separate mechanics and thermal
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@ -158,9 +158,6 @@ subroutine materialpoint_general(mode, ffn, ffn1, temperature_inp, dt, elFE, ip,
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else validCalculation
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call homogenization_mechanical_response(dt,(elCP-1)*discretization_nIPs + ip, &
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(elCP-1)*discretization_nIPs + ip)
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if (.not. terminallyIll) &
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call homogenization_mechanical_response2(dt,(elCP-1)*discretization_nIPs + ip, &
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(elCP-1)*discretization_nIPs + ip)
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terminalIllness: if (terminallyIll) then
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@ -136,10 +136,6 @@ subroutine utilities_constitutiveResponse(P,P_av,C_volAvg,C_minmaxAvg,&
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homogenization_F = reshape(F,[3,3,product(cells(1:2))*cells3]) ! set materialpoint target F to estimated field
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call homogenization_mechanical_response(Delta_t,1,product(cells(1:2))*cells3) ! calculate P field
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if (.not. terminallyIll) &
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call homogenization_thermal_response(Delta_t,1,product(cells(1:2))*cells3)
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if (.not. terminallyIll) &
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call homogenization_mechanical_response2(Delta_t,1,product(cells(1:2))*cells3)
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P = reshape(homogenization_P, [3,3,cells(1),cells(2),cells3])
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P_av = sum(sum(sum(P,dim=5),dim=4),dim=3) * wgt
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@ -323,6 +323,8 @@ subroutine formResidual(residual_subdomain,x_scal,r,dummy,err_PETSc)
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real(pREAL), dimension(3,cells(1),cells(2),cells3) :: vectorField
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call homogenization_thermal_response(Delta_t_,1,product(cells(1:2))*cells3)
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associate(T => x_scal)
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vectorField = utilities_ScalarGradient(T)
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ce = 0
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@ -168,7 +168,6 @@ module homogenization
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public :: &
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homogenization_init, &
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homogenization_mechanical_response, &
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homogenization_mechanical_response2, &
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homogenization_thermal_response, &
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homogenization_thermal_active, &
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homogenization_mu_T, &
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@ -227,7 +226,8 @@ subroutine homogenization_mechanical_response(Delta_t,cell_start,cell_end)
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doneAndHappy
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!$OMP PARALLEL DO PRIVATE(en,ho,co,converged,doneAndHappy)
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!$OMP PARALLEL
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!$OMP DO PRIVATE(en,ho,co,converged,doneAndHappy)
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do ce = cell_start, cell_end
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en = material_entry_homogenization(ce)
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@ -260,7 +260,18 @@ subroutine homogenization_mechanical_response(Delta_t,cell_start,cell_end)
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terminallyIll = .true.
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end if
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end do
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!$OMP END PARALLEL DO
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!$OMP END DO
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!$OMP DO PRIVATE(ho)
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do ce = cell_start, cell_end
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ho = material_ID_homogenization(ce)
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do co = 1, homogenization_Nconstituents(ho)
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call crystallite_orientations(co,ce)
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end do
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call mechanical_homogenize(Delta_t,ce)
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end do
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!$OMP END DO
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!$OMP END PARALLEL
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end subroutine homogenization_mechanical_response
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@ -294,32 +305,6 @@ subroutine homogenization_thermal_response(Delta_t,cell_start,cell_end)
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end subroutine homogenization_thermal_response
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!--------------------------------------------------------------------------------------------------
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!> @brief
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!--------------------------------------------------------------------------------------------------
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subroutine homogenization_mechanical_response2(Delta_t,cell_start,cell_end)
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real(pREAL), intent(in) :: Delta_t !< time increment
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integer, intent(in) :: &
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cell_start, cell_end
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integer :: &
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co, ce, ho
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!$OMP PARALLEL DO PRIVATE(ho)
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do ce = cell_start, cell_end
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ho = material_ID_homogenization(ce)
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do co = 1, homogenization_Nconstituents(ho)
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call crystallite_orientations(co,ce)
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end do
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call mechanical_homogenize(Delta_t,ce)
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end do
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!$OMP END PARALLEL DO
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end subroutine homogenization_mechanical_response2
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!--------------------------------------------------------------------------------------------------
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!> @brief writes homogenization results to HDF5 output file
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!--------------------------------------------------------------------------------------------------
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@ -18,6 +18,7 @@ module FEM_utilities
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use math
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use misc
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use IO
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use parallelization
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use discretization_mesh
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use homogenization
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use FEM_quadrature
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@ -144,16 +145,15 @@ subroutine utilities_constitutiveResponse(Delta_t,P_av,forwardData)
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integer(MPI_INTEGER_KIND) :: err_MPI
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print'(/,1x,a)', '... evaluating constitutive response ......................................'
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call homogenization_mechanical_response(Delta_t,1,mesh_maxNips*mesh_NcpElems) ! calculate P field
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if (.not. terminallyIll) &
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call homogenization_mechanical_response2(Delta_t,1,mesh_maxNips*mesh_NcpElems)
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cutBack = .false.
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P_av = sum(homogenization_P,dim=3) * wgt
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call MPI_Allreduce(MPI_IN_PLACE,P_av,9_MPI_INTEGER_KIND,MPI_DOUBLE,MPI_SUM,MPI_COMM_WORLD,err_MPI)
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if (err_MPI /= 0_MPI_INTEGER_KIND) error stop 'MPI error'
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call parallelization_chkerr(err_MPI)
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end subroutine utilities_constitutiveResponse
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