Merge branch 'development' into cmake

This commit is contained in:
Martin Diehl 2017-02-03 19:28:23 +01:00
commit d86074829c
403 changed files with 9849 additions and 124204 deletions

1
.gitignore vendored
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@ -4,5 +4,6 @@
*.exe
*.bak
*~
bin
PRIVATE
build

11
CONFIG Normal file
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@ -0,0 +1,11 @@
# "set"-syntax needed only for tcsh (but works with bash and zsh)
# DAMASK_ROOT will be expanded
set DAMASK_BIN = ${DAMASK_ROOT}/bin
set DAMASK_NUM_THREADS = 4
set MSC_ROOT = /opt/MSC
set MARC_VERSION = 2015
set ABAQUS_VERSION = 6.14-5

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@ -1,26 +1,65 @@
# sets up an environment for DAMASK on tcsh
# usage: source DAMASK_env.csh
set MAGIG=($_)
set FILENAME=`readlink -f $called[2]`
set LOCATION = `dirname $FILENAME`
setenv DAMASK_ROOT ${LOCATION}
setenv DAMASK_NUM_THREADS 2
# disable output in case of scp
if($?prompt) then
echo
echo Düsseldorf Advanced Materials Simulation Kit - DAMASK
echo Max-Planck-Institut für Eisenforschung, Düsseldorf
echo http://damask.mpie.de
echo
echo Preparing environment ...
echo "DAMASK_ROOT=$DAMASK_ROOT"
echo "DAMASK_NUM_THREADS=$DAMASK_NUM_THREADS"
set CALLED=($_)
set DIRNAME=`dirname $CALLED[2]`
set DAMASK_ROOT=`python -c "import os,sys; print(os.path.realpath(os.path.expanduser(sys.argv[1])))" $DIRNAME`
source $DAMASK_ROOT/CONFIG
# if DAMASK_BIN is present and not in $PATH, add it
if ( $?DAMASK_BIN) then
set MATCH=`echo :${PATH}: | grep ${DAMASK_BIN}:`
if ( "x$MATCH" == "x" ) then
set PATH=${DAMASK_BIN}:${PATH}
endif
endif
ulimit -s unlimited
ulimit -c 0
ulimit -v unlimited
ulimit -m unlimited
setenv DAMASK_BIN ${DAMASK_ROOT}/bin
setenv PATH ${PATH}:${DAMASK_BIN}
setenv PYTHONPATH ${PYTHONPATH}:${DAMASK_ROOT}/lib
setenv LD_LIBRARY_PATH ${LD_LIBRARY_PATH}
set SOLVER=`which DAMASK_spectral`
set PROCESSING=`which postResults`
if ( "x$DAMASK_NUM_THREADS" == "x" ) then
set DAMASK_NUM_THREADS=1
endif
# according to http://software.intel.com/en-us/forums/topic/501500
# this seems to make sense for the stack size
if ( `which free` != "free: Command not found." ) then
set freeMem=`free -k | grep -E '(Mem|Speicher):' | awk '{print $4;}'`
set heap=` expr $freeMem / 2`
set stack=`expr $freeMem / $DAMASK_NUM_THREADS / 2`
# http://superuser.com/questions/220059/what-parameters-has-ulimit
limit datasize $heap # maximum heap size (kB)
limit stacksize $stack # maximum stack size (kB)
endif
if ( `limit | grep memoryuse` != "" ) then
limit memoryuse unlimited # maximum physical memory size
endif
if ( `limit | grep vmemoryuse` != "" ) then
limit vmemoryuse unlimited # maximum virtual memory size
endif
# disable output in case of scp
if ( $?prompt ) then
echo ''
echo Düsseldorf Advanced Materials Simulation Kit --- DAMASK
echo Max-Planck-Institut für Eisenforschung GmbH, Düsseldorf
echo https://damask.mpie.de
echo
echo Using environment with ...
echo "DAMASK $DAMASK_ROOT"
echo "Spectral Solver $SOLVER"
echo "Post Processing $PROCESSING"
echo "Multithreading DAMASK_NUM_THREADS=$DAMASK_NUM_THREADS"
if ( $?PETSC_DIR) then
echo "PETSc location $PETSC_DIR"
endif
if ( $?MSC_ROOT) then
echo "MSC.Marc/Mentat $MSC_ROOT"
endif
echo
echo `limit datasize`
echo `limit stacksize`
endif
setenv DAMASK_NUM_THREADS $DAMASK_NUM_THREADS
setenv PYTHONPATH $DAMASK_ROOT/lib:$PYTHONPATH

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@ -1,77 +1,100 @@
# sets up an environment for DAMASK on bash
# usage: source DAMASK_env.sh
if [ "$OSTYPE" == "linux-gnu" ] || [ "$OSTYPE" == 'linux' ]; then
DAMASK_ROOT=$(python -c "import os,sys; print(os.path.realpath(os.path.expanduser(sys.argv[1])))" "`dirname $BASH_SOURCE`")
DAMASK_ROOT=$(python -c "import os,sys; print(os.path.realpath(os.path.expanduser(sys.argv[1])))" "$(dirname $BASH_SOURCE)")
else
[[ "${BASH_SOURCE::1}" == "/" ]] && BASE="" || BASE="`pwd`/"
STAT=$(stat "`dirname $BASE$BASH_SOURCE`")
[[ "${BASH_SOURCE::1}" == "/" ]] && BASE="" || BASE="$(pwd)/"
STAT=$(stat "$(dirname $BASE$BASH_SOURCE)")
DAMASK_ROOT=${STAT##* }
fi
[[ -f $HOME/.damask/damask.conf ]] && source $HOME/.damask/damask.conf || source /etc/damask.conf
# shorthand command to change to DAMASK_ROOT directory
eval "function damask() { cd $DAMASK_ROOT; }"
# if DAMASK_BIN is present and not in $PATH, add it
if [[ "x$DAMASK_BIN" != "x" && ! `echo ":$PATH:" | grep $DAMASK_BIN:` ]]; then
# defining set() allows to source the same file for tcsh and bash, with and without space around =
set() {
export $1$2$3
}
source $DAMASK_ROOT/CONFIG
unset -f set
# add DAMASK_BIN if present but not yet in $PATH
if [[ "x$DAMASK_BIN" != "x" && ! $(echo ":$PATH:" | grep $DAMASK_BIN:) ]]; then
export PATH=$DAMASK_BIN:$PATH
fi
SOLVER=`which DAMASK_spectral 2>/dev/null`
SOLVER=$(which DAMASK_spectral 2>/dev/null)
if [ "x$SOLVER" == "x" ]; then
SOLVER='Not found!'
fi
PROCESSING=`which postResults 2>/dev/null`
PROCESSING=$(which postResults 2>/dev/null)
if [ "x$PROCESSING" == "x" ]; then
PROCESSING='Not found!'
fi
if [ "x$DAMASK_NUM_THREADS" == "x" ]; then
DAMASK_NUM_THREADS=1
fi
# according to http://software.intel.com/en-us/forums/topic/501500
# this seems to make sense for the stack size
FREE=`which free 2>/dev/null`
FREE=$(which free 2>/dev/null)
if [ "x$FREE" != "x" ]; then
freeMem=`free -k | grep -E '(Mem|Speicher):' | awk '{print $4;}'`
heap=`expr $freeMem / 2`
stack=`expr $freeMem / $DAMASK_NUM_THREADS / 2`
freeMem=$(free -k | grep -E '(Mem|Speicher):' | awk '{print $4;}')
# http://superuser.com/questions/220059/what-parameters-has-ulimit
ulimit -s $stack 2>/dev/null # maximum stack size (kB)
ulimit -d $heap 2>/dev/null # maximum heap size (kB)
ulimit -d $(expr $freeMem / 2) 2>/dev/null # maximum heap size (kB)
ulimit -s $(expr $freeMem / $DAMASK_NUM_THREADS / 2) 2>/dev/null # maximum stack size (kB)
fi
ulimit -c 2000 2>/dev/null # core file size (512-byte blocks)
ulimit -v unlimited 2>/dev/null # maximum virtual memory size
ulimit -m unlimited 2>/dev/null # maximum physical memory size
# disable output in case of scp
if [ ! -z "$PS1" ]; then
echo
echo Düsseldorf Advanced Materials Simulation Kit - DAMASK
echo Max-Planck-Institut für Eisenforschung, Düsseldorf
echo http://damask.mpie.de
echo Düsseldorf Advanced Materials Simulation Kit --- DAMASK
echo Max-Planck-Institut für Eisenforschung GmbH, Düsseldorf
echo https://damask.mpie.de
echo
echo Using environment with ...
echo "DAMASK $DAMASK_ROOT"
[[ "x$SOLVER" != "x" ]] && echo "Spectral Solver $SOLVER"
[[ "x$PROCESSING" != "x" ]] && echo "Post Processing $PROCESSING"
echo "Spectral Solver $SOLVER"
echo "Post Processing $PROCESSING"
echo "Multithreading DAMASK_NUM_THREADS=$DAMASK_NUM_THREADS"
if [ "x$PETSC_DIR" != "x" ]; then
echo "PETSc location $PETSC_DIR"
[[ `python -c "import os,sys; print(os.path.realpath(os.path.expanduser(sys.argv[1])))" "$PETSC_DIR"` == $PETSC_DIR ]] \
|| echo " ~~> "`python -c "import os,sys; print(os.path.realpath(os.path.expanduser(sys.argv[1])))" "$PETSC_DIR"`
[[ $(python -c "import os,sys; print(os.path.realpath(os.path.expanduser(sys.argv[1])))" "$PETSC_DIR") == $PETSC_DIR ]] \
|| echo " ~~> "$(python -c "import os,sys; print(os.path.realpath(os.path.expanduser(sys.argv[1])))" "$PETSC_DIR")
fi
[[ "x$PETSC_ARCH" != "x" ]] && echo "PETSc architecture $PETSC_ARCH"
echo "MSC.Marc/Mentat $MSC_ROOT"
echo
echo -n "heap size/MiB "; echo "`ulimit -d`/1024" | bc
echo -n "stack size/MiB "; echo "`ulimit -s`/1024" | bc
echo -n "heap size "
[[ "$(ulimit -d)" == "unlimited" ]] \
&& echo "unlimited" \
|| echo $(python -c \
"import math; \
size=$(( 1024*$(ulimit -d) )); \
print('{:.4g} {}'.format(size / (1 << ((int(math.log(size,2) / 10) if size else 0) * 10)), \
['bytes','KiB','MiB','GiB','TiB','EiB','ZiB'][int(math.log(size,2) / 10) if size else 0]))")
echo -n "stack size "
[[ "$(ulimit -s)" == "unlimited" ]] \
&& echo "unlimited" \
|| echo $(python -c \
"import math; \
size=$(( 1024*$(ulimit -s) )); \
print('{:.4g} {}'.format(size / (1 << ((int(math.log(size,2) / 10) if size else 0) * 10)), \
['bytes','KiB','MiB','GiB','TiB','EiB','ZiB'][int(math.log(size,2) / 10) if size else 0]))")
fi
export DAMASK_NUM_THREADS
export PYTHONPATH=$DAMASK_ROOT/lib:$PYTHONPATH
for var in BASE STAT SOLVER PROCESSING FREE; do
for var in BASE STAT SOLVER PROCESSING FREE DAMASK_BIN; do
unset "${var}"
done
for var in DAMASK IMKL ACML LAPACK MSC FFTW HDF5; do
for var in DAMASK MSC; do
unset "${var}_ROOT"
done
for var in ABAQUS MARC; do
unset "${var}_VERSION"
done

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@ -1,74 +1,88 @@
# sets up an environment for DAMASK on bash
# usage: source DAMASK_env.sh
# sets up an environment for DAMASK on zsh
# usage: source DAMASK_env.zsh
if [ "$OSTYPE" = "linux-gnu" ] || [ "$OSTYPE" = 'linux' ]; then
DAMASK_ROOT=$(readlink -f "`dirname ${(%):-%N}`")
else
print 'Not done yet'
fi
DAMASK_ROOT=${0:a:h}
[[ -f $HOME/.damask/damask.conf ]] && source $HOME/.damask/damask.conf || source /etc/damask.conf
# shorthand command to change to DAMASK_ROOT directory
eval "function damask() { cd $DAMASK_ROOT; }"
# if DAMASK_BIN is present and not in $PATH, add it
#if [[ [[ "x$DAMASK_BIN" != "x" ]] && ! `echo ":$PATH:" | grep $DAMASK_BIN:` ]]; then
# defining set() allows to source the same file for tcsh and zsh, with and without space around =
set() {
export $1$2$3
}
source $DAMASK_ROOT/CONFIG
unset -f set
# add DAMASK_BIN if present but not yet in $PATH
MATCH=`echo ":$PATH:" | grep $DAMASK_BIN:`
if [[ ( "x$DAMASK_BIN" != "x" ) && ( "x$MATCH" = "x" ) ]]; then
export PATH=$DAMASK_BIN:$PATH
#fi
fi
SOLVER=`which DAMASK_spectral 2>/dev/null`
if [ "x$SOLVER" = "x" ]; then
export SOLVER='Not found!'
fi
PROCESSING=`which postResults 2>/dev/null`
if [ "x$PROCESSING" = "x" ]; then
export PROCESSING='Not found!'
if [ "x$DAMASK_NUM_THREADS" = "x" ]; then
DAMASK_NUM_THREADS=1
fi
# according to http://software.intel.com/en-us/forums/topic/501500
# this seems to make sense for the stack size
FREE=`which free 2>/dev/null`
if [ "x$FREE" != "x" ]; then
if [ "`which free 2>/dev/null`" != "free not found" ]; then
freeMem=`free -k | grep -E '(Mem|Speicher):' | awk '{print $4;}'`
heap=`expr $freeMem / 2`
stack=`expr $freeMem / 2`
# http://superuser.com/questions/220059/what-parameters-has-ulimit
ulimit -s $stack 2>/dev/null # maximum stack size (kB)
ulimit -d $heap 2>/dev/null # maximum heap size (kB)
#ulimit -d `expr $freeMem / 2` 2>/dev/null # maximum heap size (kB)
ulimit -s `expr $freeMem / $DAMASK_NUM_THREADS / 2` 2>/dev/null # maximum stack size (kB)
fi
ulimit -c 2000 2>/dev/null # core file size (512-byte blocks)
ulimit -v unlimited 2>/dev/null # maximum virtual memory size
ulimit -m unlimited 2>/dev/null # maximum physical memory size
# disable output in case of scp
if [ ! -z "$PS1" ]; then
echo
echo Düsseldorf Advanced Materials Simulation Kit - DAMASK
echo Max-Planck-Institut für Eisenforschung, Düsseldorf
echo http://damask.mpie.de
echo Düsseldorf Advanced Materials Simulation Kit --- DAMASK
echo Max-Planck-Institut für Eisenforschung GmbH, Düsseldorf
echo https://damask.mpie.de
echo
echo Using environment with ...
echo "Using environment with ..."
echo "DAMASK $DAMASK_ROOT"
[[ "x$SOLVER" != "x" ]] && echo "Spectral Solver $SOLVER"
[[ "x$PROCESSING" != "x" ]] && echo "Post Processing $PROCESSING"
echo "Spectral Solver $SOLVER"
echo "Post Processing $PROCESSING"
echo "Multithreading DAMASK_NUM_THREADS=$DAMASK_NUM_THREADS"
if [ "x$PETSC_DIR" != "x" ]; then
echo "PETSc location $PETSC_DIR"
[[ `readlink -f $PETSC_DIR` == $PETSC_DIR ]] || echo " ~~> "`readlink -f $PETSC_DIR`
[[ $(python -c "import os,sys; print(os.path.realpath(os.path.expanduser(sys.argv[1])))" "$PETSC_DIR") == $PETSC_DIR ]] \
|| echo " ~~> "$(python -c "import os,sys; print(os.path.realpath(os.path.expanduser(sys.argv[1])))" "$PETSC_DIR")
fi
[[ "x$PETSC_ARCH" != "x" ]] && echo "PETSc architecture $PETSC_ARCH"
echo "MSC.Marc/Mentat $MSC_ROOT"
echo
echo -n "heap size/MiB "; echo "`ulimit -d`/1024" | bc
echo -n "stack size/MiB "; echo "`ulimit -s`/1024" | bc
echo -n "heap size "
[[ "$(ulimit -d)" == "unlimited" ]] \
&& echo "unlimited" \
|| echo $(python -c \
"import math; \
size=$(( 1024*$(ulimit -d) )); \
print('{:.4g} {}'.format(size / (1 << ((int(math.log(size,2) / 10) if size else 0) * 10)), \
['bytes','KiB','MiB','GiB','TiB','EiB','ZiB'][int(math.log(size,2) / 10) if size else 0]))")
echo -n "stack size "
[[ "$(ulimit -s)" == "unlimited" ]] \
&& echo "unlimited" \
|| echo $(python -c \
"import math; \
size=$(( 1024*$(ulimit -s) )); \
print('{:.4g} {}'.format(size / (1 << ((int(math.log(size,2) / 10) if size else 0) * 10)), \
['bytes','KiB','MiB','GiB','TiB','EiB','ZiB'][int(math.log(size,2) / 10) if size else 0]))")
fi
export DAMASK_NUM_THREADS
export PYTHONPATH=$DAMASK_ROOT/lib:$PYTHONPATH
for var in BASE STAT SOLVER PROCESSING FREE; do
for var in BASE STAT SOLVER PROCESSING FREE DAMASK_BIN MATCH; do
unset "${var}"
done
for var in DAMASK IMKL ACML LAPACK MSC FFTW HDF5; do
for var in DAMASK MSC; do
unset "${var}_ROOT"
done
for var in ABAQUS MARC; do
unset "${var}_VERSION"
done

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@ -3,8 +3,7 @@ SHELL = /bin/sh
# Makefile for the installation of DAMASK
########################################################################################
.PHONY: all
all: spectral FEM
all: spectral FEM marc
spectral: build/spectral
@(cd build/spectral; make --no-print-directory -ws all install VERBOSE=1;)
@ -24,9 +23,29 @@ FEM: build/FEM
build/FEM: build
@mkdir build
@(cd build/FEM; cmake -Wno-dev -DCMAKE_BUILD_TYPE=RELEASE -DDAMASK_SOLVER=FEM ../..;)
.PHONY: spectral
spectral:
$(MAKE) DAMASK_spectral.exe -C code
.PHONY: FEM
FEM:
$(MAKE) DAMASK_FEM.exe -C code
.PHONY: marc
marc:
@./installation/mods_MarcMentat/apply_DAMASK_modifications.sh ${MAKEFLAGS}
.PHONY: tidy
tidy:
@$(MAKE) tidy -C code >/dev/null
.PHONY: clean
clean:
rm -rvf build # standard build directory
rm -rvf testing # for testing build (testing script in PRIVATE)
rm -rvf bin # default binary store location
@$(MAKE) cleanDAMASK -C code >/dev/null
.PHONY: install
install:
@./installation/symlink_Code.py ${MAKEFLAGS}
@./installation/symlink_Processing.py ${MAKEFLAGS}

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v2.0.0-262-gbd1beb4
v2.0.1-357-g38471c1

740
code/Makefile Normal file
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SHELL = /bin/sh
########################################################################################
# Makefile to compile the Material subroutine for BVP solution using spectral method
########################################################################################
# Be sure to remove all files compiled with different options by using "make clean"
########################################################################################
# OPTIONS = standard (alternative): meaning
#-------------------------------------------------------------
# F90 = ifort (gfortran): compiler type, choose Intel or GNU
# FCOMPILERNAME = name of the compiler executable (if not the same as the type), e.g. using mpich-g90 instead of ifort
# PORTABLE = TRUE (FALSE): decision, if executable is optimized for the machine on which it was built.
# OPTIMIZATION = DEFENSIVE (OFF,AGGRESSIVE,ULTRA): Optimization mode: O2, O0, O3 + further options for most files, O3 + further options for all files
# OPENMP = TRUE (FALSE): OpenMP multiprocessor support
# PREFIX = arbitrary prefix (before FCOMPILERNAME)
# OPTION = arbitrary option (just before file to compile)
# SUFFIX = arbitrary suffix (after file to compile)
# STANDARD_CHECK = checking for Fortran 2008, compiler dependend
########################################################################################
# including PETSc files. PETSC_ARCH is loaded from these files.
DAMASKVERSION :=$(shell cat ../VERSION)
include ${PETSC_DIR}/lib/petsc/conf/variables
include ${PETSC_DIR}/lib/petsc/conf/rules
INCLUDE_DIRS := $(PETSC_FC_INCLUDES) -DPETSc
LIBRARIES := $(PETSC_WITH_EXTERNAL_LIB)
FCOMPILERNAME ?= $(FC)
CCOMPILERNAME ?= $(CC)
LINKERNAME ?= $(FLINKER)
# MPI compiler wrappers will tell if they are pointing to ifort or gfortran
COMPILEROUT :=$(shell $(FC) -show)
# search in FC or COMPILEROUT for gfortran/ifort if not defined
ifeq ($(strip $(F90)),)
F90 :=$(findstring gfortran,$(FC) $(COMPILEROUT))
endif
ifeq ($(strip $(F90)),)
F90 :=$(findstring ifort,$(FC) $(COMPILEROUT))
endif
OPENMP ?= ON
OPTIMIZATION ?= DEFENSIVE
ifeq "$(OPTIMIZATION)" "OFF"
OPTI := OFF
MAXOPTI := OFF
endif
ifeq "$(OPTIMIZATION)" "DEFENSIVE"
OPTI := DEFENSIVE
MAXOPTI := DEFENSIVE
endif
ifeq "$(OPTIMIZATION)" "AGGRESSIVE"
OPTI := AGGRESSIVE
MAXOPTI := DEFENSIVE
endif
ifeq "$(OPTIMIZATION)" "ULTRA"
OPTI := AGGRESSIVE
MAXOPTI := AGGRESSIVE
endif
ifndef OPTI
OPTI := DEFENSIVE
MAXOPTI := DEFENSIVE
endif
# settings for shared memory multicore support
ifeq "$(OPENMP)" "ON"
OPENMP_FLAG_ifort =-qopenmp -parallel
OPENMP_FLAG_gfortran =-fopenmp
endif
ifdef STANDARD_CHECK
STANDARD_CHECK_ifort =$(STANDARD_CHECK)
STANDARD_CHECK_gfortran =$(STANDARD_CHECK)
endif
STANDARD_CHECK_ifort ?=-stand f08 -standard-semantics
STANDARD_CHECK_gfortran ?=-std=f2008ts -pedantic-errors
#-pedantic: more strict on standard, enables some warnings
# -pedantic-errors: like pedantic, but errors instead of warnings
OPTIMIZATION_OFF_ifort :=-O0 -no-ip
OPTIMIZATION_OFF_gfortran :=-O0
OPTIMIZATION_DEFENSIVE_ifort :=-O2
OPTIMIZATION_DEFENSIVE_gfortran :=-O2
OPTIMIZATION_AGGRESSIVE_ifort :=-ipo -O3 -no-prec-div -fp-model fast=2 -xHost #-fast = -ipo, -O3, -no-prec-div, -static, -fp-model fast=2, and -xHost
OPTIMIZATION_AGGRESSIVE_gfortran :=-O3 -ffast-math -funroll-loops -ftree-vectorize
LINK_OPTIONS_ifort :=-shared-intel
COMPILE_OPTIONS_ifort :=-DDAMASKVERSION=\"${DAMASKVERSION}\"\
-fpp\
-ftz\
-assume byterecl,fpe_summary\
-diag-disable 5268\
-warn declarations\
-warn general\
-warn usage\
-warn interfaces\
-warn ignore_loc\
-warn alignments\
-warn unused
###################################################################################################
#COMPILE SWITCHES
#-shared-intel: Link against shared Intel libraries instead of static ones
#-fpp: preprocessor
#-ftz: flush unterflow to zero, automatically set if O<0,1,2,3> >0
#-assume byterecl record length is given in bytes (also set by -standard-semantics)
# fpe_summary print list of floating point exceptions occured during execution
#-fimplicit-none: assume "implicit-none" even if not present in source
#-diag-disable: disables warnings, where
# warning ID 5268: the text exceeds right hand column allowed on the line (we have only comments there)
#-warn: enables warnings, where
# declarations: any undeclared names (alternative name: -implicitnone)
# general: warning messages and informational messages are issued by the compiler
# usage: questionable programming practices
# interfaces: checks the interfaces of all SUBROUTINEs called and FUNCTIONs invoked in your compilation against an external set of interface blocks
# ignore_loc: %LOC is stripped from an actual argument
# alignments: data that is not naturally aligned
# unused: declared variables that are never used
# stderrors: warnings about Fortran standard violations are changed to errors (STANDARD_CHECK)
#
###################################################################################################
#MORE OPTIONS FOR DEBUGGING DURING COMPILATION
#-warn: enables warnings, where
# truncated_source: Determines whether warnings occur when source exceeds the maximum column width in fixed-format files. (too many warnings because we have comments beyond character 132)
# uncalled: Determines whether warnings occur when a statement function is never called
# all:
# -name as_is: case sensitive Fortran!
DEBUG_OPTIONS_ifort :=-g\
-traceback\
-gen-interfaces\
-fp-stack-check\
-fp-model strict\
-check bounds,format,output_conversion,pointers,uninit\
-ftrapuv\
-fpe-all0\
-warn errors\
-warn stderrors\
-debug-parameters all
###################################################################################################
#COMPILE SWITCHES FOR RUNTIME DEBUGGING
#-g: Generate symbolic debugging information in the object file
#-traceback: Generate extra information in the object file to provide source file traceback information when a severe error occurs at run time.
#-gen-interfaces: Generate an interface block for each routine. http://software.intel.com/en-us/blogs/2012/01/05/doctor-fortran-gets-explicit-again/
#-fp-stack-check: Generate extra code after every function call to ensure that the floating-point (FP) stack is in the expected state.
#-ftrapuv Trap uninitalized variables
#-check: checks at runtime, where
# bounds: check if an array index is too small (<1) or too large!
# format: Checking for the data type of an item being formatted for output.
# output_conversion: Checking for the fit of data items within a designated format descriptor field.
# pointers: Checking for certain disassociated or uninitialized pointers or unallocated allocatable objects.
# uninit: Checking for uninitialized variables.
#-fpe-all0 capture all floating-point exceptions, sets -ftz automatically
#-warn: enables warnings, where
# errors: warnings are changed to errors
# stderrors: warnings about Fortran standard violations are changed to errors
# information on http://software.intel.com/en-us/articles/determining-root-cause-of-sigsegv-or-sigbus-errors/
###################################################################################################
#MORE OPTIONS FOR RUNTIME DEBUGGING
#-heap-arrays: should not be done for OpenMP, but set "ulimit -s unlimited" on shell. Probably it helps also to unlimit other limits
#-check: checks at runtime, where
# arg_temp_created: will cause a lot of warnings because we create a bunch of temporary arrays (performance?)
# stack:
LINK_OPTIONS_gfortran :=-Wl,-undefined,dynamic_lookup
COMPILE_OPTIONS_gfortran :=-DDAMASKVERSION=\"${DAMASKVERSION}\"\
-xf95-cpp-input\
-ffree-line-length-132\
-fimplicit-none\
-fmodule-private\
-Wall\
-Wextra\
-Wcharacter-truncation\
-Wunderflow\
-Wsuggest-attribute=pure\
-Wsuggest-attribute=noreturn\
-Wconversion-extra\
-Wimplicit-procedure\
-Wno-unused-parameter
#-ffpe-summary=all only for newer gfortran
###################################################################################################
#COMPILE SWITCHES
#-shared
#-Wl,-undefined,dynamic_lookup:ensure to link against dynamic libraries
#-xf95-cpp-input: preprocessor
#-ffree-line-length-132: restrict line length to the standard 132 characters
#-ffpe-summary: print summary of floating point exeptions (invalid, zero, overflow, underflow, inexact and denormal)
#-fimplicit-none: assume "implicit-none" even if not present in source
#-fmodule-private: assume "private" even if not present in source
#-Wcharacter-truncation: warn if character expressions (strings) are truncated
#-Wunderflow: produce a warning when numerical constant expressions are encountered, which yield an UNDERFLOW during compilation
#-Wsuggest-attribute=pure:
#-Wsuggest-attribute=noreturn:
#-Wconversion-extra
#-Wimplicit-procedure
#-Wall: sets the following Fortran options:
# -Waliasing: warn about possible aliasing of dummy arguments. Specifically, it warns if the same actual argument is associated with a dummy argument with "INTENT(IN)" and a dummy argument with "INTENT(OUT)" in a call with an explicit interface.
# -Wampersand: checks if a character expression is continued proberly by an ampersand at the end of the line and at the beginning of the new line
# -Warray-bounds: checks if array reference is out of bounds at compile time. use -fcheck-bounds to also check during runtime
# -Wconversion: warn about implicit conversions between different type
# -Wsurprising: warn when "suspicious" code constructs are encountered. While technically legal these usually indicate that an error has been made.
# -Wc-binding-type:
# -Wintrinsics-std: only standard intrisics are available, e.g. "call flush(6)" will cause an error
# -Wno-tabs: do not allow tabs in source
# -Wintrinsic-shadow: warn if a user-defined procedure or module procedure has the same name as an intrinsic
# -Wline-truncation:
# -Wtarget-lifetime:
# -Wreal-q-constant: warn about real-literal-constants with 'q' exponent-letter
# -Wunused: a number of unused-xxx warnings
# these are general (non -Fortran options) implied by -Wall
# -Waddress
# -Warray-bounds (only with -O2)
# -Wc++11-compat
# -Wchar-subscripts
# -Wcomment
# -Wformat
# -Wmaybe-uninitialized
# -Wnonnull
# -Wparentheses
# -Wpointer-sign
# -Wreorder
# -Wreturn-type
# -Wsequence-point
# -Wstrict-aliasing
# -Wstrict-overflow=1
# -Wswitch
# -Wtrigraphs
# -Wuninitialized
# -Wunknown-pragmas
# -Wunused-function
# -Wunused-label
# -Wunused-value
# -Wunused-variable
# -Wvolatile-register-var
#-Wextra: sets the following Fortran options:
# -Wunuses-parameter:
# -Wcompare-reals:
# these are general (non -Fortran options) implied by -Wextra
# -Wclobbered
# -Wempty-body
# -Wignored-qualifiers
# -Wmissing-field-initializers
# -Woverride-init
# -Wsign-compare
# -Wtype-limits
# -Wuninitialized
# -Wunused-but-set-parameter (only with -Wunused or -Wall)
# -Wno-globals
###################################################################################################
#MORE OPTIONS FOR DEBUGGING DURING COMPILATION
#-Warray-temporarieswarnings: because we have many temporary arrays (performance issue?):
#-Wimplicit-interface: no interfaces for lapack routines
#-Wunsafe-loop-optimizations: warn if the loop cannot be optimized due to nontrivial assumptions.
#-Wstrict-overflow:
DEBUG_OPTIONS_gfortran :=-g \
-fbacktrace \
-fdump-core \
-fcheck=all \
-ffpe-trap=invalid,zero,overflow
###################################################################################################
#COMPILE SWITCHES FOR RUNTIME DEBUGGING
#-ffpe-trap=invalid,\ stop execution if floating point exception is detected (NaN is silent)
# zero,\
# overflow
#-fcheck=all: sets the following Fortran options:
#array-temps
#bounds
#do
#mem
#pointer
#recursion
###################################################################################################
#MORE OPTIONS FOR RUNTIME DEBUGGING
#-ffpe-trap=precision,\
# denormal, \
# underflow
ifeq "$(DEBUG)" "ON"
COMPILE_OPTIONS_$(F90) +=$(DEBUG_OPTIONS_$(F90))
LINK_OPTIONS_$(F90) +=$(DEBUG_OPTIONS_$(F90))
endif
LINK_OPTIONS_$(F90) += $(OPTIMIZATION_$(MAXOPTI)_$(F90))
PRECISION_ifort :=-real-size 64 -integer-size 32 -DFLOAT=8 -DINT=4
#-real-size 32: set precision to one of those 32/64/128 (= 4/8/16 bytes) for standard real (=8 for pReal)
#-integer-size 16: set precision to one of those 16/32/64 (= 2/4/8 bytes) for standard integer (=4 for pInt)
PRECISION_gfortran :=-fdefault-real-8 -fdefault-double-8 -DFLOAT=8 -DINT=4
#-fdefault-real-8: set precision to 8 bytes for standard real (=8 for pReal). Will set size of double to 16 bytes as long as -fdefault-double-8 is not set
#-fdefault-double-8: set precision to 8 bytes for double real, would be 16 bytes because -fdefault-real-8 is used
#-fdefault-integer-8: Use it to set precision to 8 bytes for integer, don't use it for the standard case of pInt=4 (there is no -fdefault-integer-4)
###################################################################################################
COMPILE =$(OPENMP_FLAG_$(F90)) $(STANDARD_CHECK_$(F90)) $(OPTIMIZATION_$(OPTI)_$(F90)) $(COMPILE_OPTIONS_$(F90)) $(INCLUDE_DIRS) $(PRECISION_$(F90))
COMPILE_MAXOPTI =$(OPENMP_FLAG_$(F90)) $(STANDARD_CHECK_$(F90)) $(OPTIMIZATION_$(MAXOPTI)_$(F90)) $(COMPILE_OPTIONS_$(F90)) $(INCLUDE_DIRS) $(PRECISION_$(F90))
###################################################################################################
SOURCE_FILES = \
source_thermal_dissipation.o \
source_thermal_externalheat.o \
source_damage_isoBrittle.o \
source_damage_isoDuctile.o \
source_damage_anisoBrittle.o \
source_damage_anisoDuctile.o \
source_vacancy_phenoplasticity.o \
source_vacancy_irradiation.o \
source_vacancy_thermalfluc.o
KINEMATICS_FILES = \
kinematics_cleavage_opening.o \
kinematics_slipplane_opening.o \
kinematics_thermal_expansion.o \
kinematics_vacancy_strain.o \
kinematics_hydrogen_strain.o
PLASTIC_FILES = \
plastic_dislotwin.o \
plastic_disloUCLA.o \
plastic_isotropic.o \
plastic_phenopowerlaw.o \
plastic_titanmod.o \
plastic_nonlocal.o \
plastic_none.o \
plastic_phenoplus.o
THERMAL_FILES = \
thermal_isothermal.o \
thermal_adiabatic.o \
thermal_conduction.o
DAMAGE_FILES = \
damage_none.o \
damage_local.o \
damage_nonlocal.o
VACANCYFLUX_FILES = \
vacancyflux_isoconc.o \
vacancyflux_isochempot.o \
vacancyflux_cahnhilliard.o
POROSITY_FILES = \
porosity_none.o \
porosity_phasefield.o
HYDROGENFLUX_FILES = \
hydrogenflux_isoconc.o \
hydrogenflux_cahnhilliard.o
HOMOGENIZATION_FILES = \
homogenization_RGC.o \
homogenization_isostrain.o \
homogenization_none.o
#####################
# Spectral Solver
#####################
DAMASK_spectral.exe: IGNORE := \#
DAMASK_spectral.exe: COMPILE += -DSpectral
DAMASK_spectral.exe: COMPILE_MAXOPTI += -DSpectral
DAMASK_spectral.exe: MESHNAME := mesh.f90
DAMASK_spectral.exe: INTERFACENAME := spectral_interface.f90
DAMASK_spectral.o: IGNORE := \#
DAMASK_spectral.o: COMPILE += -DSpectral
DAMASK_spectral.o: COMPILE_MAXOPTI += -DSpectral
DAMASK_spectral.o: MESHNAME := mesh.f90
DAMASK_spectral.o: INTERFACENAME := spectral_interface.f90
SPECTRAL_SOLVER_FILES = spectral_mech_AL.o spectral_mech_Basic.o spectral_mech_Polarisation.o \
spectral_thermal.o spectral_damage.o
SPECTRAL_FILES = C_routines.o \
system_routines.o \
prec.o \
DAMASK_interface.o \
IO.o \
numerics.o \
debug.o \
math.o \
FEsolving.o \
mesh.o \
material.o \
lattice.o \
$(SOURCE_FILES) \
$(KINEMATICS_FILES) \
$(PLASTIC_FILES) \
constitutive.o \
crystallite.o \
$(THERMAL_FILES) \
$(DAMAGE_FILES) \
$(VACANCYFLUX_FILES) \
$(HYDROGENFLUX_FILES) \
$(POROSITY_FILES) \
$(HOMOGENIZATION_FILES) homogenization.o \
CPFEM2.o \
spectral_utilities.o \
$(SPECTRAL_SOLVER_FILES)
DAMASK_spectral.exe: DAMASK_spectral.o
$(PREFIX) $(LINKERNAME) $(OPENMP_FLAG_$(F90)) $(LINK_OPTIONS_$(F90)) $(STANDARD_CHECK_$(F90)) $(OPTIMIZATION_$(MAXOPTI)_$(F90)) \
-o DAMASK_spectral.exe DAMASK_spectral.o \
$(SPECTRAL_FILES) $(LIBRARIES) $(SUFFIX)
DAMASK_spectral.o: DAMASK_spectral.f90 \
$(SPECTRAL_SOLVER_FILES)
$(PREFIX) $(FCOMPILERNAME) $(COMPILE_MAXOPTI) -c DAMASK_spectral.f90 $(SUFFIX)
spectral_mech_AL.o: spectral_mech_AL.f90 \
spectral_utilities.o
spectral_mech_Polarisation.o: spectral_mech_Polarisation.f90 \
spectral_utilities.o
spectral_mech_Basic.o: spectral_mech_Basic.f90 \
spectral_utilities.o
spectral_thermal.o: spectral_thermal.f90 \
spectral_utilities.o
spectral_damage.o: spectral_damage.f90 \
spectral_utilities.o
spectral_utilities.o: spectral_utilities.f90 \
CPFEM2.o
#####################
# FEM Solver
#####################
VPATH := ../private/FEM/code
DAMASK_FEM.exe: COMPILE += -DFEM
DAMASK_FEM.exe: COMPILE_MAXOPTI += -DFEM
DAMASK_FEM.exe: MESHNAME := ../private/FEM/code/meshFEM.f90
DAMASK_FEM.exe: INTERFACENAME := ../private/FEM/code/DAMASK_FEM_interface.f90
DAMASK_FEM.exe: INCLUDE_DIRS += -I./
FEM_SOLVER_FILES = FEM_mech.o FEM_thermal.o FEM_damage.o FEM_vacancyflux.o FEM_porosity.o FEM_hydrogenflux.o
FEM_FILES = prec.o \
DAMASK_interface.o \
FEZoo.o \
IO.o \
numerics.o \
debug.o \
math.o \
FEsolving.o \
mesh.o \
material.o \
lattice.o \
$(SOURCE_FILES) \
$(KINEMATICS_FILES) \
$(PLASTIC_FILES) \
constitutive.o \
crystallite.o \
$(THERMAL_FILES) \
$(DAMAGE_FILES) \
$(VACANCYFLUX_FILES) \
$(HYDROGENFLUX_FILES) \
$(POROSITY_FILES) \
$(HOMOGENIZATION_FILES) homogenization.o \
CPFEM.o \
FEM_utilities.o \
$(FEM_SOLVER_FILES)
DAMASK_FEM.exe: DAMASK_FEM_driver.o
$(PREFIX) $(LINKERNAME) $(OPENMP_FLAG_$(F90)) $(LINK_OPTIONS_$(F90)) $(STANDARD_CHECK_$(F90)) $(OPTIMIZATION_$(MAXOPTI)_$(F90)) \
-o DAMASK_FEM.exe DAMASK_FEM_driver.o \
$(FEM_FILES) $(LIBRARIES) $(SUFFIX)
DAMASK_FEM_driver.o: DAMASK_FEM_driver.f90 $(FEM_SOLVER_FILES)
$(PREFIX) $(FCOMPILERNAME) $(COMPILE_MAXOPTI) -c ../private/FEM/code/DAMASK_FEM_driver.f90 $(SUFFIX)
FEM_mech.o: FEM_mech.f90 \
FEM_utilities.o
FEM_thermal.o: FEM_thermal.f90 \
FEM_utilities.o
FEM_damage.o: FEM_damage.f90 \
FEM_utilities.o
FEM_vacancyflux.o: FEM_vacancyflux.f90 \
FEM_utilities.o
FEM_porosity.o: FEM_porosity.f90 \
FEM_utilities.o
FEM_hydrogenflux.o: FEM_hydrogenflux.f90 \
FEM_utilities.o
FEM_utilities.o: FEM_utilities.f90 \
CPFEM.o
FEZoo.o: $(wildcard FEZoo.f90) \
IO.o
$(IGNORE) $(PREFIX) $(FCOMPILERNAME) $(COMPILE) -c ../private/FEM/code/FEZoo.f90 $(SUFFIX)
touch FEZoo.o
CPFEM.o: CPFEM.f90 \
homogenization.o
CPFEM2.o: CPFEM2.f90 \
homogenization.o
homogenization.o: homogenization.f90 \
$(THERMAL_FILES) \
$(DAMAGE_FILES) \
$(VACANCYFLUX_FILES) \
$(POROSITY_FILES) \
$(HYDROGENFLUX_FILES) \
$(HOMOGENIZATION_FILES)
thermal_isothermal.o: thermal_isothermal.f90 \
crystallite.o
thermal_adiabatic.o: thermal_adiabatic.f90 \
crystallite.o
thermal_conduction.o: thermal_conduction.f90 \
crystallite.o
damage_none.o: damage_none.f90 \
crystallite.o
damage_local.o: damage_local.f90 \
crystallite.o
damage_nonlocal.o: damage_nonlocal.f90 \
crystallite.o
thermal_conduction.o: thermal_conduction.f90 \
crystallite.o
vacancyflux_isoconc.o: vacancyflux_isoconc.f90 \
crystallite.o
vacancyflux_isochempot.o: vacancyflux_isochempot.f90 \
crystallite.o
vacancyflux_cahnhilliard.o: vacancyflux_cahnhilliard.f90 \
crystallite.o
porosity_none.o: porosity_none.f90 \
crystallite.o
porosity_phasefield.o: porosity_phasefield.f90 \
crystallite.o
hydrogenflux_isoconc.o: hydrogenflux_isoconc.f90 \
crystallite.o
hydrogenflux_cahnhilliard.o: hydrogenflux_cahnhilliard.f90 \
crystallite.o
homogenization_RGC.o: homogenization_RGC.f90 \
crystallite.o
homogenization_isostrain.o: homogenization_isostrain.f90 \
crystallite.o
homogenization_none.o: homogenization_none.f90 \
crystallite.o
crystallite.o: crystallite.f90 \
constitutive.o
constitutive.o: constitutive.f90 \
$(SOURCE_FILES) \
$(KINEMATICS_FILES) \
$(PLASTIC_FILES)
source_thermal_dissipation.o: source_thermal_dissipation.f90 \
lattice.o
source_thermal_externalheat.o: source_thermal_externalheat.f90 \
lattice.o
source_damage_isoBrittle.o: source_damage_isoBrittle.f90 \
lattice.o
source_damage_isoDuctile.o: source_damage_isoDuctile.f90 \
lattice.o
source_damage_anisoBrittle.o: source_damage_anisoBrittle.f90 \
lattice.o
source_damage_anisoDuctile.o: source_damage_anisoDuctile.f90 \
lattice.o
source_vacancy_phenoplasticity.o: source_vacancy_phenoplasticity.f90 \
lattice.o
source_vacancy_irradiation.o: source_vacancy_irradiation.f90 \
lattice.o
source_vacancy_thermalfluc.o: source_vacancy_thermalfluc.f90 \
lattice.o
kinematics_cleavage_opening.o: kinematics_cleavage_opening.f90 \
lattice.o
kinematics_slipplane_opening.o: kinematics_slipplane_opening.f90 \
lattice.o
kinematics_thermal_expansion.o: kinematics_thermal_expansion.f90 \
lattice.o
kinematics_vacancy_strain.o: kinematics_vacancy_strain.f90 \
lattice.o
kinematics_hydrogen_strain.o: kinematics_hydrogen_strain.f90 \
lattice.o
plastic_nonlocal.o: plastic_nonlocal.f90 \
lattice.o
plastic_titanmod.o: plastic_titanmod.f90 \
lattice.o
plastic_disloUCLA.o: plastic_disloUCLA.f90 \
lattice.o
plastic_dislotwin.o: plastic_dislotwin.f90 \
lattice.o
plastic_phenopowerlaw.o: plastic_phenopowerlaw.f90 \
lattice.o
plastic_phenoplus.o: plastic_phenoplus.f90 \
lattice.o
plastic_isotropic.o: plastic_isotropic.f90 \
lattice.o
plastic_none.o: plastic_none.f90 \
lattice.o
ifeq "$(F90)" "gfortran"
lattice.o: lattice.f90 \
material.o
$(PREFIX) $(FCOMPILERNAME) $(COMPILE) -ffree-line-length-240 -c lattice.f90 $(SUFFIX)
# long lines for interaction matrix
else
lattice.o: lattice.f90 \
material.o
endif
material.o: material.f90 \
mesh.o
mesh.o: mesh.f90 \
$(wildcard meshFEM.f90) \
FEsolving.o \
math.o \
FEZoo.o
$(PREFIX) $(FCOMPILERNAME) $(COMPILE) -c $(MESHNAME) -o mesh.o $(SUFFIX)
FEsolving.o: FEsolving.f90 \
debug.o
math.o: math.f90 \
debug.o
debug.o: debug.f90 \
numerics.o
numerics.o: numerics.f90 \
IO.o
IO.o: IO.f90 \
DAMASK_interface.o
DAMASK_interface.o: spectral_interface.f90 \
$(wildcard DAMASK_FEM_interface.f90) \
prec.o
$(PREFIX) $(FCOMPILERNAME) $(COMPILE) -c $(INTERFACENAME) -o DAMASK_interface.o $(SUFFIX)
ifeq "$(F90)" "gfortran"
prec.o: prec.f90 \
system_routines.o
$(PREFIX) $(FCOMPILERNAME) $(COMPILE) -c prec.f90 -fno-range-check -fall-intrinsics -fno-fast-math $(SUFFIX)
# fno-range-check: Disable range checking on results of simplification of constant expressions during compilation
# --> allows the definition of DAMASK_NaN
#-fall-intrinsics: all intrinsic procedures (including the GNU-specific extensions) are accepted. -Wintrinsics-std will be ignored
# and no user-defined procedure with the same name as any intrinsic will be called except when it is explicitly declared external
# --> allows the use of 'isnan'
#-fno-fast-math:
# --> otherwise, when setting -ffast-math, isnan always evaluates to false (I would call it a bug)
else
prec.o: prec.f90 \
system_routines.o
endif
system_routines.o: system_routines.f90 \
C_routines.o
C_routines.o: C_routines.c
%.o : %.f90
$(PREFIX) $(FCOMPILERNAME) $(COMPILE) -c $< $(SUFFIX)
%.o : %.c
$(CCOMPILERNAME) -c $<
.PHONY: tidy
tidy:
@rm -rf *.o
@rm -rf *.mod
@rm -rf *.optrpt
@rm -rf *.inst.f90 # for instrumentation
@rm -rf *.pomp.f90 # for instrumentation
@rm -rf *.pp.f90 # for instrumentation
@rm -rf *.pdb # for instrumentation
@rm -rf *.opari.inc # for instrumentation
.PHONY: cleanDAMASK
cleanDAMASK:
@rm -rf *.exe
@rm -rf *.marc
@rm -rf *.o
@rm -rf *.mod
@rm -rf *.optrpt
@rm -rf *.inst.f90 # for instrumentation
@rm -rf *.pomp.f90 # for instrumentation
@rm -rf *.pp.f90 # for instrumentation
@rm -rf *.pdb # for instrumentation
@rm -rf *.opari.inc # for instrumentation
.PHONY: help
help:
F90="$(F90)"
FCOMPILERNAME="$(FCOMPILERNAME)"
COMPILEROUT="$(COMPILEROUT)"

View File

@ -1,35 +0,0 @@
# Tasan et.al. 2015 Acta Materalia
# Tasan et.al. 2015 International Journal of Plasticity
# Diehl et.al. 2015 Meccanica
[BCC_Ferrite]
elasticity hooke
plasticity phenopowerlaw
lattice_structure bcc
Nslip 12 12 # per family
Ntwin 0 # per family
c11 233.3e9
c12 135.5e9
c44 118.0e9
gdot0_slip 0.001
n_slip 20
tau0_slip 95.e6 97.e6 0 0 # per family, optimization long simplex 109
tausat_slip 222.e6 412.7e6 0 0 # per family, optimization long simplex 109
gdot0_twin 0.001
n_twin 20
tau0_twin 31.0e6 # per family
s_pr 0 # push-up factor for slip saturation due to twinning
twin_b 0
twin_c 0
twin_d 0
twin_e 0
h0_slipslip 1000.0e6 # opti
h0_twinslip 0
h0_twintwin 0
interaction_slipslip 1 1 1.4 1.4 1.4 1.4
interaction_sliptwin 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twinslip 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twintwin 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
w0_slip 2.0 # opti
atol_resistance 1
(output) totalshear

View File

@ -1,2 +1 @@
fixed_seed 144921823
analyticJaco 0
fixed_seed 1697667030

View File

@ -8,32 +8,20 @@ plasticity nonlocal
(output) rho_edge
(output) rho_screw
(output) rho_sgl
(output) rho_sgl_edge
(output) rho_sgl_edge_pos
(output) rho_sgl_edge_neg
(output) rho_sgl_screw
(output) rho_sgl_screw_pos
(output) rho_sgl_screw_neg
(output) rho_sgl_mobile
(output) rho_sgl_edge_mobile
(output) rho_sgl_edge_pos_mobile
(output) rho_sgl_edge_neg_mobile
(output) rho_sgl_screw_mobile
(output) rho_sgl_screw_pos_mobile
(output) rho_sgl_screw_neg_mobile
(output) rho_sgl_immobile
(output) rho_sgl_edge_immobile
(output) rho_sgl_edge_pos_immobile
(output) rho_sgl_edge_neg_immobile
(output) rho_sgl_screw_immobile
(output) rho_sgl_screw_pos_immobile
(output) rho_sgl_screw_neg_immobile
(output) rho_dip
(output) rho_dip_edge
(output) rho_dip_screw
(output) excess_rho
(output) excess_rho_edge
(output) excess_rho_screw
(output) rho_forest
(output) delta
(output) delta_sgl
@ -47,10 +35,8 @@ plasticity nonlocal
(output) rho_dot_sgl
(output) rho_dot_sgl_mobile
(output) rho_dot_dip
(output) rho_dot_gen
(output) rho_dot_gen_edge
(output) rho_dot_gen_screw
(output) rho_dot_sgl2dip
(output) rho_dot_sgl2dip_edge
(output) rho_dot_sgl2dip_screw
(output) rho_dot_ann_ath
@ -66,24 +52,6 @@ plasticity nonlocal
(output) velocity_edge_neg
(output) velocity_screw_pos
(output) velocity_screw_neg
(output) slipdirection.x
(output) slipdirection.y
(output) slipdirection.z
(output) slipnormal.x
(output) slipnormal.y
(output) slipnormal.z
(output) fluxDensity_edge_pos.x
(output) fluxDensity_edge_pos.y
(output) fluxDensity_edge_pos.z
(output) fluxDensity_edge_neg.x
(output) fluxDensity_edge_neg.y
(output) fluxDensity_edge_neg.z
(output) fluxDensity_screw_pos.x
(output) fluxDensity_screw_pos.y
(output) fluxDensity_screw_pos.z
(output) fluxDensity_screw_neg.x
(output) fluxDensity_screw_neg.y
(output) fluxDensity_screw_neg.z
(output) maximumDipoleHeight_edge
(output) maximumDipoleHeight_screw
(output) accumulated_shear

View File

@ -0,0 +1,74 @@
[Ni_nonlocal]
elasticity hooke
plasticity nonlocal
/nonlocal/
(output) rho
(output) rho_sgl_mobile
(output) rho_sgl_immobile
(output) rho_sgl_edge_pos
(output) rho_sgl_edge_neg
(output) rho_sgl_screw_pos
(output) rho_sgl_screw_neg
(output) rho_dip_edge
(output) rho_dip_screw
(output) rho_forest
(output) accumulatedshear
(output) shearrate
(output) resolvedstress
(output) resistance
(output) velocity_edge_pos
(output) rho_dot_gen
(output) rho_dot_sgl2dip_edge
(output) rho_dot_sgl2dip_screw
(output) rho_dot_ann_ath
(output) rho_dot_ann_the_edge
(output) rho_dot_ann_the_screw
(output) rho_dot_edgejogs
(output) rho_dot_flux_edge
(output) rho_dot_flux_screw
lattice_structure fcc
Nslip 12 # number of slip systems per family
c11 246.5e9
c12 147.3e9
c44 124.7e9
burgers 2.48e-10 0 0 0 # Burgers vector in m
rhoSglEdgePos0 6e10 # Initial positive edge single dislocation density in m/m**3
rhoSglEdgeNeg0 6e10 # Initial negative edge single dislocation density in m/m**3
rhoSglScrewPos0 6e10 # Initial positive screw single dislocation density in m/m**3
rhoSglScrewNeg0 6e10 # Initial negative screw single dislocation density in m/m**3
rhoDipEdge0 0 # Initial edge dipole dislocation density in m/m**3
rhoDipScrew0 0 # Initial screw dipole dislocation density in m/m**3
rhoSglScatter 0
minimumDipoleHeightEdge 2.6e-9 # 3.0e-9 # minimum distance for stable edge dipoles in m
minimumDipoleHeightScrew 12.0e-9 # 50e-9 # minimum distance for stable screw dipoles in m
lambda0 45 # 33 # prefactor for mean free path
edgeMultiplication 0.1
randomMultiplication 0
atomicVolume 1.2e-29
selfdiffusionPrefactor 1.9e-4 # Gottstein p.168 # prefactor for self-diffusion coefficient
selfdiffusionEnergy 5.1e-19 # Gottstein p.168 # activation energy self-diffusion
solidSolutionEnergy 1.8e-19 # activation energy of solid solution particles in J
solidSolutionConcentration 5e-7 # 1e-7
solidSolutionSize 1.0
peierlsStressEdge 1e5 # Peierls stress for edges in Pa (per slip family)
peierlsStressScrew 1e5 # Peierls stress for screws in Pa (per slip family)
doublekinkWidth 10 # width of double kinks in multiples of burgers vector length b
viscosity 1e-3 # viscosity for dislocation glide in Pa s
p 1 # exponent for thermal barrier profile
q 1 # exponent for thermal barrier profile
attackFrequency 50e9 # attack frequency in Hz
surfaceTransmissivity 1.0 # transmissivity of free surfaces for dislocation flux
grainBoundaryTransmissivity 0.0
aTol_rho 1e100 # absolute tolerance for dislocation density in m/m**3
aTol_shear 1e10 # absolute tolerance for dislocation density in m/m**3
significantRho 1e8 # dislocation density considered relevant in m/m**3
significantN 1
shortRangeStressCorrection 0
CFLfactor 1.1 # safety factor for CFL flux check (numerical parameter)
r 1
interaction_SlipSlip 0 0 0.625 0.07 0.137 0.122 # Dislocation interaction coefficient
linetension 0.8
edgejog 0.01 # 0.2

View File

@ -7,11 +7,6 @@ plasticity phenopowerlaw
(output) resolvedstress_slip
(output) accumulated_shear_slip
(output) totalshear
(output) resistance_twin
(output) shearrate_twin
(output) resolvedstress_twin
(output) accumulated_shear_twin
(output) totalvolfrac_twin
lattice_structure fcc
Nslip 12 # per family
@ -26,19 +21,6 @@ n_slip 20
tau0_slip 31e6 # per family
tausat_slip 63e6 # per family
a_slip 2.25
gdot0_twin 0.001
n_twin 20
tau0_twin 31e6 # per family
s_pr 0 # push-up factor for slip saturation due to twinning
twin_b 0
twin_c 0
twin_d 0
twin_e 0
h0_slipslip 75e6
h0_twinslip 0
h0_twintwin 0
interaction_slipslip 1 1 1.4 1.4 1.4 1.4
interaction_sliptwin 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twinslip 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twintwin 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
atol_resistance 1

View File

@ -0,0 +1,25 @@
# Tasan et.al. 2015 Acta Materalia
# Tasan et.al. 2015 International Journal of Plasticity
# Diehl et.al. 2015 Meccanica
[BCC-Ferrite]
elasticity hooke
plasticity phenopowerlaw
lattice_structure bcc
Nslip 12 12 # per family
Ntwin 0 # per family
c11 233.3e9
c12 135.5e9
c44 118.0e9
gdot0_slip 0.001
n_slip 20
tau0_slip 95.e6 97.e6 # per family, optimization long simplex 109
tausat_slip 222.e6 412.7e6 # per family, optimization long simplex 109
h0_slipslip 1000.0e6
interaction_slipslip 1 1 1.4 1.4 1.4 1.4
interaction_sliptwin 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twinslip 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twintwin 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
w0_slip 2.0
(output) totalshear

View File

@ -1,9 +1,11 @@
# Tasan et.al. 2015 Acta Materalia
# Tasan et.al. 2015 International Journal of Plasticity
# Diehl et.al. 2015 Meccanica
[BCC_Martensite]
plasticity phenopowerlaw
[BCC-Martensite]
elasticity hooke
plasticity phenopowerlaw
lattice_structure bcc
Nslip 12 12 # per family
Ntwin 0 # per family
@ -12,23 +14,12 @@ c12 242.4e9
c44 211.1e9
gdot0_slip 0.001
n_slip 20
tau0_slip 405.8e6 456.7e6 0 0 # per family
tausat_slip 872.9e6 971.2e6 0 0 # per family
gdot0_twin 0.001
n_twin 20
tau0_twin 31.0e6 # per family
s_pr 0 # push-up factor for slip saturation due to twinning
twin_b 0
twin_c 0
twin_d 0
twin_e 0
tau0_slip 405.8e6 456.7e6 # per family
tausat_slip 872.9e6 971.2e6 # per family
h0_slipslip 563.0e9
h0_twinslip 0
h0_twintwin 0
interaction_slipslip 1 1 1.4 1.4 1.4 1.4
interaction_sliptwin 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twinslip 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
interaction_twintwin 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
w0_slip 2.0
atol_resistance 1
(output) totalshear

View File

@ -8,7 +8,6 @@ pert_Fg 1.0e-7 # deformation gradient perturbation for g
pert_method 1 # perturbation method (1 = forward, 2 = backward or 3 = central)
integrator 1 # integration method (1 = Fixed Point Iteration, 2 = Euler, 3 = Adaptive Euler, 4 = classical 4th order Runge-Kutta, 5 = 5th order Runge-Kutta Cash-Karp)
integratorStiffness 1 # integration method used for stiffness (1 = Fixed Point Iteration, 2 = Euler, 3 = Adaptive Euler, 4 = classical 4th order Runge-Kutta, 5 = 5th order Runge-Kutta Cash-Karp)
analyticJaco 1 # use analytic Jacobian or perturbation (0 = perturbations, 1 = analytic)
unitlength 1 # physical length of one computational length unit
usepingpong 1 # use the ping pong (collect <-> calc) scheme (always off for Abaqus exp, must be on for Spectral Solver)

View File

@ -1,139 +0,0 @@
#!/usr/bin/env python2
# -*- coding: UTF-8 no BOM -*-
import os,sys,glob,subprocess,shlex
from damask import Environment
from damask import version as DAMASKVERSION
# compiles fortran code for Python
scriptID = '$Id$'
damaskEnv = Environment()
baseDir = damaskEnv.relPath('installation/')
codeDir = damaskEnv.relPath('code/')
keywords=['IMKL_ROOT','ACML_ROOT','LAPACK_ROOT','FFTW_ROOT','F90']
options={}
#--- getting options from damask.conf or, if not present, from envinronment -----------------------
for option in keywords:
try:
value = damaskEnv.options[option]
except:
value = os.getenv(option)
if value is None: value = '' # env not set
options[option]=value
#--- overwrite default options with keyword=value pair from argument list to mimic make behavior --
for i, arg in enumerate(sys.argv):
for option in keywords:
if arg.startswith(option):
options[option] = sys.argv[i][len(option)+1:]
#--- check for valid compiler and set options -----------------------------------------------------
compilers = ['ifort','gfortran']
if options['F90'] not in compilers:
sys.exit('compiler "F90" (in installation/options or as Shell variable) has to be one out of: %s'%(', '.join(compilers)))
compiler = {
'gfortran': '--fcompiler=gnu95 --f90flags="-fPIC -fno-range-check -xf95-cpp-input -std=f2008 -fall-intrinsics'+\
' -fdefault-real-8 -fdefault-double-8"',
'ifort': '--fcompiler=intelem --f90flags="-fPIC -fpp -stand f08 -diag-disable 5268 -assume byterecl'+\
' -real-size 64 -integer-size 32 -shared-intel"',
}[options['F90']]
#--- option not depending on compiler -------------------------------------------------------------
compileOptions = ' -DSpectral -DFLOAT=8 -DINT=4 -I%s/lib -DDAMASKVERSION=\\\\\"\\\"%s\\\\\"\\\"'%(damaskEnv.rootDir(),DAMASKVERSION)
#--- this saves the path of libraries to core.so, hence it is known during runtime ----------------
if options['F90'] == 'gfortran':
# solved error: Undefined symbols for architecture x86_64: "_PyArg_ParseTupleAndKeywords"
# as found on https://lists.macosforge.org/pipermail/macports-dev/2013-May/022735.html
LDFLAGS = '-shared -Wl,-undefined,dynamic_lookup'
else:
# some f2py versions/configurations compile with openMP, so linking against openMP is needed
# to prevent errors during loading of core module
LDFLAGS = ' -openmp -Wl'
#--- run path of for fftw during runtime ----------------------------------------------------------
LDFLAGS += ',-rpath,%s/lib,-rpath,%s/lib64'%(options['FFTW_ROOT'],options['FFTW_ROOT'])
# see http://cens.ioc.ee/pipermail/f2py-users/2003-December/000621.html
if options['IMKL_ROOT']:
if options['F90'] == 'gfortran':
arch = 'gf'
elif options['F90'] == 'ifort':
arch = 'intel'
lib_lapack = '-L%s/lib/intel64 -lmkl_%s_lp64 -lmkl_core -lmkl_sequential -lm'\
%(options['IMKL_ROOT'],arch)
LDFLAGS +=',-rpath,%s/lib/intel64'%(options['IMKL_ROOT'])
elif options['ACML_ROOT'] != '':
lib_lapack = '-L%s/%s64/lib -lacml'%(options['ACML_ROOT'],options['F90'])
LDFLAGS +=',-rpath,%s/%s64/lib'%(options['ACML_ROOT'],options['F90'])
elif options['LAPACK_ROOT'] != '':
lib_lapack = '-L%s/lib -L%s/lib64 -llapack'%(options['LAPACK_ROOT'],options['LAPACK_ROOT'])
LDFLAGS +=',-rpath,%s/lib,-rpath,%s/lib64'%(options['LAPACK_ROOT'],options['LAPACK_ROOT'])
#--------------------------------------------------------------------------------------------------
# f2py does not (yet) support setting of special flags for the linker, hence they must be set via
# environment variable ----------------------------------------------------------------------------
my_env = os.environ
my_env["LDFLAGS"] = LDFLAGS
#--- delete old file ------------------------------------------------------------------------------
try:
os.remove(os.path.join(damaskEnv.relPath('lib/damask'),'core.so'))
except OSError, e:
print ("Error when deleting: %s - %s." % (e.filename,e.strerror))
# The following command is used to compile the fortran files and make the functions defined
# in damask.core.pyf available for python in the module core.so
# It uses the fortran wrapper f2py that is included in the numpy package to construct the
# module core.so out of the fortran code in the f90 files
# For the generation of the pyf file use the following lines:
###########################################################################
#'f2py -h damask.core.pyf' +\
#' --overwrite-signature --no-lower prec.f90 DAMASK_spectral_interface.f90 math.f90 mesh.f90,...'
###########################################################################
os.chdir(codeDir)
cmd = 'f2py damask.core.pyf' +\
' -c --no-lower %s'%(compiler) +\
compileOptions+\
' prec.f90'+\
' spectral_interface.f90'+\
' IO.f90'+\
' libs.f90'+\
' numerics.f90'+\
' debug.f90'+\
' math.f90'+\
' FEsolving.f90'+\
' mesh.f90'+\
' core_quit.f90'+\
' -L%s/lib -lfftw3'%(options['FFTW_ROOT'])+\
' %s'%lib_lapack
print('Executing: '+cmd)
try:
subprocess.call(shlex.split(cmd),env=my_env)
except subprocess.CalledProcessError:
print('build failed')
except OSError:
print ('f2py not found')
try:
os.rename(os.path.join(codeDir,'core.so'),\
os.path.join(damaskEnv.relPath('lib/damask'),'core.so'))
except:
pass
modules = glob.glob('*.mod')
for module in modules:
print 'removing', module
os.remove(module)
#--- check if compilation of core module was successful -------------------------------------------
try:
with open(damaskEnv.relPath('lib/damask/core.so')) as f: pass
except IOError as e:
print '*********\n* core.so not found, compilation of core modules was not successful\n*********'

View File

@ -1,52 +0,0 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTLOWMP $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

View File

@ -1,704 +0,0 @@
#
# General definitions for the Marc 2011 version
#
# EM64T
# ( LP64 - i4 version)
# (ILP64 - i8 version)
#
# Linux RedHat 5.4
#
# 64 bit MPI version
#
# Intel(R) Fortran Compiler
# Version 12.0.4
#
# Intel(R) C Compiler
# Version 12.0.4
#
# DATE
#
# To check the O/S level, type:
# uname -a
#
# Distributed parallel MPI libraries:
# 1) HP MPI 2.3
# To check the mpi version, type:
# mpirun -version
# 2) Intel MPI 4.0.1.007
# To check the mpi version, type:
# mpirun -version
#
# MKL Libraries:
# Intel(R) MKL 10.3.0.084
#
# To check the Compiler level, type using the compiler
# installation path:
# ifort -V
# icc -V
#
# REMARKS : This file contains the definitions of variables used during
# compilation loading and use of the MARC programmes . The
# current machine type is identified by means of the variable
# MACHINE , defined below.
#
#
# MPI_ROOT: root directory in which mpi shared libraries, etc. are located
# DIRJOB : directory in which spawned jobs should look for Marc input
# MPI_ARCH: system architecture
# MPI_EPATH: path where executable resides
#
REVISION="VERSION, BUILD"
HOSTNAME=`hostname`
# find available memory in Mbyte on the machine
# can be set explicitly
MEMLIMIT=`free -m | awk '/Mem:/ {print $2}'`
# set _OEM_NASTRAN to 1 for MD Nastran build
# override _OEM_NASTRAN setting with MARC_MD_NASTRAN environment variable
_OEM_NASTRAN="${MARC_MD_NASTRAN:-0}"
# uncomment the following line for an autoforge build
#AUTOFORGE=1
AUTOFORGE=0
export AUTOFORGE
# integer size
if test "$MARC_INTEGER_SIZE" = "" ; then
INTEGER_PATH=
else
INTEGER_PATH=/$MARC_INTEGER_SIZE
fi
FCOMP=ifort
#
# settings for Metis
#
METIS="-I$METIS_SOURCE"
METISLIBS="$MARC_LIB/metis.a "
#
# settings for MPI
#
# RCP and RSH are used for parallel network runs
# replace with similar commands like rsh if needed
RCP=/usr/bin/scp
RSH=/usr/bin/ssh
#
# select MPITYPE based upon what is installed
MPITYPE=none
if test -d $MARC_INTELMPI
then
MPITYPE=intelmpi
fi
if test -d $MARC_HPMPI
then
MPITYPE=hpmpi
fi
if test $AUTOFORGE
then
if test $AUTOFORGE = 1
then
MPITYPE=none
fi
fi
# uncomment one of the definitions of MPITYPE below to
# explicitly choose the type of MPI to use
#MPITYPE=none
#MPITYPE=hpmpi
#MPITYPE=intelmpi
MPI_DEFAULT=hpmpi
MPI_OTHER=intelmpi
INTELMPI_VERSION=HYDRA
# overrule MPITYPE setting with environmental variable MARC_MPITYPE
if test $MARC_MPITYPE
then
MPITYPE=$MARC_MPITYPE
fi
# always set MPITYPE to none for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
MPITYPE=none
fi
#
# settings for MPI
#
DDM=
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
FCOMPMPI=mpif90
export MPI_ROOT=$MARC_HPMPI
export MPI_REMSH=$RSH
export MPI_F77=$FCOMP
ARCHITECTURE=linux_amd64
DDM="-I$MPI_ROOT/include/64 -DDDM -DHPMPI"
MPI_CLEAN=
export MPI_EPATH=$MARC_BIN
export LD_LIBRARY_PATH=$MPI_ROOT/lib/$ARCHITECTURE:$MARC_LIB:$MARC_LIB_SHARED:$LD_LIBRARY_PATH
export MPIHPSPECIAL="-e MPI_FLAGS=E,T"
export MPIHPSPECIAL="$MPIHPSPECIAL -e LD_LIBRARY_PATH=$LD_LIBRARY_PATH"
export MPIHPSPECIAL="$MPIHPSPECIAL -e BINDIR=$MARC_BIN"
if test -n "$MSC_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e MSC_LICENSE_FILE=$MSC_LICENSE_FILE"
fi
if test -n "$LM_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e LM_LICENSE_FILE=$LM_LICENSE_FILE"
fi
export MPIHPSPECIAL="$MPIHPSPECIAL -e MPI_LIC_CHECKER=$MPI_ROOT/bin/licensing/amd64_s8/lichk.x"
RUN_JOB2="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -f "
RUN_JOB1="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -w $MPIHPSPECIAL -np "
RUN_JOB0=
fi
if test $MPITYPE = intelmpi
then
FCOMPMPI=mpiifort
MPI_ROOT=$MARC_INTELMPI
DDM="-I${MPI_ROOT}/include64 -DDDM"
PATH=$MPI_ROOT/bin64:$PATH
export PATH
LD_LIBRARY_PATH=$MPI_ROOT/lib64:$LD_LIBRARY_PATH
export LD_LIBRARY_PATH
if test $INTELMPI_VERSION = HYDRA
then
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec.hydra -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec.hydra "
else
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec -configfile "
fi
RUN_JOB0=
MPI_CLEAN=
MPI_EPATH=$MARC_BIN
MPIR_HOME=$MPI_ROOT
MPICH_F77=$FCOMP
MPICH_F77LINKER=$FCOMP
export MPI_ROOT MPI_EPATH MPIR_HOME MPICH_F77 MPICH_F77LINKER
I_MPI_PIN_DOMAIN=node
export I_MPI_PIN_DOMAIN
fi
else
MPI_ROOT=$MARC_DUMMYMPI
export MPI_ROOT=$MARC_DUMMYMPI
DDM="-I$MPI_ROOT/include"
fi
#
# variables for the "maintain" script
#
MACHINENAME=LINUX
MACHINE64BIT=yes
MACHINE=Linux_EM64T
DEV=/dev/tape
GETLOG="whoami"
CLEAR="clear"
MY_UNAME=`uname -a`
# Edit following 2 lines to build with VKI Solver
#VKISOLVER=VKI
VKISOLVER=NONE
# Edit following 2 lines to build with CASI Solver
CASISOLVER=CASI
#CASISOLVER=NONE
# Edit following 2 lines to build with MF2 Solver
MF2SOLVER=NONE
#MF2SOLVER=SERIAL
#MF2SOLVER=MF2PARALLEL
# Edit following lines to build with Intel(c) Multithreaded solver (PARDISO)
#INTELSOLVER=NONE
INTELSOLVER=PARDISO
# Edit following lines to build with MUMPS
if test "$MARC_INTEGER_SIZE" = "i4" ; then
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
else
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
fi
# Edit following lines to build with GPGPU version of BCS Solver for
# NVIDIA platforms
BCSGPUSOLVER=NONE
#BCSGPUSOLVER=BCSGPU
# Edit following 2 lines to build MARC dynamic shared library
MARC_DLL=MARC_DLL
#MARC_DLL=NONE
# always set VKISOLVER, CASISOLVER, BCSGPUSOLVER, and MARC_DLL to NONE for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
VKISOLVER=NONE
CASISOLVER=NONE
MF2SOLVER=NONE
INTELSOLVER=NONE
MUMPSSOLVER=NONE
BCSGPUSOLVER=NONE
MARC_DLL=NONE
fi
#
# define Fortran and C compile syntax
#
SOLVERFLAGS=
if test "$VKISOLVER" = VKI
then
SOLVERFLAGS="$SOLVERFLAGS -DVKI"
fi
if test "$CASISOLVER" = CASI
then
SOLVERFLAGS="$SOLVERFLAGS -DCASI"
fi
if test "$MF2SOLVER" = MF2PARALLEL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2PARALLEL"
fi
if test "$MF2SOLVER" = MF2SERIAL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2SERIAL"
fi
if test "$INTELSOLVER" = PARDISO
then
SOLVERFLAGS="$SOLVERFLAGS -DPARDISO"
fi
if test "$MUMPSSOLVER" = MUMPS
then
SOLVERFLAGS="$SOLVERFLAGS -DMUMPS"
fi
if test "$BCSGPUSOLVER" = BCSGPU
then
SOLVERFLAGS="$SOLVERFLAGS -DBCSGPU"
fi
if test "$MARC_DLL" = MARC_DLL
then
SOLVERFLAGS="$SOLVERFLAGS -DMARC_DLL"
fi
LINK_OPT=
DEBUG_OPT=
C_DEBUG_OPT=
#Uncomment following line to build Marc in debuggable mode
MARCDEBUG=
#MARCDEBUG="ON"
if test "$MARCDEBUG" = "ON"
then
LINK_OPT="-debug -traceback"
DEBUG_OPT="-debug -traceback"
C_DEBUG_OPT="-debug -traceback"
fi
MARCCHECK=
#MARCCHECK="ON"
if test "$MARCCHECK" = "ON"
then
DEBUG_OPT="$DEBUG_OPT -fpe0 -fp-stack-check -check all -ftrapuv "
C_DEBUG_OPT="$C_DEBUG_OPT -fp-stack-check -check-uninit -Wformat -ftrapuv "
fi
if test "$MARC_INTEGER_SIZE" = "i4" ; then
I8FFLAGS="-real-size 64 -integer-size 32"
I8DEFINES="-DFLOAT=8 -DINT=4"
I8CDEFINES=
I8CASIDEFS=
else
I8FFLAGS="-i8 -real-size 64 -integer-size 64"
I8DEFINES="-DI64 -DFLOAT=8 -DINT=8"
I8CDEFINES="-U_DOUBLE -D_SINGLE"
I8CASIDEFS="-DCASI_64BIT_INT=1"
fi
CDEFINES=
FDEFINES=
if test "$_OEM_NASTRAN" -ne 0
then
CDEFINES="$CDEFINES -D_OEM_NASTRAN"
FDEFINES="$FDEFINES -D_OEM_NASTRAN"
fi
FDEFINES="$FDEFINES -D_IMPLICITNONE"
if test "$_OEM_NASTRAN" -eq 0
then
FDEFINES="$FDEFINES -DOPENMP -DMKL"
fi
# -D_MSCMARC
FDEFINES="$FDEFINES -D_MSCMARC $DEBUG_OPT"
CDEFINES="$CDEFINES -D_MSCMARC $C_DEBUG_OPT $I8CDEFINES"
CINCL="-I$MARC_SOURCE/mdsrc -I$MARC_SOURCE/csource"
if test "$_OEM_NASTRAN" -ne 0
then
CINCL="$CINCL -I../../include"
fi
CC="icc -c -O1 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL"
CCLOW="icc -c -O0 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL"
CCHIGH="icc -c -O3 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL"
if test "$MARCDEBUG" = "ON"
then
CC="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL"
CCLOW="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL"
CCHIGH="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL"
fi
LOAD_CC="icc -O1 -DLinux -DLINUX -DLinux_intel"
CCT="$CC"
CCTLOW="$CCLOW"
CCTHIGH="$CCHIGH"
CC_CASI="$CC -c99 $I8CASIDEFS"
CCLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
CCT_CASI="$CCT -c99 $I8CASIDEFS"
CCTLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCTHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
#PROFILE="-Mprof=func"
#PROFILE="-Mprof=lines"
#PROFILE="-Mprof=func,mpi"
PROFILE=
FORTLOW="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr -save -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
# determine DAMASK version
HIT=0
for arg in "$@"
do
if [ $HIT = 1 ]
then
DAMASKPATH=`dirname $arg`
break
elif [ ${arg:0:2} = -u -o ${arg:0:2} = -U ]
then
HIT=1
fi
done
read DAMASKVERSION < $DAMASKPATH/../VERSION
DAMASKVERSION="'"$DAMASKVERSION"'"
# DAMASK compiler calls: additional flags are in line 2 OpenMP flags in line 3; removed -save for calls with openMP
DFORTLOW="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTLOWMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRAN="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRANMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGH="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGHMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
if test "$MARCDEBUG" = "ON"
then
FORTLOW="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
# DAMASK compiler calls: additional flags are in line 2 OpenMP flags in line 3; removed -save for calls with openMP
DFORTLOW="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTLOWMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRAN="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRANMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGH="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGHMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2011 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
fi
FORTLOWT="$FORTLOW"
FORTRANT="$FORTRAN"
FORTHIGHT="$FORTHIGH"
FORTRANMNF="$FCOMP -c $FDEFINES "
CCMNF="icc -c -O1 -DLinux -DLINUX -DLinux_intel -Dport2egcs -I$MARC_SOURCE/marctoadams/mnf/include -D_LARGEFILE64_SOURCE"
FORTRANMUMPS="$FCOMP -c -fpp -D_IMPLICITNONE $I8FFLAGS $I8DEFINES $DDM -I$MARC_SOURCE/mumpssolver/include -Dintel_ -DALLOW_NON_INIT -Dmetis -nofor_main"
CCMUMPS="icc -c -DAdd_ -Dmetis -I$MARC_SOURCE/mumpssolver/include"
BCSCC="icc -c -O3 -DLOWERCASE_ -I${MARC_SOURCE}/bcsgpusolver/bcslib_csrc $CDEFINES $CINCL"
NVCC="nvcc -c -O3 -arch sm_13 -DLOWERCASE_ -I${MARC_SOURCE}/bcsgpusolver/bcslib_cuda/include "
BCSFORTLOW="$FORTLOW -I${MARC_SOURCE}/bcsgpusolver/common"
BCSFORTRAN="$FORTRAN -I${MARC_SOURCE}/bcsgpusolver/common"
BCSFORTHIGH="$FORTHIGH -I${MARC_SOURCE}/bcsgpusolver/common"
BCSFORT90HIGH="$BCSFORTHIGH"
if test "$MARCDEBUG" = "ON"
then
BCSFORTRAN=$BCSFORTLOW
BCSFORTHIGH=$BCSFORTLOW
BCSFORT90HIGH=$BCSFORTLOW
fi
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
LOAD="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
fi
# Uncomment the following lines to turn on the tracer and commnet out the next 5 lines
# if test $MPITYPE = intelmpi
# then
# INCLUDEMPI="-I$MPI_ROOT/include64 -I$VT_ROOT/include"
# LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# fi
if test $MPITYPE = intelmpi
then
LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
fi
else
LOAD="$FCOMP $LINK_OPT -o "
LOADT="$FCOMP $LINK_OPT -o "
fi
if test "$MARC_DLL" = MARC_DLL
then
FORTLOW="$FORTLOW -fpp -fPIC"
FORTRAN="$FORTRAN -fpp -fPIC"
FORTHIGH="$FORTHIGH -fpp -fPIC"
FORTRANMNF="$FORTRANMNF -fpp -fPIC"
CC="$CC -fPIC"
CCMNF="$CCMNF -fPIC"
CC_CASI="$CC_CASI -fPIC"
CCLOW_CASI="$CCLOW_CASI -fPIC"
CCHIGH_CASI="$CCHIGH_CASI -fPIC"
LINK_EXE_MARC="-L$MARC_LIB -lmarc -L$MARC_LIB_SHARED -lguide -lpthread"
LINK_MARC_DLL="-shared -fPIC"
LOAD_DLL=$LOAD
LOADT_DLL=$LOADT
EXT_DLL="so"
fi
XLIBS="-L/usr/X11/lib -lX11 "
#
# define archive and ranlib syntax
#
ARC="ar rvl"
ARD="ar dvl"
ARX="ar xl"
RAN=""
#
# choose which libraries you want to use ( e.g. blas )
#
if test "$VKISOLVER" = VKI
then
VKISOLVERLIBS="$MARC_LIB/vkisolver.a"
else
VKISOLVERLIBS=
fi
if test "$CASISOLVER" = CASI
then
CASISOLVERLIBS="$MARC_LIB/casilib.a"
else
CASISOLVERLIBS=
fi
MF2SOLVERLIBS=
if test "$MF2SOLVER" = MF2PARALLEL
then
MF2SOLVERLIBS="$MARC_LIB/mf2parallel/libseq.a \
$MARC_LIB/mf2parallel/libsym.a \
$MARC_LIB/mf2parallel/libmet.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libnum.a \
$MARC_LIB/mf2parallel/libutl.a \
$MARC_LIB/mf2parallel/libr8.a \
$MARC_LIB/mf2parallel/libz.a "
fi
if test "$INTELSOLVER" = PARDISO
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_lp64.a"
else
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_ilp64.a"
fi
else
INTELSOLVERLIBS=
fi
if test "$MUMPSSOLVER" = MUMPS
then
MUMPSSOLVERLIBS="$MARC_LIB/libmumps.a"
if test $MPITYPE = none
then
MUMPSSOLVERLIBS2=
echo hello > /dev/null
fi
if test $MPITYPE = intelmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_lp64.a $MARC_MKL/libmkl_blacs_intelmpi_lp64.a"
else
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_ilp64.a $MARC_MKL/libmkl_blacs_intelmpi_ilp64.a"
fi
fi
if test $MPITYPE = hpmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_lp64.a $MARC_MKL/libmkl_blacs_lp64.a"
else
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_ilp64.a $MARC_MKL/libmkl_blacs_ilp64.a"
fi
fi
else
MUMPSSOLVERLIBS=
MUMPSSOLVERLIBS2=
fi
if test "$BCSGPUSOLVER" = BCSGPU
then
BCSSOLVERLIBS="${MARC_LIB}/bcsgpulib.a -L/usr/local/cuda/lib -lcudart -lcublas -lcuda "
else
BCSSOLVERLIBS="${MARC_LIB}/bcslib.a "
fi
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MKLLIB=$MARC_MKL/libmkl_intel_lp64.a
else
MKLLIB=$MARC_MKL/libmkl_intel_ilp64.a
fi
SECLIBS="-L$MARC_LIB -llapi"
SOLVERLIBS="${BCSSOLVERLIBS} \
${INTELSOLVERLIBS} ${MUMPSSOLVERLIBS2} ${MF2SOLVERLIBS} \
-Wl,--start-group $MKLLIB $MARC_MKL/libmkl_intel_thread.a $MARC_MKL/libmkl_core.a -Wl,--end-group \
$MARC_MKL/libguide.a \
$MARC_LIB/blas_src.a ${VKISOLVERLIBS} ${CASISOLVERLIBS} "
SOLVERLIBS_DLL=${SOLVERLIBS}
MRCLIBS="$MARC_LIB/clib.a ${CASISOLVERLIBS}"
MRCLIBSPAR="$MARC_LIB/clib.a"
STUBS="$MARC_LIB/stubs.a "
MNFLIBS="$MARC_LIB/libmnf.a"
MDUSER="$MARC_LIB/md_user.a"
OPENMP="-openmp"
SYSLIBS=" $OPENMP -lpthread "
# Uncomment the following lines to turn on the trace and comment out the next 4 lines
# if test $MPITYPE = intelmpi
# then
# SYSLIBS="-L${VT_ROOT}/lib -lVT -ldwarf -lelf -lm -lpthread \
# -L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt"
# fi
if test $MPITYPE = intelmpi
then
SYSLIBS="-L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt $OPENMP -lpthread"
fi
SYSLIBSPAR=" "
MARC_DLL_CODES="runmarc.f"
BLAS_SRC="dzero.f icopy.f izero.f"
if test "$_OEM_NASTRAN" -ne 0
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
BLAS_SRC="$BLAS_SRC dsctr.f zsctr.f dzasum.f daxpyi.f zaxpyi.f dgthr.f zgthr.f"
else
BLAS_SRC="ALL"
fi
fi
LOW_OPT_CODES="are163.f contro.f ndext.f omarc.f omarca.f omarcb.f omarcc.f \
omars.f fixbc.f triang.f bet049.f norst3.f eldata.f \
elec*.f elct*.f fmeig.f oada00.f ogeig.f updtrbe2.f cycrota.f \
cordef.f ogpk.f ogtan.f eldam.f formrbe3.f \
inertie.f em_sso072.f cn_fol3d_qpatch6.f"
if test "$MARC_INTEGER_SIZE" = "i8" ; then
LOW_OPT_CODES="$LOW_OPT_CODES bbcseg.f"
fi
LOW_OPT_CODES_CASI=""
HIGH_OPT_CODES="dpsmsa1.f dpsmsa2.f dpsmsa3.f dpsmsa4.f dpsmsa5.f dpsmsa6.f \
dpsmsa7.f dpsmsa8.f dpsmsa9.f dpsmsa10.f dpsmsa11.f dpsmsa12.f \
dpsmsa13.f dpsmsa14.f dpsmsa15.f dpsmsa16.f "
HIGH_OPT_CODES_CASI="arithkernels.c blockedroutines.c blockedroutines_fd.c elemmatgenkernels.c longvecroutines.c sfmultutils.c solvewithbd.c"
MAXNUM=1000000

View File

@ -1,641 +0,0 @@
#
# General definitions for the Marc 2011 version
#
# EM64T
# ( LP64 - i4 version)
# (ILP64 - i8 version)
#
# Linux RedHat 5.4
#
# 64 bit MPI version
#
# Intel(R) Fortran Compiler
# Version 12.0.4
#
# Intel(R) C Compiler
# Version 12.0.4
#
# DATE
#
# To check the O/S level, type:
# uname -a
#
# Distributed parallel MPI libraries:
# 1) HP MPI 2.3
# To check the mpi version, type:
# mpirun -version
# 2) Intel MPI 4.0.1.007
# To check the mpi version, type:
# mpirun -version
#
# MKL Libraries:
# Intel(R) MKL 10.3.0.084
#
# To check the Compiler level, type using the compiler
# installation path:
# ifort -V
# icc -V
#
# REMARKS : This file contains the definitions of variables used during
# compilation loading and use of the MARC programmes . The
# current machine type is identified by means of the variable
# MACHINE , defined below.
#
#
# MPI_ROOT: root directory in which mpi shared libraries, etc. are located
# DIRJOB : directory in which spawned jobs should look for Marc input
# MPI_ARCH: system architecture
# MPI_EPATH: path where executable resides
#
REVISION="VERSION, BUILD"
HOSTNAME=`hostname`
# find available memory in Mbyte on the machine
# can be set explicitly
MEMLIMIT=`free -m | awk '/Mem:/ {print $2}'`
# set _OEM_NASTRAN to 1 for MD Nastran build
# override _OEM_NASTRAN setting with MARC_MD_NASTRAN environment variable
_OEM_NASTRAN="${MARC_MD_NASTRAN:-0}"
# uncomment the following line for an autoforge build
#AUTOFORGE=1
AUTOFORGE=0
export AUTOFORGE
# integer size
if test "$MARC_INTEGER_SIZE" = "" ; then
INTEGER_PATH=
else
INTEGER_PATH=/$MARC_INTEGER_SIZE
fi
FCOMP=ifort
#
# settings for Metis
#
METIS="-I$METIS_SOURCE"
METISLIBS="$MARC_LIB/metis.a "
#
# settings for MPI
#
# RCP and RSH are used for parallel network runs
# replace with similar commands like rsh if needed
RCP=/usr/bin/scp
RSH=/usr/bin/ssh
#
# select MPITYPE based upon what is installed
MPITYPE=none
if test -d $MARC_INTELMPI
then
MPITYPE=intelmpi
fi
if test -d $MARC_HPMPI
then
MPITYPE=hpmpi
fi
if test $AUTOFORGE
then
if test $AUTOFORGE = 1
then
MPITYPE=none
fi
fi
# uncomment one of the definitions of MPITYPE below to
# explicitly choose the type of MPI to use
#MPITYPE=none
#MPITYPE=hpmpi
#MPITYPE=intelmpi
MPI_DEFAULT=hpmpi
MPI_OTHER=intelmpi
INTELMPI_VERSION=HYDRA
# overrule MPITYPE setting with environmental variable MARC_MPITYPE
if test $MARC_MPITYPE
then
MPITYPE=$MARC_MPITYPE
fi
# always set MPITYPE to none for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
MPITYPE=none
fi
#
# settings for MPI
#
DDM=
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
FCOMPMPI=mpif90
export MPI_ROOT=$MARC_HPMPI
export MPI_REMSH=$RSH
export MPI_F77=$FCOMP
ARCHITECTURE=linux_amd64
DDM="-I$MPI_ROOT/include/64 -DDDM -DHPMPI"
MPI_CLEAN=
export MPI_EPATH=$MARC_BIN
export LD_LIBRARY_PATH=$MPI_ROOT/lib/$ARCHITECTURE:$MARC_LIB:$MARC_LIB_SHARED:$LD_LIBRARY_PATH
export MPIHPSPECIAL="-e MPI_FLAGS=E,T"
export MPIHPSPECIAL="$MPIHPSPECIAL -e LD_LIBRARY_PATH=$LD_LIBRARY_PATH"
export MPIHPSPECIAL="$MPIHPSPECIAL -e BINDIR=$MARC_BIN"
if test -n "$MSC_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e MSC_LICENSE_FILE=$MSC_LICENSE_FILE"
fi
if test -n "$LM_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e LM_LICENSE_FILE=$LM_LICENSE_FILE"
fi
export MPIHPSPECIAL="$MPIHPSPECIAL -e MPI_LIC_CHECKER=$MPI_ROOT/bin/licensing/amd64_s8/lichk.x"
RUN_JOB2="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -f "
RUN_JOB1="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -w $MPIHPSPECIAL -np "
RUN_JOB0=
fi
if test $MPITYPE = intelmpi
then
FCOMPMPI=mpiifort
MPI_ROOT=$MARC_INTELMPI
DDM="-I${MPI_ROOT}/include64 -DDDM"
PATH=$MPI_ROOT/bin64:$PATH
export PATH
LD_LIBRARY_PATH=$MPI_ROOT/lib64:$LD_LIBRARY_PATH
export LD_LIBRARY_PATH
if test $INTELMPI_VERSION = HYDRA
then
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec.hydra -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec.hydra "
else
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec -configfile "
fi
RUN_JOB0=
MPI_CLEAN=
MPI_EPATH=$MARC_BIN
MPIR_HOME=$MPI_ROOT
MPICH_F77=$FCOMP
MPICH_F77LINKER=$FCOMP
export MPI_ROOT MPI_EPATH MPIR_HOME MPICH_F77 MPICH_F77LINKER
I_MPI_PIN_DOMAIN=node
export I_MPI_PIN_DOMAIN
fi
else
MPI_ROOT=$MARC_DUMMYMPI
export MPI_ROOT=$MARC_DUMMYMPI
DDM="-I$MPI_ROOT/include"
fi
#
# variables for the "maintain" script
#
MACHINENAME=LINUX
MACHINE64BIT=yes
MACHINE=Linux_EM64T
DEV=/dev/tape
GETLOG="whoami"
CLEAR="clear"
MY_UNAME=`uname -a`
# Edit following 2 lines to build with VKI Solver
#VKISOLVER=VKI
VKISOLVER=NONE
# Edit following 2 lines to build with CASI Solver
CASISOLVER=CASI
#CASISOLVER=NONE
# Edit following 2 lines to build with MF2 Solver
MF2SOLVER=NONE
#MF2SOLVER=SERIAL
#MF2SOLVER=MF2PARALLEL
# Edit following lines to build with Intel(c) Multithreaded solver (PARDISO)
#INTELSOLVER=NONE
INTELSOLVER=PARDISO
# Edit following lines to build with MUMPS
if test "$MARC_INTEGER_SIZE" = "i4" ; then
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
else
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
fi
# Edit following lines to build with GPGPU version of BCS Solver for
# NVIDIA platforms
BCSGPUSOLVER=NONE
#BCSGPUSOLVER=BCSGPU
# Edit following 2 lines to build MARC dynamic shared library
MARC_DLL=MARC_DLL
#MARC_DLL=NONE
# always set VKISOLVER, CASISOLVER, BCSGPUSOLVER, and MARC_DLL to NONE for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
VKISOLVER=NONE
CASISOLVER=NONE
MF2SOLVER=NONE
INTELSOLVER=NONE
MUMPSSOLVER=NONE
BCSGPUSOLVER=NONE
MARC_DLL=NONE
fi
#
# define Fortran and C compile syntax
#
SOLVERFLAGS=
if test "$VKISOLVER" = VKI
then
SOLVERFLAGS="$SOLVERFLAGS -DVKI"
fi
if test "$CASISOLVER" = CASI
then
SOLVERFLAGS="$SOLVERFLAGS -DCASI"
fi
if test "$MF2SOLVER" = MF2PARALLEL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2PARALLEL"
fi
if test "$MF2SOLVER" = MF2SERIAL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2SERIAL"
fi
if test "$INTELSOLVER" = PARDISO
then
SOLVERFLAGS="$SOLVERFLAGS -DPARDISO"
fi
if test "$MUMPSSOLVER" = MUMPS
then
SOLVERFLAGS="$SOLVERFLAGS -DMUMPS"
fi
if test "$BCSGPUSOLVER" = BCSGPU
then
SOLVERFLAGS="$SOLVERFLAGS -DBCSGPU"
fi
if test "$MARC_DLL" = MARC_DLL
then
SOLVERFLAGS="$SOLVERFLAGS -DMARC_DLL"
fi
LINK_OPT=
DEBUG_OPT=
C_DEBUG_OPT=
#Uncomment following line to build Marc in debuggable mode
MARCDEBUG=
#MARCDEBUG="ON"
if test "$MARCDEBUG" = "ON"
then
LINK_OPT="-debug -traceback"
DEBUG_OPT="-debug -traceback"
C_DEBUG_OPT="-debug -traceback"
fi
MARCCHECK=
#MARCCHECK="ON"
if test "$MARCCHECK" = "ON"
then
DEBUG_OPT="$DEBUG_OPT -fpe0 -fp-stack-check -check all -ftrapuv "
C_DEBUG_OPT="$C_DEBUG_OPT -fp-stack-check -check-uninit -Wformat -ftrapuv "
fi
if test "$MARC_INTEGER_SIZE" = "i4" ; then
I8FFLAGS=
I8DEFINES=
I8CDEFINES=
I8CASIDEFS=
else
I8FFLAGS="-i8"
I8DEFINES="-DI64"
I8CDEFINES="-U_DOUBLE -D_SINGLE"
I8CASIDEFS="-DCASI_64BIT_INT=1"
fi
CDEFINES=
FDEFINES=
if test "$_OEM_NASTRAN" -ne 0
then
CDEFINES="$CDEFINES -D_OEM_NASTRAN"
FDEFINES="$FDEFINES -D_OEM_NASTRAN"
fi
FDEFINES="$FDEFINES -D_IMPLICITNONE"
if test "$_OEM_NASTRAN" -eq 0
then
FDEFINES="$FDEFINES -DOPENMP -DMKL"
fi
# -D_MSCMARC
FDEFINES="$FDEFINES -D_MSCMARC $DEBUG_OPT"
CDEFINES="$CDEFINES -D_MSCMARC $C_DEBUG_OPT $I8CDEFINES"
CINCL="-I$MARC_SOURCE/mdsrc -I$MARC_SOURCE/csource"
if test "$_OEM_NASTRAN" -ne 0
then
CINCL="$CINCL -I../../include"
fi
CC="icc -c -O1 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL"
CCLOW="icc -c -O0 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL"
CCHIGH="icc -c -O3 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL"
if test "$MARCDEBUG" = "ON"
then
CC="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL"
CCLOW="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL"
CCHIGH="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL"
fi
LOAD_CC="icc -O1 -DLinux -DLINUX -DLinux_intel"
CCT="$CC"
CCTLOW="$CCLOW"
CCTHIGH="$CCHIGH"
CC_CASI="$CC -c99 $I8CASIDEFS"
CCLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
CCT_CASI="$CCT -c99 $I8CASIDEFS"
CCTLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCTHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
#PROFILE="-Mprof=func"
#PROFILE="-Mprof=lines"
#PROFILE="-Mprof=func,mpi"
PROFILE=
FORTLOW="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP -c -assume byterecl -safe_cray_ptr -save -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
if test "$MARCDEBUG" = "ON"
then
FORTLOW="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP -c -assume byterecl -safe_cray_ptr -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/bcssolver/common -I$MARC_SOURCE/mumpssolver/include $I8FFLAGS -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
fi
FORTLOWT="$FORTLOW"
FORTRANT="$FORTRAN"
FORTHIGHT="$FORTHIGH"
FORTRANMNF="$FCOMP -c $FDEFINES "
CCMNF="icc -c -O1 -DLinux -DLINUX -DLinux_intel -Dport2egcs -I$MARC_SOURCE/marctoadams/mnf/include -D_LARGEFILE64_SOURCE"
FORTRANMUMPS="$FCOMP -c -fpp -D_IMPLICITNONE $I8FFLAGS $I8DEFINES $DDM -I$MARC_SOURCE/mumpssolver/include -Dintel_ -DALLOW_NON_INIT -Dmetis -nofor_main"
CCMUMPS="icc -c -DAdd_ -Dmetis -I$MARC_SOURCE/mumpssolver/include"
BCSCC="icc -c -O3 -DLOWERCASE_ -I${MARC_SOURCE}/bcsgpusolver/bcslib_csrc $CDEFINES $CINCL"
NVCC="nvcc -c -O3 -arch sm_13 -DLOWERCASE_ -I${MARC_SOURCE}/bcsgpusolver/bcslib_cuda/include "
BCSFORTLOW="$FORTLOW -I${MARC_SOURCE}/bcsgpusolver/common"
BCSFORTRAN="$FORTRAN -I${MARC_SOURCE}/bcsgpusolver/common"
BCSFORTHIGH="$FORTHIGH -I${MARC_SOURCE}/bcsgpusolver/common"
BCSFORT90HIGH="$BCSFORTHIGH"
if test "$MARCDEBUG" = "ON"
then
BCSFORTRAN=$BCSFORTLOW
BCSFORTHIGH=$BCSFORTLOW
BCSFORT90HIGH=$BCSFORTLOW
fi
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
LOAD="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
fi
# Uncomment the following lines to turn on the tracer and commnet out the next 5 lines
# if test $MPITYPE = intelmpi
# then
# INCLUDEMPI="-I$MPI_ROOT/include64 -I$VT_ROOT/include"
# LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# fi
if test $MPITYPE = intelmpi
then
LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
fi
else
LOAD="$FCOMP $LINK_OPT -o "
LOADT="$FCOMP $LINK_OPT -o "
fi
if test "$MARC_DLL" = MARC_DLL
then
FORTLOW="$FORTLOW -fpp -fPIC"
FORTRAN="$FORTRAN -fpp -fPIC"
FORTHIGH="$FORTHIGH -fpp -fPIC"
FORTRANMNF="$FORTRANMNF -fpp -fPIC"
CC="$CC -fPIC"
CCMNF="$CCMNF -fPIC"
CC_CASI="$CC_CASI -fPIC"
CCLOW_CASI="$CCLOW_CASI -fPIC"
CCHIGH_CASI="$CCHIGH_CASI -fPIC"
LINK_EXE_MARC="-L$MARC_LIB -lmarc -L$MARC_LIB_SHARED -lguide -lpthread"
LINK_MARC_DLL="-shared -fPIC"
LOAD_DLL=$LOAD
LOADT_DLL=$LOADT
EXT_DLL="so"
fi
XLIBS="-L/usr/X11/lib -lX11 "
#
# define archive and ranlib syntax
#
ARC="ar rvl"
ARD="ar dvl"
ARX="ar xl"
RAN=""
#
# choose which libraries you want to use ( e.g. blas )
#
if test "$VKISOLVER" = VKI
then
VKISOLVERLIBS="$MARC_LIB/vkisolver.a"
else
VKISOLVERLIBS=
fi
if test "$CASISOLVER" = CASI
then
CASISOLVERLIBS="$MARC_LIB/casilib.a"
else
CASISOLVERLIBS=
fi
MF2SOLVERLIBS=
if test "$MF2SOLVER" = MF2PARALLEL
then
MF2SOLVERLIBS="$MARC_LIB/mf2parallel/libseq.a \
$MARC_LIB/mf2parallel/libsym.a \
$MARC_LIB/mf2parallel/libmet.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libnum.a \
$MARC_LIB/mf2parallel/libutl.a \
$MARC_LIB/mf2parallel/libr8.a \
$MARC_LIB/mf2parallel/libz.a "
fi
if test "$INTELSOLVER" = PARDISO
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_lp64.a"
else
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_ilp64.a"
fi
else
INTELSOLVERLIBS=
fi
if test "$MUMPSSOLVER" = MUMPS
then
MUMPSSOLVERLIBS="$MARC_LIB/libmumps.a"
if test $MPITYPE = none
then
MUMPSSOLVERLIBS2=
echo hello > /dev/null
fi
if test $MPITYPE = intelmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_lp64.a $MARC_MKL/libmkl_blacs_intelmpi_lp64.a"
else
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_ilp64.a $MARC_MKL/libmkl_blacs_intelmpi_ilp64.a"
fi
fi
if test $MPITYPE = hpmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_lp64.a $MARC_MKL/libmkl_blacs_lp64.a"
else
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_ilp64.a $MARC_MKL/libmkl_blacs_ilp64.a"
fi
fi
else
MUMPSSOLVERLIBS=
MUMPSSOLVERLIBS2=
fi
if test "$BCSGPUSOLVER" = BCSGPU
then
BCSSOLVERLIBS="${MARC_LIB}/bcsgpulib.a -L/usr/local/cuda/lib -lcudart -lcublas -lcuda "
else
BCSSOLVERLIBS="${MARC_LIB}/bcslib.a "
fi
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MKLLIB=$MARC_MKL/libmkl_intel_lp64.a
else
MKLLIB=$MARC_MKL/libmkl_intel_ilp64.a
fi
SECLIBS="-L$MARC_LIB -llapi"
SOLVERLIBS="${BCSSOLVERLIBS} \
${INTELSOLVERLIBS} ${MUMPSSOLVERLIBS2} ${MF2SOLVERLIBS} \
-Wl,--start-group $MKLLIB $MARC_MKL/libmkl_intel_thread.a $MARC_MKL/libmkl_core.a -Wl,--end-group \
$MARC_MKL/libguide.a \
$MARC_LIB/blas_src.a ${VKISOLVERLIBS} ${CASISOLVERLIBS} "
SOLVERLIBS_DLL=${SOLVERLIBS}
MRCLIBS="$MARC_LIB/clib.a ${CASISOLVERLIBS}"
MRCLIBSPAR="$MARC_LIB/clib.a"
STUBS="$MARC_LIB/stubs.a "
MNFLIBS="$MARC_LIB/libmnf.a"
MDUSER="$MARC_LIB/md_user.a"
OPENMP="-openmp"
SYSLIBS=" $OPENMP -lpthread "
# Uncomment the following lines to turn on the trace and comment out the next 4 lines
# if test $MPITYPE = intelmpi
# then
# SYSLIBS="-L${VT_ROOT}/lib -lVT -ldwarf -lelf -lm -lpthread \
# -L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt"
# fi
if test $MPITYPE = intelmpi
then
SYSLIBS="-L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt $OPENMP -lpthread"
fi
SYSLIBSPAR=" "
MARC_DLL_CODES="runmarc.f"
BLAS_SRC="dzero.f icopy.f izero.f"
if test "$_OEM_NASTRAN" -ne 0
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
BLAS_SRC="$BLAS_SRC dsctr.f zsctr.f dzasum.f daxpyi.f zaxpyi.f dgthr.f zgthr.f"
else
BLAS_SRC="ALL"
fi
fi
LOW_OPT_CODES="are163.f contro.f ndext.f omarc.f omarca.f omarcb.f omarcc.f \
omars.f fixbc.f triang.f bet049.f norst3.f eldata.f \
elec*.f elct*.f fmeig.f oada00.f ogeig.f updtrbe2.f cycrota.f \
cordef.f ogpk.f ogtan.f eldam.f formrbe3.f \
inertie.f em_sso072.f cn_fol3d_qpatch6.f"
if test "$MARC_INTEGER_SIZE" = "i8" ; then
LOW_OPT_CODES="$LOW_OPT_CODES bbcseg.f"
fi
LOW_OPT_CODES_CASI=""
HIGH_OPT_CODES="dpsmsa1.f dpsmsa2.f dpsmsa3.f dpsmsa4.f dpsmsa5.f dpsmsa6.f \
dpsmsa7.f dpsmsa8.f dpsmsa9.f dpsmsa10.f dpsmsa11.f dpsmsa12.f \
dpsmsa13.f dpsmsa14.f dpsmsa15.f dpsmsa16.f "
HIGH_OPT_CODES_CASI="arithkernels.c blockedroutines.c blockedroutines_fd.c elemmatgenkernels.c longvecroutines.c sfmultutils.c solvewithbd.c"
MAXNUM=1000000

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@ -1,12 +0,0 @@
#!/bin/sh
# This script opens a window running an editor. The default window is an
# xterm, and the default editor is vi. These may be customized.
if [ "`uname`" = "SunOS" ]; then
dir=/usr/openwin/bin
else
dir=/usr/bin/X11
fi
# $dir/xterm -T "vi $*" -n "vi $*" -e vi $*
%EDITOR% $*

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@ -1,11 +0,0 @@
#!/bin/sh
# This script opens a window running an editor. The default window is an
# xterm, and the default editor is vi. These may be customized.
if [ "`uname`" = "SunOS" ]; then
dir=/usr/openwin/bin
else
dir=/usr/bin/X11
fi
$dir/xterm -T "vi $*" -n "vi $*" -e vi $*

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@ -1,156 +0,0 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=/home/f.roters/msc/marc2011
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
nthread=$9
shift 9 # cannot use $10, $11, ...
nsolver=$1
mode=$2
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_marc" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$nthread $nsolver $mode > /dev/null 2>&1
sleep 1
exit 0

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@ -1,157 +0,0 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
nthread=$9
shift 9 # cannot use $10, $11, ...
nsolver=$1
mode=$2
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask_hmp" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$nthread $nsolver $mode > /dev/null 2>&1
sleep 1
exit 0

View File

@ -1,157 +0,0 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
nthread=$9
shift 9 # cannot use $10, $11, ...
nsolver=$1
mode=$2
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$nthread $nsolver $mode > /dev/null 2>&1
sleep 1
exit 0

View File

@ -1,157 +0,0 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
nthread=$9
shift 9 # cannot use $10, $11, ...
nsolver=$1
mode=$2
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask_lmp" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$nthread $nsolver $mode > /dev/null 2>&1
sleep 1
exit 0

View File

@ -1,157 +0,0 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
nthread=$9
shift 9 # cannot use $10, $11, ...
nsolver=$1
mode=$2
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask_h" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$nthread $nsolver $mode > /dev/null 2>&1
sleep 1
exit 0

View File

@ -1,157 +0,0 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
nthread=$9
shift 9 # cannot use $10, $11, ...
nsolver=$1
mode=$2
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$nthread $nsolver $mode > /dev/null 2>&1
sleep 1
exit 0

View File

@ -1,157 +0,0 @@
#!/bin/sh
#
# The exit status of this script is read by Mentat.
# Normal exit status is 0.
#
DIR=%INSTALLDIR%/marc%VERSION%
if test $MARCDIR1
then
DIR=$MARCDIR1
fi
SRCEXT=.f
RSTEXT=.t08
PSTEXT=.t19
PSTEXTB=.t16
VWFCEXT=.vfs
slv=$1
version=$2
ndom_fea_solver=$3
ndom_preprocessor=$4
hostfile=$5
compat=$6
job=$7
srcfile=$8
srcmeth=$9
shift 9 # cannot use $10, $11, ...
restart=$1
postfile=$2
viewfactorsfile=$3
autorst=$4
copy_datfile="-ci $5"
copy_postfile="-cr $6"
scr_dir=$7
dcoup=$8
nthread=$9
shift 9 # cannot use $10, $11, ...
nsolver=$1
mode=$2
if [ "$slv" != "" -a "$slv" != "marc" ]; then
slv="-iam sfm"
else
slv=""
fi
if [ "$ndom_fea_solver" != "" -a "$ndom_fea_solver" != "1" ]; then
nprocds="-nprocds $ndom_fea_solver"
else
nprocd=""
if [ "$ndom_preprocessor" != "" -a "$ndom_preprocessor" != "1" ]; then
nprocd="-nprocd $ndom_preprocessor"
else
nprocd=""
fi
fi
if [ "$srcfile" != "" -a "$srcfile" != "-" ]; then
# srcfile=`echo $srcfile | sed "s/$SRCEXT$//"`
case "$srcmeth" in
-)
srcfile="-u $srcfile"
;;
compsave)
srcfile="-u $srcfile -save y"
;;
runsaved)
srcfile=${srcfile%.*}".marc"
srcfile="-prog $srcfile"
;;
esac
else
srcfile=""
fi
if [ "$restart" != "" -a "$restart" != "-" ]; then
restart=`echo $restart | sed "s/$RSTEXT$//"`
restart="-r $restart"
else
restart=""
fi
if [ "$postfile" != "" -a "$postfile" != "-" ]; then
postfile=`echo $postfile | sed "s/$PSTEXT$//"`
postfile=`echo $postfile | sed "s/$PSTEXTB$//"`
postfile="-pid $postfile"
else
postfile=""
fi
if [ "$viewfactorsfile" != "" -a "$viewfactorsfile" != "-" ]; then
viewfactorsfile=`echo $viewfactorsfile | sed "s/$VWFCEXT$//"`
viewfactorsfile="-vf $viewfactorsfile"
else
viewfactorsfile=""
fi
if [ "$hostfile" != "" -a "$hostfile" != "-" ]; then
hostfile="-ho $hostfile"
else
hostfile=""
fi
if [ "$compat" != "" -a "$compat" != "-" ]; then
compat="-co $compat"
else
compat=""
fi
if [ "$scr_dir" != "" -a "$scr_dir" != "-" ]; then
scr_dir="-sd $scr_dir"
else
scr_dir=""
fi
if [ "$dcoup" != "" -a "$dcoup" != "0" ]; then
dcoup="-dcoup $dcoup"
else
dcoup=""
fi
if [ "$nthread" != "" -a "$nthread" != "0" -a "$nthread" != "1" ]; then
nthread="-nthread $nthread"
else
nthread=""
fi
if [ "$nsolver" != "" -a "$nsolver" != "0" ]; then
nsolver="-nsolver $nsolver"
else
nsolver=""
fi
case "$mode" in
4) mode="-mo i4" ;;
8) mode="-mo i8" ;;
*) mode= ;;
esac
rm -f $job.cnt
rm -f $job.sts
rm -f $job.out
rm -f $job.log
# To prevent a mismatch with the python version used by the solver
# do *not* prepend $MENTAT_INSTALL_DIR/python/bin to environment variable PATH
# unset environment variables PYTHONHOME and PYTHONPATH
unset PYTHONHOME
unset PYTHONPATH
"${DIR}/tools/run_damask_l" $slv -j $job -v n -b y $nprocds $nprocd -autorst $autorst \
$srcfile $restart $postfile $viewfactorsfile $hostfile \
$compat $copy_datfile $copy_postfile $scr_dir $dcoup \
$nthread $nsolver $mode > /dev/null 2>&1
sleep 1
exit 0

File diff suppressed because it is too large Load Diff

File diff suppressed because it is too large Load Diff

View File

@ -1,52 +0,0 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTRAN $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -1,52 +0,0 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTHIGH $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -1,52 +0,0 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTHIGHMP $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -1,52 +0,0 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTLOW $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -1,52 +0,0 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
usernoext=$user
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .F`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .for`
usernoext=`dirname $usernoext`/`$BASENAME $usernoext .f90`
# add BLAS options for linking
BLAS="%BLAS%"
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user on host `hostname`"
echo "program: $program"
$DFORTRANMP $user || \
{
echo "$0: compile failed for $user"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$usernoext.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$BLAS \
$SYSLIBS || \
{
echo "$0: link failed for $usernoext.o on host `hostname`"
exit 1
}
/bin/rm $userobj
/bin/rm $DIRJOB/*.mod

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@ -1,41 +0,0 @@
#!/bin/ksh
# 1st arg: $DIR
# 2nd arg: $DIRJOB
# 3rd arg: $user
# 4th arg: $program
DIR=$1
user=$3
program=$4
. $DIR/tools/include
DIRJOB=$2
cd $DIRJOB
echo "Compiling and linking user subroutine $user.f on host `hostname`"
echo "program: $program"
$FORTRAN $user.f || \
{
echo "$0: compile failed for $user.f"
exit 1
}
/bin/rm $program 2>/dev/null
userobj=$user.o
$LOAD ${program} $DIR/lib/main.o\
$DIR/lib/blkdta.o $DIR/lib/comm?.o \
${userobj-} \
$DIR/lib/srclib.a \
$MNFLIBS \
$MDUSER \
../lib/mdsrc.a \
../lib/mcvfit.a \
$STUBS \
${SOLVERLIBS} \
$TKLIBS \
$MRCLIBS \
$METISLIBS \
$SYSLIBS || \
{
echo "$0: link failed for $user.o on host `hostname`"
exit 1
}
/bin/rm $userobj

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@ -1,703 +0,0 @@
#
# General definitions for the Marc 2011 version
#
# EM64T
# ( LP64 - i4 version)
# (ILP64 - i8 version)
#
# Linux RedHat 5.4
#
# 64 bit MPI version
#
# Intel(R) Fortran Compiler
# Version 12.0.4
#
# Intel(R) C Compiler
# Version 12.0.4
#
# DATE
#
# To check the O/S level, type:
# uname -a
#
# Distributed parallel MPI libraries:
# 1) HP MPI 2.3
# To check the mpi version, type:
# mpirun -version
# 2) Intel MPI 4.0.1.007
# To check the mpi version, type:
# mpirun -version
#
# MKL Libraries:
# Intel(R) MKL 10.3.0.084
#
# To check the Compiler level, type using the compiler
# installation path:
# ifort -V
# icc -V
#
# REMARKS : This file contains the definitions of variables used during
# compilation loading and use of the MARC programmes . The
# current machine type is identified by means of the variable
# MACHINE , defined below.
#
#
# MPI_ROOT: root directory in which mpi shared libraries, etc. are located
# DIRJOB : directory in which spawned jobs should look for Marc input
# MPI_ARCH: system architecture
# MPI_EPATH: path where executable resides
#
REVISION="VERSION, BUILD"
HOSTNAME=`hostname`
# find available memory in Mbyte on the machine
# can be set explicitly
MEMLIMIT=`free -m | awk '/Mem:/ {print $2}'`
# set _OEM_NASTRAN to 1 for MD Nastran build
# override _OEM_NASTRAN setting with MARC_MD_NASTRAN environment variable
_OEM_NASTRAN="${MARC_MD_NASTRAN:-0}"
# uncomment the following line for an autoforge build
#AUTOFORGE=1
AUTOFORGE=0
export AUTOFORGE
# integer size
if test "$MARC_INTEGER_SIZE" = "" ; then
INTEGER_PATH=
else
INTEGER_PATH=/$MARC_INTEGER_SIZE
fi
FCOMP=ifort
#
# settings for Metis
#
METIS="-I$METIS_SOURCE"
METISLIBS="$MARC_LIB/metis.a "
#
# settings for MPI
#
# RCP and RSH are used for parallel network runs
# replace with similar commands like rsh if needed
RCP=/usr/bin/scp
RSH=/usr/bin/ssh
#
MPI_DEFAULT=intelmpi
MPI_OTHER=hpmpi
MPITYPE=$MPI_DEFAULT
if test $AUTOFORGE
then
if test $AUTOFORGE = 1
then
MPITYPE=none
fi
fi
# overrule MPITYPE setting with environmental variable MARC_MPITYPE
if test $MARC_MPITYPE
then
MPITYPE=$MARC_MPITYPE
fi
# always set MPITYPE to none for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
MPITYPE=none
fi
# Edit following lines to build with GPGPU version of BCS Solver for
# NVIDIA platforms
#BCSGPUSOLVER=NONE
BCSGPUSOLVER=BCSGPU
SOLVERFLAGS=
if test "$BCSGPUSOLVER" = BCSGPU
then
SOLVERFLAGS="$SOLVERFLAGS -DBCSGPU -DCUDA"
BCS_DIR=bcsgpusolver
export PATH=$MARC_CUDA/bin:$MARC_CUDA/nvvm:$PATH
export LD_LIBRARY_PATH=$MARC_CUDA/lib64:$LD_LIBRARY_PATH
else
BCS_DIR=bcssolver
fi
#
# settings for MPI
#
DDM=
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
FCOMPMPI=mpif90
export MPI_ROOT=$MARC_HPMPI
export MPI_REMSH=$RSH
export MPI_F77=$FCOMP
ARCHITECTURE=linux_amd64
DDM="-I$MPI_ROOT/include/64 -DDDM -DHPMPI"
MPI_CLEAN=
export MPI_EPATH=$MARC_BIN
export LD_LIBRARY_PATH=$MPI_ROOT/lib/$ARCHITECTURE:$MARC_LIB:$MARC_LIB_SHARED:$LD_LIBRARY_PATH
export MPIHPSPECIAL="-e MPI_FLAGS=E,T,y1"
# Below line is moved in run_marc file
# export MPIHPSPECIAL="$MPIHPSPECIAL -e LD_LIBRARY_PATH=$LD_LIBRARY_PATH"
export MPIHPSPECIAL="$MPIHPSPECIAL -e BINDIR=$MARC_BIN"
if test -n "$MSC_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e MSC_LICENSE_FILE=$MSC_LICENSE_FILE"
fi
if test -n "$LM_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e LM_LICENSE_FILE=$LM_LICENSE_FILE"
fi
export MPIHPSPECIAL="$MPIHPSPECIAL -e MPI_LIC_CHECKER=$MPI_ROOT/bin/licensing/amd64_s8/lichk.x"
RUN_JOB2="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -f "
RUN_JOB1="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -w $MPIHPSPECIAL -np "
RUN_JOB0=
fi
if test $MPITYPE = intelmpi
then
INTELMPI_VERSION=HYDRA
FCOMPMPI=mpiifort
MPI_ROOT=$MARC_INTELMPI
DDM="-I${MPI_ROOT}/include64 -DDDM"
PATH=$MPI_ROOT/bin64:$PATH
export PATH
LD_LIBRARY_PATH=$MPI_ROOT/lib64:$LD_LIBRARY_PATH
export LD_LIBRARY_PATH
if test $INTELMPI_VERSION = HYDRA
then
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec.hydra -genvall -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec.hydra -genvall"
else
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec -configfile "
fi
RUN_JOB0=
MPI_CLEAN=
MPI_EPATH=$MARC_BIN
MPIR_HOME=$MPI_ROOT
MPICH_F77=$FCOMP
MPICH_F77LINKER=$FCOMP
export MPI_ROOT MPI_EPATH MPIR_HOME MPICH_F77 MPICH_F77LINKER
I_MPI_PIN_DOMAIN=node
export I_MPI_PIN_DOMAIN
fi
else
MPI_ROOT=$MARC_DUMMYMPI
export MPI_ROOT=$MARC_DUMMYMPI
DDM="-I$MPI_ROOT/include"
fi
#
# variables for the "maintain" script
#
MACHINENAME=LINUX
MACHINE64BIT=yes
MACHINE=Linux_EM64T
DEV=/dev/tape
GETLOG="whoami"
CLEAR="clear"
MY_UNAME=`uname -a`
# Edit following 2 lines to build with VKI Solver
#VKISOLVER=VKI
VKISOLVER=NONE
# Edit following 2 lines to build with CASI Solver
CASISOLVER=CASI
#CASISOLVER=NONE
# Edit following 2 lines to build with MF2 Solver
MF2SOLVER=NONE
#MF2SOLVER=SERIAL
#MF2SOLVER=MF2PARALLEL
# Edit following lines to build with Intel(c) Multithreaded solver (PARDISO)
#INTELSOLVER=NONE
INTELSOLVER=PARDISO
# Edit following lines to build with MUMPS
if test "$MARC_INTEGER_SIZE" = "i4" ; then
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
else
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
fi
# Edit following 2 lines to build MARC dynamic shared library
MARC_DLL=MARC_DLL
#MARC_DLL=NONE
# always set VKISOLVER, CASISOLVER, BCSGPUSOLVER, and MARC_DLL to NONE for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
VKISOLVER=NONE
CASISOLVER=NONE
MF2SOLVER=NONE
INTELSOLVER=NONE
MUMPSSOLVER=NONE
BCSGPUSOLVER=NONE
MARC_DLL=NONE
fi
#
# define Fortran and C compile syntax
#
if test "$VKISOLVER" = VKI
then
SOLVERFLAGS="$SOLVERFLAGS -DVKI"
fi
if test "$CASISOLVER" = CASI
then
SOLVERFLAGS="$SOLVERFLAGS -DCASI"
fi
if test "$MF2SOLVER" = MF2PARALLEL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2PARALLEL"
fi
if test "$MF2SOLVER" = MF2SERIAL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2SERIAL"
fi
if test "$INTELSOLVER" = PARDISO
then
SOLVERFLAGS="$SOLVERFLAGS -DPARDISO"
fi
if test "$MUMPSSOLVER" = MUMPS
then
SOLVERFLAGS="$SOLVERFLAGS -DMUMPS"
fi
if test "$MARC_DLL" = MARC_DLL
then
SOLVERFLAGS="$SOLVERFLAGS -DMARC_DLL"
fi
LINK_OPT=
DEBUG_OPT=
C_DEBUG_OPT=
#Uncomment following line to build Marc in debuggable mode
MARCDEBUG=
#MARCDEBUG="ON"
if test "$MARCDEBUG" = "ON"
then
LINK_OPT="-debug -traceback"
DEBUG_OPT="-debug -traceback"
C_DEBUG_OPT="-debug -traceback"
fi
MARCCHECK=
#MARCCHECK="ON"
if test "$MARCCHECK" = "ON"
then
DEBUG_OPT="$DEBUG_OPT -fpe0 -fp-stack-check -check all -ftrapuv "
C_DEBUG_OPT="$C_DEBUG_OPT -fp-stack-check -check-uninit -Wformat -ftrapuv "
fi
if test "$MARC_INTEGER_SIZE" = "i4" ; then
I8FFLAGS="-real-size 64 -integer-size 32"
I8DEFINES="-DFLOAT=8 -DINT=4"
I8CDEFINES=
I8CASIDEFS=
else
I8FFLAGS="-i8 -real-size 64 -integer-size 64"
I8DEFINES="-DI64 -DFLOAT=8 -DINT=8"
I8CDEFINES="-U_DOUBLE -D_SINGLE"
I8CASIDEFS="-DCASI_64BIT_INT=1"
fi
CDEFINES=
FDEFINES=
if test "$_OEM_NASTRAN" -ne 0
then
CDEFINES="$CDEFINES -D_OEM_NASTRAN"
FDEFINES="$FDEFINES -D_OEM_NASTRAN"
fi
FDEFINES="$FDEFINES -D_IMPLICITNONE"
if test "$_OEM_NASTRAN" -eq 0
then
FDEFINES="$FDEFINES -DOPENMP -DMKL"
fi
# -D_MSCMARC
FDEFINES="$FDEFINES -D_MSCMARC $DEBUG_OPT"
CDEFINES="$CDEFINES -D_MSCMARC $C_DEBUG_OPT $I8CDEFINES"
CINCL="-I$MARC_SOURCE/mdsrc -I$MARC_SOURCE/csource"
if test "$_OEM_NASTRAN" -ne 0
then
CINCL="$CINCL -I../../include"
fi
CC="icc -c -O1 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
CCLOW="icc -c -O0 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
CCHIGH="icc -c -O3 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
if test "$MARCDEBUG" = "ON"
then
CC="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
CCLOW="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
CCHIGH="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
fi
LOAD_CC="icc -O1 -DLinux -DLINUX -DLinux_intel"
CCT="$CC"
CCTLOW="$CCLOW"
CCTHIGH="$CCHIGH"
CC_CASI="$CC -c99 $I8CASIDEFS"
CCLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
CCT_CASI="$CCT -c99 $I8CASIDEFS"
CCTLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCTHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
#PROFILE="-Mprof=func"
#PROFILE="-Mprof=lines"
#PROFILE="-Mprof=func,mpi"
PROFILE=
FORTLOW="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr -save -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
# determine DAMASK version
HIT=0
for arg in "$@"
do
if [ $HIT = 1 ]
then
DAMASKPATH=`dirname $arg`
break
elif [ ${arg:0:2} = -u -o ${arg:0:2} = -U ]
then
HIT=1
fi
done
read DAMASKVERSION < $DAMASKPATH/../VERSION
DAMASKVERSION="'"$DAMASKVERSION"'"
# DAMASK compiler calls: additional flags are in line 2 OpenMP flags in line 3; removed -save for calls with openMP
DFORTLOW="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTLOWMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRAN="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRANMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGH="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGHMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
if test "$MARCDEBUG" = "ON"
then
FORTLOW="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
# DAMASK compiler calls: additional flags are in line 2 OpenMP flags in line 3; removed -save for calls with openMP
DFORTLOW="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTLOWMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRAN="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTRANMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGH="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-enable sc3 -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
DFORTHIGHMP="$FCOMP -c -assume byterecl -stand f08 -standard-semantics -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-fpp -ftz -diag-disable 5268 -warn declarations -warn general -warn usage -warn interfaces -warn ignore_loc -warn alignments -DMarc4DAMASK=2012 -DDAMASKVERSION=$DAMASKVERSION \
-openmp -openmp_report2 \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
fi
FORTLOWT="$FORTLOW"
FORTRANT="$FORTRAN"
FORTHIGHT="$FORTHIGH"
FORTRANMNF="$FCOMP -c $FDEFINES "
CCMNF="icc -c -O1 -DLinux -DLINUX -DLinux_intel -Dport2egcs -I$MARC_SOURCE/marctoadams/mnf/include -D_LARGEFILE64_SOURCE"
FORTRANMUMPS="$FCOMP -c -fpp -D_IMPLICITNONE $I8FFLAGS $I8DEFINES $DDM -I$MARC_SOURCE/mumpssolver/include -Dintel_ -DALLOW_NON_INIT -Dmetis -nofor_main"
CCMUMPS="icc -c -DAdd_ -Dmetis -I$MARC_SOURCE/mumpssolver/include"
BCSCC="icc -c -O3 -DLOWERCASE_ -I${MARC_SOURCE}/${BCS_DIR}/bcslib_csrc $CDEFINES $CINCL"
NVCC="nvcc -c -O3 -arch sm_20 -DLOWERCASE_ -I${MARC_SOURCE}/${BCS_DIR}/bcslib_cuda/include -I${MARC_CUDA}/include -I$MARC_SOURCE/mdsrc $I8DEFINES -Xcompiler -fvisibility=hidden -Xcompiler -fPIC $I8DEFINES "
NVCCLIB="ar rvl"
NVCCLD=gcc
BCSFORTLOW="$FORTLOW -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORTRAN="$FORTRAN -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORTHIGH="$FORTHIGH -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORT90HIGH="$BCSFORTHIGH"
if test "$MARCDEBUG" = "ON"
then
BCSFORTRAN=$BCSFORTLOW
BCSFORTHIGH=$BCSFORTLOW
BCSFORT90HIGH=$BCSFORTLOW
fi
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
LOAD="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
fi
# Uncomment the following lines to turn on the tracer and commnet out the next 5 lines
# if test $MPITYPE = intelmpi
# then
# INCLUDEMPI="-I$MPI_ROOT/include64 -I$VT_ROOT/include"
# LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# fi
if test $MPITYPE = intelmpi
then
LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
fi
else
LOAD="$FCOMP $LINK_OPT -o "
LOADT="$FCOMP $LINK_OPT -o "
fi
if test "$MARC_DLL" = MARC_DLL
then
FORTLOW="$FORTLOW -fpp -fPIC"
FORTRAN="$FORTRAN -fpp -fPIC"
FORTHIGH="$FORTHIGH -fpp -fPIC"
FORTRANMNF="$FORTRANMNF -fpp -fPIC"
CC="$CC -fPIC"
CCMNF="$CCMNF -fPIC"
CC_CASI="$CC_CASI -fPIC"
CCLOW_CASI="$CCLOW_CASI -fPIC"
CCHIGH_CASI="$CCHIGH_CASI -fPIC"
LINK_EXE_MARC="-L$MARC_LIB -lmarc -L$MARC_LIB_SHARED -lguide -lpthread"
LINK_MARC_DLL="-shared -fPIC"
LOAD_DLL=$LOAD
LOADT_DLL=$LOADT
EXT_DLL="so"
fi
XLIBS="-L/usr/X11/lib -lX11 "
#
# define archive and ranlib syntax
#
ARC="ar rvl"
ARD="ar dvl"
ARX="ar xl"
RAN=""
#
# choose which libraries you want to use ( e.g. blas )
#
if test "$VKISOLVER" = VKI
then
VKISOLVERLIBS="$MARC_LIB/vkisolver.a"
else
VKISOLVERLIBS=
fi
if test "$CASISOLVER" = CASI
then
CASISOLVERLIBS="$MARC_LIB/casilib.a"
else
CASISOLVERLIBS=
fi
MF2SOLVERLIBS=
if test "$MF2SOLVER" = MF2PARALLEL
then
MF2SOLVERLIBS="$MARC_LIB/mf2parallel/libseq.a \
$MARC_LIB/mf2parallel/libsym.a \
$MARC_LIB/mf2parallel/libmet.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libnum.a \
$MARC_LIB/mf2parallel/libutl.a \
$MARC_LIB/mf2parallel/libr8.a \
$MARC_LIB/mf2parallel/libz.a "
fi
if test "$INTELSOLVER" = PARDISO
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_lp64.a"
else
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_ilp64.a"
fi
else
INTELSOLVERLIBS=
fi
if test "$MUMPSSOLVER" = MUMPS
then
MUMPSSOLVERLIBS="$MARC_LIB/libmumps.a"
if test $MPITYPE = none
then
MUMPSSOLVERLIBS2=
echo hello > /dev/null
fi
if test $MPITYPE = intelmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_lp64.a $MARC_MKL/libmkl_blacs_intelmpi_lp64.a"
else
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_ilp64.a $MARC_MKL/libmkl_blacs_intelmpi_ilp64.a"
fi
fi
if test $MPITYPE = hpmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_lp64.a $MARC_MKL/libmkl_blacs_lp64.a"
else
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_ilp64.a $MARC_MKL/libmkl_blacs_ilp64.a"
fi
fi
else
MUMPSSOLVERLIBS=
MUMPSSOLVERLIBS2=
fi
if test "$BCSGPUSOLVER" = BCSGPU
then
BCSSOLVERLIBS="${MARC_LIB}/bcsgpulib.a "
MARCCUDALIBS1="-L${MARC_LIB}/cuda_dummy -lmarccuda "
MARCCUDALIBS2="-L${MARC_LIB}/cuda -lmarccuda "
MARCCUDALIBS=$MARCCUDALIBS1
CUDALIBS="-L$MARC_CUDA/lib64 -lcudart -lcublas -L/usr/lib64 -lcuda "
else
BCSSOLVERLIBS="${MARC_LIB}/bcslib.a "
fi
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MKLLIB=$MARC_MKL/libmkl_intel_lp64.a
else
MKLLIB=$MARC_MKL/libmkl_intel_ilp64.a
fi
SECLIBS="-L$MARC_LIB -llapi"
SOLVERLIBS="${BCSSOLVERLIBS} \
${INTELSOLVERLIBS} ${MUMPSSOLVERLIBS2} ${MF2SOLVERLIBS} \
-Wl,--start-group $MKLLIB $MARC_MKL/libmkl_intel_thread.a $MARC_MKL/libmkl_core.a -Wl,--end-group \
$MARC_MKL/libguide.a \
$MARC_LIB/blas_src.a ${VKISOLVERLIBS} ${CASISOLVERLIBS} "
SOLVERLIBS_DLL=${SOLVERLIBS}
MRCLIBS="$MARC_LIB/clib.a ${CASISOLVERLIBS}"
MRCLIBSPAR="$MARC_LIB/clib.a"
STUBS="$MARC_LIB/stubs.a "
MNFLIBS="$MARC_LIB/libmnf.a"
MDUSER="$MARC_LIB/md_user.a"
OPENMP="-openmp"
SYSLIBS=" $OPENMP -lpthread "
# Uncomment the following lines to turn on the trace and comment out the next 4 lines
# if test $MPITYPE = intelmpi
# then
# SYSLIBS="-L${VT_ROOT}/lib -lVT -ldwarf -lelf -lm -lpthread \
# -L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt"
# fi
if test $MPITYPE = intelmpi
then
SYSLIBS="-L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt $OPENMP -lpthread"
fi
SYSLIBSPAR=" "
MARC_DLL_CODES="runmarc.f"
BLAS_SRC="dzero.f icopy.f izero.f"
if test "$_OEM_NASTRAN" -ne 0
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
BLAS_SRC="$BLAS_SRC dsctr.f zsctr.f dzasum.f daxpyi.f zaxpyi.f dgthr.f zgthr.f"
else
BLAS_SRC="ALL"
fi
fi
LOW_OPT_CODES="are163.f contro.f ndext.f omarc.f omarca.f omarcb.f omarcc.f \
omars.f fixbc.f triang.f bet049.f norst3.f eldata.f \
elec*.f elct*.f fmeig.f oada00.f ogeig.f updtrbe2.f cycrota.f \
cordef.f ogpk.f ogtan.f eldam.f formrbe3.f \
inertie.f em_sso072.f cn_fol3d_qpatch6.f"
if test "$MARC_INTEGER_SIZE" = "i8" ; then
LOW_OPT_CODES="$LOW_OPT_CODES bbcseg.f"
fi
LOW_OPT_CODES_CASI=""
HIGH_OPT_CODES="dpsmsa1.f dpsmsa2.f dpsmsa3.f dpsmsa4.f dpsmsa5.f dpsmsa6.f \
dpsmsa7.f dpsmsa8.f dpsmsa9.f dpsmsa10.f dpsmsa11.f dpsmsa12.f \
dpsmsa13.f dpsmsa14.f dpsmsa15.f dpsmsa16.f "
HIGH_OPT_CODES_CASI="arithkernels.c blockedroutines.c blockedroutines_fd.c elemmatgenkernels.c longvecroutines.c sfmultutils.c solvewithbd.c"
MAXNUM=1000000

View File

@ -1,641 +0,0 @@
#
# General definitions for the Marc 2011 version
#
# EM64T
# ( LP64 - i4 version)
# (ILP64 - i8 version)
#
# Linux RedHat 5.4
#
# 64 bit MPI version
#
# Intel(R) Fortran Compiler
# Version 12.0.4
#
# Intel(R) C Compiler
# Version 12.0.4
#
# DATE
#
# To check the O/S level, type:
# uname -a
#
# Distributed parallel MPI libraries:
# 1) HP MPI 2.3
# To check the mpi version, type:
# mpirun -version
# 2) Intel MPI 4.0.1.007
# To check the mpi version, type:
# mpirun -version
#
# MKL Libraries:
# Intel(R) MKL 10.3.0.084
#
# To check the Compiler level, type using the compiler
# installation path:
# ifort -V
# icc -V
#
# REMARKS : This file contains the definitions of variables used during
# compilation loading and use of the MARC programmes . The
# current machine type is identified by means of the variable
# MACHINE , defined below.
#
#
# MPI_ROOT: root directory in which mpi shared libraries, etc. are located
# DIRJOB : directory in which spawned jobs should look for Marc input
# MPI_ARCH: system architecture
# MPI_EPATH: path where executable resides
#
REVISION="VERSION, BUILD"
HOSTNAME=`hostname`
# find available memory in Mbyte on the machine
# can be set explicitly
MEMLIMIT=`free -m | awk '/Mem:/ {print $2}'`
# set _OEM_NASTRAN to 1 for MD Nastran build
# override _OEM_NASTRAN setting with MARC_MD_NASTRAN environment variable
_OEM_NASTRAN="${MARC_MD_NASTRAN:-0}"
# uncomment the following line for an autoforge build
#AUTOFORGE=1
AUTOFORGE=0
export AUTOFORGE
# integer size
if test "$MARC_INTEGER_SIZE" = "" ; then
INTEGER_PATH=
else
INTEGER_PATH=/$MARC_INTEGER_SIZE
fi
FCOMP=ifort
#
# settings for Metis
#
METIS="-I$METIS_SOURCE"
METISLIBS="$MARC_LIB/metis.a "
#
# settings for MPI
#
# RCP and RSH are used for parallel network runs
# replace with similar commands like rsh if needed
RCP=/usr/bin/scp
RSH=/usr/bin/ssh
#
MPI_DEFAULT=intelmpi
MPI_OTHER=hpmpi
MPITYPE=$MPI_DEFAULT
if test $AUTOFORGE
then
if test $AUTOFORGE = 1
then
MPITYPE=none
fi
fi
# overrule MPITYPE setting with environmental variable MARC_MPITYPE
if test $MARC_MPITYPE
then
MPITYPE=$MARC_MPITYPE
fi
# always set MPITYPE to none for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
MPITYPE=none
fi
# Edit following lines to build with GPGPU version of BCS Solver for
# NVIDIA platforms
#BCSGPUSOLVER=NONE
BCSGPUSOLVER=BCSGPU
SOLVERFLAGS=
if test "$BCSGPUSOLVER" = BCSGPU
then
SOLVERFLAGS="$SOLVERFLAGS -DBCSGPU -DCUDA"
BCS_DIR=bcsgpusolver
export PATH=$MARC_CUDA/bin:$MARC_CUDA/nvvm:$PATH
export LD_LIBRARY_PATH=$MARC_CUDA/lib64:$LD_LIBRARY_PATH
else
BCS_DIR=bcssolver
fi
#
# settings for MPI
#
DDM=
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
FCOMPMPI=mpif90
export MPI_ROOT=$MARC_HPMPI
export MPI_REMSH=$RSH
export MPI_F77=$FCOMP
ARCHITECTURE=linux_amd64
DDM="-I$MPI_ROOT/include/64 -DDDM -DHPMPI"
MPI_CLEAN=
export MPI_EPATH=$MARC_BIN
export LD_LIBRARY_PATH=$MPI_ROOT/lib/$ARCHITECTURE:$MARC_LIB:$MARC_LIB_SHARED:$LD_LIBRARY_PATH
export MPIHPSPECIAL="-e MPI_FLAGS=E,T,y1"
# Below line is moved in run_marc file
# export MPIHPSPECIAL="$MPIHPSPECIAL -e LD_LIBRARY_PATH=$LD_LIBRARY_PATH"
export MPIHPSPECIAL="$MPIHPSPECIAL -e BINDIR=$MARC_BIN"
if test -n "$MSC_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e MSC_LICENSE_FILE=$MSC_LICENSE_FILE"
fi
if test -n "$LM_LICENSE_FILE"
then
export MPIHPSPECIAL="$MPIHPSPECIAL -e LM_LICENSE_FILE=$LM_LICENSE_FILE"
fi
export MPIHPSPECIAL="$MPIHPSPECIAL -e MPI_LIC_CHECKER=$MPI_ROOT/bin/licensing/amd64_s8/lichk.x"
RUN_JOB2="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -f "
RUN_JOB1="$MPI_ROOT/bin/mpirun ${MPIRUNOPTIONS} -prot -w $MPIHPSPECIAL -np "
RUN_JOB0=
fi
if test $MPITYPE = intelmpi
then
INTELMPI_VERSION=HYDRA
FCOMPMPI=mpiifort
MPI_ROOT=$MARC_INTELMPI
DDM="-I${MPI_ROOT}/include64 -DDDM"
PATH=$MPI_ROOT/bin64:$PATH
export PATH
LD_LIBRARY_PATH=$MPI_ROOT/lib64:$LD_LIBRARY_PATH
export LD_LIBRARY_PATH
if test $INTELMPI_VERSION = HYDRA
then
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec.hydra -genvall -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec.hydra -genvall"
else
RUN_JOB1="${MPI_ROOT}/bin64/mpiexec -n "
RUN_JOB2="${MPI_ROOT}/bin64/mpiexec -configfile "
fi
RUN_JOB0=
MPI_CLEAN=
MPI_EPATH=$MARC_BIN
MPIR_HOME=$MPI_ROOT
MPICH_F77=$FCOMP
MPICH_F77LINKER=$FCOMP
export MPI_ROOT MPI_EPATH MPIR_HOME MPICH_F77 MPICH_F77LINKER
I_MPI_PIN_DOMAIN=node
export I_MPI_PIN_DOMAIN
fi
else
MPI_ROOT=$MARC_DUMMYMPI
export MPI_ROOT=$MARC_DUMMYMPI
DDM="-I$MPI_ROOT/include"
fi
#
# variables for the "maintain" script
#
MACHINENAME=LINUX
MACHINE64BIT=yes
MACHINE=Linux_EM64T
DEV=/dev/tape
GETLOG="whoami"
CLEAR="clear"
MY_UNAME=`uname -a`
# Edit following 2 lines to build with VKI Solver
#VKISOLVER=VKI
VKISOLVER=NONE
# Edit following 2 lines to build with CASI Solver
CASISOLVER=CASI
#CASISOLVER=NONE
# Edit following 2 lines to build with MF2 Solver
MF2SOLVER=NONE
#MF2SOLVER=SERIAL
#MF2SOLVER=MF2PARALLEL
# Edit following lines to build with Intel(c) Multithreaded solver (PARDISO)
#INTELSOLVER=NONE
INTELSOLVER=PARDISO
# Edit following lines to build with MUMPS
if test "$MARC_INTEGER_SIZE" = "i4" ; then
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
else
#MUMPSSOLVER=NONE
MUMPSSOLVER=MUMPS
fi
# Edit following 2 lines to build MARC dynamic shared library
MARC_DLL=MARC_DLL
#MARC_DLL=NONE
# always set VKISOLVER, CASISOLVER, BCSGPUSOLVER, and MARC_DLL to NONE for MD Nastran
if test "$_OEM_NASTRAN" -ne 0
then
VKISOLVER=NONE
CASISOLVER=NONE
MF2SOLVER=NONE
INTELSOLVER=NONE
MUMPSSOLVER=NONE
BCSGPUSOLVER=NONE
MARC_DLL=NONE
fi
#
# define Fortran and C compile syntax
#
if test "$VKISOLVER" = VKI
then
SOLVERFLAGS="$SOLVERFLAGS -DVKI"
fi
if test "$CASISOLVER" = CASI
then
SOLVERFLAGS="$SOLVERFLAGS -DCASI"
fi
if test "$MF2SOLVER" = MF2PARALLEL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2PARALLEL"
fi
if test "$MF2SOLVER" = MF2SERIAL
then
SOLVERFLAGS="$SOLVERFLAGS -DMF2SERIAL"
fi
if test "$INTELSOLVER" = PARDISO
then
SOLVERFLAGS="$SOLVERFLAGS -DPARDISO"
fi
if test "$MUMPSSOLVER" = MUMPS
then
SOLVERFLAGS="$SOLVERFLAGS -DMUMPS"
fi
if test "$MARC_DLL" = MARC_DLL
then
SOLVERFLAGS="$SOLVERFLAGS -DMARC_DLL"
fi
LINK_OPT=
DEBUG_OPT=
C_DEBUG_OPT=
#Uncomment following line to build Marc in debuggable mode
MARCDEBUG=
#MARCDEBUG="ON"
if test "$MARCDEBUG" = "ON"
then
LINK_OPT="-debug -traceback"
DEBUG_OPT="-debug -traceback"
C_DEBUG_OPT="-debug -traceback"
fi
MARCCHECK=
#MARCCHECK="ON"
if test "$MARCCHECK" = "ON"
then
DEBUG_OPT="$DEBUG_OPT -fpe0 -fp-stack-check -check all -ftrapuv "
C_DEBUG_OPT="$C_DEBUG_OPT -fp-stack-check -check-uninit -Wformat -ftrapuv "
fi
if test "$MARC_INTEGER_SIZE" = "i4" ; then
I8FFLAGS=
I8DEFINES=
I8CDEFINES=
I8CASIDEFS=
else
I8FFLAGS="-i8"
I8DEFINES="-DI64"
I8CDEFINES="-U_DOUBLE -D_SINGLE"
I8CASIDEFS="-DCASI_64BIT_INT=1"
fi
CDEFINES=
FDEFINES=
if test "$_OEM_NASTRAN" -ne 0
then
CDEFINES="$CDEFINES -D_OEM_NASTRAN"
FDEFINES="$FDEFINES -D_OEM_NASTRAN"
fi
FDEFINES="$FDEFINES -D_IMPLICITNONE"
if test "$_OEM_NASTRAN" -eq 0
then
FDEFINES="$FDEFINES -DOPENMP -DMKL"
fi
# -D_MSCMARC
FDEFINES="$FDEFINES -D_MSCMARC $DEBUG_OPT"
CDEFINES="$CDEFINES -D_MSCMARC $C_DEBUG_OPT $I8CDEFINES"
CINCL="-I$MARC_SOURCE/mdsrc -I$MARC_SOURCE/csource"
if test "$_OEM_NASTRAN" -ne 0
then
CINCL="$CINCL -I../../include"
fi
CC="icc -c -O1 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
CCLOW="icc -c -O0 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
CCHIGH="icc -c -O3 $I8DEFINES -DLinux -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
if test "$MARCDEBUG" = "ON"
then
CC="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
CCLOW="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
CCHIGH="icc -c -DLinux $I8DEFINES -DLINUX -DLinux_intel $CDEFINES $CINCL $SOLVERFLAGS"
fi
LOAD_CC="icc -O1 -DLinux -DLINUX -DLinux_intel"
CCT="$CC"
CCTLOW="$CCLOW"
CCTHIGH="$CCHIGH"
CC_CASI="$CC -c99 $I8CASIDEFS"
CCLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
CCT_CASI="$CCT -c99 $I8CASIDEFS"
CCTLOW_CASI="$CCLOW -c99 $I8CASIDEFS"
CCTHIGH_CASI="$CCHIGH -c99 $I8CASIDEFS"
#PROFILE="-Mprof=func"
#PROFILE="-Mprof=lines"
#PROFILE="-Mprof=func,mpi"
PROFILE=
FORTLOW="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O0 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -O1 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP -c -assume byterecl -safe_cray_ptr -save -zero -mp1 -WB -fno-alias -O3 $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
if test "$MARCDEBUG" = "ON"
then
FORTLOW="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTRAN="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTHIGH="$FCOMP -c -assume byterecl -safe_cray_ptr $PROFILE -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM $SOLVERFLAGS"
FORTNA="$FCOMP -c -assume byterecl -safe_cray_ptr -save -zero -mp1 -WB -fno-alias $I8FFLAGS -I$MARC_SOURCE/common \
-I$MARC_SOURCE/${BCS_DIR}/common -I$MARC_SOURCE/mumpssolver/include $I8DEFINES -DLinux -DLINUX -DLinux_intel $FDEFINES $DDM"
fi
FORTLOWT="$FORTLOW"
FORTRANT="$FORTRAN"
FORTHIGHT="$FORTHIGH"
FORTRANMNF="$FCOMP -c $FDEFINES "
CCMNF="icc -c -O1 -DLinux -DLINUX -DLinux_intel -Dport2egcs -I$MARC_SOURCE/marctoadams/mnf/include -D_LARGEFILE64_SOURCE"
FORTRANMUMPS="$FCOMP -c -fpp -D_IMPLICITNONE $I8FFLAGS $I8DEFINES $DDM -I$MARC_SOURCE/mumpssolver/include -Dintel_ -DALLOW_NON_INIT -Dmetis -nofor_main"
CCMUMPS="icc -c -DAdd_ -Dmetis -I$MARC_SOURCE/mumpssolver/include"
BCSCC="icc -c -O3 -DLOWERCASE_ -I${MARC_SOURCE}/${BCS_DIR}/bcslib_csrc $CDEFINES $CINCL"
NVCC="nvcc -c -O3 -arch sm_20 -DLOWERCASE_ -I${MARC_SOURCE}/${BCS_DIR}/bcslib_cuda/include -I${MARC_CUDA}/include -I$MARC_SOURCE/mdsrc $I8DEFINES -Xcompiler -fvisibility=hidden -Xcompiler -fPIC $I8DEFINES "
NVCCLIB="ar rvl"
NVCCLD=gcc
BCSFORTLOW="$FORTLOW -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORTRAN="$FORTRAN -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORTHIGH="$FORTHIGH -I${MARC_SOURCE}/${BCS_DIR}/common"
BCSFORT90HIGH="$BCSFORTHIGH"
if test "$MARCDEBUG" = "ON"
then
BCSFORTRAN=$BCSFORTLOW
BCSFORTHIGH=$BCSFORTLOW
BCSFORT90HIGH=$BCSFORTLOW
fi
if test $MPITYPE != none
then
if test $MPITYPE = hpmpi
then
LOAD="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin/$FCOMPMPI ${LOADOPTIONS} -L$MPI_ROOT/lib/$ARCHITECTURE $PROFILE $LINK_OPT -o "
fi
# Uncomment the following lines to turn on the tracer and commnet out the next 5 lines
# if test $MPITYPE = intelmpi
# then
# INCLUDEMPI="-I$MPI_ROOT/include64 -I$VT_ROOT/include"
# LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $INCLUDEMPI -g -t=log $LINK_OPT -o "
# fi
if test $MPITYPE = intelmpi
then
LOAD="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
LOADT="$MPI_ROOT/bin64/$FCOMPMPI $PROFILE $LINK_OPT -o "
fi
else
LOAD="$FCOMP $LINK_OPT -o "
LOADT="$FCOMP $LINK_OPT -o "
fi
if test "$MARC_DLL" = MARC_DLL
then
FORTLOW="$FORTLOW -fpp -fPIC"
FORTRAN="$FORTRAN -fpp -fPIC"
FORTHIGH="$FORTHIGH -fpp -fPIC"
FORTRANMNF="$FORTRANMNF -fpp -fPIC"
CC="$CC -fPIC"
CCMNF="$CCMNF -fPIC"
CC_CASI="$CC_CASI -fPIC"
CCLOW_CASI="$CCLOW_CASI -fPIC"
CCHIGH_CASI="$CCHIGH_CASI -fPIC"
LINK_EXE_MARC="-L$MARC_LIB -lmarc -L$MARC_LIB_SHARED -lguide -lpthread"
LINK_MARC_DLL="-shared -fPIC"
LOAD_DLL=$LOAD
LOADT_DLL=$LOADT
EXT_DLL="so"
fi
XLIBS="-L/usr/X11/lib -lX11 "
#
# define archive and ranlib syntax
#
ARC="ar rvl"
ARD="ar dvl"
ARX="ar xl"
RAN=""
#
# choose which libraries you want to use ( e.g. blas )
#
if test "$VKISOLVER" = VKI
then
VKISOLVERLIBS="$MARC_LIB/vkisolver.a"
else
VKISOLVERLIBS=
fi
if test "$CASISOLVER" = CASI
then
CASISOLVERLIBS="$MARC_LIB/casilib.a"
else
CASISOLVERLIBS=
fi
MF2SOLVERLIBS=
if test "$MF2SOLVER" = MF2PARALLEL
then
MF2SOLVERLIBS="$MARC_LIB/mf2parallel/libseq.a \
$MARC_LIB/mf2parallel/libsym.a \
$MARC_LIB/mf2parallel/libmet.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libmf2.a \
$MARC_LIB/mf2parallel/libgauss.a \
$MARC_LIB/mf2parallel/libnum.a \
$MARC_LIB/mf2parallel/libutl.a \
$MARC_LIB/mf2parallel/libr8.a \
$MARC_LIB/mf2parallel/libz.a "
fi
if test "$INTELSOLVER" = PARDISO
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_lp64.a"
else
INTELSOLVERLIBS="$MARC_MKL/libmkl_solver_ilp64.a"
fi
else
INTELSOLVERLIBS=
fi
if test "$MUMPSSOLVER" = MUMPS
then
MUMPSSOLVERLIBS="$MARC_LIB/libmumps.a"
if test $MPITYPE = none
then
MUMPSSOLVERLIBS2=
echo hello > /dev/null
fi
if test $MPITYPE = intelmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_lp64.a $MARC_MKL/libmkl_blacs_intelmpi_lp64.a"
else
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_ilp64.a $MARC_MKL/libmkl_blacs_intelmpi_ilp64.a"
fi
fi
if test $MPITYPE = hpmpi
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_lp64.a $MARC_MKL/libmkl_blacs_lp64.a"
else
MUMPSSOLVERLIBS2="$MARC_MKL/libmkl_scalapack_ilp64.a $MARC_MKL/libmkl_blacs_ilp64.a"
fi
fi
else
MUMPSSOLVERLIBS=
MUMPSSOLVERLIBS2=
fi
if test "$BCSGPUSOLVER" = BCSGPU
then
BCSSOLVERLIBS="${MARC_LIB}/bcsgpulib.a "
MARCCUDALIBS1="-L${MARC_LIB}/cuda_dummy -lmarccuda "
MARCCUDALIBS2="-L${MARC_LIB}/cuda -lmarccuda "
MARCCUDALIBS=$MARCCUDALIBS1
CUDALIBS="-L$MARC_CUDA/lib64 -lcudart -lcublas -L/usr/lib64 -lcuda "
else
BCSSOLVERLIBS="${MARC_LIB}/bcslib.a "
fi
if test "$MARC_INTEGER_SIZE" = "i4" ; then
MKLLIB=$MARC_MKL/libmkl_intel_lp64.a
else
MKLLIB=$MARC_MKL/libmkl_intel_ilp64.a
fi
SECLIBS="-L$MARC_LIB -llapi"
SOLVERLIBS="${BCSSOLVERLIBS} \
${INTELSOLVERLIBS} ${MUMPSSOLVERLIBS2} ${MF2SOLVERLIBS} \
-Wl,--start-group $MKLLIB $MARC_MKL/libmkl_intel_thread.a $MARC_MKL/libmkl_core.a -Wl,--end-group \
$MARC_MKL/libguide.a \
$MARC_LIB/blas_src.a ${VKISOLVERLIBS} ${CASISOLVERLIBS} "
SOLVERLIBS_DLL=${SOLVERLIBS}
MRCLIBS="$MARC_LIB/clib.a ${CASISOLVERLIBS}"
MRCLIBSPAR="$MARC_LIB/clib.a"
STUBS="$MARC_LIB/stubs.a "
MNFLIBS="$MARC_LIB/libmnf.a"
MDUSER="$MARC_LIB/md_user.a"
OPENMP="-openmp"
SYSLIBS=" $OPENMP -lpthread "
# Uncomment the following lines to turn on the trace and comment out the next 4 lines
# if test $MPITYPE = intelmpi
# then
# SYSLIBS="-L${VT_ROOT}/lib -lVT -ldwarf -lelf -lm -lpthread \
# -L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt"
# fi
if test $MPITYPE = intelmpi
then
SYSLIBS="-L${MPI_ROOT}/lib64 -lmpi -lmpiif -lmpigi -lrt $OPENMP -lpthread"
fi
SYSLIBSPAR=" "
MARC_DLL_CODES="runmarc.f"
BLAS_SRC="dzero.f icopy.f izero.f"
if test "$_OEM_NASTRAN" -ne 0
then
if test "$MARC_INTEGER_SIZE" = "i4" ; then
BLAS_SRC="$BLAS_SRC dsctr.f zsctr.f dzasum.f daxpyi.f zaxpyi.f dgthr.f zgthr.f"
else
BLAS_SRC="ALL"
fi
fi
LOW_OPT_CODES="are163.f contro.f ndext.f omarc.f omarca.f omarcb.f omarcc.f \
omars.f fixbc.f triang.f bet049.f norst3.f eldata.f \
elec*.f elct*.f fmeig.f oada00.f ogeig.f updtrbe2.f cycrota.f \
cordef.f ogpk.f ogtan.f eldam.f formrbe3.f \
inertie.f em_sso072.f cn_fol3d_qpatch6.f"
if test "$MARC_INTEGER_SIZE" = "i8" ; then
LOW_OPT_CODES="$LOW_OPT_CODES bbcseg.f"
fi
LOW_OPT_CODES_CASI=""
HIGH_OPT_CODES="dpsmsa1.f dpsmsa2.f dpsmsa3.f dpsmsa4.f dpsmsa5.f dpsmsa6.f \
dpsmsa7.f dpsmsa8.f dpsmsa9.f dpsmsa10.f dpsmsa11.f dpsmsa12.f \
dpsmsa13.f dpsmsa14.f dpsmsa15.f dpsmsa16.f "
HIGH_OPT_CODES_CASI="arithkernels.c blockedroutines.c blockedroutines_fd.c elemmatgenkernels.c longvecroutines.c sfmultutils.c solvewithbd.c"
MAXNUM=1000000

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