FrontISTR 5.2.0
Large-scale structural analysis program with finit element method
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hecmw_solver_SR_11i.F90
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1!-------------------------------------------------------------------------------
2! Copyright (c) 2019 FrontISTR Commons
3! This software is released under the MIT License, see LICENSE.txt
4!-------------------------------------------------------------------------------
5
6!C***
7!C*** module hecmw_solver_SR_11i
8!C***
9!
11contains
12 !C
13 !C*** SOLVER_SEND_RECV
14 !C
16 & ( n, neibpetot, neibpe, stack_import, nod_import, &
17 & stack_export, nod_export, &
18 & ws, wr, x, solver_comm,my_rank)
19
20 use hecmw_util
21 implicit real*8 (a-h,o-z)
22 ! include 'mpif.h'
23 ! include 'hecmw_config_f.h'
24
25 integer(kind=kint ) , intent(in) :: N
26 integer(kind=kint ) , intent(in) :: NEIBPETOT
27 integer(kind=kint ), pointer :: NEIBPE (:)
28 integer(kind=kint ), pointer :: STACK_IMPORT(:)
29 integer(kind=kint ), pointer :: NOD_IMPORT (:)
30 integer(kind=kint ), pointer :: STACK_EXPORT(:)
31 integer(kind=kint ), pointer :: NOD_EXPORT (:)
32 integer(kind=kint ), dimension(:) , intent(inout):: WS
33 integer(kind=kint ), dimension(:) , intent(inout):: WR
34 integer(kind=kint ), dimension(:) , intent(inout):: X
35 integer(kind=kint ) , intent(in) ::SOLVER_COMM
36 integer(kind=kint ) , intent(in) :: my_rank
37
38#ifndef HECMW_SERIAL
39 integer(kind=kint ), dimension(:,:), allocatable :: sta1
40 integer(kind=kint ), dimension(:,:), allocatable :: sta2
41 integer(kind=kint ), dimension(: ), allocatable :: req1
42 integer(kind=kint ), dimension(: ), allocatable :: req2
43
44 integer(kind=kint ), save :: NFLAG
45 data nflag/0/
46 ! local valiables
47 integer(kind=kint ) :: neib, istart,inum,k,ierr,nreq1,nreq2
48
49 !C
50 !C-- INIT.
51 allocate (sta1(mpi_status_size,neibpetot))
52 allocate (sta2(mpi_status_size,neibpetot))
53 allocate (req1(neibpetot))
54 allocate (req2(neibpetot))
55
56 !C
57 !C-- SEND
58
59 nreq1=0
60 do neib= 1, neibpetot
61 istart= stack_export(neib-1)
62 inum = stack_export(neib ) - istart
63 if (inum==0) cycle
64 nreq1=nreq1+1
65
66 do k= istart+1, istart+inum
67 ws(k)= x(nod_export(k))
68 enddo
69 call mpi_isend (ws(istart+1), inum, mpi_integer, &
70 & neibpe(neib), 0, solver_comm, &
71 & req1(nreq1), ierr)
72 enddo
73
74 !C
75 !C-- RECEIVE
76
77 nreq2=0
78 do neib= 1, neibpetot
79 istart= stack_import(neib-1)
80 inum = stack_import(neib ) - istart
81 if (inum==0) cycle
82 nreq2=nreq2+1
83 call mpi_irecv (wr(istart+1), inum, mpi_integer, &
84 & neibpe(neib), 0, solver_comm, &
85 & req2(nreq2), ierr)
86 enddo
87
88 call mpi_waitall (nreq2, req2, sta2, ierr)
89
90 do neib= 1, neibpetot
91 istart= stack_import(neib-1)
92 inum = stack_import(neib ) - istart
93 do k= istart+1, istart+inum
94 x(nod_import(k))= wr(k)
95 enddo
96 enddo
97
98 call mpi_waitall (nreq1, req1, sta1, ierr)
99
100 deallocate (sta1, sta2, req1, req2)
101#endif
102 end subroutine hecmw_solve_send_recv_11i
103end module hecmw_solver_sr_11i
subroutine hecmw_solve_send_recv_11i(n, neibpetot, neibpe, stack_import, nod_import, stack_export, nod_export, ws, wr, x, solver_comm, my_rank)
I/O and Utility.
Definition: hecmw_util_f.F90:7