429522425302          Grid 2 max:    2.87819630839208     
  
 Maximum negative weight =  -4.411413194311958E-002
 Maximum positive weight =   0.579231743061216     
  
 Mean relative error     =   2.671876933906726E-006
 Maximum relative error  =   8.464707327334844E-006
 Least squares error     =   1.563293083628675E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual_counterclockwise.nc -w wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc -m bilinear  -i --src_regional --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual_counterclockwise.nc
   Weight File: 
 wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.41429564477789          Grid 2 max:    2.87819347310626     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.918307323747436     
  
 Mean relative error     =   2.968510884942252E-006
 Maximum relative error  =   1.149300489931093E-005
 Least squares error     =   1.748847482720824E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual_counterclockwise.nc -w wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc -m patch  -i --src_regional --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual_counterclockwise.nc
   Weight File: 
 wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.41429522425302          Grid 2 max:    2.87819630839208     
  
 Maximum negative weight =  -4.411413194311958E-002
 Maximum positive weight =   0.579231743061216     
  
 Mean relative error     =   2.671876933905726E-006
 Maximum relative error  =   8.464707327334844E-006
 Least squares error     =   1.563293083627936E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20120314.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -w FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc -m conserve    -r -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20120314.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Weight File: 
 FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10419300301114          Grid 1 max:    1.26775042895620     
 Grid 2 min:    1.10376419374514          Grid 2 max:    1.26740954777581     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.181710063806197E-004
 Maximum relative error  =   1.246385784534006E-003
 Least squares error     =   1.672263154246216E-004
  
 Grid 1 area =   4.947605753975415E-002
 Grid 2 area =   4.947605753975189E-002
 Conservation error =   2.262079412673756E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20120314.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc -m conserve    -r     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20120314.nc
   Weight File: 
 scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.01993455917389          Grid 1 max:    1.63290523636509     
 Grid 2 min:    1.10418716838576          Grid 2 max:    1.26792133110123     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   8.296966612748665E-005
 Maximum relative error  =   2.601857272450027E-004
 Least squares error     =   7.971902020981295E-005
  
 Grid 1 area =   4.947607452451214E-002
 Grid 2 area =   4.947607452451531E-002
 Conservation error =   3.164135620181696E-015

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -w FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc -m conserve    -r -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Weight File: 
 FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10419300301114          Grid 1 max:    1.26775042895620     
 Grid 2 min:    1.10376419374514          Grid 2 max:    1.26740954777581     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.181710063806197E-004
 Maximum relative error  =   1.246385784534006E-003
 Least squares error     =   1.672263154246216E-004
  
 Grid 1 area =   4.947605753975415E-002
 Grid 2 area =   4.947605753975189E-002
 Conservation error =   2.262079412673756E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc -m conserve    -r     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.nc
   Weight File: 
 scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.01993455917389          Grid 1 max:    1.63290523636509     
 Grid 2 min:    1.10418716838576          Grid 2 max:    1.26792133110123     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   8.296966612748665E-005
 Maximum relative error  =   2.601857272450027E-004
 Least squares error     =   7.971902020981295E-005
  
 Grid 1 area =   4.947607452451214E-002
 Grid 2 area =   4.947607452451531E-002
 Conservation error =   3.164135620181696E-015

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc -m conserve2nd    -r     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.nc
   Weight File: 
 scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.01993455917389          Grid 1 max:    1.63290523636509     
 Grid 2 min:    1.10412668446484          Grid 2 max:    1.26796544850360     
  
 Maximum negative weight =  -9.810332797073247E-002
 Maximum positive weight =    1.00000002714127     
  
 Mean relative error     =   4.683843379746652E-006
 Maximum relative error  =   2.375071173141802E-004
 Least squares error     =   1.285717770454489E-005
  
 Grid 1 area =   4.947607452451214E-002
 Grid 2 area =   4.947607452451048E-002
 Conservation error =   1.665334536937735E-015

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



ll2.5deg_grid_to_T42_grid_bilinear_test10.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w ll2.5deg_grid_to_T42_grid_bilinear_test10.nc -m bilinear  -p none     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_T42_grid_bilinear_test10.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00069691174838          Grid 2 max:    2.99930308825162     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.689731535781846     
  
 Mean relative error     =   1.595228725299339E-004
 Maximum relative error  =   1.148000567193122E-003
 Least squares error     =   1.231530477345636E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_T42_grid_patch_test11.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w ll2.5deg_grid_to_T42_grid_patch_test11.nc -m patch  -p 4        --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ll2.5deg_grid_to_T42_grid_patch_test11.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option:            4
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_T42_grid_patch_test11.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00154271526271          Grid 2 max:    2.99845741057625     
  
 Maximum negative weight =  -5.419396578269092E-002
 Maximum positive weight =   0.596429484572067     
  
 Mean relative error     =   1.560942591828270E-004
 Maximum relative error  =   9.492156832377858E-004
 Least squares error     =   1.161339294315322E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ll2.5deg_grid_patch_test12.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -w T42_grid_to_ll2.5deg_grid_patch_test12.nc -m patch  -p none -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: T42_grid_to_ll2.5deg_grid_patch_test12.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_ll2.5deg_grid_patch_test12.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.00167257292074          Grid 2 max:    2.99832742707886     
  
 Maximum negative weight =  -4.696578862377468E-002
 Maximum positive weight =   0.591933172777401     
  
 Mean relative error     =   1.971511770870362E-004
 Maximum relative error  =   1.196114501872387E-003
 Least squares error     =   1.471375154541814E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ll2.5deg_grid_bilinear_test13.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -w T42_grid_to_ll2.5deg_grid_bilinear_test13.nc -m bilinear  -p 4        --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option:            4
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_ll2.5deg_grid_bilinear_test13.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.00059293675517          Grid 2 max:    2.99940706324483     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.721840742559457     
  
 Mean relative error     =   2.034404606124591E-004
 Maximum relative error  =   1.454492050049352E-003
 Least squares error     =   1.561462500455116E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -w ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc -m bilinear     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00007615242062          Grid 1 max:    2.99992384757938     
 Grid 2 min:    1.00053295966519          Grid 2 max:    2.99946704033481     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.749995240292418     
  
 Mean relative error     =   2.297719599696311E-005
 Maximum relative error  =   2.075805258945302E-004
 Least squares error     =   1.885328769798636E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_patch_test15.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -w ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc -m patch     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00007615242062          Grid 1 max:    2.99992384757938     
 Grid 2 min:    1.00062807089206          Grid 2 max:    2.99937192297402     
  
 Maximum negative weight =  -2.024976699395515E-002
 Maximum positive weight =   0.383300874770636     
  
 Mean relative error     =   2.480141065466948E-005
 Maximum relative error  =   1.521093032013581E-004
 Least squares error     =   1.850957557623960E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_conserve_test16.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -w ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc -m conserve     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00007615242062          Grid 1 max:    2.99992384757938     
 Grid 2 min:    1.00105030483493          Grid 2 max:    2.99894969516506     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.192057204533099     
  
 Mean relative error     =   2.178673841607820E-004
 Maximum relative error  =   9.162887915513283E-004
 Least squares error     =   1.390436614551562E-004
  
 Grid 1 area =    25.1327411638291     
 Grid 2 area =    25.1327411638294     
 Conservation error =   3.304023721284466E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -w ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc -m conserve2nd     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00007615242062          Grid 1 max:    2.99992384757938     
 Grid 2 min:    1.00088313745102          Grid 2 max:    2.99911686254898     
  
 Maximum negative weight =  -1.385311499567316E-002
 Maximum positive weight =   0.192057204533099     
  
 Mean relative error     =   9.010320426625720E-005
 Maximum relative error  =   4.082782094055919E-004
 Least squares error     =   5.846031685227993E-005
  
 Grid 1 area =    25.1327411638291     
 Grid 2 area =    25.1327411638293     
 Conservation error =   2.486899575160351E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



T42_grid_to_wr50a_090614_bilinear_test18.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w T42_grid_to_wr50a_090614_bilinear_test18.nc -m bilinear  --dst_regional  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_bilinear_test18.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_wr50a_090614_bilinear_test18.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.40792818594079          Grid 2 max:    2.88030121179776     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.990886962778666     
  
 Mean relative error     =   1.030708926253855E-004
 Maximum relative error  =   5.368106088740243E-004
 Least squares error     =   6.732986143890975E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_wr50a_090614_patch_test19.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w T42_grid_to_wr50a_090614_patch_test19.nc -m patch  --dst_regional  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_patch_test19.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_wr50a_090614_patch_test19.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.40822533155334          Grid 2 max:    2.87983197930132     
  
 Maximum negative weight =  -5.422684974668725E-002
 Maximum positive weight =   0.704052166303179     
  
 Mean relative error     =   9.945080506948625E-005
 Maximum relative error  =   3.815330456827034E-004
 Least squares error     =   6.211101142447035E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_wr50a_090614_conserve_test20.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w T42_grid_to_wr50a_090614_conserve_test20.nc -m conserve  --dst_regional  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_conserve_test20.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_wr50a_090614_conserve_test20.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.38782138498955          Grid 2 max:    2.89363088845950     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   4.281529728276568E-003
 Maximum relative error  =   2.288353800315315E-002
 Least squares error     =   2.627483368073727E-003
  
 Grid 1 area =    5.54076993437002     
 Grid 2 area =    5.54076993436994     
 Conservation error =   8.260059303211165E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_wr50a_090614_conserve2nd_test21.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w T42_grid_to_wr50a_090614_conserve2nd_test21.nc -m conserve2nd  --dst_regional  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: T42_grid_to_wr50a_090614_conserve2nd_test21.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_wr50a_090614_conserve2nd_test21.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.38452676690694          Grid 2 max:    2.89579498544990     
  
 Maximum negative weight =  -0.137864895429227     
 Maximum positive weight =    1.00028511861551     
  
 Mean relative error     =   2.877532267695554E-004
 Maximum relative error  =   2.314648555275289E-002
 Least squares error     =   4.892264111964291E-004
  
 Grid 1 area =    5.54076993437002     
 Grid 2 area =    5.54076993436998     
 Conservation error =   3.730349362740526E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_T42_grid_bilinear_test22.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w wr50a_090614_to_T42_grid_bilinear_test22.nc -m bilinear  --src_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_bilinear_test22.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_T42_grid_bilinear_test22.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.42121096425747          Grid 2 max:    2.86818248919259     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.958950918106374     
  
 Mean relative error     =   2.576733193493934E-006
 Maximum relative error  =   1.192883902025741E-005
 Least squares error     =   1.590633154270755E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_T42_grid_patch_test23.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w wr50a_090614_to_T42_grid_patch_test23.nc -m patch  --src_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_patch_test23.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_T42_grid_patch_test23.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.42121125284737          Grid 2 max:    2.86818045618353     
  
 Maximum negative weight =  -3.500579701519149E-002
 Maximum positive weight =   0.584010421174363     
  
 Mean relative error     =   1.946060433860324E-006
 Maximum relative error  =   8.429183882914848E-006
 Least squares error     =   1.303311872106057E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_T42_grid_conserve_test24.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w wr50a_090614_to_T42_grid_conserve_test24.nc -m conserve  --src_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_conserve_test24.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_T42_grid_conserve_test24.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.44627453123300          Grid 2 max:    2.85514168055172     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   2.593364128756670E-002
  
 Mean relative error     =   1.007163112857588E-004
 Maximum relative error  =   3.153277085731625E-004
 Least squares error     =   6.332001724175328E-005
  
 Grid 1 area =    5.54083167936200     
 Grid 2 area =    5.54083167936197     
 Conservation error =   3.463895836830488E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_T42_grid_conserve2nd_test25.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w wr50a_090614_to_T42_grid_conserve2nd_test25.nc -m conserve2nd  --src_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: wr50a_090614_to_T42_grid_conserve2nd_test25.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_T42_grid_conserve2nd_test25.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.44626026099045          Grid 2 max:    2.85515402964340     
  
 Maximum negative weight =  -1.555267088130729E-003
 Maximum positive weight =   2.593364128756670E-002
  
 Mean relative error     =   1.004802845952357E-004
 Maximum relative error  =   3.090805055532240E-004
 Least squares error     =   6.310548477700970E-005
  
 Grid 1 area =    5.54083167936200     
 Grid 2 area =    5.54083167936199     
 Conservation error =   1.687538997430238E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_ar9v4_100920_bilinear_test26.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -w T42_grid_to_ar9v4_100920_bilinear_test26.nc -m bilinear  --dst_regional  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_bilinear_test26.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_ar9v4_100920_bilinear_test26.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.27032574236734          Grid 2 max:    2.92019923143699     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.995613906605494     
  
 Mean relative error     =   1.339495156790413E-004
 Maximum relative error  =   9.258149820215710E-004
 Least squares error     =   8.336815724284606E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ar9v4_100920_patch_test27.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -w T42_grid_to_ar9v4_100920_patch_test27.nc -m patch  --dst_regional  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_patch_test27.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_ar9v4_100920_patch_test27.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.27001215972237          Grid 2 max:    2.92022731742717     
  
 Maximum negative weight =  -5.775394939956937E-002
 Maximum positive weight =   0.702600025313717     
  
 Mean relative error     =   1.317352388914965E-004
 Maximum relative error  =   6.610335367210802E-004
 Least squares error     =   7.806494404082436E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_ar9v4_100920_conserve_test28.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -w T42_grid_to_ar9v4_100920_conserve_test28.nc -m conserve  --dst_regional  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_conserve_test28.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_ar9v4_100920_conserve_test28.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.24911801222909          Grid 2 max:    2.92994070621261     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   5.142271388914597E-003
 Maximum relative error  =   2.960697408650779E-002
 Least squares error     =   3.026391504483931E-003
  
 Grid 1 area =    4.10188561171128     
 Grid 2 area =    4.10188561171163     
 Conservation error =   3.437250484239485E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



T42_grid_to_ar9v4_100920_conserve2nd_test29.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -w T42_grid_to_ar9v4_100920_conserve2nd_test29.nc -m conserve2nd  --dst_regional  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_ar9v4_100920_conserve2nd_test29.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.24642750189981          Grid 2 max:    2.93283160340352     
  
 Maximum negative weight =  -0.150806140236784     
 Maximum positive weight =    1.00053518921481     
  
 Mean relative error     =   4.961139528069484E-004
 Maximum relative error  =   2.453956531731827E-002
 Least squares error     =   6.044969694023452E-004
  
 Grid 1 area =    4.10188561171128     
 Grid 2 area =    4.10188561171116     
 Conservation error =   1.216804434989172E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ar9v4_100920_to_T42_grid_bilinear_test30.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w ar9v4_100920_to_T42_grid_bilinear_test30.nc -m bilinear  --src_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ar9v4_100920_to_T42_grid_bilinear_test30.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ar9v4_100920_to_T42_grid_bilinear_test30.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.26922530040765          Grid 1 max:    2.92126895610841     
 Grid 2 min:    1.28114674817814          Grid 2 max:    2.90307710439379     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.970695629849189     
  
 Mean relative error     =   1.137058418782711E-007
 Maximum relative error  =   6.659438761343844E-007
 Least squares error     =   7.080077005475568E-008
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_T42_grid_patch_test31.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w ar9v4_100920_to_T42_grid_patch_test31.nc -m patch  --src_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ar9v4_100920_to_T42_grid_patch_test31.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ar9v4_100920_to_T42_grid_patch_test31.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.26922530040765          Grid 1 max:    2.92126895610841     
 Grid 2 min:    1.28114673517196          Grid 2 max:    2.90307715752792     
  
 Maximum negative weight =  -3.498422860911896E-002
 Maximum positive weight =   0.584013741757673     
  
 Mean relative error     =   9.079795121721965E-008
 Maximum relative error  =   4.992243721892577E-007
 Least squares error     =   6.218075607032823E-008
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_T42_grid_conserve_test32.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w ar9v4_100920_to_T42_grid_conserve_test32.nc -m conserve  --src_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ar9v4_100920_to_T42_grid_conserve_test32.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ar9v4_100920_to_T42_grid_conserve_test32.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.26922530040765          Grid 1 max:    2.92126895610841     
 Grid 2 min:    1.32965369476477          Grid 2 max:    2.90255902631064     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   1.168152506817220E-003
  
 Mean relative error     =   1.199819865936019E-004
 Maximum relative error  =   1.108438127623610E-003
 Least squares error     =   7.302840604899553E-005
  
 Grid 1 area =    4.10199206648500     
 Grid 2 area =    4.10199206648492     
 Conservation error =   7.904787935331115E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_bilinear_test33.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -w wr50a_090614_to_ar9v4_100920_bilinear_test33.nc -m bilinear  -r -i --64bit_offset  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in 64bit offset NetCDF file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_ar9v4_100920_bilinear_test33.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.40896448159877          Grid 2 max:    2.88076495207703     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.996548155600117     
  
 Mean relative error     =   2.857148043886768E-006
 Maximum relative error  =   1.199723200271269E-005
 Least squares error     =   1.555283556323145E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_patch_test34.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -w wr50a_090614_to_ar9v4_100920_patch_test34.nc -m patch  -r -i --netcdf4  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_patch_test34.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in NetCDF4 file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_ar9v4_100920_patch_test34.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.40896754250155          Grid 2 max:    2.88076857224651     
  
 Maximum negative weight =  -9.465089372210773E-002
 Maximum positive weight =   0.720692849039630     
  
 Mean relative error     =   2.512366876358680E-006
 Maximum relative error  =   8.611068875214530E-006
 Least squares error     =   1.363344646230770E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_conserve_test35.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -w wr50a_090614_to_ar9v4_100920_conserve_test35.nc -m conserve  -r -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_conserve_test35.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_ar9v4_100920_conserve_test35.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.40883657886872          Grid 2 max:    2.88080620665694     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   6.314680026201400E-004
 Maximum relative error  =   2.721062043918250E-003
 Least squares error     =   3.599392016412254E-004
  
 Grid 1 area =    3.27373269438755     
 Grid 2 area =    3.27373269438763     
 Conservation error =   8.393286066166183E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



wr50a_090614_to_ar9v4_100920_conserve2nd_test36.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -w wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc -m conserve2nd  -r -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.40765164916211          Grid 2 max:    2.88195216872642     
  
 Maximum negative weight =  -0.288281378957498     
 Maximum positive weight =    1.00001417787168     
  
 Mean relative error     =   2.585014902931226E-005
 Maximum relative error  =   2.500114166543158E-003
 Least squares error     =   4.832404774049359E-005
  
 Grid 1 area =    3.27373269438755     
 Grid 2 area =    3.27373269438756     
 Conservation error =   6.217248937900877E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ar9v4_100920_to_wr50a_090614_bilinear_test37.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w ar9v4_100920_to_wr50a_090614_bilinear_test37.nc -m bilinear  -r -i --64bit_offset  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in 64bit offset NetCDF file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ar9v4_100920_to_wr50a_090614_bilinear_test37.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.26922530040765          Grid 1 max:    2.92126895610841     
 Grid 2 min:    1.40986437585886          Grid 2 max:    2.88080507042929     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.978176308301660     
  
 Mean relative error     =   1.430014091355036E-007
 Maximum relative error  =   5.067098429711418E-007
 Least squares error     =   7.901262912408364E-008
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_wr50a_090614_patch_test38.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w ar9v4_100920_to_wr50a_090614_patch_test38.nc -m patch  -r -i --netcdf4  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ar9v4_100920_to_wr50a_090614_patch_test38.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Output weight file in NetCDF4 file format
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ar9v4_100920_to_wr50a_090614_patch_test38.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.26922530040765          Grid 1 max:    2.92126895610841     
 Grid 2 min:    1.40986448823242          Grid 2 max:    2.88080533478891     
  
 Maximum negative weight =  -6.943888488071678E-002
 Maximum positive weight =   0.607703040839543     
  
 Mean relative error     =   1.334696044044487E-007
 Maximum relative error  =   3.594172348011126E-007
 Least squares error     =   7.195323026462941E-008
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_wr50a_090614_conserve_test39.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w ar9v4_100920_to_wr50a_090614_conserve_test39.nc -m conserve  -i -r  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ar9v4_100920_to_wr50a_090614_conserve_test39.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ar9v4_100920_to_wr50a_090614_conserve_test39.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.26922530040765          Grid 1 max:    2.92126895610841     
 Grid 2 min:    1.40987132100668          Grid 2 max:    2.88080176559962     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   6.986567060138330E-002
  
 Mean relative error     =   4.610385787619615E-006
 Maximum relative error  =   9.977403171556806E-004
 Least squares error     =   8.323522630140784E-006
  
 Grid 1 area =    3.27373709058101     
 Grid 2 area =    3.27373709058091     
 Conservation error =   1.074695887837152E-013

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc -m bilinear  -p all   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00031737699196          Grid 2 max:    2.99968262300804     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.952112768490312     
  
 Mean relative error     =   3.402923930571075E-005
 Maximum relative error  =   3.542392121837455E-004
 Least squares error     =   2.541877722648005E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc -m patch  -p all   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00041405831879          Grid 2 max:    2.99958619214537     
  
 Maximum negative weight =  -3.557242557748397E-002
 Maximum positive weight =   0.621608741590416     
  
 Mean relative error     =   2.959515368127631E-005
 Maximum relative error  =   2.346803266583089E-004
 Least squares error     =   2.219484680277948E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc -m conserve  -p none  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00077209401891          Grid 2 max:    2.99922790598109     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.930328026783362     
  
 Mean relative error     =   3.062020268408480E-004
 Maximum relative error  =   1.602920962031022E-003
 Least squares error     =   2.072920948546977E-004
  
 Grid 1 area =    25.1327411464910     
 Grid 2 area =    25.1327411464911     
 Conservation error =   6.750155989720952E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -w ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc -m conserve2nd  -p none  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Weight File: ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00053132494461          Grid 2 max:    2.99946867505542     
  
 Maximum negative weight =  -0.101893075135946     
 Maximum positive weight =   0.933614843961234     
  
 Mean relative error     =   1.447165199653686E-004
 Maximum relative error  =   6.972950875806113E-004
 Least squares error     =   9.216123472502558E-005
  
 Grid 1 area =    25.1327411464910     
 Grid 2 area =    25.1327411464911     
 Conservation error =   7.815970093361102E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc -m bilinear  -p all   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00027337132530          Grid 1 max:    2.99972662867470     
 Grid 2 min:    1.00027337132530          Grid 2 max:    2.99972662867470     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.628970391033531E-004
 Maximum relative error  =   1.199653501005896E-003
 Least squares error     =   1.215578894957368E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc -m patch  -p all   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00027337132530          Grid 1 max:    2.99972662867470     
 Grid 2 min:    1.00081632422113          Grid 2 max:    2.99918367577874     
  
 Maximum negative weight =  -5.245395316326257E-002
 Maximum positive weight =   0.699932022771335     
  
 Mean relative error     =   1.622807164310305E-004
 Maximum relative error  =   8.163242213730101E-004
 Least squares error     =   1.141249207702563E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc -m conserve  -p none  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00027337132530          Grid 1 max:    2.99972662867470     
 Grid 2 min:    1.00027337132530          Grid 2 max:    2.99972662867470     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   3.550950821590281E-003
 Maximum relative error  =   2.016843918076366E-002
 Least squares error     =   2.492520787561452E-003
  
 Grid 1 area =    25.1327411638626     
 Grid 2 area =    25.1327411638629     
 Conservation error =   3.232969447708456E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc -m conserve2nd  -p none  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00027337132530          Grid 1 max:    2.99972662867470     
 Grid 2 min:   0.999800448338053          Grid 2 max:    3.00019966379993     
  
 Maximum negative weight =  -0.105854503654724     
 Maximum positive weight =    1.00003547391033     
  
 Mean relative error     =   4.025803811959330E-004
 Maximum relative error  =   2.645005205275733E-003
 Least squares error     =   2.554464650686118E-004
  
 Grid 1 area =    25.1327411638626     
 Grid 2 area =    25.1327411638625     
 Conservation error =   1.136868377216160E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc -m bilinear  -p all -i   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00000000000000          Grid 2 max:    3.00000000000000     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.427782717983871E-005
 Maximum relative error  =   9.693646456828970E-005
 Least squares error     =   1.042018939326079E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc -m patch  -p all -i   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00002617885198          Grid 2 max:    2.99997382114803     
  
 Maximum negative weight =  -4.741585493272161E-002
 Maximum positive weight =   0.665962364462537     
  
 Mean relative error     =   1.074324014678233E-005
 Maximum relative error  =   6.419181072964907E-005
 Least squares error     =   7.453029579618127E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc -m conserve  -p none -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00007853489113          Grid 2 max:    2.99992146510887     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.498543452786428     
  
 Mean relative error     =   2.237003331168190E-004
 Maximum relative error  =   2.391349645946962E-003
 Least squares error     =   1.452801051890059E-004
  
 Grid 1 area =    25.1327411638220     
 Grid 2 area =    25.1327411638219     
 Conservation error =   3.552713678800501E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc -m conserve2nd  -p none -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:   0.999951918517067          Grid 2 max:    3.00004808148284     
  
 Maximum negative weight =  -4.140487340985238E-002
 Maximum positive weight =   0.546950838559912     
  
 Mean relative error     =   3.570022287483776E-004
 Maximum relative error  =   1.732337431233222E-003
 Least squares error     =   2.234832034062029E-004
  
 Grid 1 area =    25.1327411638220     
 Grid 2 area =    25.1327411638227     
 Conservation error =   7.709388682997087E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne30np4-t2_to_wr50a_090614_bilinear_test52.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w ne30np4-t2_to_wr50a_090614_bilinear_test52.nc -m bilinear  --dst_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne30np4-t2_to_wr50a_090614_bilinear_test52.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.40780707255800          Grid 2 max:    2.88075363568356     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.998942092645017     
  
 Mean relative error     =   2.285724022785855E-005
 Maximum relative error  =   1.303461071187627E-004
 Least squares error     =   1.399087138570070E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_wr50a_090614_patch_test53.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w ne30np4-t2_to_wr50a_090614_patch_test53.nc -m patch  --dst_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: ne30np4-t2_to_wr50a_090614_patch_test53.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne30np4-t2_to_wr50a_090614_patch_test53.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.40778816380438          Grid 2 max:    2.88065775566814     
  
 Maximum negative weight =  -6.968524781120419E-002
 Maximum positive weight =   0.626043395349332     
  
 Mean relative error     =   1.849217608818208E-005
 Maximum relative error  =   8.423724327965773E-005
 Least squares error     =   1.091789739005400E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4-t2_to_ar9v4_100920_conserve_test54.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -w ne30np4-t2_to_ar9v4_100920_conserve_test54.nc -m conserve  --dst_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne30np4-t2_to_ar9v4_100920_conserve_test54.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.26151162638957          Grid 2 max:    2.92559639167823     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   2.210903410255745E-003
 Maximum relative error  =   1.313206010545405E-002
 Least squares error     =   1.302859075432989E-003
  
 Grid 1 area =    4.10196251789930     
 Grid 2 area =    4.10196251789920     
 Conservation error =   9.592326932761353E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -w ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc -m conserve2nd  --dst_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Weight File: ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.25989152724120          Grid 2 max:    2.92632016554217     
  
 Maximum negative weight =  -0.174122408093259     
 Maximum positive weight =    1.00016312321703     
  
 Mean relative error     =   3.985005894336698E-004
 Maximum relative error  =   1.052480847688547E-002
 Least squares error     =   2.860609692631912E-004
  
 Grid 1 area =    4.10196251789930     
 Grid 2 area =    4.10196251789919     
 Conservation error =   1.030286966852145E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



wr50a_090614_to_ne30np4-t2_bilinear_test56.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w wr50a_090614_to_ne30np4-t2_bilinear_test56.nc -m bilinear  --src_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_ne30np4-t2_bilinear_test56.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.41141348576660          Grid 2 max:    2.87724560706326     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.985353511678345     
  
 Mean relative error     =   3.113216810500391E-006
 Maximum relative error  =   1.254090693566651E-005
 Least squares error     =   1.829146694640026E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_ne30np4-t2_patch_test57.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w wr50a_090614_to_ne30np4-t2_patch_test57.nc -m patch  --src_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: wr50a_090614_to_ne30np4-t2_patch_test57.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_ne30np4-t2_patch_test57.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.41141916749240          Grid 2 max:    2.87724448733365     
  
 Maximum negative weight =  -8.893786773729399E-002
 Maximum positive weight =   0.664003986884137     
  
 Mean relative error     =   2.783947751968623E-006
 Maximum relative error  =   8.997617347840417E-006
 Least squares error     =   1.610896345787983E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



ar9v4_100920_to_ne30np4-t2_conserve_test58.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc -w ar9v4_100920_to_ne30np4-t2_conserve_test58.nc -m conserve  --src_regional -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ar9v4_100920.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4-t2.nc
   Weight File: ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ar9v4_100920_to_ne30np4-t2_conserve_test58.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.26922530040765          Grid 1 max:    2.92126895610841     
 Grid 2 min:    1.28613896897886          Grid 2 max:    2.91325698911986     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   3.672113193754142E-002
  
 Mean relative error     =   2.737756209586333E-004
 Maximum relative error  =   1.948579745494542E-003
 Least squares error     =   1.607456514687723E-004
  
 Grid 1 area =    4.10199206648500     
 Grid 2 area =    4.10199206648491     
 Conservation error =   8.704148513061227E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc -m bilinear  --src_loc corner --dst_loc corner    --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022263733010          Grid 1 max:    2.99978753282091     
 Grid 2 min:    1.00112815972988          Grid 2 max:    2.99876413608054     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.502025969007572     
  
 Mean relative error     =   2.002602585675432E-004
 Maximum relative error  =   8.963063442985645E-004
 Least squares error     =   1.251808146912774E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc -m bilinear   --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.00096992796614          Grid 2 max:    2.99903103202432     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.381916338752907     
  
 Mean relative error     =   1.757955208365285E-004
 Maximum relative error  =   7.485702442367222E-004
 Least squares error     =   1.134514877146307E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc -m patch   --src_loc corner --dst_loc corner    --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022263733010          Grid 1 max:    2.99978753282091     
 Grid 2 min:    1.00076641913511          Grid 2 max:    2.99915098279509     
  
 Maximum negative weight =  -8.214982843232127E-002
 Maximum positive weight =   0.503921234080489     
  
 Mean relative error     =   1.226823202293548E-004
 Maximum relative error  =   5.961937980587604E-004
 Least squares error     =   7.812416625574108E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc -m patch  --src_loc corner --dst_loc corner    --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.00077682284891          Grid 2 max:    2.99922756434047     
  
 Maximum negative weight =  -2.840731643554973E-002
 Maximum positive weight =   0.400347162715834     
  
 Mean relative error     =   1.306628771347032E-004
 Maximum relative error  =   5.558908711855851E-004
 Least squares error     =   8.472022474637360E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc -m conserve  -i      --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.00090859933787          Grid 2 max:    2.99904496857870     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.381912094251192     
  
 Mean relative error     =   7.023167815912890E-004
 Maximum relative error  =   3.770738443592122E-003
 Least squares error     =   4.283459700648925E-004
  
 Grid 1 area =    25.1327412287159     
 Grid 2 area =    25.1327412287157     
 Conservation error =   1.740829702612245E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc -m conserve          --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022263733010          Grid 1 max:    2.99978753282091     
 Grid 2 min:    1.00097034132072          Grid 2 max:    2.99888586161925     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.200000004319932     
  
 Mean relative error     =   1.746245526536809E-004
 Maximum relative error  =   7.385244846302993E-004
 Least squares error     =   1.133053933619537E-004
  
 Grid 1 area =    25.1327412287201     
 Grid 2 area =    25.1327412287201     
 Conservation error =   0.000000000000000E+000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -w mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc -m conserve2nd  -i      --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Weight File: 
 mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.00059715254231          Grid 2 max:    2.99940431599203     
  
 Maximum negative weight =  -5.230289597932394E-002
 Maximum positive weight =   0.435303405864188     
  
 Mean relative error     =   6.125760043667061E-004
 Maximum relative error  =   4.504373531775229E-003
 Least squares error     =   4.073308688322691E-004
  
 Grid 1 area =    25.1327412287159     
 Grid 2 area =    25.1327412287158     
 Conservation error =   5.329070518200751E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc -m conserve2nd          --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: 
 mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022263733010          Grid 1 max:    2.99978753282091     
 Grid 2 min:    1.00035449478678          Grid 2 max:    2.99949299398642     
  
 Maximum negative weight =  -1.319813433736729E-002
 Maximum positive weight =   0.221833904229144     
  
 Mean relative error     =   1.150171072685736E-004
 Maximum relative error  =   7.819949153788265E-004
 Least squares error     =   7.392294454483991E-005
  
 Grid 1 area =    25.1327412287201     
 Grid 2 area =    25.1327412287202     
 Conservation error =   6.039613253960852E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_mpas_uniform_10242_dual_patch_test67.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -w T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc -m patch    --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Weight File: T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.00142836709410          Grid 2 max:    2.99842917348084     
  
 Maximum negative weight =  -5.816213529080094E-002
 Maximum positive weight =   0.703341722646999     
  
 Mean relative error     =   2.479144113964698E-004
 Maximum relative error  =   1.196445141094166E-003
 Least squares error     =   1.729565560857008E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -w mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc -m patch    --src_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.00062650506692          Grid 2 max:    2.99936550762126     
  
 Maximum negative weight =  -3.796650548660507E-002
 Maximum positive weight =   0.769484847188862     
  
 Mean relative error     =   1.001876446637104E-004
 Maximum relative error  =   5.594194062441609E-004
 Least squares error     =   7.135254299722061E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -w ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc -m conserve  -i    --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Weight File: ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00072239036552          Grid 2 max:    2.99928766949835     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   2.358698561631377E-003
 Maximum relative error  =   9.908964926773968E-003
 Least squares error     =   1.469746344435066E-003
  
 Grid 1 area =    25.1327411638647     
 Grid 2 area =    25.1327411638647     
 Conservation error =   1.421085471520200E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -w mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc -m conserve        --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022263733010          Grid 1 max:    2.99978753282091     
 Grid 2 min:    1.00035408219976          Grid 2 max:    2.99978630002809     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.800540469272505E-003
 Maximum relative error  =   9.183347093294011E-003
 Least squares error     =   1.196344515509556E-003
  
 Grid 1 area =    25.1327412287201     
 Grid 2 area =    25.1327412287201     
 Conservation error =   5.329070518200751E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -w ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc -m conserve2nd  -i    --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Weight File: ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:   0.999795140113324          Grid 2 max:    3.00021895961641     
  
 Maximum negative weight =  -7.088317660210125E-002
 Maximum positive weight =    1.00000159781242     
  
 Mean relative error     =   7.296722781837980E-004
 Maximum relative error  =   4.955268048828841E-003
 Least squares error     =   4.993086659912431E-004
  
 Grid 1 area =    25.1327411638647     
 Grid 2 area =    25.1327411638649     
 Conservation error =   2.380318164796336E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -w mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc -m conserve2nd        --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022263733010          Grid 1 max:    2.99978753282091     
 Grid 2 min:   0.999879617852053          Grid 2 max:    3.00008365536518     
  
 Maximum negative weight =  -6.287542534819596E-002
 Maximum positive weight =    1.00000384162880     
  
 Mean relative error     =   2.973160787625242E-004
 Maximum relative error  =   2.893683688372869E-003
 Least squares error     =   2.022647058888615E-004
  
 Grid 1 area =    25.1327412287201     
 Grid 2 area =    25.1327412287202     
 Conservation error =   7.460698725481052E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc -m bilinear    --src_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Weight File: 
 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.00035871625931          Grid 2 max:    2.99952407494066     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.993317300432512     
  
 Mean relative error     =   1.319745855562866E-004
 Maximum relative error  =   7.806852577838152E-004
 Least squares error     =   8.737515191573139E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc -m bilinear    --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: 
 ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00028851069314          Grid 2 max:    2.99975108339633     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.946300797548443     
  
 Mean relative error     =   1.056912032206353E-005
 Maximum relative error  =   9.466792850924042E-005
 Least squares error     =   7.575054449141938E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc -m patch    --src_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Weight File: 
 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.00055392957155          Grid 2 max:    2.99944495701382     
  
 Maximum negative weight =  -3.641491977547421E-002
 Maximum positive weight =   0.767500567566707     
  
 Mean relative error     =   1.262757597117649E-004
 Maximum relative error  =   5.609697626082037E-004
 Least squares error     =   8.192855017439204E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc -m patch    --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00027234513033          Grid 2 max:    2.99973371906870     
  
 Maximum negative weight =  -5.306175785739525E-002
 Maximum positive weight =   0.624554431898261     
  
 Mean relative error     =   9.580762631357392E-006
 Maximum relative error  =   6.271180473112228E-005
 Least squares error     =   6.606916023650514E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc -m conserve     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Weight File: 
 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022263733010          Grid 1 max:    2.99978753282091     
 Grid 2 min:    1.00022263733010          Grid 2 max:    2.99978753282091     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   3.085663378070781E-003
 Maximum relative error  =   1.840811642632344E-002
 Least squares error     =   1.967171422431413E-003
  
 Grid 1 area =    25.1327412287201     
 Grid 2 area =    25.1327412287204     
 Conservation error =   2.877698079828406E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc -m conserve     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: 
 ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00055661931195          Grid 2 max:    2.99930117984760     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.132891147456966     
  
 Mean relative error     =   8.548127675367526E-005
 Maximum relative error  =   3.749368349664046E-004
 Least squares error     =   5.517591153777214E-005
  
 Grid 1 area =    25.1327411638220     
 Grid 2 area =    25.1327411638225     
 Conservation error =   4.902744876744691E-013

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc -m bilinear  --dst_regional   --src_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.40782607106741          Grid 2 max:    2.88023647148181     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.987483258845908     
  
 Mean relative error     =   8.481671227822996E-005
 Maximum relative error  =   3.483810892308584E-004
 Least squares error     =   4.953780168069663E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc -m patch  --dst_regional   --src_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.40803425851414          Grid 2 max:    2.88033500358386     
  
 Maximum negative weight =  -3.539543566484496E-002
 Maximum positive weight =   0.767170878509521     
  
 Mean relative error     =   7.399115316854785E-005
 Maximum relative error  =   2.205104446220144E-004
 Least squares error     =   4.176094865334341E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -w wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc -m conserve  -i --src_regional    --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Weight File: wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.43247161554242          Grid 2 max:    2.86645817724049     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.134127858478085     
  
 Mean relative error     =   3.318831431130038E-004
 Maximum relative error  =   1.639068131907538E-003
 Least squares error     =   1.967153701803958E-004
  
 Grid 1 area =    5.54083167936200     
 Grid 2 area =    5.54083167936199     
 Conservation error =   7.993605777301127E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc -m conserve  --dst_regional       --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242_dual.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022263733010          Grid 1 max:    2.99978753282091     
 Grid 2 min:    1.39477687757053          Grid 2 max:    2.88911514327568     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   2.653513968005125E-003
 Maximum relative error  =   1.575489043905882E-002
 Least squares error     =   1.629233702312112E-003
  
 Grid 1 area =    5.54080071616390     
 Grid 2 area =    5.54080071616387     
 Conservation error =   3.463895836830488E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



T42_grid_to_ww3a_120213_conserve_test83.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ww3a_120213.nc -w T42_grid_to_ww3a_120213_conserve_test83.nc -m conserve  -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ww3a_120213.nc
   Weight File: T42_grid_to_ww3a_120213_conserve_test83.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_ww3a_120213_conserve_test83.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.00431779030770          Grid 2 max:    2.99737337431254     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.613816990250803     
  
 Mean relative error     =   1.040169249259795E-003
 Maximum relative error  =   4.980964529013745E-003
 Least squares error     =   6.804402663677052E-004
  
 Grid 1 area =    17.5511520089033     
 Grid 2 area =    17.5511520089033     
 Conservation error =   7.105427357601002E-015

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ww3a_120213_to_T42_grid_conserve_test84.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ww3a_120213.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w ww3a_120213_to_T42_grid_conserve_test84.nc -m conserve  -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ww3a_120213.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: ww3a_120213_to_T42_grid_conserve_test84.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ww3a_120213_to_T42_grid_conserve_test84.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00321366340061          Grid 1 max:    2.99922038210307     
 Grid 2 min:    1.00321366848940          Grid 2 max:    2.99922038210307     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   2.335111450611469E-003
 Maximum relative error  =   1.144240037821548E-002
 Least squares error     =   1.545089339566657E-003
  
 Grid 1 area =    17.5512621435578     
 Grid 2 area =    17.5512621435578     
 Conservation error =   2.842170943040401E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-14



----------------------------------------------------------



ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne15np4_scrip.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -w ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc -m bilinear  -p all    --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne15np4_scrip.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Weight File: ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00051392256337          Grid 1 max:    2.99948607679970     
 Grid 2 min:    1.00069410761123          Grid 2 max:    2.99930589238877     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.972867485816228     
  
 Mean relative error     =   6.211113174367599E-005
 Maximum relative error  =   5.029857880344763E-004
 Least squares error     =   4.500129803845011E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne15np4_scrip.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -w ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc -m conserve  -p none   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne15np4_scrip.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Weight File: ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00051392256337          Grid 1 max:    2.99948607679970     
 Grid 2 min:    1.00079937760022          Grid 2 max:    2.99920062239978     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   3.643473352135303E-004
 Maximum relative error  =   1.643398099200062E-003
 Least squares error     =   2.353718111607158E-004
  
 Grid 1 area =    25.1327411638119     
 Grid 2 area =    25.1327411638122     
 Conservation error =   3.339550858072471E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ARM_30_x8.g_scrip.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -w ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc -m bilinear  -p all   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ARM_30_x8.g_scrip.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00037880199101          Grid 2 max:    2.99962119758436     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.953147369261141     
  
 Mean relative error     =   4.006829666463928E-005
 Maximum relative error  =   4.091972848031441E-004
 Least squares error     =   3.034108606591390E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ARM_30_x8.g_scrip.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -w ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc -m conserve  -p none   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ARM_30_x8.g_scrip.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00047118039973          Grid 2 max:    2.99952881907208     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   7.830380017033693E-004
 Maximum relative error  =   2.752085678495371E-003
 Least squares error     =   5.049924693183734E-004
  
 Grid 1 area =    25.1327417687645     
 Grid 2 area =    25.1327417687643     
 Conservation error =   1.492139745096210E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



wr50a_090614_to_wr50a_090614_neareststod_test89.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w wr50a_090614_to_wr50a_090614_neareststod_test89.nc -m neareststod  --src_regional --dst_regional  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: wr50a_090614_to_wr50a_090614_neareststod_test89.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_wr50a_090614_neareststod_test89.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.40772788536483          Grid 2 max:    2.88080620665694     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_T42_grid_neareststod_test90.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w T42_grid_to_T42_grid_neareststod_test90.nc -m neareststod  -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: T42_grid_to_T42_grid_neareststod_test90.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_T42_grid_neareststod_test90.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.00059293675517          Grid 2 max:    2.99940706324483     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc -m neareststod      --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022263733010          Grid 1 max:    2.99978753282091     
 Grid 2 min:    1.00022263733010          Grid 2 max:    2.99978753282091     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-15



----------------------------------------------------------



wr50a_090614_to_wr50a_090614_nearestdtos_test92.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc -w wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc -m nearestdtos  --src_regional --dst_regional  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wr50a_090614.nc
   Weight File: wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.40772788536483          Grid 1 max:    2.88080620665694     
 Grid 2 min:    1.40772788536483          Grid 2 max:    2.88080620665694     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_T42_grid_nearestdtos_test93.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w T42_grid_to_T42_grid_nearestdtos_test93.nc -m nearestdtos  -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: T42_grid_to_T42_grid_nearestdtos_test93.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_T42_grid_nearestdtos_test93.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.00059293675517          Grid 2 max:    2.99940706324483     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc -m nearestdtos      --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022263733010          Grid 1 max:    2.99978753282091     
 Grid 2 min:    1.00022263733010          Grid 2 max:    2.99978753282091     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-15



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -w GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc -m bilinear  -p none -i   --src_missingvalue so  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00016071747178          Grid 1 max:    2.99983928210351     
 Grid 2 min:    1.00022849089177          Grid 2 max:    2.99977150868354     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.987874100362547     
  
 Mean relative error     =   2.730928463041123E-006
 Maximum relative error  =   3.548572797034694E-005
 Least squares error     =   2.423576233749542E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-06
  - Max  Relative Error: 10E-05
  - Area Conservation  : 10E-16



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -w GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc -m conserve    -i --src_missingvalue so  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00016071747178          Grid 1 max:    2.99983928210351     
 Grid 2 min:    1.00025095158829          Grid 2 max:    2.99974904798701     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.864161536321232     
  
 Mean relative error     =   5.713864126640371E-005
 Maximum relative error  =   9.668656432528500E-004
 Least squares error     =   4.541440876575711E-005
  
 Grid 1 area =    18.0534697112051     
 Grid 2 area =    18.0534697112053     
 Conservation error =   1.456612608308205E-013

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -w so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc -m bilinear     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
   Source File is in CF Grid format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022844438943          Grid 1 max:    2.99977155518588     
 Grid 2 min:    1.00022844438943          Grid 2 max:    2.99977155518588     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   8.206731070579744E-009
 Maximum relative error  =   5.618447579669323E-008
 Least squares error     =   7.863304546337550E-009
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-08
  - Area Conservation  : 10E-16



----------------------------------------------------------



so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -w so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc -m conserve     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
   Source File is in CF Grid format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022844438943          Grid 1 max:    2.99977155518588     
 Grid 2 min:    1.00022844438940          Grid 2 max:    2.99977155518588     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   8.206731097287660E-009
 Maximum relative error  =   5.618447245984034E-008
 Least squares error     =   7.863304542787443E-009
  
 Grid 1 area =    25.1327411638188     
 Grid 2 area =    25.1327411638189     
 Conservation error =   1.421085471520200E-014

Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-13



----------------------------------------------------------



so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -w so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc -m conserve2nd     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
   Source File is in CF Grid format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022844438943          Grid 1 max:    2.99977155518588     
 Grid 2 min:    1.00022844438940          Grid 2 max:    2.99977155518588     
  
 Maximum negative weight =  -2.024731427928395E-015
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   8.206731122186366E-009
 Maximum relative error  =   5.618447245984034E-008
 Least squares error     =   7.863304542900540E-009
  
 Grid 1 area =    25.1327411638188     
 Grid 2 area =    25.1327411638189     
 Conservation error =   1.421085471520200E-014

Tolerance values:
  - Mean Relative Error: 10E-09
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-13



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc -m bilinear   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00016071747178          Grid 1 max:    2.99983928210351     
 Grid 2 min:    1.00022849089177          Grid 2 max:    2.99977150868354     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.996808323830640     
  
 Mean relative error     =   5.421850212995284E-005
 Maximum relative error  =   1.573287865488811E-002
 Least squares error     =   3.472329091940302E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-16



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc -m conserve   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00016071747178          Grid 1 max:    2.99983928210351     
 Grid 2 min:    1.00025095158832          Grid 2 max:    2.99974904798701     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.864161536321234     
  
 Mean relative error     =   5.997738543524194E-005
 Maximum relative error  =   9.668630423343452E-004
 Least squares error     =   4.743522563741443E-005
  
 Grid 1 area =    14.1028395834266     
 Grid 2 area =    14.1028395834266     
 Conservation error =   1.243449787580175E-014

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc -m conserve    -r -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10419300301114          Grid 1 max:    1.26775042895620     
 Grid 2 min:    1.10376419374514          Grid 2 max:    1.26740954777581     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.181710063806197E-004
 Maximum relative error  =   1.246385784534006E-003
 Least squares error     =   1.672263154246216E-004
  
 Grid 1 area =   4.947605753975415E-002
 Grid 2 area =   4.947605753975189E-002
 Conservation error =   2.262079412673756E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc -m bilinear    -r -i --src_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10409492956725          Grid 1 max:    1.26781484752148     
 Grid 2 min:    1.10420262570525          Grid 2 max:    1.26753197518382     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.995911050541835     
  
 Mean relative error     =   9.097947025029434E-007
 Maximum relative error  =   7.331346722945663E-006
 Least squares error     =   1.227548774538063E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc -m conserve    -r     --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.01993455917389          Grid 1 max:    1.63290523636509     
 Grid 2 min:    1.10418716838576          Grid 2 max:    1.26792133110123     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   8.296966612748665E-005
 Maximum relative error  =   2.601857272450027E-004
 Least squares error     =   7.971902020981295E-005
  
 Grid 1 area =   4.947607452451214E-002
 Grid 2 area =   4.947607452451531E-002
 Conservation error =   3.164135620181696E-015

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-15



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc -m bilinear    -r --dst_loc corner --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.01993455917389          Grid 1 max:    1.63290523636509     
 Grid 2 min:    1.10409513816602          Grid 2 max:    1.26781498615964     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.995733090920304     
  
 Mean relative error     =   8.366038949667121E-008
 Maximum relative error  =   1.905320249204169E-007
 Least squares error     =   7.132652666237184E-008
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc -m conserve2nd    -r -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10419300301114          Grid 1 max:    1.26775042895620     
 Grid 2 min:    1.10375775713800          Grid 2 max:    1.26740947782791     
  
 Maximum negative weight =  -7.886897560578786E-002
 Maximum positive weight =    1.00000059499551     
  
 Mean relative error     =   1.107968066891079E-005
 Maximum relative error  =   9.986085098397156E-004
 Least squares error     =   1.625367919778639E-005
  
 Grid 1 area =   4.947605753975415E-002
 Grid 2 area =   4.947605753975237E-002
 Conservation error =   1.776356839400250E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc -m bilinear    -r -i --src_loc center  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10419300301114          Grid 1 max:    1.26775042895620     
 Grid 2 min:    1.10420251512072          Grid 2 max:    1.26753198826149     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.994968846122617     
  
 Mean relative error     =   7.759517917873495E-007
 Maximum relative error  =   8.710122419448813E-006
 Least squares error     =   1.112253449196448E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc -m bilinear    -r    --dst_loc center  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.01993455917389          Grid 1 max:    1.63290523636509     
 Grid 2 min:    1.10419304002062          Grid 2 max:    1.26775052292971     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.999797770636995     
  
 Mean relative error     =   8.364108799277430E-008
 Maximum relative error  =   1.904788202269080E-007
 Least squares error     =   7.130789664385792E-008
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-08
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4_esmf.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -w ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc -m bilinear  -p all   --src_loc center  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4_esmf.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Weight File: ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00031737699196          Grid 2 max:    2.99968262300804     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.952112768490311     
  
 Mean relative error     =   3.402923932387970E-005
 Maximum relative error  =   3.542392122067891E-004
 Least squares error     =   2.541877726261324E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4_esmf.nc -w fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc -m bilinear  -p all   --dst_loc center  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4_esmf.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00027337132530          Grid 1 max:    2.99972662867470     
 Grid 2 min:    1.00027337132530          Grid 2 max:    2.99972662867470     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.628970391033531E-004
 Maximum relative error  =   1.199653501005896E-003
 Least squares error     =   1.215578894957368E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4dual_esmf.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -w ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc -m bilinear  -p all   --src_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4dual_esmf.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Weight File: ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00031737699196          Grid 2 max:    2.99968262300804     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.952112768490312     
  
 Mean relative error     =   3.402923930571075E-005
 Maximum relative error  =   3.542392121837455E-004
 Least squares error     =   2.541877722648005E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne30np4dual_esmf.nc -w fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc -m bilinear  -p all   --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/fv1.9x2.5_050503.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne30np4dual_esmf.nc
   Weight File: fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00027337132530          Grid 1 max:    2.99972662867470     
 Grid 2 min:    1.00027337132530          Grid 2 max:    2.99972662867470     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.628970391033531E-004
 Maximum relative error  =   1.199653501005896E-003
 Least squares error     =   1.215578894957368E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc -m conserve    --norm_type dstarea  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Weight File: 
 mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.00023164576002          Grid 2 max:    2.99962551694454     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000012     
  
 Mean relative error     =   3.993041274946648E-003
 Maximum relative error  =   1.984700140002621E-002
 Least squares error     =   2.502167497017633E-003
  
 Grid 1 area =    25.1327412287159     
 Grid 2 area =    25.1327412287165     
 Conservation error =   5.826450433232822E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc -w mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc -m conserve    --norm_type fracarea  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ne60np4_pentagons_100408.nc
   Weight File: 
 mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.00023164576002          Grid 2 max:    2.99962551694454     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   3.993041274946596E-003
 Maximum relative error  =   1.984700140003598E-002
 Least squares error     =   2.502167497017639E-003
  
 Grid 1 area =    25.1327412287159     
 Grid 2 area =    25.1327412287165     
 Conservation error =   5.826450433232822E-013

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



mpas_uniform_10242_to_T42_grid_conserve_test115.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -w mpas_uniform_10242_to_T42_grid_conserve_test115.nc -m conserve    --norm_type fracarea  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Weight File: mpas_uniform_10242_to_T42_grid_conserve_test115.nc
   Source File is in ESMF format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 mpas_uniform_10242_to_T42_grid_conserve_test115.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00023164576002          Grid 1 max:    2.99962551694454     
 Grid 2 min:    1.00147546502682          Grid 2 max:    2.99845862882899     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.800958996945695     
  
 Mean relative error     =   5.306272270220507E-004
 Maximum relative error  =   2.516133673332982E-003
 Least squares error     =   3.342111150155173E-004
  
 Grid 1 area =    25.1327412287159     
 Grid 2 area =    25.1327412287160     
 Conservation error =   7.105427357601002E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



T42_grid_to_mpas_uniform_10242_conserve_test116.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w T42_grid_to_mpas_uniform_10242_conserve_test116.nc -m conserve    --norm_type fracarea  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: T42_grid_to_mpas_uniform_10242_conserve_test116.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_mpas_uniform_10242_conserve_test116.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:    1.00094905101060          Grid 2 max:    2.99902670376890     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.820979238348252E-003
 Maximum relative error  =   6.963712608878605E-003
 Least squares error     =   1.145477512785359E-003
  
 Grid 1 area =    25.1327411638759     
 Grid 2 area =    25.1327411638759     
 Conservation error =   1.421085471520200E-014

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2.nc -w ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc -m conserve   -r  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2.nc
   Weight File: ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    2.84244957747254          Grid 1 max:    2.97732703205117     
 Grid 2 min:    2.85944696998269          Grid 2 max:    2.97732703205117     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area =   0.267448890980926     
 Grid 2 area =   0.267448890980926     
 Conservation error =   0.000000000000000E+000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2.nc -w ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc -m bilinear   -r --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2.nc
   Weight File: ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    2.74294538048156          Grid 1 max:    3.00000000000000     
 Grid 2 min:    2.74294538048156          Grid 2 max:    3.00000000000000     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   4.365286318271129E-004
 Maximum relative error  =   3.928757686444016E-003
 Least squares error     =   4.545878175476843E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1.nc -w ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc -m conserve   -r  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID2.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ConcaveQuadUGRID1.nc
   Weight File: ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    2.85331239413648          Grid 1 max:    2.97732703205117     
 Grid 2 min:    2.85944696998269          Grid 2 max:    2.97732703205117     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area =   0.277187874186418     
 Grid 2 area =   0.277187874186418     
 Conservation error =   0.000000000000000E+000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc -w wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc -m bilinear   -i --src_loc corner --dst_loc corner -l greatcircle  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc
   Weight File: wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00081154478144          Grid 1 max:    2.99918845442253     
 Grid 2 min:    1.00081154667312          Grid 2 max:    2.99918845335661     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.983065225384432     
  
 Mean relative error     =   1.383148714909174E-004
 Maximum relative error  =   7.950710029035741E-004
 Least squares error     =   9.523042723086497E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-13



----------------------------------------------------------



ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc -w ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc -m bilinear   -i --src_loc corner --dst_loc corner --line_type greatcircle  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Weight File: ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00016945244567          Grid 1 max:    2.99998836761379     
 Grid 2 min:    1.00100200910889          Grid 2 max:    2.99867330345676     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.985624034236405     
  
 Mean relative error     =   4.138333859114353E-004
 Maximum relative error  =   3.211254294944980E-003
 Least squares error     =   3.132531563445300E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_bilinear_test122.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc -w C48_mosaic_to_latlon_mosaic_bilinear_test122.nc -m bilinear  --tilefile_path ./input/  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/
 
 Completed weight generation successfully.
 
 C48_mosaic_to_latlon_mosaic_bilinear_test122.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00061142031638          Grid 1 max:    2.99938857909630     
 Grid 2 min:    1.00138873709698          Grid 2 max:    2.99861126184192     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.981292310271449     
  
 Mean relative error     =   9.785400814671926E-005
 Maximum relative error  =   7.270876793851809E-004
 Least squares error     =   7.098899442802431E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_patch_test123.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc -w C48_mosaic_to_latlon_mosaic_patch_test123.nc -m patch  --tilefile_path ./input/  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_patch_test123.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/
 
 Completed weight generation successfully.
 
 C48_mosaic_to_latlon_mosaic_patch_test123.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00061142031638          Grid 1 max:    2.99938857909630     
 Grid 2 min:    1.00188745336227          Grid 2 max:    2.99811254557702     
  
 Maximum negative weight =  -4.434206341402106E-002
 Maximum positive weight =   0.705646244300087     
  
 Mean relative error     =   9.129426179982787E-005
 Maximum relative error  =   6.396794514716656E-004
 Least squares error     =   7.236890451796440E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-14



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_conserve_test124.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc -w C48_mosaic_to_latlon_mosaic_conserve_test124.nc -m conserve  --tilefile_path ./input/  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_conserve_test124.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/
 
 Completed weight generation successfully.
 
 C48_mosaic_to_latlon_mosaic_conserve_test124.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00061142031638          Grid 1 max:    2.99938857909630     
 Grid 2 min:    1.00162127378767          Grid 2 max:    2.99837872520739     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   6.154047232419657E-004
 Maximum relative error  =   2.581087388145351E-003
 Least squares error     =   3.929442134973018E-004
  
 Grid 1 area =    25.1327411638142     
 Grid 2 area =    25.1327411638141     
 Conservation error =   6.394884621840902E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_conserve2nd_test125.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc -w C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc -m conserve2nd  --tilefile_path ./input/  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/
 
 Completed weight generation successfully.
 
 C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00061142031638          Grid 1 max:    2.99938857909630     
 Grid 2 min:    1.00131295421908          Grid 2 max:    2.99868704471989     
  
 Maximum negative weight =  -9.325420069274092E-002
 Maximum positive weight =   0.999999801043713     
  
 Mean relative error     =   1.482667535593655E-004
 Maximum relative error  =   1.225792584876805E-003
 Least squares error     =   1.027747923791553E-004
  
 Grid 1 area =    25.1327411638142     
 Grid 2 area =    25.1327411638140     
 Conservation error =   1.314504061156185E-013

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc -m bilinear  -p none --extrap_method neareststod   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: neareststod
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00047588920170          Grid 2 max:    2.99952411079830     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.544836337341529E-004
 Maximum relative error  =   1.380293860629348E-003
 Least squares error     =   1.220620981473290E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc -m bilinear  -p none --extrap_method nearestidavg   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.000000    
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00047588920170          Grid 2 max:    2.99952411079830     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.899977150184363     
  
 Mean relative error     =   1.544512113973573E-004
 Maximum relative error  =   1.380293860629348E-003
 Least squares error     =   1.220516397513010E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc -m bilinear  -p none --extrap_method nearestidavg --extrap_num_dst_pnts 6 --extrap_dst_exponent 3.0  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.000000    
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00047588920170          Grid 2 max:    2.99952411079830     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.899977150184363     
  
 Mean relative error     =   1.544512113973573E-004
 Maximum relative error  =   1.380293860629348E-003
 Least squares error     =   1.220516397513012E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -w ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc -m bilinear  -p none --extrap_method neareststod   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: neareststod
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00047588920170          Grid 2 max:    2.99952411079830     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -w ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc -m bilinear  -p none --extrap_method nearestidavg   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.000000    
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00047588920170          Grid 2 max:    2.99952411079830     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc -w UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc -m nearestdtos  --src_loc corner --dst_loc corner --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Weight File: UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    2.31624542337302          Grid 1 max:    2.34204047337243     
 Grid 2 min:    2.31624542337302          Grid 2 max:    2.34204047337243     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc -w UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc -m neareststod  --src_loc corner --dst_loc corner --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Weight File: UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    2.31624542337302          Grid 1 max:    2.34204047337243     
 Grid 2 min:    2.31624542337302          Grid 2 max:    2.34204047337243     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc -w SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc -m bilinear  --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Weight File: SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022844523880          Grid 1 max:    2.99977155433651     
 Grid 2 min:    2.31623844741340          Grid 2 max:    2.34204338421475     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.250512519650474     
  
 Mean relative error     =   3.648680150131022E-006
 Maximum relative error  =   7.810775074291706E-006
 Least squares error     =   1.830118092281787E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-6
  - Max  Relative Error: 10E-6
  - Area Conservation  : 10E-13



----------------------------------------------------------



SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc -w SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc -m neareststod  --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Weight File: SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022844523880          Grid 1 max:    2.99977155433651     
 Grid 2 min:    2.30679789762876          Grid 2 max:    2.34474592083631     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   2.556806123066254E-003
 Maximum relative error  =   4.078810323349824E-003
 Least squares error     =   1.193848340710218E-003
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-3
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-13



----------------------------------------------------------



WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc -w WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc -m nearestdtos  -r --src_coordinates xc,yc --dst_coordinates xc,yc --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.50590982104810          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.50590982104810          Grid 2 max:    3.00000000000000     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc -w WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc -m neareststod  -r --src_coordinates xc,yc --dst_coordinates xc,yc --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.50590982104810          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.50590982104810          Grid 2 max:    3.00000000000000     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/RCM3_CF_CART2D.nc -w WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc -m bilinear  -i -r --src_coordinates xc,yc --dst_coordinates xc,yc --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/RCM3_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.50590982104810          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.52386481107611          Grid 2 max:    2.97362736340882     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   4.754390435269922E-010
 Maximum relative error  =   2.415045736893528E-009
 Least squares error     =   2.806994917466314E-010
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-10
  - Max  Relative Error: 10E-9
  - Area Conservation  : 10E-10



----------------------------------------------------------



WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/RCM3_CF_CART2D.nc -w WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc -m patch  -i -r --src_coordinates xc,yc --dst_coordinates xc,yc --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/WRFG_CF_CART2D.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/RCM3_CF_CART2D.nc
   Weight File: WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
   Source File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use 'xc' and 'yc' as the coordinate variables
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.50590982104810          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.52747189536365          Grid 2 max:    2.98685721142051     
  
 Maximum negative weight =  -5.366756547694999E-006
 Maximum positive weight =   0.252260192685610     
  
 Mean relative error     =   5.000851002126934E-004
 Maximum relative error  =   4.449058063258769E-003
 Least squares error     =   3.284228225919844E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-4
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-4



----------------------------------------------------------



latlon_grid_to_SCRIP_1x1_bilinear_test139.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/latlon_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -w latlon_grid_to_SCRIP_1x1_bilinear_test139.nc -m bilinear   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
   Source File is in GRIDSPEC TILE format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 latlon_grid_to_SCRIP_1x1_bilinear_test139.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00125607180671          Grid 1 max:    2.99874392713210     
 Grid 2 min:    1.00125607371703          Grid 2 max:    2.99874392585855     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.453499055702693     
  
 Mean relative error     =   1.390994950622538E-004
 Maximum relative error  =   1.170896644055199E-003
 Least squares error     =   1.107086461203587E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-4
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-16



----------------------------------------------------------



latlon_grid_to_SCRIP_1x1_conserve_test140.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/latlon_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -w latlon_grid_to_SCRIP_1x1_conserve_test140.nc -m conserve   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Weight File: latlon_grid_to_SCRIP_1x1_conserve_test140.nc
   Source File is in GRIDSPEC TILE format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 latlon_grid_to_SCRIP_1x1_conserve_test140.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00125607180671          Grid 1 max:    2.99874392713210     
 Grid 2 min:    1.00125607180671          Grid 2 max:    2.99874392713210     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   3.417647510232024E-003
 Maximum relative error  =   1.567652283739725E-002
 Least squares error     =   2.311314635416120E-003
  
 Grid 1 area =    25.1327411638010     
 Grid 2 area =    25.1327411638012     
 Conservation error =   1.421085471520200E-013

Tolerance values:
  - Mean Relative Error: 10E-3
  - Max  Relative Error: 10E-2
  - Area Conservation  : 10E-13



----------------------------------------------------------



SCRIP_1x1_to_latlon_grid_bilinear_test141.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/latlon_grid.nc -w SCRIP_1x1_to_latlon_grid_bilinear_test141.nc -m bilinear   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Weight File: SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC TILE format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 SCRIP_1x1_to_latlon_grid_bilinear_test141.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022844523880          Grid 1 max:    2.99977155433651     
 Grid 2 min:    1.00144618762666          Grid 2 max:    2.99855381131233     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.375611202726245     
  
 Mean relative error     =   3.182736706298493E-005
 Maximum relative error  =   1.898794397487241E-004
 Least squares error     =   2.325134482958150E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-5
  - Max  Relative Error: 10E-4
  - Area Conservation  : 10E-16



----------------------------------------------------------



SCRIP_1x1_to_latlon_grid_conserve_test142.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/latlon_grid.nc -w SCRIP_1x1_to_latlon_grid_conserve_test142.nc -m conserve   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/latlon_grid.nc
   Weight File: SCRIP_1x1_to_latlon_grid_conserve_test142.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC TILE format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 SCRIP_1x1_to_latlon_grid_conserve_test142.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022844523880          Grid 1 max:    2.99977155433651     
 Grid 2 min:    1.00175046738846          Grid 2 max:    2.99824953150841     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.299980968001536     
  
 Mean relative error     =   3.131393316626085E-004
 Maximum relative error  =   1.176961967915624E-003
 Least squares error     =   2.070194169618699E-004
  
 Grid 1 area =    25.1327411638192     
 Grid 2 area =    25.1327411638193     
 Conservation error =   1.065814103640150E-013

Tolerance values:
  - Mean Relative Error: 10E-4
  - Max  Relative Error: 10E-3
  - Area Conservation  : 10E-13



----------------------------------------------------------



bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/bggd_SCRIP_NCL_BR_INTERPOL.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/icos_ESMF_unstruct_six_corners_INTERPOL.nc -w bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc -m conserve2nd  -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/bggd_SCRIP_NCL_BR_INTERPOL.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/icos_ESMF_unstruct_six_corners_INTERPOL.nc
   Weight File: 
 bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2
 nd_test143.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2
 nd_test143.nc - ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00000000000000          Grid 1 max:    3.00000000000000     
 Grid 2 min:    1.00017355517268          Grid 2 max:    2.99976754127031     
  
 Maximum negative weight =  -7.786257975393600E-002
 Maximum positive weight =   0.856427936895968     
  
 Mean relative error     =   2.450011386075170E-004
 Maximum relative error  =   6.770856273744867E-003
 Least squares error     =   2.494568408313107E-004
  
 Grid 1 area =    19.0685484064046     
 Grid 2 area =    19.0685484064047     
 Conservation error =   7.460698725481052E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-13



----------------------------------------------------------



FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -w FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc -m conserve2nd    -r -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Weight File: 
 FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10419300301114          Grid 1 max:    1.26775042895620     
 Grid 2 min:    1.10375775713800          Grid 2 max:    1.26740947782791     
  
 Maximum negative weight =  -7.886897560578786E-002
 Maximum positive weight =    1.00000059499551     
  
 Mean relative error     =   1.107968066891079E-005
 Maximum relative error  =   9.986085098397156E-004
 Least squares error     =   1.625367919778639E-005
  
 Grid 1 area =   4.947605753975415E-002
 Grid 2 area =   4.947605753975237E-002
 Conservation error =   1.776356839400250E-015

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-15



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc -m conserve2nd   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00016071747178          Grid 1 max:    2.99983928210351     
 Grid 2 min:    1.00025095158830          Grid 2 max:    2.99974904798703     
  
 Maximum negative weight =  -3.616641515042009E-002
 Maximum positive weight =   0.864161536321234     
  
 Mean relative error     =   1.889952923996505E-005
 Maximum relative error  =   1.004819888993957E-003
 Least squares error     =   2.441628556540720E-005
  
 Grid 1 area =    14.1028395834266     
 Grid 2 area =    14.1028395834266     
 Conservation error =   5.506706202140776E-014

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc -m patch   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00016071747178          Grid 1 max:    2.99983928210351     
 Grid 2 min:    1.00033557959842          Grid 2 max:    2.99966441998625     
  
 Maximum negative weight =  -0.100947798975991     
 Maximum positive weight =   0.812965163268976     
  
 Mean relative error     =   7.598709385992602E-005
 Maximum relative error  =   1.677426950057639E-002
 Least squares error     =   3.331212834440863E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc -w GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc -m neareststod   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/so_Omon_GISS-E2.nc
   Weight File: GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00016071747178          Grid 1 max:    2.99983928210351     
 Grid 2 min:    1.00022858377686          Grid 2 max:    2.99977141579845     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   7.944892992137896E-003
 Maximum relative error  =   0.261839524485986     
 Least squares error     =   1.128225091745514E-002
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-01
  - Area Conservation  : 10E-13



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc -m patch    -r -i --src_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10409492956725          Grid 1 max:    1.26781484752148     
 Grid 2 min:    1.10420264652812          Grid 2 max:    1.26753204200471     
  
 Maximum negative weight =  -7.739122044489365E-002
 Maximum positive weight =   0.761968998024565     
  
 Mean relative error     =   9.177537605065501E-007
 Maximum relative error  =   5.025272295678298E-006
 Least squares error     =   1.167197855155177E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -w FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc -m patch    -r -i --src_loc center  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Weight File: FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a regional grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10419300301114          Grid 1 max:    1.26775042895620     
 Grid 2 min:    1.10420260653345          Grid 2 max:    1.26753198722528     
  
 Maximum negative weight =  -0.123958482242870     
 Maximum positive weight =   0.764568049579731     
  
 Mean relative error     =   7.566342068713121E-007
 Maximum relative error  =   5.786552702776475E-006
 Least squares error     =   9.778608991393548E-007
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-06
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.nc -w FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc -m neareststod  -r -i --src_loc center --dst_loc corner --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d_20130228.nc
   Weight File: FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10419300301114          Grid 1 max:    1.26775042895620     
 Grid 2 min:    1.10419300301114          Grid 2 max:    1.26775042895620     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   2.860663566891699E-005
 Maximum relative error  =   1.486669566859683E-003
 Least squares error     =   5.627702864362877E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc -m patch    -r    --dst_loc center  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.01993455917389          Grid 1 max:    1.63290523636509     
 Grid 2 min:    1.10419338816141          Grid 2 max:    1.26775062907940     
  
 Maximum negative weight =  -3.091314084857531E-002
 Maximum positive weight =   0.321718057809473     
  
 Mean relative error     =   1.671640243071197E-007
 Maximum relative error  =   3.755097480824928E-007
 Least squares error     =   1.367145372467170E-007
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-07
  - Max  Relative Error: 10E-07
  - Area Conservation  : 10E-16



----------------------------------------------------------



scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -w scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc -m neareststod    -r --dst_loc center  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/scrip_regional_1140x690.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc
   Source File is in SCRIP format
   Source Grid is a regional grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.01993455917389          Grid 1 max:    1.63290523636509     
 Grid 2 min:    1.10413448266706          Grid 2 max:    1.26799086060676     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.004721984178150E-004
 Maximum relative error  =   2.977862527713927E-004
 Least squares error     =   9.383423224640879E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc -w ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc -m neareststod   -i --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ipe_ugrid3D.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Weight File: ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00016945244567          Grid 1 max:    2.99998836761379     
 Grid 2 min:    1.00027350520365          Grid 2 max:    2.99989192712012     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   8.511426753363256E-003
 Maximum relative error  =   4.552211765887605E-002
 Least squares error     =   5.895688452517951E-003
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



C48_mosaic_to_latlon_mosaic_neareststod_test154.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc -w C48_mosaic_to_latlon_mosaic_neareststod_test154.nc -m neareststod  --tilefile_path ./input/  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/latlon_mosaic.nc
   Weight File: C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest source to destination
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/
 
 Completed weight generation successfully.
 
 C48_mosaic_to_latlon_mosaic_neareststod_test154.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00061142031638          Grid 1 max:    2.99938857909630     
 Grid 2 min:    1.00061142031638          Grid 2 max:    2.99938857909630     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   3.795423424000552E-003
 Maximum relative error  =   1.695787231948977E-002
 Least squares error     =   2.435772589047198E-003
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-03
  - Max  Relative Error: 10E-02
  - Area Conservation  : 10E-13



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -w ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc -m bilinear  -p none --extrap_method creep --extrap_num_levels 2  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: bilinear
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: creep
   Extrap. Number of Levels: 2
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00047588920170          Grid 2 max:    2.99952411079830     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =   0.899977150184365     
  
 Mean relative error     =   1.558286393633426E-004
 Maximum relative error  =   1.380293860629348E-003
 Least squares error     =   1.226696659668525E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc -w SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc -m patch  --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/SCRIP_1x1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/UGRID_1D_LocStream.nc
   Weight File: SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00022844523880          Grid 1 max:    2.99977155433651     
 Grid 2 min:    2.31624077537754          Grid 2 max:    2.34203205586905     
  
 Maximum negative weight =  -1.957075117443206E-002
 Maximum positive weight =   0.276846946046453     
  
 Mean relative error     =   2.638900083726143E-006
 Maximum relative error  =   3.594089632247074E-006
 Least squares error     =   1.164305602189104E-006
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-6
  - Max  Relative Error: 10E-6
  - Area Conservation  : 10E-13



----------------------------------------------------------



GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc -w GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc -m nearestdtos   --src_missingvalue so --dst_missingvalue so -i  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/GRIDSPEC_ACCESS1.nc
   Weight File: GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc
   Source File is in CF Grid format
     Use the missing values of variable 'so' as the mask
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in CF Grid format
     Use the missing value of 'so' as the mask
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00016071747178          Grid 1 max:    2.99983928210351     
 Grid 2 min:    1.00016071747178          Grid 2 max:    2.99983928210351     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc -w wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc -m nearestdtos   --src_loc corner --dst_loc corner  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/wam_ugrid3D.nc
   Weight File: wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
   Source File is in UGRID format
   Source Grid is a global grid
   Source Grid is an unstructured grid
   Use the corner coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the corner coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00081154478144          Grid 1 max:    2.99918845442253     
 Grid 2 min:    1.00081154478144          Grid 2 max:    2.99918845442253     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



C48_mosaic_to_C48_mosaic_nearestdtos_test159.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc -w C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc -m nearestdtos  --tilefile_path ./input/  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/C48_mosaic.nc
   Weight File: C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
   Source File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the source grid to do the regrid
   Destination File is in GRIDSPEC MOSAIC format
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
   Alternative tile file path: ./input/
 
 Completed weight generation successfully.
 
 C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00061142031638          Grid 1 max:    2.99938857909630     
 Grid 2 min:    1.00061142031638          Grid 2 max:    2.99938857909630     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc -w FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc -m nearestdtos  -r -i --src_loc center --dst_loc center --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/FVCOM_grid2d.nc
   Weight File: FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
   Source File is in UGRID format
   Source Grid is a regional grid
   Source Grid is an unstructured grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in UGRID format
   Destination Grid is a regional grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: nearest destination to source
   Pole option: NONE
   Ignore unmapped destination points
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.10419300301114          Grid 1 max:    1.26775042895620     
 Grid 2 min:    1.10419300301114          Grid 2 max:    1.26775042895620     
  
 Maximum negative weight =   0.000000000000000E+000
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   0.000000000000000E+000
 Maximum relative error  =   0.000000000000000E+000
 Least squares error     =   0.000000000000000E+000
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-16
  - Max  Relative Error: 10E-16
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll1deg_grid_to_ll2.5deg_grid_patch_test161.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -w ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc -m patch  -l greatcircle   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Weight File: ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: ALL
   Line Type: greatcircle
   Norm Type: dstarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00007615242062          Grid 1 max:    2.99992384757938     
 Grid 2 min:    1.00062807451853          Grid 2 max:    2.99937191934751     
  
 Maximum negative weight =  -2.025005869523182E-002
 Maximum positive weight =   0.383302617536930     
  
 Mean relative error     =   2.480228001714664E-005
 Maximum relative error  =   1.521129279495013E-004
 Least squares error     =   1.850970607177706E-005
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-05
  - Max  Relative Error: 10E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



T42_grid_to_mpas_uniform_10242_conserve2nd_test162.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/T42_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc -w T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc -m conserve2nd    --norm_type fracarea  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/T42_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/mpas_uniform_10242.nc
   Weight File: T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in ESMF format
   Destination Grid is a global grid
   Destination Grid is an unstructured grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: conserve2nd
   Pole option: NONE
   Line Type: greatcircle
   Norm Type: fracarea
   Extrap. Method: none
 
 Completed weight generation successfully.
 
 T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00059293675517          Grid 1 max:    2.99940706324483     
 Grid 2 min:   0.999834501528209          Grid 2 max:    2.99983468024680     
  
 Maximum negative weight =  -5.264420073280561E-002
 Maximum positive weight =    1.00000231964779     
  
 Mean relative error     =   3.872998081108462E-004
 Maximum relative error  =   3.537401710913031E-003
 Least squares error     =   2.734439565176199E-004
  
 Grid 1 area =    25.1327411638759     
 Grid 2 area =    25.1327411638759     
 Conservation error =   4.618527782440651E-014

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-14



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_patch_test163.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -w ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc -m patch  -p none --extrap_method neareststod   --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: neareststod
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00102723735249          Grid 2 max:    2.99897276264740     
  
 Maximum negative weight =  -6.682502409060438E-002
 Maximum positive weight =    1.00000000000000     
  
 Mean relative error     =   1.550119815639677E-004
 Maximum relative error  =   9.510125102059051E-004
 Least squares error     =   1.156586598291887E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_patch_test164.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -w ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc -m patch  -p none --extrap_method nearestidavg --extrap_num_dst_pnts 6 --extrap_dst_exponent 3.0  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: nearestidavg
   Extrap. Number of Source Points: 8
   Extrap. Dist. Exponent:    2.000000    
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00102723735249          Grid 2 max:    2.99897276264740     
  
 Maximum negative weight =  -6.682502409060438E-002
 Maximum positive weight =   0.635354652516442     
  
 Mean relative error     =   1.549795592271719E-004
 Maximum relative error  =   9.510125102059051E-004
 Least squares error     =   1.156476223505583E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 20E-05
  - Max  Relative Error: 20E-04
  - Area Conservation  : 10E-16



----------------------------------------------------------



ll2.5deg_grid_to_ll1deg_grid_patch_test165.out


mpirun -np 16  /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/install_dir/bin/binO/Linux.intel.64.intelmpi.default/ESMF_RegridWeightGen -s /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc -d /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-tests/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc -w ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc -m patch  -p none --extrap_method creep --extrap_num_levels 2  --check

 Starting weight generation with these inputs: 
   Source File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll2.5deg_grid.nc
   Destination File: 
 /glade/scratch/himanshu/scripts_dir/daily/bfb_testing/sanity/esmf-extended-test
 s/ESMF_RegridWeightGenCheck/input/ll1deg_grid.nc
   Weight File: ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
   Source File is in SCRIP format
   Source Grid is a global grid
   Source Grid is a logically rectangular grid
   Use the center coordinates of the source grid to do the regrid
   Destination File is in SCRIP format
   Destination Grid is a global grid
   Destination Grid is a logically rectangular grid
   Use the center coordinates of the destination grid to do the regrid
   Regrid Method: patch
   Pole option: NONE
   Line Type: cartesian
   Norm Type: dstarea
   Extrap. Method: creep
   Extrap. Number of Levels: 2
 
 Completed weight generation successfully.
 
 ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc - 
 ESMF Offline Regridding Weight Generator
  
 Grid 1 min:    1.00047588920170          Grid 1 max:    2.99952411079830     
 Grid 2 min:    1.00102723735249          Grid 2 max:    2.99897276264740     
  
 Maximum negative weight =  -6.682502409060401E-002
 Maximum positive weight =   0.696094936239628     
  
 Mean relative error     =   1.564039823984033E-004
 Maximum relative error  =   9.510125102059051E-004
 Least squares error     =   1.163295060577157E-004
  
 Grid 1 area = 0.000000000000000
 Grid 2 area = 0.000000000000000
 Conservation error = 0.000000000000000

Tolerance values:
  - Mean Relative Error: 10E-04
  - Max  Relative Error: 10E-03
  - Area Conservation  : 10E-16



----------------------------------------------------------



The following is the output of 'gmake run'

perl ./RegridWeightGenCheckDriver.pl > RegridWeightGenCheck.Log




|---------------------------------- BFB COMPARISIONS--------------------------|


Bit for Bit compare using ESMF_8_1_0_beta_snapshot_36-35-g260dae2aea as the baseline.


 The following tests passed:

ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
ar9v4_100920_to_T42_grid_bilinear_test30.nc
ar9v4_100920_to_T42_grid_conserve_test32.nc
ar9v4_100920_to_T42_grid_patch_test31.nc
ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
ar9v4_100920_to_wr50a_090614_conserve_test39.nc
ar9v4_100920_to_wr50a_090614_patch_test38.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc
C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
C48_mosaic_to_latlon_mosaic_conserve_test124.nc
C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
C48_mosaic_to_latlon_mosaic_patch_test123.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
latlon_grid_to_SCRIP_1x1_conserve_test140.nc
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc
ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
ll2.5deg_grid_to_T42_grid_patch_test11.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc
mpas_uniform_10242_to_T42_grid_conserve_test115.nc
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
ne30np4-t2_to_wr50a_090614_patch_test53.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
SCRIP_1x1_to_latlon_grid_conserve_test142.nc
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
T42_grid_to_ar9v4_100920_bilinear_test26.nc
T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
T42_grid_to_ar9v4_100920_conserve_test28.nc
T42_grid_to_ar9v4_100920_patch_test27.nc
T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
T42_grid_to_ll2.5deg_grid_patch_test12.nc
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
T42_grid_to_mpas_uniform_10242_conserve_test116.nc
T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
T42_grid_to_T42_grid_nearestdtos_test93.nc
T42_grid_to_T42_grid_neareststod_test90.nc
T42_grid_to_wr50a_090614_bilinear_test18.nc
T42_grid_to_wr50a_090614_conserve2nd_test21.nc
T42_grid_to_wr50a_090614_conserve_test20.nc
T42_grid_to_wr50a_090614_patch_test19.nc
T42_grid_to_ww3a_120213_conserve_test83.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
wr50a_090614_to_ar9v4_100920_conserve_test35.nc
wr50a_090614_to_ar9v4_100920_patch_test34.nc
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
wr50a_090614_to_ne30np4-t2_patch_test57.nc
wr50a_090614_to_T42_grid_bilinear_test22.nc
wr50a_090614_to_T42_grid_conserve2nd_test25.nc
wr50a_090614_to_T42_grid_conserve_test24.nc
wr50a_090614_to_T42_grid_patch_test23.nc
wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
wr50a_090614_to_wr50a_090614_neareststod_test89.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
ww3a_120213_to_T42_grid_conserve_test84.nc


 The following tests were not found:



 Ran  tests, 165 passed, 0 failed, and  were not found:


Bit for Bit compare using ESMF_8_1_0_beta_snapshot_10 as the baseline.


 The following tests passed:

ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
ar9v4_100920_to_T42_grid_bilinear_test30.nc
ar9v4_100920_to_T42_grid_conserve_test32.nc
ar9v4_100920_to_T42_grid_patch_test31.nc
ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
ar9v4_100920_to_wr50a_090614_conserve_test39.nc
ar9v4_100920_to_wr50a_090614_patch_test38.nc
C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
C48_mosaic_to_latlon_mosaic_patch_test123.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
ll2.5deg_grid_to_T42_grid_patch_test11.nc
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc
mpas_uniform_10242_to_T42_grid_conserve_test115.nc
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
ne30np4-t2_to_wr50a_090614_patch_test53.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc
SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
T42_grid_to_ar9v4_100920_bilinear_test26.nc
T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
T42_grid_to_ar9v4_100920_conserve_test28.nc
T42_grid_to_ar9v4_100920_patch_test27.nc
T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
T42_grid_to_ll2.5deg_grid_patch_test12.nc
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
T42_grid_to_mpas_uniform_10242_conserve_test116.nc
T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
T42_grid_to_T42_grid_nearestdtos_test93.nc
T42_grid_to_T42_grid_neareststod_test90.nc
T42_grid_to_wr50a_090614_bilinear_test18.nc
T42_grid_to_wr50a_090614_conserve2nd_test21.nc
T42_grid_to_wr50a_090614_conserve_test20.nc
T42_grid_to_wr50a_090614_patch_test19.nc
T42_grid_to_ww3a_120213_conserve_test83.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
wr50a_090614_to_ar9v4_100920_conserve_test35.nc
wr50a_090614_to_ar9v4_100920_patch_test34.nc
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
wr50a_090614_to_ne30np4-t2_patch_test57.nc
wr50a_090614_to_T42_grid_bilinear_test22.nc
wr50a_090614_to_T42_grid_conserve2nd_test25.nc
wr50a_090614_to_T42_grid_conserve_test24.nc
wr50a_090614_to_T42_grid_patch_test23.nc
wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
wr50a_090614_to_wr50a_090614_neareststod_test89.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
ww3a_120213_to_T42_grid_conserve_test84.nc


 The following tests failed:

ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
C48_mosaic_to_latlon_mosaic_conserve_test124.nc
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
latlon_grid_to_SCRIP_1x1_conserve_test140.nc
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
SCRIP_1x1_to_latlon_grid_conserve_test142.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc


 The following tests were not found:



 Ran  tests, 120 passed, 45 failed, and  were not found:


 The following is the output of the nccmp command:



Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /      1440 4.64039e-17 2.12192e-12 -3.44169e-15 3.55271e-15 6.99441e-15 3.22249e-20 1.62375e-15
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20  4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /         9 -5.50671e-14 5.50671e-14 -4.09672e-14 -2.22045e-16 4.07452e-14 -6.11856e-15 1.31424e-14
frac_b   /       359  1.12677e-12 4.77207e-12 -7.84928e-14  9.04832e-14 1.68976e-13  3.13862e-15 1.95532e-14
S        /       968  1.12811e-12 6.05696e-12 -7.63833e-14  9.23706e-14 1.68754e-13   1.1654e-15 1.20447e-14
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc

Variable Group Count          Sum      AbsSum          Min          Max      Range         Mean      StdDev
area_a   /       144 -4.22881e-18 4.22881e-18 -4.91279e-20 -9.74088e-21 3.9387e-20 -2.93667e-20 9.37603e-21
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         4  -2.1684e-19 9.32414e-18 -2.60209e-18 2.60209e-18 5.20417e-18 -5.42101e-20 2.71051e-18
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /         4 -9.34808e-14 9.34808e-14 -4.37428e-14 -3.9968e-15  3.9746e-14 -2.33702e-14   2.112e-14
frac_b   /       150 -3.96894e-12 4.39704e-12 -9.50351e-14 1.24345e-14  1.0747e-13 -2.64596e-14  3.4254e-14
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         4  -2.1684e-19 9.32414e-18 -2.60209e-18 2.60209e-18 5.20417e-18 -5.42101e-20 2.71051e-18
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /         4 -9.34808e-14 9.34808e-14 -4.37428e-14 -3.9968e-15  3.9746e-14 -2.33702e-14   2.112e-14
frac_b   /       126 -3.89833e-12 3.99958e-12 -9.19265e-14 6.99441e-15 9.89209e-14 -3.09391e-14 3.31326e-14
C48_mosaic_to_latlon_mosaic_conserve_test124.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /       143 -5.36793e-13  6.4293e-13 -1.72085e-14  4.21885e-15 2.14273e-14  -3.7538e-15 4.60685e-15
frac_b   /         9 -5.76206e-14 5.76206e-14 -4.22995e-14 -3.33067e-16 4.19664e-14 -6.40229e-15 1.35428e-14
S        /      1979 -5.81074e-14 1.25896e-07 -1.69893e-09  1.18742e-09 2.88635e-09  -2.9362e-17  1.5016e-10
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /       143 -5.36793e-13  6.4293e-13 -1.72085e-14  4.21885e-15 2.14273e-14  -3.7538e-15 4.60685e-15
frac_b   /         9 -5.76206e-14 5.76206e-14 -4.22995e-14 -3.33067e-16 4.19664e-14 -6.40229e-15 1.35428e-14
S        /       378 -5.79138e-14 5.84568e-14 -5.15213e-16  6.07153e-17 5.75928e-16 -1.53211e-16 1.29215e-16
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       148 2.31082e-18 2.33315e-14 -4.39597e-16 1.90733e-15 2.34693e-15 1.56136e-20 2.50789e-16
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean     StdDev
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20 2.1335e-20
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc

Variable Group Count          Sum     AbsSum          Min         Max       Range         Mean      StdDev
area_b   /       360 -8.60882e-18 1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc

Variable Group Count          Sum     AbsSum          Min         Max       Range         Mean      StdDev
area_b   /       360 -8.60882e-18 1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       143 -9.03722e-14 4.94937e-13 -1.15463e-14 1.03251e-14 2.18714e-14 -6.31973e-16 4.29986e-15
frac_b   /       567 -3.02658e-12 6.01885e-12 -8.81517e-14 2.69784e-14  1.1513e-13 -5.33788e-15 1.43659e-14
S        /       696 -3.02881e-12 6.71564e-12 -5.30687e-14 3.44169e-14 8.74856e-14 -4.35174e-15 1.26072e-14
latlon_grid_to_SCRIP_1x1_conserve_test140.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20 4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
area_b   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19 2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
frac_a   /       520 -3.46101e-12 5.92681e-12 -6.88338e-14  2.9754e-14 9.85878e-14 -6.65579e-15 1.52489e-14
frac_b   /       142   -3.606e-13 4.72511e-13 -1.15463e-14 7.77156e-15 1.93179e-14 -2.53944e-15 3.43588e-15
S        /     13264 -3.62149e-13 4.17106e-07 -1.21242e-09 1.21242e-09 2.42484e-09 -2.73031e-17 1.69108e-10
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20 4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
area_b   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19 2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
frac_a   /       520 -3.46101e-12 5.92681e-12 -6.88338e-14  2.9754e-14 9.85878e-14 -6.65579e-15 1.52489e-14
frac_b   /       142   -3.606e-13 4.72511e-13 -1.15463e-14 7.77156e-15 1.93179e-14 -2.53944e-15 3.43588e-15
S        /      1511 -3.62193e-13 9.56044e-13 -4.42701e-15 2.72005e-15 7.14706e-15 -2.39704e-16 8.60732e-16
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19  2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /       142 -4.66183e-13 8.55205e-13 -5.71765e-14  7.70495e-14 1.34226e-13 -3.28298e-15 1.13396e-14
frac_b   /        14 -6.11733e-14 6.11733e-14 -1.76525e-14 -1.11022e-16 1.75415e-14 -4.36952e-15  6.4983e-15
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19  2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /       142 -4.66183e-13 8.55205e-13 -5.71765e-14  7.70495e-14 1.34226e-13 -3.28298e-15 1.13396e-14
frac_b   /        14 -6.11733e-14 6.11733e-14 -1.76525e-14 -1.11022e-16 1.75415e-14 -4.36952e-15  6.4983e-15
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
area_b   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20  4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
frac_a   /         5 -3.48055e-13 3.48055e-13 -1.87961e-13 -2.10942e-15 1.85851e-13  -6.9611e-14 8.02373e-14
frac_b   /       636 -5.76335e-11 6.30671e-11 -7.21645e-13  8.06244e-13 1.52789e-12 -9.06186e-14 1.75625e-13
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
area_b   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20  4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
frac_a   /         5 -3.48055e-13 3.48055e-13 -1.87961e-13 -2.10942e-15 1.85851e-13  -6.9611e-14 8.02373e-14
frac_b   /       588 -5.83542e-11 5.96947e-11 -7.21645e-13  3.45279e-14 7.56173e-13 -9.92419e-14 1.73738e-13
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /     10762 -1.67766e-13 5.32352e-12 -4.06619e-15 3.77476e-15 7.84095e-15 -1.55887e-17 7.26984e-16
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /        15 1.66533e-16 1.01585e-14 -1.05471e-15 1.05471e-15 2.10942e-15 1.11022e-17 7.82856e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /         4  3.33067e-16 3.44169e-15 -1.11022e-15 1.33227e-15 2.44249e-15  8.32667e-17 1.07783e-15
frac_b   /         5  4.44089e-16 1.33227e-15 -2.22045e-16 4.44089e-16 6.66134e-16  8.88178e-17 2.97904e-16
S        /       213 -3.80826e-17 1.21944e-14  -1.4988e-15 1.91513e-15 3.41394e-15 -1.78792e-19 2.10761e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /         4  3.33067e-16 3.44169e-15 -1.11022e-15 1.33227e-15 2.44249e-15  8.32667e-17 1.07783e-15
frac_b   /         5  4.44089e-16 1.33227e-15 -2.22045e-16 4.44089e-16 6.66134e-16  8.88178e-17 2.97904e-16
S        /        15 -8.32667e-17 8.85403e-15 -1.55431e-15 1.97065e-15 3.52496e-15 -5.55112e-18 8.34792e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc

Variable Group Count         Sum     AbsSum          Min         Max      Range        Mean      StdDev
S        /       165 8.58336e-16 3.9925e-14 -1.08941e-15 1.44329e-15 2.5327e-15 5.20203e-18 3.65256e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /        80 2.59451e-16 9.25814e-14 -8.43769e-15 6.62411e-15 1.50618e-14 3.24314e-18 1.77013e-15
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         4  6.66134e-16 1.77636e-15 -3.33067e-16 7.77156e-16 1.11022e-15 1.66533e-16 5.32444e-16
frac_b   /        25  2.77556e-15 1.34337e-14 -7.77156e-16 2.66454e-15 3.44169e-15 1.11022e-16 7.38528e-16
S        /        60  2.99251e-15 1.95063e-13 -1.59872e-14 1.60982e-14 3.20854e-14 4.98751e-17 5.26409e-15
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc

Variable Group Count          Sum      AbsSum          Min         Max      Range         Mean      StdDev
S        /      1151 -1.98526e-14 5.08646e-13 -4.42701e-15 4.63518e-15 9.0622e-15 -1.72481e-17 7.16401e-16
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         2  3.33067e-16 3.33067e-16  1.11022e-16 2.22045e-16 1.11022e-16 1.66533e-16 7.85046e-17
frac_b   /         4  6.66134e-16 2.66454e-15 -5.55112e-16 1.33227e-15 1.88738e-15 1.66533e-16 8.71837e-16
S        /       109  4.96399e-16  1.6233e-14 -1.38778e-15 1.88738e-15 3.27516e-15 4.55412e-18  3.8519e-16
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         2  3.33067e-16 3.33067e-16  1.11022e-16 2.22045e-16 1.11022e-16 1.66533e-16 7.85046e-17
frac_b   /         4  6.66134e-16 2.66454e-15 -5.55112e-16 1.33227e-15 1.88738e-15 1.66533e-16 8.71837e-16
S        /        15  5.55112e-16 1.37668e-14 -1.22125e-15 1.66533e-15 2.88658e-15 3.70074e-17 1.04141e-15
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         4            0 6.50521e-18  -1.6263e-18   1.6263e-18 3.25261e-18            0 1.87789e-18
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         4 -1.04916e-13 1.04916e-13 -4.91829e-14 -5.55112e-15 4.36318e-14  -2.6229e-14 2.34721e-14
frac_b   /       205  -1.1206e-11 1.13266e-11 -3.47056e-13  8.43769e-15 3.55493e-13 -5.46636e-14 8.28622e-14
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc

Variable Group Count       Sum     AbsSum          Min         Max       Range        Mean      StdDev
S        /       572 6.245e-17 9.0921e-13 -3.66374e-15 3.60822e-15 7.27196e-15 1.09178e-19 1.75757e-15
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       564 5.06539e-16 9.04651e-13 -3.77476e-15 3.77476e-15 7.54952e-15 8.98119e-19 1.77033e-15
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc

Variable Group Count       Sum     AbsSum          Min         Max       Range        Mean      StdDev
S        /       572 6.245e-17 9.0921e-13 -3.66374e-15 3.60822e-15 7.27196e-15 1.09178e-19 1.75757e-15
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         9 -5.40679e-14 5.40679e-14 -4.06342e-14 -2.22045e-16 4.04121e-14 -6.00754e-15 1.30528e-14
frac_b   /       141 -4.05009e-13 7.64278e-13 -1.62093e-14  1.11022e-14 2.73115e-14 -2.87241e-15 6.03062e-15
S        /      3019 -4.06652e-13 1.48149e-12 -1.15463e-14  1.34337e-14   2.498e-14 -1.34698e-16 1.42601e-15
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         9 -5.40679e-14 5.40679e-14 -4.06342e-14 -2.22045e-16 4.04121e-14 -6.00754e-15 1.30528e-14
frac_b   /       141 -4.05009e-13 7.64278e-13 -1.62093e-14  1.11022e-14 2.73115e-14 -2.87241e-15 6.03062e-15
S        /       390 -4.05888e-13 1.20591e-12 -1.12133e-14  1.35447e-14  2.4758e-14 -1.04074e-15 3.82558e-15
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /      3766 -1.71468e-13 2.08621e-12 -7.49401e-15 6.32827e-15 1.38223e-14 -4.55305e-17 9.77796e-16
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean     StdDev
S        /        36 -1.67374e-16 2.82374e-14 -3.20317e-15 2.52229e-15 5.72545e-15 -4.64927e-18 1.1934e-15
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc

Variable Group Count          Sum      AbsSum         Min         Max       Range         Mean      StdDev
S        /        79 -1.00044e-14 3.14332e-14 -2.9976e-15 1.77636e-15 4.77396e-15 -1.26638e-16 6.53829e-16
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /       377 -3.33578e-12 4.58922e-12 -7.84928e-14 2.39808e-14 1.02474e-13 -8.84821e-15 1.50878e-14
frac_b   /       140 -1.34559e-13 5.07816e-13 -1.28786e-14 9.65894e-15 2.25375e-14 -9.61136e-16 4.49592e-15
S        /      1008 -1.35285e-13 1.15768e-12 -6.30052e-15 4.77396e-15 1.10745e-14 -1.34211e-16 1.58086e-15
SCRIP_1x1_to_latlon_grid_conserve_test142.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -8.60882e-18  1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       101 -2.74114e-13 1.29174e-12 -4.59632e-14 3.45279e-14 8.04912e-14   -2.714e-15 1.62669e-14
frac_b   /       120  2.88658e-15 1.54698e-12 -3.44169e-14  3.4861e-14 6.92779e-14  2.40548e-17 1.61321e-14
S        /      3874   2.2218e-15 1.66875e-12 -3.44169e-14 3.44169e-14 6.88338e-14  5.73516e-19 2.39529e-15
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -8.60882e-18  1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       101 -2.74114e-13 1.29174e-12 -4.59632e-14 3.45279e-14 8.04912e-14   -2.714e-15 1.62669e-14
frac_b   /       101  2.22045e-15 1.19904e-12 -3.44169e-14 3.44169e-14 6.88338e-14  2.19846e-17 1.47979e-14
S        /       101  2.22045e-15 1.19904e-12 -3.44169e-14 3.44169e-14 6.88338e-14  2.19846e-17 1.47979e-14
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc






Bit for Bit compare using ESMF_8_1_0_beta_snapshot_15 as the baseline.


 The following tests passed:

ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
ar9v4_100920_to_T42_grid_bilinear_test30.nc
ar9v4_100920_to_T42_grid_conserve_test32.nc
ar9v4_100920_to_T42_grid_patch_test31.nc
ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
ar9v4_100920_to_wr50a_090614_conserve_test39.nc
ar9v4_100920_to_wr50a_090614_patch_test38.nc
C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
C48_mosaic_to_latlon_mosaic_patch_test123.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
ll2.5deg_grid_to_T42_grid_patch_test11.nc
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc
mpas_uniform_10242_to_T42_grid_conserve_test115.nc
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
ne30np4-t2_to_wr50a_090614_patch_test53.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc
SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
T42_grid_to_ar9v4_100920_bilinear_test26.nc
T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
T42_grid_to_ar9v4_100920_conserve_test28.nc
T42_grid_to_ar9v4_100920_patch_test27.nc
T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
T42_grid_to_ll2.5deg_grid_patch_test12.nc
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
T42_grid_to_mpas_uniform_10242_conserve_test116.nc
T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
T42_grid_to_T42_grid_nearestdtos_test93.nc
T42_grid_to_T42_grid_neareststod_test90.nc
T42_grid_to_wr50a_090614_bilinear_test18.nc
T42_grid_to_wr50a_090614_conserve2nd_test21.nc
T42_grid_to_wr50a_090614_conserve_test20.nc
T42_grid_to_wr50a_090614_patch_test19.nc
T42_grid_to_ww3a_120213_conserve_test83.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
wr50a_090614_to_ar9v4_100920_conserve_test35.nc
wr50a_090614_to_ar9v4_100920_patch_test34.nc
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
wr50a_090614_to_ne30np4-t2_patch_test57.nc
wr50a_090614_to_T42_grid_bilinear_test22.nc
wr50a_090614_to_T42_grid_conserve2nd_test25.nc
wr50a_090614_to_T42_grid_conserve_test24.nc
wr50a_090614_to_T42_grid_patch_test23.nc
wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
wr50a_090614_to_wr50a_090614_neareststod_test89.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
ww3a_120213_to_T42_grid_conserve_test84.nc


 The following tests failed:

ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
C48_mosaic_to_latlon_mosaic_conserve_test124.nc
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
latlon_grid_to_SCRIP_1x1_conserve_test140.nc
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
SCRIP_1x1_to_latlon_grid_conserve_test142.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc


 The following tests were not found:



 Ran  tests, 120 passed, 45 failed, and  were not found:


 The following is the output of the nccmp command:



Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /      1440 4.64039e-17 2.12192e-12 -3.44169e-15 3.55271e-15 6.99441e-15 3.22249e-20 1.62375e-15
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20  4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /         9 -5.50671e-14 5.50671e-14 -4.09672e-14 -2.22045e-16 4.07452e-14 -6.11856e-15 1.31424e-14
frac_b   /       359  1.12677e-12 4.77207e-12 -7.84928e-14  9.04832e-14 1.68976e-13  3.13862e-15 1.95532e-14
S        /       968  1.12811e-12 6.05696e-12 -7.63833e-14  9.23706e-14 1.68754e-13   1.1654e-15 1.20447e-14
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc

Variable Group Count          Sum      AbsSum          Min          Max      Range         Mean      StdDev
area_a   /       144 -4.22881e-18 4.22881e-18 -4.91279e-20 -9.74088e-21 3.9387e-20 -2.93667e-20 9.37603e-21
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         4  -2.1684e-19 9.32414e-18 -2.60209e-18 2.60209e-18 5.20417e-18 -5.42101e-20 2.71051e-18
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /         4 -9.34808e-14 9.34808e-14 -4.37428e-14 -3.9968e-15  3.9746e-14 -2.33702e-14   2.112e-14
frac_b   /       150 -3.96894e-12 4.39704e-12 -9.50351e-14 1.24345e-14  1.0747e-13 -2.64596e-14  3.4254e-14
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         4  -2.1684e-19 9.32414e-18 -2.60209e-18 2.60209e-18 5.20417e-18 -5.42101e-20 2.71051e-18
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /         4 -9.34808e-14 9.34808e-14 -4.37428e-14 -3.9968e-15  3.9746e-14 -2.33702e-14   2.112e-14
frac_b   /       126 -3.89833e-12 3.99958e-12 -9.19265e-14 6.99441e-15 9.89209e-14 -3.09391e-14 3.31326e-14
C48_mosaic_to_latlon_mosaic_conserve_test124.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /       143 -5.36793e-13  6.4293e-13 -1.72085e-14  4.21885e-15 2.14273e-14  -3.7538e-15 4.60685e-15
frac_b   /         9 -5.76206e-14 5.76206e-14 -4.22995e-14 -3.33067e-16 4.19664e-14 -6.40229e-15 1.35428e-14
S        /      1979 -5.81074e-14 1.25896e-07 -1.69893e-09  1.18742e-09 2.88635e-09  -2.9362e-17  1.5016e-10
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /       143 -5.36793e-13  6.4293e-13 -1.72085e-14  4.21885e-15 2.14273e-14  -3.7538e-15 4.60685e-15
frac_b   /         9 -5.76206e-14 5.76206e-14 -4.22995e-14 -3.33067e-16 4.19664e-14 -6.40229e-15 1.35428e-14
S        /       378 -5.79138e-14 5.84568e-14 -5.15213e-16  6.07153e-17 5.75928e-16 -1.53211e-16 1.29215e-16
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       148 2.31082e-18 2.33315e-14 -4.39597e-16 1.90733e-15 2.34693e-15 1.56136e-20 2.50789e-16
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean     StdDev
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20 2.1335e-20
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc

Variable Group Count          Sum     AbsSum          Min         Max       Range         Mean      StdDev
area_b   /       360 -8.60882e-18 1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc

Variable Group Count          Sum     AbsSum          Min         Max       Range         Mean      StdDev
area_b   /       360 -8.60882e-18 1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       143 -9.03722e-14 4.94937e-13 -1.15463e-14 1.03251e-14 2.18714e-14 -6.31973e-16 4.29986e-15
frac_b   /       567 -3.02658e-12 6.01885e-12 -8.81517e-14 2.69784e-14  1.1513e-13 -5.33788e-15 1.43659e-14
S        /       696 -3.02881e-12 6.71564e-12 -5.30687e-14 3.44169e-14 8.74856e-14 -4.35174e-15 1.26072e-14
latlon_grid_to_SCRIP_1x1_conserve_test140.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20 4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
area_b   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19 2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
frac_a   /       520 -3.46101e-12 5.92681e-12 -6.88338e-14  2.9754e-14 9.85878e-14 -6.65579e-15 1.52489e-14
frac_b   /       142   -3.606e-13 4.72511e-13 -1.15463e-14 7.77156e-15 1.93179e-14 -2.53944e-15 3.43588e-15
S        /     13264 -3.62149e-13 4.17106e-07 -1.21242e-09 1.21242e-09 2.42484e-09 -2.73031e-17 1.69108e-10
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20 4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
area_b   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19 2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
frac_a   /       520 -3.46101e-12 5.92681e-12 -6.88338e-14  2.9754e-14 9.85878e-14 -6.65579e-15 1.52489e-14
frac_b   /       142   -3.606e-13 4.72511e-13 -1.15463e-14 7.77156e-15 1.93179e-14 -2.53944e-15 3.43588e-15
S        /      1511 -3.62193e-13 9.56044e-13 -4.42701e-15 2.72005e-15 7.14706e-15 -2.39704e-16 8.60732e-16
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19  2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /       142 -4.66183e-13 8.55205e-13 -5.71765e-14  7.70495e-14 1.34226e-13 -3.28298e-15 1.13396e-14
frac_b   /        14 -6.11733e-14 6.11733e-14 -1.76525e-14 -1.11022e-16 1.75415e-14 -4.36952e-15  6.4983e-15
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19  2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /       142 -4.66183e-13 8.55205e-13 -5.71765e-14  7.70495e-14 1.34226e-13 -3.28298e-15 1.13396e-14
frac_b   /        14 -6.11733e-14 6.11733e-14 -1.76525e-14 -1.11022e-16 1.75415e-14 -4.36952e-15  6.4983e-15
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
area_b   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20  4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
frac_a   /         5 -3.48055e-13 3.48055e-13 -1.87961e-13 -2.10942e-15 1.85851e-13  -6.9611e-14 8.02373e-14
frac_b   /       636 -5.76335e-11 6.30671e-11 -7.21645e-13  8.06244e-13 1.52789e-12 -9.06186e-14 1.75625e-13
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
area_b   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20  4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
frac_a   /         5 -3.48055e-13 3.48055e-13 -1.87961e-13 -2.10942e-15 1.85851e-13  -6.9611e-14 8.02373e-14
frac_b   /       588 -5.83542e-11 5.96947e-11 -7.21645e-13  3.45279e-14 7.56173e-13 -9.92419e-14 1.73738e-13
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /     10762 -1.67766e-13 5.32352e-12 -4.06619e-15 3.77476e-15 7.84095e-15 -1.55887e-17 7.26984e-16
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /        15 1.66533e-16 1.01585e-14 -1.05471e-15 1.05471e-15 2.10942e-15 1.11022e-17 7.82856e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /         4  3.33067e-16 3.44169e-15 -1.11022e-15 1.33227e-15 2.44249e-15  8.32667e-17 1.07783e-15
frac_b   /         5  4.44089e-16 1.33227e-15 -2.22045e-16 4.44089e-16 6.66134e-16  8.88178e-17 2.97904e-16
S        /       213 -3.80826e-17 1.21944e-14  -1.4988e-15 1.91513e-15 3.41394e-15 -1.78792e-19 2.10761e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /         4  3.33067e-16 3.44169e-15 -1.11022e-15 1.33227e-15 2.44249e-15  8.32667e-17 1.07783e-15
frac_b   /         5  4.44089e-16 1.33227e-15 -2.22045e-16 4.44089e-16 6.66134e-16  8.88178e-17 2.97904e-16
S        /        15 -8.32667e-17 8.85403e-15 -1.55431e-15 1.97065e-15 3.52496e-15 -5.55112e-18 8.34792e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc

Variable Group Count         Sum     AbsSum          Min         Max      Range        Mean      StdDev
S        /       165 8.58336e-16 3.9925e-14 -1.08941e-15 1.44329e-15 2.5327e-15 5.20203e-18 3.65256e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /        80 2.59451e-16 9.25814e-14 -8.43769e-15 6.62411e-15 1.50618e-14 3.24314e-18 1.77013e-15
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         4  6.66134e-16 1.77636e-15 -3.33067e-16 7.77156e-16 1.11022e-15 1.66533e-16 5.32444e-16
frac_b   /        25  2.77556e-15 1.34337e-14 -7.77156e-16 2.66454e-15 3.44169e-15 1.11022e-16 7.38528e-16
S        /        60  2.99251e-15 1.95063e-13 -1.59872e-14 1.60982e-14 3.20854e-14 4.98751e-17 5.26409e-15
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc

Variable Group Count          Sum      AbsSum          Min         Max      Range         Mean      StdDev
S        /      1151 -1.98526e-14 5.08646e-13 -4.42701e-15 4.63518e-15 9.0622e-15 -1.72481e-17 7.16401e-16
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         2  3.33067e-16 3.33067e-16  1.11022e-16 2.22045e-16 1.11022e-16 1.66533e-16 7.85046e-17
frac_b   /         4  6.66134e-16 2.66454e-15 -5.55112e-16 1.33227e-15 1.88738e-15 1.66533e-16 8.71837e-16
S        /       109  4.96399e-16  1.6233e-14 -1.38778e-15 1.88738e-15 3.27516e-15 4.55412e-18  3.8519e-16
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         2  3.33067e-16 3.33067e-16  1.11022e-16 2.22045e-16 1.11022e-16 1.66533e-16 7.85046e-17
frac_b   /         4  6.66134e-16 2.66454e-15 -5.55112e-16 1.33227e-15 1.88738e-15 1.66533e-16 8.71837e-16
S        /        15  5.55112e-16 1.37668e-14 -1.22125e-15 1.66533e-15 2.88658e-15 3.70074e-17 1.04141e-15
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         4            0 6.50521e-18  -1.6263e-18   1.6263e-18 3.25261e-18            0 1.87789e-18
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         4 -1.04916e-13 1.04916e-13 -4.91829e-14 -5.55112e-15 4.36318e-14  -2.6229e-14 2.34721e-14
frac_b   /       205  -1.1206e-11 1.13266e-11 -3.47056e-13  8.43769e-15 3.55493e-13 -5.46636e-14 8.28622e-14
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc

Variable Group Count       Sum     AbsSum          Min         Max       Range        Mean      StdDev
S        /       572 6.245e-17 9.0921e-13 -3.66374e-15 3.60822e-15 7.27196e-15 1.09178e-19 1.75757e-15
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       564 5.06539e-16 9.04651e-13 -3.77476e-15 3.77476e-15 7.54952e-15 8.98119e-19 1.77033e-15
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc

Variable Group Count       Sum     AbsSum          Min         Max       Range        Mean      StdDev
S        /       572 6.245e-17 9.0921e-13 -3.66374e-15 3.60822e-15 7.27196e-15 1.09178e-19 1.75757e-15
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         9 -5.40679e-14 5.40679e-14 -4.06342e-14 -2.22045e-16 4.04121e-14 -6.00754e-15 1.30528e-14
frac_b   /       141 -4.05009e-13 7.64278e-13 -1.62093e-14  1.11022e-14 2.73115e-14 -2.87241e-15 6.03062e-15
S        /      3019 -4.06652e-13 1.48149e-12 -1.15463e-14  1.34337e-14   2.498e-14 -1.34698e-16 1.42601e-15
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         9 -5.40679e-14 5.40679e-14 -4.06342e-14 -2.22045e-16 4.04121e-14 -6.00754e-15 1.30528e-14
frac_b   /       141 -4.05009e-13 7.64278e-13 -1.62093e-14  1.11022e-14 2.73115e-14 -2.87241e-15 6.03062e-15
S        /       390 -4.05888e-13 1.20591e-12 -1.12133e-14  1.35447e-14  2.4758e-14 -1.04074e-15 3.82558e-15
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /      3766 -1.71468e-13 2.08621e-12 -7.49401e-15 6.32827e-15 1.38223e-14 -4.55305e-17 9.77796e-16
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean     StdDev
S        /        36 -1.67374e-16 2.82374e-14 -3.20317e-15 2.52229e-15 5.72545e-15 -4.64927e-18 1.1934e-15
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc

Variable Group Count          Sum      AbsSum         Min         Max       Range         Mean      StdDev
S        /        79 -1.00044e-14 3.14332e-14 -2.9976e-15 1.77636e-15 4.77396e-15 -1.26638e-16 6.53829e-16
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /       377 -3.33578e-12 4.58922e-12 -7.84928e-14 2.39808e-14 1.02474e-13 -8.84821e-15 1.50878e-14
frac_b   /       140 -1.34559e-13 5.07816e-13 -1.28786e-14 9.65894e-15 2.25375e-14 -9.61136e-16 4.49592e-15
S        /      1008 -1.35285e-13 1.15768e-12 -6.30052e-15 4.77396e-15 1.10745e-14 -1.34211e-16 1.58086e-15
SCRIP_1x1_to_latlon_grid_conserve_test142.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -8.60882e-18  1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       101 -2.74114e-13 1.29174e-12 -4.59632e-14 3.45279e-14 8.04912e-14   -2.714e-15 1.62669e-14
frac_b   /       120  2.88658e-15 1.54698e-12 -3.44169e-14  3.4861e-14 6.92779e-14  2.40548e-17 1.61321e-14
S        /      3874   2.2218e-15 1.66875e-12 -3.44169e-14 3.44169e-14 6.88338e-14  5.73516e-19 2.39529e-15
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -8.60882e-18  1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       101 -2.74114e-13 1.29174e-12 -4.59632e-14 3.45279e-14 8.04912e-14   -2.714e-15 1.62669e-14
frac_b   /       101  2.22045e-15 1.19904e-12 -3.44169e-14 3.44169e-14 6.88338e-14  2.19846e-17 1.47979e-14
S        /       101  2.22045e-15 1.19904e-12 -3.44169e-14 3.44169e-14 6.88338e-14  2.19846e-17 1.47979e-14
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc






Bit for Bit compare using ESMF_8_1_0_beta_snapshot_20 as the baseline.


 The following tests passed:

ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
ar9v4_100920_to_T42_grid_bilinear_test30.nc
ar9v4_100920_to_T42_grid_conserve_test32.nc
ar9v4_100920_to_T42_grid_patch_test31.nc
ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
ar9v4_100920_to_wr50a_090614_conserve_test39.nc
ar9v4_100920_to_wr50a_090614_patch_test38.nc
C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
C48_mosaic_to_latlon_mosaic_patch_test123.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
ll2.5deg_grid_to_T42_grid_patch_test11.nc
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc
mpas_uniform_10242_to_T42_grid_conserve_test115.nc
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
ne30np4-t2_to_wr50a_090614_patch_test53.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc
SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
T42_grid_to_ar9v4_100920_bilinear_test26.nc
T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
T42_grid_to_ar9v4_100920_conserve_test28.nc
T42_grid_to_ar9v4_100920_patch_test27.nc
T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
T42_grid_to_ll2.5deg_grid_patch_test12.nc
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
T42_grid_to_mpas_uniform_10242_conserve_test116.nc
T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
T42_grid_to_T42_grid_nearestdtos_test93.nc
T42_grid_to_T42_grid_neareststod_test90.nc
T42_grid_to_wr50a_090614_bilinear_test18.nc
T42_grid_to_wr50a_090614_conserve2nd_test21.nc
T42_grid_to_wr50a_090614_conserve_test20.nc
T42_grid_to_wr50a_090614_patch_test19.nc
T42_grid_to_ww3a_120213_conserve_test83.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
wr50a_090614_to_ar9v4_100920_conserve_test35.nc
wr50a_090614_to_ar9v4_100920_patch_test34.nc
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
wr50a_090614_to_ne30np4-t2_patch_test57.nc
wr50a_090614_to_T42_grid_bilinear_test22.nc
wr50a_090614_to_T42_grid_conserve2nd_test25.nc
wr50a_090614_to_T42_grid_conserve_test24.nc
wr50a_090614_to_T42_grid_patch_test23.nc
wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
wr50a_090614_to_wr50a_090614_neareststod_test89.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
ww3a_120213_to_T42_grid_conserve_test84.nc


 The following tests failed:

ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
C48_mosaic_to_latlon_mosaic_conserve_test124.nc
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
latlon_grid_to_SCRIP_1x1_conserve_test140.nc
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
SCRIP_1x1_to_latlon_grid_conserve_test142.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc


 The following tests were not found:



 Ran  tests, 120 passed, 45 failed, and  were not found:


 The following is the output of the nccmp command:



Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /      1440 4.64039e-17 2.12192e-12 -3.44169e-15 3.55271e-15 6.99441e-15 3.22249e-20 1.62375e-15
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20  4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /         9 -5.50671e-14 5.50671e-14 -4.09672e-14 -2.22045e-16 4.07452e-14 -6.11856e-15 1.31424e-14
frac_b   /       359  1.12677e-12 4.77207e-12 -7.84928e-14  9.04832e-14 1.68976e-13  3.13862e-15 1.95532e-14
S        /       968  1.12811e-12 6.05696e-12 -7.63833e-14  9.23706e-14 1.68754e-13   1.1654e-15 1.20447e-14
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc

Variable Group Count          Sum      AbsSum          Min          Max      Range         Mean      StdDev
area_a   /       144 -4.22881e-18 4.22881e-18 -4.91279e-20 -9.74088e-21 3.9387e-20 -2.93667e-20 9.37603e-21
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         4  -2.1684e-19 9.32414e-18 -2.60209e-18 2.60209e-18 5.20417e-18 -5.42101e-20 2.71051e-18
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /         4 -9.34808e-14 9.34808e-14 -4.37428e-14 -3.9968e-15  3.9746e-14 -2.33702e-14   2.112e-14
frac_b   /       150 -3.96894e-12 4.39704e-12 -9.50351e-14 1.24345e-14  1.0747e-13 -2.64596e-14  3.4254e-14
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         4  -2.1684e-19 9.32414e-18 -2.60209e-18 2.60209e-18 5.20417e-18 -5.42101e-20 2.71051e-18
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /         4 -9.34808e-14 9.34808e-14 -4.37428e-14 -3.9968e-15  3.9746e-14 -2.33702e-14   2.112e-14
frac_b   /       126 -3.89833e-12 3.99958e-12 -9.19265e-14 6.99441e-15 9.89209e-14 -3.09391e-14 3.31326e-14
C48_mosaic_to_latlon_mosaic_conserve_test124.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /       143 -5.36793e-13  6.4293e-13 -1.72085e-14  4.21885e-15 2.14273e-14  -3.7538e-15 4.60685e-15
frac_b   /         9 -5.76206e-14 5.76206e-14 -4.22995e-14 -3.33067e-16 4.19664e-14 -6.40229e-15 1.35428e-14
S        /      1979 -5.81074e-14 1.25896e-07 -1.69893e-09  1.18742e-09 2.88635e-09  -2.9362e-17  1.5016e-10
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /       143 -5.36793e-13  6.4293e-13 -1.72085e-14  4.21885e-15 2.14273e-14  -3.7538e-15 4.60685e-15
frac_b   /         9 -5.76206e-14 5.76206e-14 -4.22995e-14 -3.33067e-16 4.19664e-14 -6.40229e-15 1.35428e-14
S        /       378 -5.79138e-14 5.84568e-14 -5.15213e-16  6.07153e-17 5.75928e-16 -1.53211e-16 1.29215e-16
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       148 2.31082e-18 2.33315e-14 -4.39597e-16 1.90733e-15 2.34693e-15 1.56136e-20 2.50789e-16
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean     StdDev
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20 2.1335e-20
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc

Variable Group Count          Sum     AbsSum          Min         Max       Range         Mean      StdDev
area_b   /       360 -8.60882e-18 1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc

Variable Group Count          Sum     AbsSum          Min         Max       Range         Mean      StdDev
area_b   /       360 -8.60882e-18 1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       143 -9.03722e-14 4.94937e-13 -1.15463e-14 1.03251e-14 2.18714e-14 -6.31973e-16 4.29986e-15
frac_b   /       567 -3.02658e-12 6.01885e-12 -8.81517e-14 2.69784e-14  1.1513e-13 -5.33788e-15 1.43659e-14
S        /       696 -3.02881e-12 6.71564e-12 -5.30687e-14 3.44169e-14 8.74856e-14 -4.35174e-15 1.26072e-14
latlon_grid_to_SCRIP_1x1_conserve_test140.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20 4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
area_b   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19 2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
frac_a   /       520 -3.46101e-12 5.92681e-12 -6.88338e-14  2.9754e-14 9.85878e-14 -6.65579e-15 1.52489e-14
frac_b   /       142   -3.606e-13 4.72511e-13 -1.15463e-14 7.77156e-15 1.93179e-14 -2.53944e-15 3.43588e-15
S        /     13264 -3.62149e-13 4.17106e-07 -1.21242e-09 1.21242e-09 2.42484e-09 -2.73031e-17 1.69108e-10
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20 4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
area_b   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19 2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
frac_a   /       520 -3.46101e-12 5.92681e-12 -6.88338e-14  2.9754e-14 9.85878e-14 -6.65579e-15 1.52489e-14
frac_b   /       142   -3.606e-13 4.72511e-13 -1.15463e-14 7.77156e-15 1.93179e-14 -2.53944e-15 3.43588e-15
S        /      1511 -3.62193e-13 9.56044e-13 -4.42701e-15 2.72005e-15 7.14706e-15 -2.39704e-16 8.60732e-16
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19  2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /       142 -4.66183e-13 8.55205e-13 -5.71765e-14  7.70495e-14 1.34226e-13 -3.28298e-15 1.13396e-14
frac_b   /        14 -6.11733e-14 6.11733e-14 -1.76525e-14 -1.11022e-16 1.75415e-14 -4.36952e-15  6.4983e-15
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19  2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /       142 -4.66183e-13 8.55205e-13 -5.71765e-14  7.70495e-14 1.34226e-13 -3.28298e-15 1.13396e-14
frac_b   /        14 -6.11733e-14 6.11733e-14 -1.76525e-14 -1.11022e-16 1.75415e-14 -4.36952e-15  6.4983e-15
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
area_b   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20  4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
frac_a   /         5 -3.48055e-13 3.48055e-13 -1.87961e-13 -2.10942e-15 1.85851e-13  -6.9611e-14 8.02373e-14
frac_b   /       636 -5.76335e-11 6.30671e-11 -7.21645e-13  8.06244e-13 1.52789e-12 -9.06186e-14 1.75625e-13
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
area_b   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20  4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
frac_a   /         5 -3.48055e-13 3.48055e-13 -1.87961e-13 -2.10942e-15 1.85851e-13  -6.9611e-14 8.02373e-14
frac_b   /       588 -5.83542e-11 5.96947e-11 -7.21645e-13  3.45279e-14 7.56173e-13 -9.92419e-14 1.73738e-13
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /     10762 -1.67766e-13 5.32352e-12 -4.06619e-15 3.77476e-15 7.84095e-15 -1.55887e-17 7.26984e-16
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /        15 1.66533e-16 1.01585e-14 -1.05471e-15 1.05471e-15 2.10942e-15 1.11022e-17 7.82856e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /         4  3.33067e-16 3.44169e-15 -1.11022e-15 1.33227e-15 2.44249e-15  8.32667e-17 1.07783e-15
frac_b   /         5  4.44089e-16 1.33227e-15 -2.22045e-16 4.44089e-16 6.66134e-16  8.88178e-17 2.97904e-16
S        /       213 -3.80826e-17 1.21944e-14  -1.4988e-15 1.91513e-15 3.41394e-15 -1.78792e-19 2.10761e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /         4  3.33067e-16 3.44169e-15 -1.11022e-15 1.33227e-15 2.44249e-15  8.32667e-17 1.07783e-15
frac_b   /         5  4.44089e-16 1.33227e-15 -2.22045e-16 4.44089e-16 6.66134e-16  8.88178e-17 2.97904e-16
S        /        15 -8.32667e-17 8.85403e-15 -1.55431e-15 1.97065e-15 3.52496e-15 -5.55112e-18 8.34792e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc

Variable Group Count         Sum     AbsSum          Min         Max      Range        Mean      StdDev
S        /       165 8.58336e-16 3.9925e-14 -1.08941e-15 1.44329e-15 2.5327e-15 5.20203e-18 3.65256e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /        80 2.59451e-16 9.25814e-14 -8.43769e-15 6.62411e-15 1.50618e-14 3.24314e-18 1.77013e-15
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         4  6.66134e-16 1.77636e-15 -3.33067e-16 7.77156e-16 1.11022e-15 1.66533e-16 5.32444e-16
frac_b   /        25  2.77556e-15 1.34337e-14 -7.77156e-16 2.66454e-15 3.44169e-15 1.11022e-16 7.38528e-16
S        /        60  2.99251e-15 1.95063e-13 -1.59872e-14 1.60982e-14 3.20854e-14 4.98751e-17 5.26409e-15
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc

Variable Group Count          Sum      AbsSum          Min         Max      Range         Mean      StdDev
S        /      1151 -1.98526e-14 5.08646e-13 -4.42701e-15 4.63518e-15 9.0622e-15 -1.72481e-17 7.16401e-16
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         2  3.33067e-16 3.33067e-16  1.11022e-16 2.22045e-16 1.11022e-16 1.66533e-16 7.85046e-17
frac_b   /         4  6.66134e-16 2.66454e-15 -5.55112e-16 1.33227e-15 1.88738e-15 1.66533e-16 8.71837e-16
S        /       109  4.96399e-16  1.6233e-14 -1.38778e-15 1.88738e-15 3.27516e-15 4.55412e-18  3.8519e-16
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         2  3.33067e-16 3.33067e-16  1.11022e-16 2.22045e-16 1.11022e-16 1.66533e-16 7.85046e-17
frac_b   /         4  6.66134e-16 2.66454e-15 -5.55112e-16 1.33227e-15 1.88738e-15 1.66533e-16 8.71837e-16
S        /        15  5.55112e-16 1.37668e-14 -1.22125e-15 1.66533e-15 2.88658e-15 3.70074e-17 1.04141e-15
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         4            0 6.50521e-18  -1.6263e-18   1.6263e-18 3.25261e-18            0 1.87789e-18
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         4 -1.04916e-13 1.04916e-13 -4.91829e-14 -5.55112e-15 4.36318e-14  -2.6229e-14 2.34721e-14
frac_b   /       205  -1.1206e-11 1.13266e-11 -3.47056e-13  8.43769e-15 3.55493e-13 -5.46636e-14 8.28622e-14
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc

Variable Group Count       Sum     AbsSum          Min         Max       Range        Mean      StdDev
S        /       572 6.245e-17 9.0921e-13 -3.66374e-15 3.60822e-15 7.27196e-15 1.09178e-19 1.75757e-15
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       564 5.06539e-16 9.04651e-13 -3.77476e-15 3.77476e-15 7.54952e-15 8.98119e-19 1.77033e-15
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc

Variable Group Count       Sum     AbsSum          Min         Max       Range        Mean      StdDev
S        /       572 6.245e-17 9.0921e-13 -3.66374e-15 3.60822e-15 7.27196e-15 1.09178e-19 1.75757e-15
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         9 -5.40679e-14 5.40679e-14 -4.06342e-14 -2.22045e-16 4.04121e-14 -6.00754e-15 1.30528e-14
frac_b   /       141 -4.05009e-13 7.64278e-13 -1.62093e-14  1.11022e-14 2.73115e-14 -2.87241e-15 6.03062e-15
S        /      3019 -4.06652e-13 1.48149e-12 -1.15463e-14  1.34337e-14   2.498e-14 -1.34698e-16 1.42601e-15
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         9 -5.40679e-14 5.40679e-14 -4.06342e-14 -2.22045e-16 4.04121e-14 -6.00754e-15 1.30528e-14
frac_b   /       141 -4.05009e-13 7.64278e-13 -1.62093e-14  1.11022e-14 2.73115e-14 -2.87241e-15 6.03062e-15
S        /       390 -4.05888e-13 1.20591e-12 -1.12133e-14  1.35447e-14  2.4758e-14 -1.04074e-15 3.82558e-15
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /      3766 -1.71468e-13 2.08621e-12 -7.49401e-15 6.32827e-15 1.38223e-14 -4.55305e-17 9.77796e-16
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean     StdDev
S        /        36 -1.67374e-16 2.82374e-14 -3.20317e-15 2.52229e-15 5.72545e-15 -4.64927e-18 1.1934e-15
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc

Variable Group Count          Sum      AbsSum         Min         Max       Range         Mean      StdDev
S        /        79 -1.00044e-14 3.14332e-14 -2.9976e-15 1.77636e-15 4.77396e-15 -1.26638e-16 6.53829e-16
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /       377 -3.33578e-12 4.58922e-12 -7.84928e-14 2.39808e-14 1.02474e-13 -8.84821e-15 1.50878e-14
frac_b   /       140 -1.34559e-13 5.07816e-13 -1.28786e-14 9.65894e-15 2.25375e-14 -9.61136e-16 4.49592e-15
S        /      1008 -1.35285e-13 1.15768e-12 -6.30052e-15 4.77396e-15 1.10745e-14 -1.34211e-16 1.58086e-15
SCRIP_1x1_to_latlon_grid_conserve_test142.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -8.60882e-18  1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       101 -2.74114e-13 1.29174e-12 -4.59632e-14 3.45279e-14 8.04912e-14   -2.714e-15 1.62669e-14
frac_b   /       120  2.88658e-15 1.54698e-12 -3.44169e-14  3.4861e-14 6.92779e-14  2.40548e-17 1.61321e-14
S        /      3874   2.2218e-15 1.66875e-12 -3.44169e-14 3.44169e-14 6.88338e-14  5.73516e-19 2.39529e-15
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -8.60882e-18  1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       101 -2.74114e-13 1.29174e-12 -4.59632e-14 3.45279e-14 8.04912e-14   -2.714e-15 1.62669e-14
frac_b   /       101  2.22045e-15 1.19904e-12 -3.44169e-14 3.44169e-14 6.88338e-14  2.19846e-17 1.47979e-14
S        /       101  2.22045e-15 1.19904e-12 -3.44169e-14 3.44169e-14 6.88338e-14  2.19846e-17 1.47979e-14
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc






Bit for Bit compare using ESMF_8_1_0_beta_snapshot_21 as the baseline.


 The following tests passed:

ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
ar9v4_100920_to_T42_grid_bilinear_test30.nc
ar9v4_100920_to_T42_grid_conserve_test32.nc
ar9v4_100920_to_T42_grid_patch_test31.nc
ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
ar9v4_100920_to_wr50a_090614_conserve_test39.nc
ar9v4_100920_to_wr50a_090614_patch_test38.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc
C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
C48_mosaic_to_latlon_mosaic_conserve_test124.nc
C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
C48_mosaic_to_latlon_mosaic_patch_test123.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
latlon_grid_to_SCRIP_1x1_conserve_test140.nc
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc
ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
ll2.5deg_grid_to_T42_grid_patch_test11.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc
mpas_uniform_10242_to_T42_grid_conserve_test115.nc
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
ne30np4-t2_to_wr50a_090614_patch_test53.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
SCRIP_1x1_to_latlon_grid_conserve_test142.nc
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
T42_grid_to_ar9v4_100920_bilinear_test26.nc
T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
T42_grid_to_ar9v4_100920_conserve_test28.nc
T42_grid_to_ar9v4_100920_patch_test27.nc
T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
T42_grid_to_ll2.5deg_grid_patch_test12.nc
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
T42_grid_to_mpas_uniform_10242_conserve_test116.nc
T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
T42_grid_to_T42_grid_nearestdtos_test93.nc
T42_grid_to_T42_grid_neareststod_test90.nc
T42_grid_to_wr50a_090614_bilinear_test18.nc
T42_grid_to_wr50a_090614_conserve2nd_test21.nc
T42_grid_to_wr50a_090614_conserve_test20.nc
T42_grid_to_wr50a_090614_patch_test19.nc
T42_grid_to_ww3a_120213_conserve_test83.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
wr50a_090614_to_ar9v4_100920_conserve_test35.nc
wr50a_090614_to_ar9v4_100920_patch_test34.nc
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
wr50a_090614_to_ne30np4-t2_patch_test57.nc
wr50a_090614_to_T42_grid_bilinear_test22.nc
wr50a_090614_to_T42_grid_conserve2nd_test25.nc
wr50a_090614_to_T42_grid_conserve_test24.nc
wr50a_090614_to_T42_grid_patch_test23.nc
wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
wr50a_090614_to_wr50a_090614_neareststod_test89.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
ww3a_120213_to_T42_grid_conserve_test84.nc


 The following tests were not found:



 Ran  tests, 165 passed, 0 failed, and  were not found:


Bit for Bit compare using ESMF_8_1_0_beta_snapshot_26 as the baseline.


 The following tests passed:

ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
ar9v4_100920_to_T42_grid_bilinear_test30.nc
ar9v4_100920_to_T42_grid_conserve_test32.nc
ar9v4_100920_to_T42_grid_patch_test31.nc
ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
ar9v4_100920_to_wr50a_090614_conserve_test39.nc
ar9v4_100920_to_wr50a_090614_patch_test38.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc
C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
C48_mosaic_to_latlon_mosaic_conserve_test124.nc
C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
C48_mosaic_to_latlon_mosaic_patch_test123.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
latlon_grid_to_SCRIP_1x1_conserve_test140.nc
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc
ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
ll2.5deg_grid_to_T42_grid_patch_test11.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc
mpas_uniform_10242_to_T42_grid_conserve_test115.nc
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
ne30np4-t2_to_wr50a_090614_patch_test53.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
SCRIP_1x1_to_latlon_grid_conserve_test142.nc
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
T42_grid_to_ar9v4_100920_bilinear_test26.nc
T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
T42_grid_to_ar9v4_100920_conserve_test28.nc
T42_grid_to_ar9v4_100920_patch_test27.nc
T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
T42_grid_to_ll2.5deg_grid_patch_test12.nc
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
T42_grid_to_mpas_uniform_10242_conserve_test116.nc
T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
T42_grid_to_T42_grid_nearestdtos_test93.nc
T42_grid_to_T42_grid_neareststod_test90.nc
T42_grid_to_wr50a_090614_bilinear_test18.nc
T42_grid_to_wr50a_090614_conserve2nd_test21.nc
T42_grid_to_wr50a_090614_conserve_test20.nc
T42_grid_to_wr50a_090614_patch_test19.nc
T42_grid_to_ww3a_120213_conserve_test83.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
wr50a_090614_to_ar9v4_100920_conserve_test35.nc
wr50a_090614_to_ar9v4_100920_patch_test34.nc
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
wr50a_090614_to_ne30np4-t2_patch_test57.nc
wr50a_090614_to_T42_grid_bilinear_test22.nc
wr50a_090614_to_T42_grid_conserve2nd_test25.nc
wr50a_090614_to_T42_grid_conserve_test24.nc
wr50a_090614_to_T42_grid_patch_test23.nc
wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
wr50a_090614_to_wr50a_090614_neareststod_test89.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
ww3a_120213_to_T42_grid_conserve_test84.nc


 The following tests were not found:



 Ran  tests, 165 passed, 0 failed, and  were not found:


Bit for Bit compare using ESMF_8_1_0_beta_snapshot_27 as the baseline.


 The following tests passed:

ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
ar9v4_100920_to_T42_grid_bilinear_test30.nc
ar9v4_100920_to_T42_grid_conserve_test32.nc
ar9v4_100920_to_T42_grid_patch_test31.nc
ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
ar9v4_100920_to_wr50a_090614_conserve_test39.nc
ar9v4_100920_to_wr50a_090614_patch_test38.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc
C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
C48_mosaic_to_latlon_mosaic_conserve_test124.nc
C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
C48_mosaic_to_latlon_mosaic_patch_test123.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
latlon_grid_to_SCRIP_1x1_conserve_test140.nc
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc
ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
ll2.5deg_grid_to_T42_grid_patch_test11.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc
mpas_uniform_10242_to_T42_grid_conserve_test115.nc
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
ne30np4-t2_to_wr50a_090614_patch_test53.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
SCRIP_1x1_to_latlon_grid_conserve_test142.nc
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
T42_grid_to_ar9v4_100920_bilinear_test26.nc
T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
T42_grid_to_ar9v4_100920_conserve_test28.nc
T42_grid_to_ar9v4_100920_patch_test27.nc
T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
T42_grid_to_ll2.5deg_grid_patch_test12.nc
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
T42_grid_to_mpas_uniform_10242_conserve_test116.nc
T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
T42_grid_to_T42_grid_nearestdtos_test93.nc
T42_grid_to_T42_grid_neareststod_test90.nc
T42_grid_to_wr50a_090614_bilinear_test18.nc
T42_grid_to_wr50a_090614_conserve2nd_test21.nc
T42_grid_to_wr50a_090614_conserve_test20.nc
T42_grid_to_wr50a_090614_patch_test19.nc
T42_grid_to_ww3a_120213_conserve_test83.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
wr50a_090614_to_ar9v4_100920_conserve_test35.nc
wr50a_090614_to_ar9v4_100920_patch_test34.nc
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
wr50a_090614_to_ne30np4-t2_patch_test57.nc
wr50a_090614_to_T42_grid_bilinear_test22.nc
wr50a_090614_to_T42_grid_conserve2nd_test25.nc
wr50a_090614_to_T42_grid_conserve_test24.nc
wr50a_090614_to_T42_grid_patch_test23.nc
wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
wr50a_090614_to_wr50a_090614_neareststod_test89.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
ww3a_120213_to_T42_grid_conserve_test84.nc


 The following tests were not found:



 Ran  tests, 165 passed, 0 failed, and  were not found:


Bit for Bit compare using ESMF_8_0_1 as the baseline.


 The following tests passed:

ar9v4_100920_to_ne30np4-t2_conserve_test58.nc
ar9v4_100920_to_T42_grid_bilinear_test30.nc
ar9v4_100920_to_T42_grid_conserve_test32.nc
ar9v4_100920_to_T42_grid_patch_test31.nc
ar9v4_100920_to_wr50a_090614_bilinear_test37.nc
ar9v4_100920_to_wr50a_090614_conserve_test39.nc
ar9v4_100920_to_wr50a_090614_patch_test38.nc
C48_mosaic_to_C48_mosaic_nearestdtos_test159.nc
C48_mosaic_to_latlon_mosaic_bilinear_test122.nc
C48_mosaic_to_latlon_mosaic_neareststod_test154.nc
C48_mosaic_to_latlon_mosaic_patch_test123.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_bilinear_test118.nc
ConcaveQuadUGRID1_to_ConcaveQuadUGRID2_conserve_test117.nc
ConcaveQuadUGRID2_to_ConcaveQuadUGRID1_conserve_test119.nc
FVCOM_grid2d_20120314_to_scrip_regional_1140x690_conserve_test5.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve_test7.nc
FVCOM_grid2d_to_FVCOM_grid2d_20130228_neareststod_test150.nc
FVCOM_grid2d_to_FVCOM_grid2d_nearestdtos_test160.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test103.nc
FVCOM_grid2d_to_scrip_regional_1140x690_bilinear_test107.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve_test102.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test148.nc
FVCOM_grid2d_to_scrip_regional_1140x690_patch_test149.nc
GRIDSPEC_ACCESS1_to_GRIDSPEC_ACCESS1_nearestdtos_test157.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_bilinear_test95.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_bilinear_test100.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_neareststod_test147.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_patch_test146.nc
ipe_ugrid3D_to_wam_ugrid3D_bilinear_test121.nc
ipe_ugrid3D_to_wam_ugrid3D_neareststod_test153.nc
latlon_grid_to_SCRIP_1x1_bilinear_test139.nc
ll1deg_grid_to_ll2.5deg_grid_bilinear_test14.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test15.nc
ll1deg_grid_to_ll2.5deg_grid_patch_test161.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test126.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test127.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test128.nc
ll2.5deg_grid_to_ll1deg_grid_bilinear_test155.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test163.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test164.nc
ll2.5deg_grid_to_ll1deg_grid_patch_test165.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test129.nc
ll2.5deg_grid_to_ll2.5deg_grid_bilinear_test130.nc
ll2.5deg_grid_to_T42_grid_bilinear_test10.nc
ll2.5deg_grid_to_T42_grid_patch_test11.nc
mpas_uniform_10242_dual_to_wr50a_090614_bilinear_test79.nc
mpas_uniform_10242_dual_to_wr50a_090614_patch_test80.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_bilinear_test59.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_patch_test61.nc
mpas_uniform_10242_to_mpas_uniform_10242_nearestdtos_test94.nc
mpas_uniform_10242_to_mpas_uniform_10242_neareststod_test91.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test113.nc
mpas_uniform_10242_to_ne60np4_pentagons_100408_conserve_test114.nc
mpas_uniform_10242_to_T42_grid_conserve_test115.nc
ne15np4_scrip_to_fv1.9x2.5_050503_bilinear_test85.nc
ne30np4-t2_to_ar9v4_100920_conserve_test54.nc
ne30np4-t2_to_wr50a_090614_bilinear_test52.nc
ne30np4-t2_to_wr50a_090614_patch_test53.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_bilinear_test74.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_conserve_test78.nc
ne60np4_pentagons_100408_to_ne30np4-t2_bilinear_test48.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve_test50.nc
SCRIP_1x1_to_latlon_grid_bilinear_test141.nc
SCRIP_1x1_to_UGRID_1D_LocStream_bilinear_test133.nc
SCRIP_1x1_to_UGRID_1D_LocStream_neareststod_test134.nc
SCRIP_1x1_to_UGRID_1D_LocStream_patch_test156.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20120314_conserve_test6.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve_test8.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test105.nc
scrip_regional_1140x690_to_FVCOM_grid2d_bilinear_test108.nc
scrip_regional_1140x690_to_FVCOM_grid2d_conserve_test104.nc
scrip_regional_1140x690_to_FVCOM_grid2d_neareststod_test152.nc
scrip_regional_1140x690_to_FVCOM_grid2d_patch_test151.nc
so_Omon_GISS-E2_to_SCRIP_1x1_bilinear_test97.nc
T42_grid_to_ar9v4_100920_bilinear_test26.nc
T42_grid_to_ar9v4_100920_conserve_test28.nc
T42_grid_to_ar9v4_100920_patch_test27.nc
T42_grid_to_ll2.5deg_grid_bilinear_test13.nc
T42_grid_to_ll2.5deg_grid_patch_test12.nc
T42_grid_to_mpas_uniform_10242_conserve_test116.nc
T42_grid_to_mpas_uniform_10242_dual_patch_test67.nc
T42_grid_to_T42_grid_nearestdtos_test93.nc
T42_grid_to_T42_grid_neareststod_test90.nc
T42_grid_to_wr50a_090614_bilinear_test18.nc
T42_grid_to_wr50a_090614_conserve_test20.nc
T42_grid_to_wr50a_090614_patch_test19.nc
T42_grid_to_ww3a_120213_conserve_test83.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_nearestdtos_test131.nc
UGRID_1D_LocStream_to_UGRID_1D_LocStream_neareststod_test132.nc
wam_ugrid3D_to_ipe_ugrid3D_bilinear_test120.nc
wam_ugrid3D_to_wam_ugrid3D_nearestdtos_test158.nc
wr50a_090614_to_ar9v4_100920_bilinear_test33.nc
wr50a_090614_to_ar9v4_100920_conserve_test35.nc
wr50a_090614_to_ar9v4_100920_patch_test34.nc
wr50a_090614_to_mpas_uniform_10242_dual_bilinear_test1.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_bilinear_test3.nc
wr50a_090614_to_mpas_uniform_10242_dual_counterclockwise_patch_test4.nc
wr50a_090614_to_mpas_uniform_10242_dual_patch_test2.nc
wr50a_090614_to_ne30np4-t2_bilinear_test56.nc
wr50a_090614_to_ne30np4-t2_patch_test57.nc
wr50a_090614_to_T42_grid_bilinear_test22.nc
wr50a_090614_to_T42_grid_conserve_test24.nc
wr50a_090614_to_T42_grid_patch_test23.nc
wr50a_090614_to_wr50a_090614_nearestdtos_test92.nc
wr50a_090614_to_wr50a_090614_neareststod_test89.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_bilinear_test137.nc
WRFG_CF_CART2D_to_RCM3_CF_CART2D_patch_test138.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_nearestdtos_test135.nc
WRFG_CF_CART2D_to_WRFG_CF_CART2D_neareststod_test136.nc
ww3a_120213_to_T42_grid_conserve_test84.nc


 The following tests failed:

ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc
C48_mosaic_to_latlon_mosaic_conserve_test124.nc
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc
latlon_grid_to_SCRIP_1x1_conserve_test140.nc
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc
SCRIP_1x1_to_latlon_grid_conserve_test142.nc
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc
T42_grid_to_ar9v4_100920_conserve2nd_test29.nc
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc
T42_grid_to_wr50a_090614_conserve2nd_test21.nc
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc
wr50a_090614_to_T42_grid_conserve2nd_test25.nc


 The following tests were not found:



 Ran  tests, 110 passed, 55 failed, and  were not found:


 The following is the output of the nccmp command:



Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /      1440 4.64039e-17 2.12192e-12 -3.44169e-15 3.55271e-15 6.99441e-15 3.22249e-20 1.62375e-15
ARM_30_x8.g_scrip_to_SCRIP_1x1_bilinear_test87.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20  4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /         9 -5.50671e-14 5.50671e-14 -4.09672e-14 -2.22045e-16 4.07452e-14 -6.11856e-15 1.31424e-14
frac_b   /       359  1.12677e-12 4.77207e-12 -7.84928e-14  9.04832e-14 1.68976e-13  3.13862e-15 1.95532e-14
S        /       968  1.12811e-12 6.05696e-12 -7.63833e-14  9.23706e-14 1.68754e-13   1.1654e-15 1.20447e-14
ARM_30_x8.g_scrip_to_SCRIP_1x1_conserve_test88.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -4.22881e-18 4.22881e-18 -4.91279e-20 -9.74088e-21  3.9387e-20 -2.93667e-20 9.37603e-21
S        /       275 -3.34487e-16 3.94233e-14 -1.00614e-15  9.99201e-16 2.00534e-15 -1.21631e-18 2.51221e-16
bggd_SCRIP_NCL_BR_INTERPOL_to_icos_ESMF_unstruct_six_corners_INTERPOL_conserve2nd_test143.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         4  -2.1684e-19 9.32414e-18 -2.60209e-18 2.60209e-18 5.20417e-18 -5.42101e-20 2.71051e-18
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /         4 -9.34808e-14 9.34808e-14 -4.37428e-14 -3.9968e-15  3.9746e-14 -2.33702e-14   2.112e-14
frac_b   /       150 -3.96894e-12 4.39704e-12 -9.50351e-14 1.24345e-14  1.0747e-13 -2.64596e-14  3.4254e-14
C48_mosaic_to_latlon_mosaic_conserve2nd_test125.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         4  -2.1684e-19 9.32414e-18 -2.60209e-18 2.60209e-18 5.20417e-18 -5.42101e-20 2.71051e-18
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /         4 -9.34808e-14 9.34808e-14 -4.37428e-14 -3.9968e-15  3.9746e-14 -2.33702e-14   2.112e-14
frac_b   /       126 -3.89833e-12 3.99958e-12 -9.19265e-14 6.99441e-15 9.89209e-14 -3.09391e-14 3.31326e-14
C48_mosaic_to_latlon_mosaic_conserve_test124.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4dual_esmf_bilinear_test112.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4_esmf_bilinear_test110.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       144 7.45931e-17 2.91416e-14 -1.02349e-16 1.40443e-14 1.41467e-14 5.18008e-19 1.17981e-15
fv1.9x2.5_050503_to_ne30np4-t2_bilinear_test44.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /       143 -5.36793e-13  6.4293e-13 -1.72085e-14  4.21885e-15 2.14273e-14  -3.7538e-15 4.60685e-15
frac_b   /         9 -5.76206e-14 5.76206e-14 -4.22995e-14 -3.33067e-16 4.19664e-14 -6.40229e-15 1.35428e-14
S        /      2373  -5.7843e-14 1.25896e-07 -1.69893e-09  1.18742e-09 2.88635e-09 -2.43755e-17 1.37123e-10
fv1.9x2.5_050503_to_ne30np4-t2_conserve2nd_test47.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /       143 -5.36793e-13  6.4293e-13 -1.72085e-14  4.21885e-15 2.14273e-14  -3.7538e-15 4.60685e-15
frac_b   /         9 -5.76206e-14 5.76206e-14 -4.22995e-14 -3.33067e-16 4.19664e-14 -6.40229e-15 1.35428e-14
S        /       378 -5.79138e-14 5.84568e-14 -5.15213e-16  6.07153e-17 5.75928e-16 -1.53211e-16 1.29215e-16
fv1.9x2.5_050503_to_ne30np4-t2_conserve_test46.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       148 2.31082e-18 2.33315e-14 -4.39597e-16 1.90733e-15 2.34693e-15 1.56136e-20 2.50789e-16
fv1.9x2.5_050503_to_ne30np4-t2_patch_test45.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /       736 -7.24065e-17 2.78706e-12 -1.22194e-14 1.17129e-14 2.39322e-14 -9.83784e-20 4.80498e-15
FVCOM_grid2d_20130228_to_scrip_regional_1140x690_conserve2nd_test144.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /       736 -7.24065e-17 2.78706e-12 -1.22194e-14 1.17129e-14 2.39322e-14 -9.83784e-20 4.80498e-15
FVCOM_grid2d_to_scrip_regional_1140x690_conserve2nd_test106.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean     StdDev
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20 2.1335e-20
GRIDSPEC_ACCESS1_to_SCRIP_1x1_conserve_test96.nc

Variable Group Count          Sum     AbsSum          Min         Max       Range         Mean      StdDev
area_b   /       360 -8.60882e-18 1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve2nd_test145.nc

Variable Group Count          Sum     AbsSum          Min         Max       Range         Mean      StdDev
area_b   /       360 -8.60882e-18 1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
GRIDSPEC_ACCESS1_to_so_Omon_GISS-E2_conserve_test101.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       143 -9.03722e-14 4.94937e-13 -1.15463e-14 1.03251e-14 2.18714e-14 -6.31973e-16 4.29986e-15
frac_b   /       567 -3.02658e-12 6.01885e-12 -8.81517e-14 2.69784e-14  1.1513e-13 -5.33788e-15 1.43659e-14
S        /       696 -3.02881e-12 6.71564e-12 -5.30687e-14 3.44169e-14 8.74856e-14 -4.35174e-15 1.26072e-14
latlon_grid_to_SCRIP_1x1_conserve_test140.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20 4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
area_b   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19 2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
frac_a   /       520 -3.46101e-12 5.92681e-12 -6.88338e-14  2.9754e-14 9.85878e-14 -6.65579e-15 1.52489e-14
frac_b   /       142   -3.606e-13 4.72511e-13 -1.15463e-14 7.77156e-15 1.93179e-14 -2.53944e-15 3.43588e-15
S        /     13324 -3.62146e-13 4.17106e-07 -1.21242e-09 1.21242e-09 2.42484e-09   -2.718e-17 1.68727e-10
ll1deg_grid_to_ll2.5deg_grid_conserve2nd_test17.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20 4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
area_b   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19 2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
frac_a   /       520 -3.46101e-12 5.92681e-12 -6.88338e-14  2.9754e-14 9.85878e-14 -6.65579e-15 1.52489e-14
frac_b   /       142   -3.606e-13 4.72511e-13 -1.15463e-14 7.77156e-15 1.93179e-14 -2.53944e-15 3.43588e-15
S        /      1511 -3.62193e-13 9.56044e-13 -4.42701e-15 2.72005e-15 7.14706e-15 -2.39704e-16 8.60732e-16
ll1deg_grid_to_ll2.5deg_grid_conserve_test16.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19  2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /       142 -4.66183e-13 8.55205e-13 -5.71765e-14  7.70495e-14 1.34226e-13 -3.28298e-15 1.13396e-14
frac_b   /        14 -6.11733e-14 6.11733e-14 -1.76525e-14 -1.11022e-16 1.75415e-14 -4.36952e-15  6.4983e-15
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve2nd_test71.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /       144 -9.85269e-18 1.53144e-17 -4.26905e-19  2.03288e-19 6.30193e-19 -6.84214e-20 1.07595e-19
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /       142 -4.66183e-13 8.55205e-13 -5.71765e-14  7.70495e-14 1.34226e-13 -3.28298e-15 1.13396e-14
frac_b   /        14 -6.11733e-14 6.11733e-14 -1.76525e-14 -1.11022e-16 1.75415e-14 -4.36952e-15  6.4983e-15
ll2.5deg_grid_to_mpas_uniform_10242_dual_conserve_test69.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
area_b   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20  4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
frac_a   /         5 -3.48055e-13 3.48055e-13 -1.87961e-13 -2.10942e-15 1.85851e-13  -6.9611e-14 8.02373e-14
frac_b   /       636 -5.76335e-11 6.30671e-11 -7.21645e-13  8.06244e-13 1.52789e-12 -9.06186e-14 1.75625e-13
mpas_uniform_10242_dual_to_ll1deg_grid_conserve2nd_test72.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18  2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
area_b   /       360 -1.05951e-17 1.20478e-17 -8.00446e-20  4.27752e-20  1.2282e-19 -2.94309e-20 2.65161e-20
frac_a   /         5 -3.48055e-13 3.48055e-13 -1.87961e-13 -2.10942e-15 1.85851e-13  -6.9611e-14 8.02373e-14
frac_b   /       588 -5.83542e-11 5.96947e-11 -7.21645e-13  3.45279e-14 7.56173e-13 -9.92419e-14 1.73738e-13
mpas_uniform_10242_dual_to_ll1deg_grid_conserve_test70.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /     10762 -1.67766e-13 5.32352e-12 -4.06619e-15 3.77476e-15 7.84095e-15 -1.55887e-17 7.26984e-16
mpas_uniform_10242_dual_to_ll1deg_grid_patch_test68.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /        15 1.66533e-16 1.01585e-14 -1.05471e-15 1.05471e-15 2.10942e-15 1.11022e-17 7.82856e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_bilinear_test60.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /         4  3.33067e-16 3.44169e-15 -1.11022e-15 1.33227e-15 2.44249e-15  8.32667e-17 1.07783e-15
frac_b   /         5  4.44089e-16 1.33227e-15 -2.22045e-16 4.44089e-16 6.66134e-16  8.88178e-17 2.97904e-16
S        /      1906 -2.66605e-16 1.08659e-13  -1.4988e-15 1.91513e-15 3.41394e-15 -1.39877e-19 9.56825e-17
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve2nd_test66.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18  -1.0842e-20 1.85641e-18
frac_a   /         4  3.33067e-16 3.44169e-15 -1.11022e-15 1.33227e-15 2.44249e-15  8.32667e-17 1.07783e-15
frac_b   /         5  4.44089e-16 1.33227e-15 -2.22045e-16 4.44089e-16 6.66134e-16  8.88178e-17 2.97904e-16
S        /        15 -8.32667e-17 8.85403e-15 -1.55431e-15 1.97065e-15 3.52496e-15 -5.55112e-18 8.34792e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_conserve_test64.nc

Variable Group Count         Sum     AbsSum          Min         Max      Range        Mean      StdDev
S        /       165 8.58336e-16 3.9925e-14 -1.08941e-15 1.44329e-15 2.5327e-15 5.20203e-18 3.65256e-16
mpas_uniform_10242_dual_to_mpas_uniform_10242_patch_test62.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /        80 2.59451e-16 9.25814e-14 -8.43769e-15 6.62411e-15 1.50618e-14 3.24314e-18 1.77013e-15
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_bilinear_test73.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         4  6.66134e-16 1.77636e-15 -3.33067e-16 7.77156e-16 1.11022e-15 1.66533e-16 5.32444e-16
frac_b   /        25  2.77556e-15 1.34337e-14 -7.77156e-16 2.66454e-15 3.44169e-15 1.11022e-16 7.38528e-16
S        /        60  2.99251e-15 1.95063e-13 -1.59872e-14 1.60982e-14 3.20854e-14 4.98751e-17 5.26409e-15
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_conserve_test77.nc

Variable Group Count          Sum      AbsSum          Min         Max      Range         Mean      StdDev
S        /      1151 -1.98526e-14 5.08646e-13 -4.42701e-15 4.63518e-15 9.0622e-15 -1.72481e-17 7.16401e-16
mpas_uniform_10242_dual_to_ne60np4_pentagons_100408_patch_test75.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_a   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
mpas_uniform_10242_dual_to_wr50a_090614_conserve_test82.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         2  3.33067e-16 3.33067e-16  1.11022e-16 2.22045e-16 1.11022e-16 1.66533e-16 7.85046e-17
frac_b   /         4  6.66134e-16 2.66454e-15 -5.55112e-16 1.33227e-15 1.88738e-15 1.66533e-16 8.71837e-16
S        /      1015  1.13368e-15 1.09024e-13 -1.38778e-15 1.88738e-15 3.27516e-15 1.11693e-18 1.80796e-16
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve2nd_test65.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
frac_a   /         2  3.33067e-16 3.33067e-16  1.11022e-16 2.22045e-16 1.11022e-16 1.66533e-16 7.85046e-17
frac_b   /         4  6.66134e-16 2.66454e-15 -5.55112e-16 1.33227e-15 1.88738e-15 1.66533e-16 8.71837e-16
S        /        15  5.55112e-16 1.37668e-14 -1.22125e-15 1.66533e-15 2.88658e-15 3.70074e-17 1.04141e-15
mpas_uniform_10242_to_mpas_uniform_10242_dual_conserve_test63.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_a   /         4            0 6.50521e-18  -1.6263e-18   1.6263e-18 3.25261e-18            0 1.87789e-18
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         4 -1.04916e-13 1.04916e-13 -4.91829e-14 -5.55112e-15 4.36318e-14  -2.6229e-14 2.34721e-14
frac_b   /       205  -1.1206e-11 1.13266e-11 -3.47056e-13  8.43769e-15 3.55493e-13 -5.46636e-14 8.28622e-14
ne15np4_scrip_to_fv1.9x2.5_050503_conserve_test86.nc

Variable Group Count       Sum     AbsSum          Min         Max       Range        Mean      StdDev
S        /       572 6.245e-17 9.0921e-13 -3.66374e-15 3.60822e-15 7.27196e-15 1.09178e-19 1.75757e-15
ne30np4dual_esmf_to_fv1.9x2.5_050503_bilinear_test111.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       564 5.06539e-16 9.04651e-13 -3.77476e-15 3.77476e-15 7.54952e-15 8.98119e-19 1.77033e-15
ne30np4_esmf_to_fv1.9x2.5_050503_bilinear_test109.nc

Variable Group  Count         Sum     AbsSum          Min         Max       Range        Mean      StdDev
S        /     106149 4.01245e-15 1.1668e-10 -6.80012e-15 6.72379e-15 1.35239e-14 3.78002e-20 1.73503e-15
ne30np4-t2_to_ar9v4_100920_conserve2nd_test55.nc

Variable Group Count       Sum     AbsSum          Min         Max       Range        Mean      StdDev
S        /       572 6.245e-17 9.0921e-13 -3.66374e-15 3.60822e-15 7.27196e-15 1.09178e-19 1.75757e-15
ne30np4-t2_to_fv1.9x2.5_050503_bilinear_test40.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         9 -5.40679e-14 5.40679e-14 -4.06342e-14 -2.22045e-16 4.04121e-14 -6.00754e-15 1.30528e-14
frac_b   /       141 -4.05009e-13 7.64278e-13 -1.62093e-14  1.11022e-14 2.73115e-14 -2.87241e-15 6.03062e-15
S        /      3071 -4.06615e-13 1.48425e-12 -1.15463e-14  1.34337e-14   2.498e-14 -1.32405e-16 1.41403e-15
ne30np4-t2_to_fv1.9x2.5_050503_conserve2nd_test43.nc

Variable Group Count          Sum      AbsSum          Min          Max       Range         Mean      StdDev
area_b   /       144 -3.55246e-18 4.27243e-18 -4.48927e-20  1.52466e-20 6.01393e-20 -2.46698e-20 2.21312e-20
frac_a   /         9 -5.40679e-14 5.40679e-14 -4.06342e-14 -2.22045e-16 4.04121e-14 -6.00754e-15 1.30528e-14
frac_b   /       141 -4.05009e-13 7.64278e-13 -1.62093e-14  1.11022e-14 2.73115e-14 -2.87241e-15 6.03062e-15
S        /       390 -4.05888e-13 1.20591e-12 -1.12133e-14  1.35447e-14  2.4758e-14 -1.04074e-15 3.82558e-15
ne30np4-t2_to_fv1.9x2.5_050503_conserve_test42.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /      3766 -1.71468e-13 2.08621e-12 -7.49401e-15 6.32827e-15 1.38223e-14 -4.55305e-17 9.77796e-16
ne30np4-t2_to_fv1.9x2.5_050503_patch_test41.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean     StdDev
S        /        36 -1.67374e-16 2.82374e-14 -3.20317e-15 2.52229e-15 5.72545e-15 -4.64927e-18 1.1934e-15
ne60np4_pentagons_100408_to_mpas_uniform_10242_patch_test76.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /        54 2.19593e-17 6.13891e-15 -3.33067e-16 3.59088e-16 6.92155e-16 4.06654e-19 1.40827e-16
ne60np4_pentagons_100408_to_ne30np4-t2_conserve2nd_test51.nc

Variable Group Count          Sum      AbsSum         Min         Max       Range         Mean      StdDev
S        /        79 -1.00044e-14 3.14332e-14 -2.9976e-15 1.77636e-15 4.77396e-15 -1.26638e-16 6.53829e-16
ne60np4_pentagons_100408_to_ne30np4-t2_patch_test49.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
area_b   /       144 -1.66933e-17 1.71406e-17 -3.32037e-19 3.38813e-20 3.65918e-19 -1.15926e-19  6.4143e-20
frac_a   /       377 -3.33578e-12 4.58922e-12 -7.84928e-14 2.39808e-14 1.02474e-13 -8.84821e-15 1.50878e-14
frac_b   /       140 -1.34559e-13 5.07816e-13 -1.28786e-14 9.65894e-15 2.25375e-14 -9.61136e-16 4.49592e-15
S        /      1008 -1.35285e-13 1.15768e-12 -6.30052e-15 4.77396e-15 1.10745e-14 -1.34211e-16 1.58086e-15
SCRIP_1x1_to_latlon_grid_conserve_test142.nc

Variable Group  Count         Sum      AbsSum         Min         Max       Range       Mean      StdDev
S        /     100386 5.96183e-15 5.03357e-09 -4.0852e-13 4.08784e-13 8.17305e-13 5.9389e-20 7.89459e-14
scrip_regional_1140x690_to_FVCOM_grid2d_20130228_conserve2nd_test9.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -8.60882e-18  1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       101 -2.74114e-13 1.29174e-12 -4.59632e-14 3.45279e-14 8.04912e-14   -2.714e-15 1.62669e-14
frac_b   /       120  2.88658e-15 1.54698e-12 -3.44169e-14  3.4861e-14 6.92779e-14  2.40548e-17 1.61321e-14
S        /      3874   2.2218e-15 1.66875e-12 -3.44169e-14 3.44169e-14 6.88338e-14  5.73516e-19 2.39529e-15
so_Omon_GISS-E2_to_SCRIP_1x1_conserve2nd_test99.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
area_a   /       360 -8.60882e-18  1.0219e-17 -7.96211e-20 7.28448e-20 1.52466e-19 -2.39134e-20 2.33013e-20
area_b   /       360 -9.34277e-18 1.04253e-17 -7.96211e-20 4.27752e-20 1.22396e-19 -2.59521e-20  2.1335e-20
frac_a   /       101 -2.74114e-13 1.29174e-12 -4.59632e-14 3.45279e-14 8.04912e-14   -2.714e-15 1.62669e-14
frac_b   /       101  2.22045e-15 1.19904e-12 -3.44169e-14 3.44169e-14 6.88338e-14  2.19846e-17 1.47979e-14
S        /       101  2.22045e-15 1.19904e-12 -3.44169e-14 3.44169e-14 6.88338e-14  2.19846e-17 1.47979e-14
so_Omon_GISS-E2_to_SCRIP_1x1_conserve_test98.nc

Variable Group  Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /     341302 -7.85649e-15 5.12728e-10 -6.45317e-15 6.66134e-15 1.31145e-14 -2.30192e-20 2.17881e-15
T42_grid_to_ar9v4_100920_conserve2nd_test29.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /      1287 3.86892e-16 1.54072e-13 -1.09635e-15 1.05471e-15 2.15106e-15 3.00615e-19 1.93002e-16
T42_grid_to_mpas_uniform_10242_conserve2nd_test162.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range         Mean      StdDev
S        /     40129 -1.00067e-15 1.23464e-11 -2.53964e-15 2.30371e-15 4.84335e-15 -2.49364e-20 4.77606e-16
T42_grid_to_wr50a_090614_conserve2nd_test21.nc

Variable Group Count         Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /       920 -8.4744e-17 9.05795e-13 -2.80331e-15 2.79637e-15 5.59969e-15 -9.2113e-20 1.29161e-15
wr50a_090614_to_ar9v4_100920_conserve2nd_test36.nc

Variable Group Count          Sum      AbsSum          Min         Max       Range        Mean      StdDev
area_b   /         5 -5.42101e-20 7.64363e-18 -2.05998e-18 2.27682e-18 4.33681e-18 -1.0842e-20 1.85641e-18
wr50a_090614_to_mpas_uniform_10242_dual_conserve_test81.nc

Variable Group Count        Sum      AbsSum          Min         Max       Range        Mean      StdDev
S        /        24 2.7085e-20 2.24137e-16 -2.90566e-17 2.89482e-17 5.80048e-17 1.12854e-21 1.37544e-17
wr50a_090614_to_T42_grid_conserve2nd_test25.nc