! ! Parallel Sparse BLAS version 3.5 ! (C) Copyright 2006-2018 ! Salvatore Filippone ! Alfredo Buttari ! ! Redistribution and use in source and binary forms, with or without ! modification, are permitted provided that the following conditions ! are met: ! 1. Redistributions of source code must retain the above copyright ! notice, this list of conditions and the following disclaimer. ! 2. Redistributions in binary form must reproduce the above copyright ! notice, this list of conditions, and the following disclaimer in the ! documentation and/or other materials provided with the distribution. ! 3. The name of the PSBLAS group or the names of its contributors may ! not be used to endorse or promote products derived from this ! software without specific written permission. ! ! THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ! ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ! TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR ! PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE PSBLAS GROUP OR ITS CONTRIBUTORS ! BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR ! CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF ! SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS ! INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN ! CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ! ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ! POSSIBILITY OF SUCH DAMAGE. ! ! module psi_e_collective_mod use psi_penv_mod interface psb_max module procedure psb_emaxs, psb_emaxv, psb_emaxm end interface interface psb_min module procedure psb_emins, psb_eminv, psb_eminm end interface psb_min interface psb_sum module procedure psb_esums, psb_esumv, psb_esumm end interface interface psb_amx module procedure psb_eamxs, psb_eamxv, psb_eamxm end interface interface psb_amn module procedure psb_eamns, psb_eamnv, psb_eamnm end interface interface psb_bcast module procedure psb_ebcasts, psb_ebcastv, psb_ebcastm end interface psb_bcast interface psb_scan_sum module procedure psb_escan_sums, psb_escan_sumv end interface psb_scan_sum interface psb_exscan_sum module procedure psb_eexscan_sums, psb_eexscan_sumv end interface psb_exscan_sum interface psb_simple_a2av module procedure psb_e_simple_a2av end interface psb_simple_a2av interface psb_simple_triad_a2av module procedure psb_e_e_simple_triad_a2av, psb_e_m_simple_triad_a2av end interface psb_simple_triad_a2av contains ! !!!!!!!!!!!!!!!!!!!!!! ! ! Reduction operations ! ! !!!!!!!!!!!!!!!!!!!!!! ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! ! MAX ! ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!! subroutine psb_emaxs(ictxt,dat,root) #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_) :: dat_ integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call mpi_allreduce(dat,dat_,1,psb_mpi_epk_,mpi_max,icomm,info) dat = dat_ else call mpi_reduce(dat,dat_,1,psb_mpi_epk_,mpi_max,root_,icomm,info) if (iam == root_) dat = dat_ endif #endif end subroutine psb_emaxs subroutine psb_emaxv(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:) integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call psb_realloc(size(dat),dat_,iinfo) dat_ = dat if (iinfo == psb_success_) & & call mpi_allreduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_max,icomm,info) else if (iam == root_) then call psb_realloc(size(dat),dat_,iinfo) dat_ = dat call mpi_reduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_max,root_,icomm,info) else call psb_realloc(1,dat_,iinfo) call mpi_reduce(dat,dat_,size(dat),psb_mpi_epk_,mpi_max,root_,icomm,info) end if endif #endif end subroutine psb_emaxv subroutine psb_emaxm(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:,:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:,:) integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call psb_realloc(size(dat,1),size(dat,2),dat_,iinfo) dat_ = dat if (iinfo == psb_success_)& & call mpi_allreduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_max,icomm,info) else if (iam == root_) then call psb_realloc(size(dat,1),size(dat,2),dat_,iinfo) dat_ = dat call mpi_reduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_max,root_,icomm,info) else call psb_realloc(1,1,dat_,iinfo) call mpi_reduce(dat,dat_,size(dat),psb_mpi_epk_,mpi_max,root_,icomm,info) end if endif #endif end subroutine psb_emaxm ! ! MIN: Minimum Value ! subroutine psb_emins(ictxt,dat,root) #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_) :: dat_ integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call mpi_allreduce(dat,dat_,1,psb_mpi_epk_,mpi_min,icomm,info) dat = dat_ else call mpi_reduce(dat,dat_,1,psb_mpi_epk_,mpi_min,root_,icomm,info) if (iam == root_) dat = dat_ endif #endif end subroutine psb_emins subroutine psb_eminv(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:) integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call psb_realloc(size(dat),dat_,iinfo) dat_ = dat if (iinfo == psb_success_) & & call mpi_allreduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_min,icomm,info) else if (iam == root_) then call psb_realloc(size(dat),dat_,iinfo) dat_ = dat call mpi_reduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_min,root_,icomm,info) else call psb_realloc(1,dat_,iinfo) call mpi_reduce(dat,dat_,size(dat),psb_mpi_epk_,mpi_min,root_,icomm,info) end if endif #endif end subroutine psb_eminv subroutine psb_eminm(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:,:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:,:) integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call psb_realloc(size(dat,1),size(dat,2),dat_,iinfo) dat_ = dat if (iinfo == psb_success_)& & call mpi_allreduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_min,icomm,info) else if (iam == root_) then call psb_realloc(size(dat,1),size(dat,2),dat_,iinfo) dat_ = dat call mpi_reduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_min,root_,icomm,info) else call psb_realloc(1,1,dat_,iinfo) call mpi_reduce(dat,dat_,size(dat),psb_mpi_epk_,mpi_min,root_,icomm,info) end if endif #endif end subroutine psb_eminm ! ! SUM ! subroutine psb_esums(ictxt,dat,root) #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_) :: dat_ integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call mpi_allreduce(dat,dat_,1,psb_mpi_epk_,mpi_sum,icomm,info) dat = dat_ else call mpi_reduce(dat,dat_,1,psb_mpi_epk_,mpi_sum,root_,icomm,info) if (iam == root_) dat = dat_ endif #endif end subroutine psb_esums subroutine psb_esumv(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:) integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call psb_realloc(size(dat),dat_,iinfo) dat_ = dat if (iinfo == psb_success_) & & call mpi_allreduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_sum,icomm,info) else if (iam == root_) then call psb_realloc(size(dat),dat_,iinfo) dat_ = dat call mpi_reduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_sum,root_,icomm,info) else call psb_realloc(1,dat_,iinfo) call mpi_reduce(dat,dat_,size(dat),psb_mpi_epk_,mpi_sum,root_,icomm,info) end if endif #endif end subroutine psb_esumv subroutine psb_esumm(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:,:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:,:) integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call psb_realloc(size(dat,1),size(dat,2),dat_,iinfo) dat_ = dat if (iinfo == psb_success_)& & call mpi_allreduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_sum,icomm,info) else if (iam == root_) then call psb_realloc(size(dat,1),size(dat,2),dat_,iinfo) dat_ = dat call mpi_reduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_sum,root_,icomm,info) else call psb_realloc(1,1,dat_,iinfo) call mpi_reduce(dat,dat_,size(dat),psb_mpi_epk_,mpi_sum,root_,icomm,info) end if endif #endif end subroutine psb_esumm ! ! AMX: Maximum Absolute Value ! subroutine psb_eamxs(ictxt,dat,root) #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_) :: dat_ integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call mpi_allreduce(dat,dat_,1,psb_mpi_epk_,mpi_eamx_op,icomm,info) dat = dat_ else call mpi_reduce(dat,dat_,1,psb_mpi_epk_,mpi_eamx_op,root_,icomm,info) if (iam == root_) dat = dat_ endif #endif end subroutine psb_eamxs subroutine psb_eamxv(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:) integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call psb_realloc(size(dat),dat_,iinfo) dat_ = dat if (iinfo == psb_success_) & & call mpi_allreduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_eamx_op,icomm,info) else if (iam == root_) then call psb_realloc(size(dat),dat_,iinfo) dat_ = dat call mpi_reduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_eamx_op,root_,icomm,info) else call psb_realloc(1,dat_,iinfo) call mpi_reduce(dat,dat_,size(dat),psb_mpi_epk_,mpi_eamx_op,root_,icomm,info) end if endif #endif end subroutine psb_eamxv subroutine psb_eamxm(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:,:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:,:) integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call psb_realloc(size(dat,1),size(dat,2),dat_,iinfo) dat_ = dat if (iinfo == psb_success_)& & call mpi_allreduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_eamx_op,icomm,info) else if (iam == root_) then call psb_realloc(size(dat,1),size(dat,2),dat_,iinfo) dat_ = dat call mpi_reduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_eamx_op,root_,icomm,info) else call psb_realloc(1,1,dat_,iinfo) call mpi_reduce(dat,dat_,size(dat),psb_mpi_epk_,mpi_eamx_op,root_,icomm,info) end if endif #endif end subroutine psb_eamxm ! ! AMN: Minimum Absolute Value ! subroutine psb_eamns(ictxt,dat,root) #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_) :: dat_ integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call mpi_allreduce(dat,dat_,1,psb_mpi_epk_,mpi_eamn_op,icomm,info) dat = dat_ else call mpi_reduce(dat,dat_,1,psb_mpi_epk_,mpi_eamn_op,root_,icomm,info) if (iam == root_) dat = dat_ endif #endif end subroutine psb_eamns subroutine psb_eamnv(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:) integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call psb_realloc(size(dat),dat_,iinfo) dat_ = dat if (iinfo == psb_success_) & & call mpi_allreduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_eamn_op,icomm,info) else if (iam == root_) then call psb_realloc(size(dat),dat_,iinfo) dat_ = dat call mpi_reduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_eamn_op,root_,icomm,info) else call psb_realloc(1,dat_,iinfo) call mpi_reduce(dat,dat_,size(dat),psb_mpi_epk_,mpi_eamn_op,root_,icomm,info) end if endif #endif end subroutine psb_eamnv subroutine psb_eamnm(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:,:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:,:) integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = -1 endif icomm = psb_get_mpi_comm(ictxt) if (root_ == -1) then call psb_realloc(size(dat,1),size(dat,2),dat_,iinfo) dat_ = dat if (iinfo == psb_success_)& & call mpi_allreduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_eamn_op,icomm,info) else if (iam == root_) then call psb_realloc(size(dat,1),size(dat,2),dat_,iinfo) dat_ = dat call mpi_reduce(dat_,dat,size(dat),psb_mpi_epk_,mpi_eamn_op,root_,icomm,info) else call psb_realloc(1,1,dat_,iinfo) call mpi_reduce(dat,dat_,size(dat),psb_mpi_epk_,mpi_eamn_op,root_,icomm,info) end if endif #endif end subroutine psb_eamnm ! ! BCAST Broadcast ! subroutine psb_ebcasts(ictxt,dat,root) #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = psb_root_ endif icomm = psb_get_mpi_comm(ictxt) call mpi_bcast(dat,1,psb_mpi_epk_,root_,icomm,info) #endif end subroutine psb_ebcasts subroutine psb_ebcastv(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = psb_root_ endif icomm = psb_get_mpi_comm(ictxt) call mpi_bcast(dat,size(dat),psb_mpi_epk_,root_,icomm,info) #endif end subroutine psb_ebcastv subroutine psb_ebcastm(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:,:) integer(psb_mpk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_mpk_) :: iam, np, info, icomm integer(psb_ipk_) :: iinfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) if (present(root)) then root_ = root else root_ = psb_root_ endif icomm = psb_get_mpi_comm(ictxt) call mpi_bcast(dat,size(dat),psb_mpi_epk_,root_,icomm,info) #endif end subroutine psb_ebcastm ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! ! SCAN ! ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!! subroutine psb_escan_sums(ictxt,dat) #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat integer(psb_epk_) :: dat_ integer(psb_ipk_) :: iam, np, info integer(psb_mpk_) :: minfo, icomm #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) icomm = psb_get_mpi_comm(ictxt) call mpi_scan(dat,dat_,1,psb_mpi_epk_,mpi_sum,icomm,minfo) dat = dat_ #endif end subroutine psb_escan_sums subroutine psb_eexscan_sums(ictxt,dat) #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat integer(psb_epk_) :: dat_ integer(psb_ipk_) :: iam, np, info integer(psb_mpk_) :: icomm, minfo #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) icomm = psb_get_mpi_comm(ictxt) call mpi_exscan(dat,dat_,1,psb_mpi_epk_,mpi_sum,icomm,minfo) dat = dat_ #else dat = ezero #endif end subroutine psb_eexscan_sums subroutine psb_escan_sumv(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:) integer(psb_ipk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:) integer(psb_ipk_) :: iam, np, info integer(psb_mpk_) :: minfo, icomm #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) icomm = psb_get_mpi_comm(ictxt) call psb_realloc(size(dat),dat_,info) dat_ = dat if (info == psb_success_) & & call mpi_scan(dat,dat_,size(dat),psb_mpi_epk_,mpi_sum,icomm,minfo) #endif end subroutine psb_escan_sumv subroutine psb_eexscan_sumv(ictxt,dat,root) use psb_realloc_mod #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif type(psb_ctxt_type), intent(in) :: ictxt integer(psb_epk_), intent(inout) :: dat(:) integer(psb_ipk_), intent(in), optional :: root integer(psb_mpk_) :: root_ integer(psb_epk_), allocatable :: dat_(:) integer(psb_ipk_) :: iam, np, info integer(psb_mpk_) :: minfo, icomm #if !defined(SERIAL_MPI) call psb_info(ictxt,iam,np) icomm = psb_get_mpi_comm(ictxt) call psb_realloc(size(dat),dat_,info) dat_ = dat if (info == psb_success_) & & call mpi_exscan(dat,dat_,size(dat),psb_mpi_epk_,mpi_sum,icomm,minfo) #else dat = ezero #endif end subroutine psb_eexscan_sumv subroutine psb_e_simple_a2av(valsnd,sdsz,bsdindx,& & valrcv,rvsz,brvindx,ictxt,info) use psi_e_p2p_mod implicit none integer(psb_epk_), intent(in) :: valsnd(:) integer(psb_epk_), intent(out) :: valrcv(:) integer(psb_mpk_), intent(in) :: bsdindx(:), brvindx(:), sdsz(:), rvsz(:) type(psb_ctxt_type), intent(in) :: ictxt integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: iam, np, i,j,k, ip, ipx, idx, sz call psb_info(ictxt,iam,np) if (min(size(bsdindx),size(brvindx),size(sdsz),size(rvsz)) 0) then idx = bsdindx(ip+1) call psb_snd(ictxt,valsnd(idx+1:idx+sz),ip) end if end do do ip = 0, np-1 sz = rvsz(ip+1) if (sz > 0) then idx = brvindx(ip+1) call psb_rcv(ictxt,valrcv(idx+1:idx+sz),ip) end if end do end subroutine psb_e_simple_a2av subroutine psb_e_m_simple_triad_a2av(valsnd,iasnd,jasnd,sdsz,bsdindx,& & valrcv,iarcv,jarcv,rvsz,brvindx,ictxt,info) #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif integer(psb_epk_), intent(in) :: valsnd(:) integer(psb_mpk_), intent(in) :: iasnd(:), jasnd(:) integer(psb_epk_), intent(out) :: valrcv(:) integer(psb_mpk_), intent(out) :: iarcv(:), jarcv(:) integer(psb_mpk_), intent(in) :: bsdindx(:), brvindx(:), sdsz(:), rvsz(:) type(psb_ctxt_type), intent(in) :: ictxt integer(psb_ipk_), intent(out) :: info !Local variables integer(psb_ipk_) :: iam, np, i,j,k, ip, ipx, idx, sz, counter integer(psb_mpk_) :: proc_to_comm, p2ptag, p2pstat(mpi_status_size), iret, icomm integer(psb_mpk_), allocatable :: prcid(:), rvhd(:,:) call psb_info(ictxt,iam,np) icomm = psb_get_mpi_comm(ictxt) if (min(size(bsdindx),size(brvindx),size(sdsz),size(rvsz)) 0) then prcid(ip+1) = psb_get_mpi_rank(ictxt,ip) idx = brvindx(ip+1) p2ptag = psb_int8_tag call mpi_irecv(valrcv(idx+1:idx+sz),sz,& & psb_mpi_epk_,prcid(ip+1),& & p2ptag, icomm,rvhd(ip+1,1),iret) p2ptag = psb_int_swap_tag call mpi_irecv(iarcv(idx+1:idx+sz),sz,& & psb_mpi_mpk_,prcid(ip+1),& & p2ptag, icomm,rvhd(ip+1,2),iret) call mpi_irecv(jarcv(idx+1:idx+sz),sz,& & psb_mpi_mpk_,prcid(ip+1),& & p2ptag, icomm,rvhd(ip+1,3),iret) end if Enddo do ip = 0, np-1 sz = sdsz(ip+1) if (sz > 0) then if (prcid(ip+1)<0) prcid(ip+1) = psb_get_mpi_rank(ictxt,ip) idx = bsdindx(ip+1) p2ptag = psb_int8_tag call mpi_send(valsnd(idx+1:idx+sz),sz,& & psb_mpi_epk_,prcid(ip+1),& & p2ptag, icomm,iret) p2ptag = psb_int_swap_tag call mpi_send(iasnd(idx+1:idx+sz),sz,& & psb_mpi_mpk_,prcid(ip+1),& & p2ptag, icomm,iret) call mpi_send(jasnd(idx+1:idx+sz),sz,& & psb_mpi_mpk_,prcid(ip+1),& & p2ptag, icomm,iret) end if Enddo do ip = 0, np-1 sz = rvsz(ip+1) if (sz > 0) then call mpi_wait(rvhd(ip+1,1),p2pstat,iret) call mpi_wait(rvhd(ip+1,2),p2pstat,iret) call mpi_wait(rvhd(ip+1,3),p2pstat,iret) end if Enddo end subroutine psb_e_m_simple_triad_a2av subroutine psb_e_e_simple_triad_a2av(valsnd,iasnd,jasnd,sdsz,bsdindx,& & valrcv,iarcv,jarcv,rvsz,brvindx,ictxt,info) #ifdef MPI_MOD use mpi #endif implicit none #ifdef MPI_H include 'mpif.h' #endif integer(psb_epk_), intent(in) :: valsnd(:) integer(psb_epk_), intent(in) :: iasnd(:), jasnd(:) integer(psb_epk_), intent(out) :: valrcv(:) integer(psb_epk_), intent(out) :: iarcv(:), jarcv(:) integer(psb_mpk_), intent(in) :: bsdindx(:), brvindx(:), sdsz(:), rvsz(:) type(psb_ctxt_type), intent(in) :: ictxt integer(psb_ipk_), intent(out) :: info !Local variables integer(psb_ipk_) :: iam, np, i,j,k, ip, ipx, idx, sz, counter integer(psb_mpk_) :: proc_to_comm, p2ptag, p2pstat(mpi_status_size), iret, icomm integer(psb_mpk_), allocatable :: prcid(:), rvhd(:,:) call psb_info(ictxt,iam,np) icomm = psb_get_mpi_comm(ictxt) if (min(size(bsdindx),size(brvindx),size(sdsz),size(rvsz)) 0) then prcid(ip+1) = psb_get_mpi_rank(ictxt,ip) idx = brvindx(ip+1) p2ptag = psb_int8_tag call mpi_irecv(valrcv(idx+1:idx+sz),sz,& & psb_mpi_epk_,prcid(ip+1),& & p2ptag, icomm,rvhd(ip+1,1),iret) p2ptag = psb_int_swap_tag call mpi_irecv(iarcv(idx+1:idx+sz),sz,& & psb_mpi_epk_,prcid(ip+1),& & p2ptag, icomm,rvhd(ip+1,2),iret) call mpi_irecv(jarcv(idx+1:idx+sz),sz,& & psb_mpi_epk_,prcid(ip+1),& & p2ptag, icomm,rvhd(ip+1,3),iret) end if Enddo do ip = 0, np-1 sz = sdsz(ip+1) if (sz > 0) then if (prcid(ip+1)<0) prcid(ip+1) = psb_get_mpi_rank(ictxt,ip) idx = bsdindx(ip+1) p2ptag = psb_int8_tag call mpi_send(valsnd(idx+1:idx+sz),sz,& & psb_mpi_epk_,prcid(ip+1),& & p2ptag, icomm,iret) p2ptag = psb_int_swap_tag call mpi_send(iasnd(idx+1:idx+sz),sz,& & psb_mpi_epk_,prcid(ip+1),& & p2ptag, icomm,iret) call mpi_send(jasnd(idx+1:idx+sz),sz,& & psb_mpi_epk_,prcid(ip+1),& & p2ptag, icomm,iret) end if Enddo do ip = 0, np-1 sz = rvsz(ip+1) if (sz > 0) then call mpi_wait(rvhd(ip+1,1),p2pstat,iret) call mpi_wait(rvhd(ip+1,2),p2pstat,iret) call mpi_wait(rvhd(ip+1,3),p2pstat,iret) end if Enddo end subroutine psb_e_e_simple_triad_a2av end module psi_e_collective_mod