Class | BoundaryMPI |
In: |
util/boundarympi.f90
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Subroutine : | |
aa_Var(DimXMin:DimXMax, DimZMin:DimZMax) : | real(8), intent(inout) |
subroutine BoundaryXCyc_aa(aa_Var) implicit none !変数定義 real(8), intent(inout) :: aa_Var(DimXMin:DimXMax, DimZMin:DimZMax) integer :: idest_a, idep_a, idest_b, idep_b integer :: im_a, km_a, im_b, km_b integer, parameter :: nvars = 1 real(8) :: sbuf_a( MarginX+1, RegZMax-RegZMin, nvars ) real(8) :: rbuf_a( MarginX+1, RegZMax-RegZMin, nvars ) real(8) :: sbuf_b( MarginX , RegZMax-RegZMin, nvars ) real(8) :: rbuf_b( MarginX , RegZMax-RegZMin, nvars ) integer :: ireqs_a, ireqr_a, ireqs_b, ireqr_b integer :: i, k !----- 変数の初期化 ----- im_a = MarginX+1 km_a = RegZMax-RegZMin im_b = MarginX km_b = RegZMax-RegZMin !------------------------------- ! 配列の右側を, ノード間で通信する. !送信する配列(sbuf_a)を用意する do k = RegZMin+1, RegZMax do i = 0, MarginX sbuf_a( i + 1, k, 1 ) = aa_var(RegXMax - i , k ) end do end do idest_a = mod(( myrank+1 ) , nprocs) !送信先 idep_a = mod(( myrank-1 )+nprocs, nprocs) !受信元 call MPIWrapperISend( idest_a, im_a, km_a, nvars, sbuf_a, ireqs_a ) call MPIWrapperIRecv( idep_a , im_a, km_a, nvars, rbuf_a, ireqr_a ) !------------------------------- do k = RegZMin+1, RegZMax do i = 1, MarginX sbuf_b( i, k, 1 ) = aa_var(RegXMin + i , k ) end do end do idest_b = mod(( myrank-1 )+nprocs, nprocs) !送信先 idep_b = mod(( myrank+1 ) , nprocs) !受信元 call MPIWrapperISend( idest_b, im_b, km_b, nvars, sbuf_b, ireqs_b ) call MPIWrapperIRecv( idep_b , im_b, km_b, nvars, rbuf_b, ireqr_b ) !------------------------------- call MPIWrapperWait( ireqs_a ) call MPIWrapperWait( ireqr_a ) do k = RegZMin+1, RegZMax do i = 0, MarginX aa_var(RegXMin - i , k ) = rbuf_a( i + 1, k, 1 ) end do end do !------------------------------- call MPIWrapperWait( ireqs_b ) call MPIWrapperWait( ireqr_b ) do k = RegZMin+1, RegZMax do i = 1, MarginX aa_var(RegXMax + i , k ) = rbuf_b( i, k, 1 ) end do end do end subroutine BoundaryXCyc_aa
Subroutine : | |
aa_Var(DimXMin:DimXMax, DimZMin:DimZMax) : | real(8), intent(inout) |
subroutine BoundaryXCyc_aa(aa_Var) implicit none !変数定義 real(8), intent(inout) :: aa_Var(DimXMin:DimXMax, DimZMin:DimZMax) integer :: idest_a, idep_a, idest_b, idep_b integer :: im_a, km_a, im_b, km_b integer, parameter :: nvars = 1 real(8) :: sbuf_a( MarginX+1, RegZMax-RegZMin, nvars ) real(8) :: rbuf_a( MarginX+1, RegZMax-RegZMin, nvars ) real(8) :: sbuf_b( MarginX , RegZMax-RegZMin, nvars ) real(8) :: rbuf_b( MarginX , RegZMax-RegZMin, nvars ) integer :: ireqs_a, ireqr_a, ireqs_b, ireqr_b integer :: i, k !----- 変数の初期化 ----- im_a = MarginX+1 km_a = RegZMax-RegZMin im_b = MarginX km_b = RegZMax-RegZMin !------------------------------- ! 配列の右側を, ノード間で通信する. !送信する配列(sbuf_a)を用意する do k = RegZMin+1, RegZMax do i = 0, MarginX sbuf_a( i + 1, k, 1 ) = aa_var(RegXMax - i , k ) end do end do idest_a = mod(( myrank+1 ) , nprocs) !送信先 idep_a = mod(( myrank-1 )+nprocs, nprocs) !受信元 call MPIWrapperISend( idest_a, im_a, km_a, nvars, sbuf_a, ireqs_a ) call MPIWrapperIRecv( idep_a , im_a, km_a, nvars, rbuf_a, ireqr_a ) !------------------------------- do k = RegZMin+1, RegZMax do i = 1, MarginX sbuf_b( i, k, 1 ) = aa_var(RegXMin + i , k ) end do end do idest_b = mod(( myrank-1 )+nprocs, nprocs) !送信先 idep_b = mod(( myrank+1 ) , nprocs) !受信元 call MPIWrapperISend( idest_b, im_b, km_b, nvars, sbuf_b, ireqs_b ) call MPIWrapperIRecv( idep_b , im_b, km_b, nvars, rbuf_b, ireqr_b ) !------------------------------- call MPIWrapperWait( ireqs_a ) call MPIWrapperWait( ireqr_a ) do k = RegZMin+1, RegZMax do i = 0, MarginX aa_var(RegXMin - i , k ) = rbuf_a( i + 1, k, 1 ) end do end do !------------------------------- call MPIWrapperWait( ireqs_b ) call MPIWrapperWait( ireqr_b ) do k = RegZMin+1, RegZMax do i = 1, MarginX aa_var(RegXMax + i , k ) = rbuf_b( i, k, 1 ) end do end do end subroutine BoundaryXCyc_aa
Subroutine : | |
aa_Var(DimXMin:DimXMax, DimZMin:DimZMax) : | real(8), intent(inout) |
subroutine BoundaryXCyc_aa(aa_Var) implicit none !変数定義 real(8), intent(inout) :: aa_Var(DimXMin:DimXMax, DimZMin:DimZMax) integer :: idest_a, idep_a, idest_b, idep_b integer :: im_a, km_a, im_b, km_b integer, parameter :: nvars = 1 real(8) :: sbuf_a( MarginX+1, RegZMax-RegZMin, nvars ) real(8) :: rbuf_a( MarginX+1, RegZMax-RegZMin, nvars ) real(8) :: sbuf_b( MarginX , RegZMax-RegZMin, nvars ) real(8) :: rbuf_b( MarginX , RegZMax-RegZMin, nvars ) integer :: ireqs_a, ireqr_a, ireqs_b, ireqr_b integer :: i, k !----- 変数の初期化 ----- im_a = MarginX+1 km_a = RegZMax-RegZMin im_b = MarginX km_b = RegZMax-RegZMin !------------------------------- ! 配列の右側を, ノード間で通信する. !送信する配列(sbuf_a)を用意する do k = RegZMin+1, RegZMax do i = 0, MarginX sbuf_a( i + 1, k, 1 ) = aa_var(RegXMax - i , k ) end do end do idest_a = mod(( myrank+1 ) , nprocs) !送信先 idep_a = mod(( myrank-1 )+nprocs, nprocs) !受信元 call MPIWrapperISend( idest_a, im_a, km_a, nvars, sbuf_a, ireqs_a ) call MPIWrapperIRecv( idep_a , im_a, km_a, nvars, rbuf_a, ireqr_a ) !------------------------------- do k = RegZMin+1, RegZMax do i = 1, MarginX sbuf_b( i, k, 1 ) = aa_var(RegXMin + i , k ) end do end do idest_b = mod(( myrank-1 )+nprocs, nprocs) !送信先 idep_b = mod(( myrank+1 ) , nprocs) !受信元 call MPIWrapperISend( idest_b, im_b, km_b, nvars, sbuf_b, ireqs_b ) call MPIWrapperIRecv( idep_b , im_b, km_b, nvars, rbuf_b, ireqr_b ) !------------------------------- call MPIWrapperWait( ireqs_a ) call MPIWrapperWait( ireqr_a ) do k = RegZMin+1, RegZMax do i = 0, MarginX aa_var(RegXMin - i , k ) = rbuf_a( i + 1, k, 1 ) end do end do !------------------------------- call MPIWrapperWait( ireqs_b ) call MPIWrapperWait( ireqr_b ) do k = RegZMin+1, RegZMax do i = 1, MarginX aa_var(RegXMax + i , k ) = rbuf_b( i, k, 1 ) end do end do end subroutine BoundaryXCyc_aa
Subroutine : | |
aaa_Var(DimXMin:DimXMax, DimZMin:DimZMax, 1:SpcNum) : | real(8), intent(inout) |
subroutine BoundaryXCyc_aaa(aaa_Var) implicit none !変数定義 real(8), intent(inout) :: aaa_Var(DimXMin:DimXMax, DimZMin:DimZMax, 1:SpcNum) integer :: idest_a, idep_a, idest_b, idep_b integer :: im_a, km_a, im_b, km_b ! integer, parameter :: nvars = SpcNum real(8) :: sbuf_a( MarginX+1, RegZMax-RegZMin, SpcNum ), rbuf_a( MarginX+1, RegZMax-RegZMin, SpcNum ), sbuf_b( MarginX , RegZMax-RegZMin, SpcNum ), rbuf_b( MarginX , RegZMax-RegZMin, SpcNum ) integer :: ireqs_a, ireqr_a, ireqs_b, ireqr_b integer :: i, k !----- 変数の初期化 ----- im_a = MarginX+1 km_a = RegZMax-RegZMin im_b = MarginX km_b = RegZMax-RegZMin !------------------------------- ! 配列の右側を, ノード間で通信する. !送信する配列(sbuf_a)を用意する do k = RegZMin+1, RegZMax do i = 0, MarginX sbuf_a( i + 1, k, 1:SpcNum ) = aaa_var(RegXMax - i , k, 1:SpcNum ) end do end do idest_a = mod(( myrank+1 ) , nprocs) !送信先 idep_a = mod(( myrank-1 )+nprocs, nprocs) !受信元 call MPIWrapperISend( idest_a, im_a, km_a, SpcNum, sbuf_a, ireqs_a ) call MPIWrapperIRecv( idep_a , im_a, km_a, SpcNum, rbuf_a, ireqr_a ) !------------------------------- do k = RegZMin+1, RegZMax do i = 1, MarginX sbuf_b( i, k, 1:SpcNum ) = aaa_var(RegXMin + i , k, 1:SpcNum ) end do end do idest_b = mod(( myrank-1 )+nprocs, nprocs) !送信先 idep_b = mod(( myrank+1 ) , nprocs) !受信元 call MPIWrapperISend( idest_b, im_b, km_b, SpcNum, sbuf_b, ireqs_b ) call MPIWrapperIRecv( idep_b , im_b, km_b, SpcNum, rbuf_b, ireqr_b ) !------------------------------- call MPIWrapperWait( ireqs_a ) call MPIWrapperWait( ireqr_a ) do k = RegZMin+1, RegZMax do i = 0, MarginX aaa_var(RegXMin - i , k, 1:SpcNum) = rbuf_a( i + 1, k, 1:SpcNum ) end do end do !------------------------------- call MPIWrapperWait( ireqs_b ) call MPIWrapperWait( ireqr_b ) do k = RegZMin+1, RegZMax do i = 1, MarginX aaa_var(RegXMax + i , k, 1:SpcNum ) = rbuf_b( i, k, 1:SpcNum ) end do end do end subroutine BoundaryXCyc_aaa
Subroutine : | |
az_Var(DimXMin:DimXMax, DimZMin:DimZMax) : | real(8), intent(inout) |
z 方向に半格子ずれた点に存在する変数に対し, z 方向に「反対称境界条件」を適用する.
subroutine BoundaryZAntiSym_az( az_Var ) ! ! z 方向に半格子ずれた点に存在する変数に対し, ! z 方向に「反対称境界条件」を適用する. ! !暗黙の型宣言禁止 implicit none !変数定義 real(8), intent(inout) :: az_Var(DimXMin:DimXMax, DimZMin:DimZMax) real(8) :: az_Work(DimXMin:DimXMax, DimZMin:DimZMax) integer :: k az_Work = az_Var do k = 0, MarginZ az_Var( :, RegZMin - k ) = - az_Work( :, RegZMin + 1 + k ) end do do k = 1, MarginZ az_Var( :, RegZMax + k ) = - az_Work( :, RegZMax + 1 - k ) end do end subroutine BoundaryZAntiSym_az
Subroutine : | |
ar_Var(DimXMin:DimXMax, DimZMin:DimZMax) : | real(8), intent(inout) |
z 方向の格子点上に存在する変数に対し, z 方向に「反対称境界条件」を適用する.
subroutine BoundaryZAntiSym_ar( ar_Var ) ! ! z 方向の格子点上に存在する変数に対し, ! z 方向に「反対称境界条件」を適用する. ! !暗黙の型宣言禁止 implicit none !変数定義 real(8), intent(inout) :: ar_Var(DimXMin:DimXMax, DimZMin:DimZMax) real(8) :: ar_Work(DimXMin:DimXMax, DimZMin:DimZMax) integer :: k ar_Work = ar_Var !境界での速度はゼロ ar_Var( :, RegZMin ) = 0.0d0 ar_Var( :, RegZMax ) = 0.0d0 do k = 1, MarginZ ar_Var( :, RegZMin - k ) = - ar_Work( :, RegZMin + k ) ar_Var( :, RegZMax + k ) = - ar_Work( :, RegZMax - k ) end do end subroutine BoundaryZAntiSym_ar
Subroutine : | |
az_Var(DimXMin:DimXMax, DimZMin:DimZMax) : | real(8), intent(inout) |
z 方向に半格子ずれた点に存在する変数に対し, z 方向に「反対称境界条件」を適用する.
subroutine BoundaryZAntiSym_az( az_Var ) ! ! z 方向に半格子ずれた点に存在する変数に対し, ! z 方向に「反対称境界条件」を適用する. ! !暗黙の型宣言禁止 implicit none !変数定義 real(8), intent(inout) :: az_Var(DimXMin:DimXMax, DimZMin:DimZMax) real(8) :: az_Work(DimXMin:DimXMax, DimZMin:DimZMax) integer :: k az_Work = az_Var do k = 0, MarginZ az_Var( :, RegZMin - k ) = - az_Work( :, RegZMin + 1 + k ) end do do k = 1, MarginZ az_Var( :, RegZMax + k ) = - az_Work( :, RegZMax + 1 - k ) end do end subroutine BoundaryZAntiSym_az
Subroutine : | |
aza_Var(DimXMin:DimXMax, DimZMin:DimZMax, SpcNum) : | real(8), intent(inout) |
z 方向に半格子ずれた点に存在する変数に対し, z 方向に「反対称境界条件」を適用する.
subroutine BoundaryZAntiSym_aza( aza_Var ) ! ! z 方向に半格子ずれた点に存在する変数に対し, ! z 方向に「反対称境界条件」を適用する. ! !暗黙の型宣言禁止 implicit none !変数定義 real(8), intent(inout) :: aza_Var(DimXMin:DimXMax, DimZMin:DimZMax, SpcNum) real(8) :: aza_Work(DimXMin:DimXMax, DimZMin:DimZMax, SpcNum) integer :: k aza_Work = aza_Var do k = 0, MarginZ aza_Var( :, RegZMin - k, : ) = - aza_Work( :, RegZMin + 1 + k, : ) end do do k = 1, MarginZ aza_Var( :, RegZMax + k, : ) = - aza_Work( :, RegZMax + 1 - k, : ) end do end subroutine BoundaryZAntiSym_aza
Subroutine : | |
az_Var(DimXMin:DimXMax, DimZMin:DimZMax) : | real(8), intent(inout) |
z 方向に半格子ずれた点に存在する変数に対し, z 方向に「対称境界条件」を適用する.
subroutine BoundaryZSym_az( az_Var ) ! ! z 方向に半格子ずれた点に存在する変数に対し, ! z 方向に「対称境界条件」を適用する. ! !暗黙の型宣言禁止 implicit none !変数定義 real(8), intent(inout) :: az_Var(DimXMin:DimXMax, DimZMin:DimZMax) real(8) :: az_Work(DimXMin:DimXMax, DimZMin:DimZMax) integer :: k az_Work = az_Var do k = 0, MarginZ az_Var( :, RegZMin - k ) = az_Work( :, RegZMin + 1 + k ) end do do k = 1, MarginZ az_Var( :, RegZMax + k ) = az_Work( :, RegZMax + 1 - k ) end do end subroutine BoundaryZSym_az
Subroutine : | |
ar_Var(DimXMin:DimXMax, DimZMin:DimZMax) : | real(8), intent(inout) |
z 方向の格子点上に存在する変数に対し, z 方向に「対称境界条件」を適用する.
subroutine BoundaryZSym_ar( ar_Var ) ! ! z 方向の格子点上に存在する変数に対し, ! z 方向に「対称境界条件」を適用する. ! !暗黙の型宣言禁止 implicit none !変数定義 real(8), intent(inout) :: ar_Var(DimXMin:DimXMax, DimZMin:DimZMax) real(8) :: ar_Work(DimXMin:DimXMax, DimZMin:DimZMax) integer :: k ar_Work = ar_Var !境界での速度はゼロ ar_Var( :, RegZMin ) = 0.0d0 ar_Var( :, RegZMax ) = 0.0d0 do k = 1, MarginZ ar_Var( :, RegZMin - k ) = ar_Work( :, RegZMin + k ) ar_Var( :, RegZMax + k ) = ar_Work( :, RegZMax - k ) end do end subroutine BoundaryZSym_ar
Subroutine : | |
az_Var(DimXMin:DimXMax, DimZMin:DimZMax) : | real(8), intent(inout) |
z 方向に半格子ずれた点に存在する変数に対し, z 方向に「対称境界条件」を適用する.
subroutine BoundaryZSym_az( az_Var ) ! ! z 方向に半格子ずれた点に存在する変数に対し, ! z 方向に「対称境界条件」を適用する. ! !暗黙の型宣言禁止 implicit none !変数定義 real(8), intent(inout) :: az_Var(DimXMin:DimXMax, DimZMin:DimZMax) real(8) :: az_Work(DimXMin:DimXMax, DimZMin:DimZMax) integer :: k az_Work = az_Var do k = 0, MarginZ az_Var( :, RegZMin - k ) = az_Work( :, RegZMin + 1 + k ) end do do k = 1, MarginZ az_Var( :, RegZMax + k ) = az_Work( :, RegZMax + 1 - k ) end do end subroutine BoundaryZSym_az
Subroutine : | |
aza_Var(DimXMin:DimXMax, DimZMin:DimZMax, SpcNum) : | real(8), intent(inout) |
z 方向に半格子ずれた点に存在する変数に対し, z 方向に「対称境界条件」を適用する.
subroutine BoundaryZSym_aza( aza_Var ) ! ! z 方向に半格子ずれた点に存在する変数に対し, ! z 方向に「対称境界条件」を適用する. ! !暗黙の型宣言禁止 implicit none !変数定義 real(8), intent(inout) :: aza_Var(DimXMin:DimXMax, DimZMin:DimZMax, SpcNum) real(8) :: aza_Work(DimXMin:DimXMax, DimZMin:DimZMax, SpcNum) integer :: k aza_Work = aza_Var do k = 0, MarginZ aza_Var( :, RegZMin - k, : ) = aza_Work( :, RegZMin + 1 + k, : ) end do do k = 1, MarginZ aza_Var( :, RegZMax + k, : ) = aza_Work( :, RegZMax + 1 - k, : ) end do end subroutine BoundaryZSym_aza