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quantum_package/plugins/GPI2/broadcast.irp.f

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Fortran
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subroutine broadcast_wf(energy)
implicit none
BEGIN_DOC
! Segment corresponding to the wave function. This is segment 0.
END_DOC
use bitmasks
use GASPI
use ISO_C_BINDING
double precision, intent(inout) :: energy(N_states)
integer(gaspi_return_t) :: res
if (is_gaspi_master) then
call broadcast_wf_put(energy)
else
call broadcast_wf_get(energy)
endif
res = gaspi_barrier(GASPI_GROUP_ALL, GASPI_BLOCK)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_barrier failed"
stop -1
end if
integer(gaspi_segment_id_t) :: seg_id
do seg_id=0,3
res = gaspi_segment_delete(seg_id)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_segment_delete failed", seg_id
stop -1
end if
end do
end
subroutine broadcast_wf_put(energy)
implicit none
BEGIN_DOC
! Initiates the broadcast of the wave function
END_DOC
use bitmasks
use GASPI
use ISO_C_BINDING
double precision, intent(in) :: energy(N_states)
integer(gaspi_segment_id_t) :: seg_id
integer(gaspi_alloc_t) :: seg_alloc_policy
integer(gaspi_size_t) :: seg_size(0:3)
type(c_ptr) :: seg_ptr(0:3)
integer, pointer :: params_int(:) ! Segment 0
double precision, pointer :: psi_coef_tmp(:,:) ! Segment 1
integer(bit_kind), pointer :: psi_det_tmp(:,:,:) ! Segment 2
double precision, pointer :: params_double(:) ! Segment 3
integer(gaspi_return_t) :: res
seg_alloc_policy = GASPI_MEM_UNINITIALIZED
seg_size(0) = 4 * 5
seg_id=0
res = gaspi_segment_create(seg_id, seg_size(seg_id), GASPI_GROUP_ALL, &
GASPI_BLOCK, seg_alloc_policy)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_create_segment failed", gaspi_rank, seg_id
stop -1
end if
res = gaspi_segment_ptr(seg_id, seg_ptr(seg_id))
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_segment_ptr failed", gaspi_rank
stop -1
end if
call c_f_pointer(seg_ptr(0), params_int, shape=(/ 5 /))
params_int(1) = N_states
params_int(2) = N_det
params_int(3) = psi_det_size
res = gaspi_barrier(GASPI_GROUP_ALL, GASPI_BLOCK)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_barrier failed", gaspi_rank
stop -1
end if
seg_size(1) = 8 * psi_det_size * N_states
seg_size(2) = bit_kind * psi_det_size * 2 * N_int
seg_size(3) = 8 * N_states
do seg_id=1, 3
res = gaspi_segment_create(seg_id, seg_size(seg_id), GASPI_GROUP_ALL, &
GASPI_BLOCK, seg_alloc_policy)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_create_segment failed", gaspi_rank, seg_id
stop -1
end if
res = gaspi_segment_ptr(seg_id, seg_ptr(seg_id))
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_segment_ptr failed", gaspi_rank
stop -1
end if
end do
call c_f_pointer(seg_ptr(1), psi_coef_tmp, shape=shape(psi_coef))
call c_f_pointer(seg_ptr(2), psi_det_tmp, shape=shape(psi_det))
call c_f_pointer(seg_ptr(3), params_double, shape=(/ N_states /))
psi_coef_tmp = psi_coef
psi_det_tmp = psi_det
params_double = energy
res = gaspi_barrier(GASPI_GROUP_ALL, GASPI_BLOCK)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_barrier failed", gaspi_rank
stop -1
end if
end
subroutine broadcast_wf_get(energy)
implicit none
BEGIN_DOC
! Gets the broadcasted wave function
END_DOC
use bitmasks
use GASPI
use ISO_C_BINDING
double precision, intent(out) :: energy(N_states)
integer(gaspi_segment_id_t) :: seg_id
integer(gaspi_alloc_t) :: seg_alloc_policy
integer(gaspi_size_t) :: seg_size(0:3)
type(c_ptr) :: seg_ptr(0:3)
integer, pointer :: params_int(:) ! Segment 0
double precision, pointer :: psi_coef_tmp(:,:) ! Segment 1
integer(bit_kind), pointer :: psi_det_tmp(:,:,:) ! Segment 2
double precision, pointer :: params_double(:) ! Segment 3
integer(gaspi_return_t) :: res
seg_alloc_policy = GASPI_MEM_UNINITIALIZED
seg_size(0) = 4 * 5
seg_id=0
res = gaspi_segment_create(seg_id, seg_size(seg_id), GASPI_GROUP_ALL,&
GASPI_BLOCK, seg_alloc_policy)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_create_segment failed"
stop -1
end if
res = gaspi_segment_ptr(seg_id, seg_ptr(seg_id))
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_segment_ptr failed"
stop -1
end if
res = gaspi_barrier(GASPI_GROUP_ALL, GASPI_BLOCK)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_barrier failed"
stop -1
end if
integer(gaspi_offset_t) :: localOff, remoteOff
integer(gaspi_rank_t) :: remoteRank
integer(gaspi_queue_id_t) :: queue
localOff = 0
remoteRank = 0
queue = 0
res = gaspi_read(seg_id, localOff, remoteRank, &
seg_id, remoteOff, seg_size(seg_id), queue, GASPI_BLOCK)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_read failed"
stop -1
end if
res = gaspi_wait(queue, GASPI_BLOCK)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_wait failed"
stop -1
end if
call c_f_pointer(seg_ptr(0), params_int, shape=shape( (/ 5 /) ))
N_states = params_int(1)
N_det = params_int(2)
psi_det_size = params_int(3)
TOUCH N_states N_det psi_det_size
seg_size(1) = 8 * psi_det_size * N_states
seg_size(2) = bit_kind * psi_det_size * 2 * N_int
seg_size(3) = 8 * N_states
do seg_id=1, 3
res = gaspi_segment_create(seg_id, seg_size(seg_id), GASPI_GROUP_ALL, &
GASPI_BLOCK, seg_alloc_policy)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_create_segment failed"
stop -1
end if
res = gaspi_segment_ptr(seg_id, seg_ptr(seg_id))
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_segment_ptr failed"
stop -1
end if
end do
res = gaspi_barrier(GASPI_GROUP_ALL, GASPI_BLOCK)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_barrier failed"
stop -1
end if
do seg_id=1, 3
res = gaspi_read(seg_id, localOff, remoteRank, &
seg_id, remoteOff, seg_size(seg_id), queue, GASPI_BLOCK)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_read failed"
stop -1
end if
res = gaspi_wait(queue, GASPI_BLOCK)
if(res .ne. GASPI_SUCCESS) then
write(*,*) "gaspi_wait failed"
stop -1
end if
end do
call c_f_pointer(seg_ptr(1), psi_coef_tmp, shape=shape(psi_coef))
call c_f_pointer(seg_ptr(2), psi_det_tmp, shape=shape(psi_det))
call c_f_pointer(seg_ptr(3), params_double, shape=shape(energy))
psi_coef = psi_coef_tmp
psi_det = psi_det_tmp
energy = params_double
end
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