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merge declaration and initialization with standard values 

corrected handling of $DAMASK_NUM_THREADS
This commit is contained in:
Martin Diehl 2012-01-30 20:16:19 +00:00
parent eeda357710
commit 9464937db7
1 changed files with 62 additions and 126 deletions
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174
code/numerics.f90
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@ -27,63 +27,62 @@ use IO, only: IO_warning
implicit none
character(len=64), parameter :: numerics_configFile = 'numerics.config' ! name of configuration file
integer(pInt) :: iJacoStiffness, & ! frequency of stiffness update
iJacoLpresiduum, & ! frequency of Jacobian update of residuum in Lp
nHomog, & ! homogenization loop limit (only for debugging info, loop limit is determined by "subStepMinHomog")
nMPstate, & ! materialpoint state loop limit
nCryst, & ! crystallite loop limit (only for debugging info, loop limit is determined by "subStepMinCryst")
nState, & ! state loop limit
nStress, & ! stress loop limit
pert_method, & ! method used in perturbation technique for tangent
numerics_integrationMode ! integration mode 1 = central solution ; integration mode 2 = perturbation
integer(pInt), dimension(2) :: numerics_integrator ! method used for state integration (central & perturbed state)
real(pReal) :: relevantStrain, & ! strain increment considered significant (used by crystallite to determine whether strain inc is considered significant)
defgradTolerance, & ! deviation of deformation gradient that is still allowed (used by CPFEM to determine outdated ffn1)
pert_Fg, & ! strain perturbation for FEM Jacobi
subStepMinCryst, & ! minimum (relative) size of sub-step allowed during cutback in crystallite
subStepMinHomog, & ! minimum (relative) size of sub-step allowed during cutback in homogenization
subStepSizeCryst, & ! size of first substep when cutback in crystallite
subStepSizeHomog, & ! size of first substep when cutback in homogenization
stepIncreaseCryst, & ! increase of next substep size when previous substep converged in crystallite
stepIncreaseHomog, & ! increase of next substep size when previous substep converged in homogenization
rTol_crystalliteState, & ! relative tolerance in crystallite state loop
rTol_crystalliteTemperature, & ! relative tolerance in crystallite temperature loop
rTol_crystalliteStress, & ! relative tolerance in crystallite stress loop
aTol_crystalliteStress, & ! absolute tolerance in crystallite stress loop
integer(pInt) :: iJacoStiffness = 1_pInt, & ! frequency of stiffness update
iJacoLpresiduum = 1_pInt, & ! frequency of Jacobian update of residuum in Lp
nHomog = 20_pInt, & ! homogenization loop limit (only for debugging info, loop limit is determined by "subStepMinHomog")
nMPstate = 10_pInt, & ! materialpoint state loop limit
nCryst = 20_pInt, & ! crystallite loop limit (only for debugging info, loop limit is determined by "subStepMinCryst")
nState = 10_pInt, & ! state loop limit
nStress = 40_pInt, & ! stress loop limit
pert_method = 1_pInt, & ! method used in perturbation technique for tangent
numerics_integrationMode = 0_pInt ! integrationMode 1 = central solution ; integrationMode 2 = perturbation, Default 0: undefined, is not read from file
integer(pInt), dimension(2) :: numerics_integrator = 1_pInt ! method used for state integration (central & perturbed state), Default 1: fix-point iteration for both states
real(pReal) :: relevantStrain = 1.0e-7_pReal, & ! strain increment considered significant (used by crystallite to determine whether strain inc is considered significant)
defgradTolerance = 1.0e-7_pReal, & ! deviation of deformation gradient that is still allowed (used by CPFEM to determine outdated ffn1)
pert_Fg = 1.0e-7_pReal, & ! strain perturbation for FEM Jacobi
subStepMinCryst = 1.0e-3_pReal, & ! minimum (relative) size of sub-step allowed during cutback in crystallite
subStepMinHomog = 1.0e-3_pReal, & ! minimum (relative) size of sub-step allowed during cutback in homogenization
subStepSizeCryst = 0.25_pReal, & ! size of first substep when cutback in crystallite
subStepSizeHomog = 0.25_pReal, & ! size of first substep when cutback in homogenization
stepIncreaseCryst = 1.5_pReal, & ! increase of next substep size when previous substep converged in crystallite
stepIncreaseHomog = 1.5_pReal, & ! increase of next substep size when previous substep converged in homogenization
rTol_crystalliteState = 1.0e-6_pReal, & ! relative tolerance in crystallite state loop
rTol_crystalliteTemperature= 1.0e-6_pReal, & ! relative tolerance in crystallite temperature loop
rTol_crystalliteStress = 1.0e-6_pReal, & ! relative tolerance in crystallite stress loop
aTol_crystalliteStress = 1.0e-8_pReal, & ! absolute tolerance in crystallite stress loop, Default 1.0e-8: residuum is in Lp and hence strain is on this order
!* RGC parameters: added <<<updated 17.12.2009>>>
absTol_RGC, & ! absolute tolerance of RGC residuum
relTol_RGC, & ! relative tolerance of RGC residuum
absMax_RGC, & ! absolute maximum of RGC residuum
relMax_RGC, & ! relative maximum of RGC residuum
pPert_RGC, & ! perturbation for computing RGC penalty tangent
xSmoo_RGC, & ! RGC penalty smoothing parameter (hyperbolic tangent)
viscPower_RGC, & ! power (sensitivity rate) of numerical viscosity in RGC scheme
viscModus_RGC, & ! stress modulus of RGC numerical viscosity
refRelaxRate_RGC, & ! reference relaxation rate in RGC viscosity
maxdRelax_RGC, & ! threshold of maximum relaxation vector increment (if exceed this then cutback)
maxVolDiscr_RGC, & ! threshold of maximum volume discrepancy allowed
volDiscrMod_RGC, & ! stiffness of RGC volume discrepancy (zero = without volume discrepancy constraint)
volDiscrPow_RGC, & ! powerlaw penalty for volume discrepancy
absTol_RGC = 1.0e+4_pReal, & ! absolute tolerance of RGC residuum
relTol_RGC = 1.0e-3_pReal, & ! relative tolerance of RGC residuum
absMax_RGC = 1.0e+10_pReal, & ! absolute maximum of RGC residuum
relMax_RGC = 1.0e+2_pReal, & ! relative maximum of RGC residuum
pPert_RGC = 1.0e-7_pReal, & ! perturbation for computing RGC penalty tangent
xSmoo_RGC = 1.0e-5_pReal, & ! RGC penalty smoothing parameter (hyperbolic tangent)
viscPower_RGC = 1.0e+0_pReal, & ! power (sensitivity rate) of numerical viscosity in RGC scheme, Default 1.0e0: Newton viscosity (linear model)
viscModus_RGC = 0.0e+0_pReal, & ! stress modulus of RGC numerical viscosity, Default 0.0e0: No viscosity is applied
refRelaxRate_RGC = 1.0e-3_pReal, & ! reference relaxation rate in RGC viscosity
maxdRelax_RGC = 1.0e+0_pReal, & ! threshold of maximum relaxation vector increment (if exceed this then cutback)
maxVolDiscr_RGC = 1.0e-5_pReal, & ! threshold of maximum volume discrepancy allowed
volDiscrMod_RGC = 1.0e+12_pReal, & ! stiffness of RGC volume discrepancy (zero = without volume discrepancy constraint)
volDiscrPow_RGC = 5.0_pReal, & ! powerlaw penalty for volume discrepancy
!* spectral parameters:
err_div_tol, & ! error of divergence in fourier space
err_stress_tolrel, & ! factor to multiply with highest stress to get err_stress_tol
fftw_timelimit, & ! sets the timelimit of plan creation for FFTW, see manual on www.fftw.org
rotation_tol ! tolerance of rotation specified in loadcase
character(len=64) :: fftw_planner_string ! reads the planing-rigor flag, see manual on www.fftw.org
integer(pInt) :: fftw_planner_flag ! conversion of fftw_planner_string to integer, basically what is usually done in the include file of fftw
logical :: memory_efficient,& ! for fast execution (pre calculation of gamma_hat)
divergence_correction,& ! correct divergence calculation in fourier space
update_gamma,& ! update gamma operator with current stiffness
simplified_algorithm ! use short algorithm without fluctuation field
real(pReal) :: cut_off_value ! percentage of frequencies to cut away
integer(pInt) :: itmax , & ! maximum number of iterations
err_div_tol = 1.0e-4_pReal, & ! error of divergence in fourier space, Default 1.0e-4: proposed by Suquet
err_stress_tolrel = 0.01_pReal , & ! relative tolerance for fullfillment of stress BC, Default: 0.01 allowing deviation of 1% of maximum stress
fftw_timelimit = -1.0_pReal, & ! sets the timelimit of plan creation for FFTW, see manual on www.fftw.org, Default -1.0: disable timelimit
rotation_tol = 1.0e-12_pReal ! tolerance of rotation specified in loadcase, Default 1.0e-12: first guess
character(len=64) :: fftw_planner_string = 'FFTW_PATIENT' ! reads the planing-rigor flag, see manual on www.fftw.org, Default FFTW_PATIENT: use patiant planner flag
integer(pInt) :: fftw_planner_flag = 0_pInt ! conversion of fftw_planner_string to integer, basically what is usually done in the include file of fftw
logical :: memory_efficient = .true. ,& ! for fast execution (pre calculation of gamma_hat), Default .true.: do not precalculate
divergence_correction = .false. ,& ! correct divergence calculation in fourier space, Default .false.: no correction
update_gamma = .false.,& ! update gamma operator with current stiffness, Default .false.: use initial stiffness
simplified_algorithm = .true. ! use short algorithm without fluctuation field, Default .true.: use simplified algorithm
real(pReal) :: cut_off_value = 0.0_pReal ! percentage of frequencies to cut away, Default 0.0: use all frequencies
integer(pInt) :: itmax = 20_pInt , & ! maximum number of iterations
!* Random seeding parameters
fixedSeed ! fixed seeding for pseudo-random number generator
fixedSeed = 0_pInt ! fixed seeding for pseudo-random number generator, Default 0: use random seed
!* OpenMP variable
integer(pInt) DAMASK_NumThreadsInt ! value stored in environment variable DAMASK_NUM_THREADS
integer(pInt) :: DAMASK_NumThreadsInt = 0_pInt ! value stored in environment variable DAMASK_NUM_THREADS, set to zero if no OpenMP directive
CONTAINS
@ -108,20 +107,16 @@ subroutine numerics_init()
implicit none
!*** input variables ***!
!*** output variables ***!
!*** local variables ***!
integer(pInt), parameter :: fileunit = 300_pInt
integer(pInt), parameter :: maxNchunks = 2_pInt
integer(pInt) :: gotDAMASK_NUM_THREADS = 1_pInt
integer(pInt), dimension(1+2*maxNchunks) :: positions
character(len=64) tag
character(len=1024) line
character(len=64) :: tag
character(len=1024) :: line
! OpenMP variable
!$ character(len=4) DAMASK_NumThreadsString !environment variable DAMASK_NUM_THREADS
!$ character(len=6) DAMASK_NumThreadsString !environment variable DAMASK_NUM_THREADS
!$OMP CRITICAL (write2out)
write(6,*)
@ -130,68 +125,9 @@ subroutine numerics_init()
write(6,*)
!$OMP END CRITICAL (write2out)
! initialize all parameters with standard values
relevantStrain = 1.0e-7_pReal
defgradTolerance = 1.0e-7_pReal
iJacoStiffness = 1_pInt
iJacoLpresiduum = 1_pInt
pert_Fg = 1.0e-7_pReal
pert_method = 1_pInt
nHomog = 20_pInt
subStepMinHomog = 1.0e-3_pReal
subStepSizeHomog = 0.25_pReal
stepIncreaseHomog = 1.5_pReal
nMPstate = 10_pInt
nCryst = 20_pInt
subStepMinCryst = 1.0e-3_pReal
subStepsizeCryst = 0.25_pReal
stepIncreaseCryst = 1.5_pReal
nState = 10_pInt
nStress = 40_pInt
rTol_crystalliteState = 1.0e-6_pReal
rTol_crystalliteTemperature = 1.0e-6_pReal
rTol_crystalliteStress = 1.0e-6_pReal
aTol_crystalliteStress = 1.0e-8_pReal ! residuum is in Lp (hence strain on the order of 1e-8 here)
numerics_integrator(1) = 1_pInt ! fix-point iteration
numerics_integrator(2) = 1_pInt ! fix-point iteration
!* RGC parameters: added <<<updated 17.12.2009>>> with moderate setting
absTol_RGC = 1.0e+4_pReal
relTol_RGC = 1.0e-3_pReal
absMax_RGC = 1.0e+10_pReal
relMax_RGC = 1.0e+2_pReal
pPert_RGC = 1.0e-7_pReal
xSmoo_RGC = 1.0e-5_pReal
viscPower_RGC = 1.0e+0_pReal ! Newton viscosity (linear model)
viscModus_RGC = 0.0e+0_pReal ! No viscosity is applied
refRelaxRate_RGC = 1.0e-3_pReal
maxdRelax_RGC = 1.0e+0_pReal
maxVolDiscr_RGC = 1.0e-5_pReal ! tolerance for volume discrepancy allowed
volDiscrMod_RGC = 1.0e+12_pReal
volDiscrPow_RGC = 5.0_pReal
!* spectral parameters:
err_div_tol = 1.0e-4_pReal ! 1.0e-4 proposed by Suquet
err_stress_tolrel = 0.01_pReal ! relative tolerance for fullfillment of stress BC (1% of maximum stress)
itmax = 20_pInt ! Maximum iteration number
memory_efficient = .true. ! Precalculate Gamma-operator (81 double per point)
fftw_timelimit = -1.0_pReal ! no timelimit of plan creation for FFTW
fftw_planner_string ='FFTW_PATIENT'
rotation_tol = 1.0e-12_pReal
divergence_correction = .true. ! correct divergence by empirical factor
simplified_algorithm = .true. ! use algorithm without fluctuation field
update_gamma = .false. ! do not update gamma operator with current stiffness
cut_off_value = 0.0_pReal ! use all frequencies
!* Random seeding parameters
fixedSeed = 0_pInt
!* determin number of threads from environment variable DAMASK_NUM_THREADS
DAMASK_NumThreadsInt = 0_pInt
!$ call GET_ENVIRONMENT_VARIABLE('DAMASK_NUM_THREADS',DAMASK_NumThreadsString,4_pInt,gotDAMASK_NUM_THREADS) ! get environment variable DAMASK_NUM_THREADS...
!$ call GET_ENVIRONMENT_VARIABLE(NAME='DAMASK_NUM_THREADS',VALUE=DAMASK_NumThreadsString,STATUS=gotDAMASK_NUM_THREADS) ! get environment variable DAMASK_NUM_THREADS...
!$ if(gotDAMASK_NUM_THREADS /= 0_pInt) call IO_warning(47,ext_msg=DAMASK_NumThreadsString)
!$ read(DAMASK_NumThreadsString,'(i4)') DAMASK_NumThreadsInt ! ...convert it to integer...
!$ read(DAMASK_NumThreadsString,'(i6)') DAMASK_NumThreadsInt ! ...convert it to integer...
!$ if (DAMASK_NumThreadsInt < 1) DAMASK_NumThreadsInt = 1 ! ...ensure that its at least one...
!$ call omp_set_num_threads(DAMASK_NumThreadsInt) ! ...and use it as number of threads for parallel execution