/* StarPU --- Runtime system for heterogeneous multicore architectures.
*
* Copyright (C) 2010, 2011, 2014, 2017 Université de Bordeaux
* Copyright (C) 2010, 2012, 2013, 2017 CNRS
*
* StarPU is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation; either version 2.1 of the License, or (at
* your option) any later version.
*
* StarPU is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
*
* See the GNU Lesser General Public License in COPYING.LGPL for more details.
*/
#include "pxlu.h"
#include "pxlu_kernels.h"
#include <sys/time.h>
#define MPI_TAG11(k) ((1U << 16) | (k))
#define MPI_TAG12(k, j) ((2U << 16) | (k)<<8 | (j))
#define MPI_TAG21(k, i) ((3U << 16) | (i)<<8 | (k))
// 11 21
// 12 22
#define TAG11(k) ((starpu_tag_t)( (1ULL<<50) | (unsigned long long)(k)))
#define TAG12(k,j) ((starpu_tag_t)(((2ULL<<50) | (((unsigned long long)(k))<<32) \
| (unsigned long long)(j))))
#define TAG21(k,i) ((starpu_tag_t)(((3ULL<<50) | (((unsigned long long)(k))<<32) \
| (unsigned long long)(i))))
#define TAG22(k,i,j) ((starpu_tag_t)(((4ULL<<50) | ((unsigned long long)(k)<<32) \
| ((unsigned long long)(i)<<16) \
| (unsigned long long)(j))))
#define TAG11_SAVE(k) ((starpu_tag_t)( (5ULL<<50) | (unsigned long long)(k)))
#define TAG12_SAVE(k,j) ((starpu_tag_t)(((6ULL<<50) | (((unsigned long long)(k))<<32) \
| (unsigned long long)(j))))
#define TAG21_SAVE(k,i) ((starpu_tag_t)(((7ULL<<50) | (((unsigned long long)(k))<<32) \
| (unsigned long long)(i))))
#define TAG11_SAVE_PARTIAL(k) ((starpu_tag_t)( (8ULL<<50) | (unsigned long long)(k)))
#define TAG12_SAVE_PARTIAL(k,j) ((starpu_tag_t)(((9ULL<<50) | (((unsigned long long)(k))<<32) \
| (unsigned long long)(j))))
#define TAG21_SAVE_PARTIAL(k,i) ((starpu_tag_t)(((10ULL<<50) | (((unsigned long long)(k))<<32) \
| (unsigned long long)(i))))
#define STARPU_TAG_INIT ((starpu_tag_t)(11ULL<<50))
//#define VERBOSE_INIT 1
//#define DEBUG 1
static unsigned no_prio = 0;
static unsigned nblocks = 0;
static int rank = -1;
static int world_size = -1;
struct callback_arg
{
unsigned i, j, k;
};
/*
* Various
*/
static struct debug_info *create_debug_info(unsigned i, unsigned j, unsigned k)
{
struct debug_info *info = malloc(sizeof(struct debug_info));
info->i = i;
info->j = j;
info->k = k;
return info;
}
static struct starpu_task *create_task(starpu_tag_t id)
{
struct starpu_task *task = starpu_task_create();
task->cl_arg = NULL;
task->use_tag = 1;
task->tag_id = id;
return task;
}
/* Send handle to every node appearing in the mask, and unlock tag once the
* transfers are done. */
static void send_data_to_mask(starpu_data_handle_t handle, int *rank_mask, int mpi_tag, starpu_tag_t tag)
{
unsigned cnt = 0;
STARPU_ASSERT(handle != STARPU_POISON_PTR);
int rank_array[world_size];
MPI_Comm comm_array[world_size];
int mpi_tag_array[world_size];
starpu_data_handle_t handle_array[world_size];
int r;
for (r = 0; r < world_size; r++)
{
if (rank_mask[r])
{
rank_array[cnt] = r;
comm_array[cnt] = MPI_COMM_WORLD;
mpi_tag_array[cnt] = mpi_tag;
handle_array[cnt] = handle;
cnt++;
}
}
if (cnt == 0)
{
/* In case there is no message to send, we release the tag at
* once */
starpu_tag_notify_from_apps(tag);
}
else
{
starpu_mpi_isend_array_detached_unlock_tag(cnt, handle_array,
rank_array, mpi_tag_array, comm_array, tag);
}
}
/* Initiate a receive request once all dependencies are fulfilled and unlock
* tag 'unlocked_tag' once it's done. */
struct recv_when_done_callback_arg
{
int source;
int mpi_tag;
starpu_data_handle_t handle;
starpu_tag_t unlocked_tag;
};
static void callback_receive_when_done(void *_arg)
{
struct recv_when_done_callback_arg *arg = _arg;
starpu_mpi_irecv_detached_unlock_tag(arg->handle, arg->source,
arg->mpi_tag, MPI_COMM_WORLD, arg->unlocked_tag);
free(arg);
}
static void receive_when_deps_are_done(unsigned ndeps, starpu_tag_t *deps_tags,
int source, int mpi_tag,
starpu_data_handle_t handle,
starpu_tag_t partial_tag,
starpu_tag_t unlocked_tag)
{
STARPU_ASSERT(handle != STARPU_POISON_PTR);
struct recv_when_done_callback_arg *arg =
malloc(sizeof(struct recv_when_done_callback_arg));
arg->source = source;
arg->mpi_tag = mpi_tag;
arg->handle = handle;
arg->unlocked_tag = unlocked_tag;
if (ndeps == 0)
{
callback_receive_when_done(arg);
return;
}
starpu_create_sync_task(partial_tag, ndeps, deps_tags,
callback_receive_when_done, arg);
}
/*
* Task 11 (diagonal factorization)
*/
static void create_task_11_recv(unsigned k)
{
/* The current node is not computing that task, so we receive the block
* with MPI */
/* We don't issue a MPI receive request until everyone using the
* temporary buffer is done : 11_(k-1) can be used by 12_(k-1)j and
* 21(k-1)i with i,j >= k */
unsigned ndeps = 0;
starpu_tag_t tag_array[2*nblocks];
#ifdef SINGLE_TMP11
unsigned i, j;
if (k > 0)
for (i = (k-1)+1; i < nblocks; i++)
{
if (rank == get_block_rank(i, k-1))
tag_array[ndeps++] = TAG21(k-1, i);
}
if (k > 0)
for (j = (k-1)+1; j < nblocks; j++)
{
if (rank == get_block_rank(k-1, j))
tag_array[ndeps++] = TAG12(k-1, j);
}
#endif
int source = get_block_rank(k, k);
#ifdef SINGLE_TMP11
starpu_data_handle_t block_handle = STARPU_PLU(get_tmp_11_block_handle)();
#else
starpu_data_handle_t block_handle = STARPU_PLU(get_tmp_11_block_handle)(k);
#endif
int mpi_tag = MPI_TAG11(k);
starpu_tag_t partial_tag = TAG11_SAVE_PARTIAL(k);
starpu_tag_t unlocked_tag = TAG11_SAVE(k);
// fprintf(stderr, "NODE %d - 11 (%d) - recv when done ndeps %d - tag array %lx\n", rank, k, ndeps, tag_array[0]);
receive_when_deps_are_done(ndeps, tag_array, source, mpi_tag, block_handle, partial_tag, unlocked_tag);
}
static void find_nodes_using_11(unsigned k, int *rank_mask)
{
memset(rank_mask, 0, world_size*sizeof(int));
/* Block 11_k is used to compute 12_kj + 12ki with i,j > k */
unsigned i;
for (i = k+1; i < nblocks; i++)
{
int r = get_block_rank(i, k);
rank_mask[r] = 1;
}
unsigned j;
for (j = k+1; j < nblocks; j++)
{
int r = get_block_rank(k, j);
rank_mask[r] = 1;
}
}
static void callback_task_11_real(void *_arg)
{
struct callback_arg *arg = _arg;
unsigned k = arg->k;
/* Find all the nodes potentially requiring this block */
int rank_mask[world_size];
find_nodes_using_11(k, rank_mask);
rank_mask[rank] = 0;
/* Send the block to those nodes */
starpu_data_handle_t block_handle = STARPU_PLU(get_block_handle)(k, k);
starpu_tag_t tag = TAG11_SAVE(k);
int mpi_tag = MPI_TAG11(k);
send_data_to_mask(block_handle, rank_mask, mpi_tag, tag);
free(arg);
}
static void create_task_11_real(unsigned k)
{
struct starpu_task *task = create_task(TAG11(k));
task->cl = &STARPU_PLU(cl11);
task->cl_arg = create_debug_info(k, k, k);
/* which sub-data is manipulated ? */
task->handles[0] = STARPU_PLU(get_block_handle)(k, k);
struct callback_arg *arg = malloc(sizeof(struct callback_arg));
arg->k = k;
task->callback_func = callback_task_11_real;
task->callback_arg = arg;
/* this is an important task */
if (!no_prio)
task->priority = STARPU_MAX_PRIO;
/* enforce dependencies ... */
if (k > 0)
{
starpu_tag_declare_deps(TAG11(k), 1, TAG22(k-1, k, k));
}
else
{
starpu_tag_declare_deps(TAG11(k), 1, STARPU_TAG_INIT);
}
int ret = starpu_task_submit(task);
STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
}
static void create_task_11(unsigned k)
{
if (get_block_rank(k, k) == rank)
{
#ifdef VERBOSE_INIT
fprintf(stderr, "CREATE real task 11(%u) (TAG11_SAVE(%u) = %lx) on node %d\n", k, k, TAG11_SAVE(k), rank);
#endif
create_task_11_real(k);
}
else
{
/* We don't handle the task, but perhaps we have to generate MPI transfers. */
int rank_mask[world_size];
find_nodes_using_11(k, rank_mask);
if (rank_mask[rank])
{
#ifdef VERBOSE_INIT
fprintf(stderr, "create RECV task 11(%u) on node %d\n", k, rank);
#endif
create_task_11_recv(k);
}
else
{
#ifdef VERBOSE_INIT
fprintf(stderr, "Node %d needs not 11(%u)\n", rank, k);
#endif
}
}
}
/*
* Task 12 (Update lower left (TRSM))
*/
static void create_task_12_recv(unsigned k, unsigned j)
{
unsigned i;
/* The current node is not computing that task, so we receive the block
* with MPI */
/* We don't issue a MPI receive request until everyone using the
* temporary buffer is done : 12_(k-1)j can be used by 22_(k-1)ij with
* i >= k */
unsigned ndeps = 0;
starpu_tag_t tag_array[nblocks];
#ifdef SINGLE_TMP1221
if (k > 0)
for (i = (k-1)+1; i < nblocks; i++)
#else
if (k > 1)
for (i = (k-2)+1; i < nblocks; i++)
#endif
{
if (rank == get_block_rank(i, j))
#ifdef SINGLE_TMP1221
tag_array[ndeps++] = TAG22(k-1, i, j);
#else
tag_array[ndeps++] = TAG22(k-2, i, j);
#endif
}
int source = get_block_rank(k, j);
#ifdef SINGLE_TMP1221
starpu_data_handle_t block_handle = STARPU_PLU(get_tmp_12_block_handle)(j);
#else
starpu_data_handle_t block_handle = STARPU_PLU(get_tmp_12_block_handle)(j,k);
#endif
int mpi_tag = MPI_TAG12(k, j);
starpu_tag_t partial_tag = TAG12_SAVE_PARTIAL(k, j);
starpu_tag_t unlocked_tag = TAG12_SAVE(k, j);
receive_when_deps_are_done(ndeps, tag_array, source, mpi_tag, block_handle, partial_tag, unlocked_tag);
}
static void find_nodes_using_12(unsigned k, unsigned j, int *rank_mask)
{
memset(rank_mask, 0, world_size*sizeof(int));
/* Block 12_kj is used to compute 22_kij with i > k */
unsigned i;
for (i = k+1; i < nblocks; i++)
{
int r = get_block_rank(i, j);
rank_mask[r] = 1;
}
}
static void callback_task_12_real(void *_arg)
{
struct callback_arg *arg = _arg;
unsigned k = arg->k;
unsigned j = arg->j;
/* Find all the nodes potentially requiring this block */
int rank_mask[world_size];
find_nodes_using_12(k, j, rank_mask);
rank_mask[rank] = 0;
/* Send the block to those nodes */
starpu_data_handle_t block_handle = STARPU_PLU(get_block_handle)(k, j);
starpu_tag_t tag = TAG12_SAVE(k, j);
int mpi_tag = MPI_TAG12(k, j);
send_data_to_mask(block_handle, rank_mask, mpi_tag, tag);
free(arg);
}
static void create_task_12_real(unsigned k, unsigned j)
{
struct starpu_task *task = create_task(TAG12(k, j));
#ifdef STARPU_DEVEL
#warning temporary fix :/
#endif
// task->cl = &STARPU_PLU(cl12);
task->cl = &STARPU_PLU(cl21);
task->cl_arg = create_debug_info(j, j, k);
unsigned diag_block_is_local = (get_block_rank(k, k) == rank);
starpu_tag_t tag_11_dep;
/* which sub-data is manipulated ? */
starpu_data_handle_t diag_block;
if (diag_block_is_local)
{
diag_block = STARPU_PLU(get_block_handle)(k, k);
tag_11_dep = TAG11(k);
}
else
{
#ifdef SINGLE_TMP11
diag_block = STARPU_PLU(get_tmp_11_block_handle)();
#else
diag_block = STARPU_PLU(get_tmp_11_block_handle)(k);
#endif
tag_11_dep = TAG11_SAVE(k);
}
task->handles[0] = diag_block;
task->handles[1] = STARPU_PLU(get_block_handle)(k, j);
STARPU_ASSERT(get_block_rank(k, j) == rank);
STARPU_ASSERT(task->handles[0] != STARPU_POISON_PTR);
STARPU_ASSERT(task->handles[1] != STARPU_POISON_PTR);
struct callback_arg *arg = malloc(sizeof(struct callback_arg));
arg->j = j;
arg->k = k;
task->callback_func = callback_task_12_real;
task->callback_arg = arg;
if (!no_prio && (j == k+1))
{
task->priority = STARPU_MAX_PRIO;
}
/* enforce dependencies ... */
if (k > 0)
{
starpu_tag_declare_deps(TAG12(k, j), 2, tag_11_dep, TAG22(k-1, k, j));
}
else
{
starpu_tag_declare_deps(TAG12(k, j), 1, tag_11_dep);
}
int ret = starpu_task_submit(task);
STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
}
static void create_task_12(unsigned k, unsigned j)
{
if (get_block_rank(k, j) == rank)
{
#ifdef VERBOSE_INIT
fprintf(stderr, "CREATE real task 12(k = %u, j = %u) on node %d\n", k, j, rank);
#endif
create_task_12_real(k, j);
}
else
{
/* We don't handle the task, but perhaps we have to generate MPI transfers. */
int rank_mask[world_size];
find_nodes_using_12(k, j, rank_mask);
if (rank_mask[rank])
{
#ifdef VERBOSE_INIT
fprintf(stderr, "create RECV task 12(k = %u, j = %u) on node %d\n", k, j, rank);
#endif
create_task_12_recv(k, j);
}
else
{
#ifdef VERBOSE_INIT
fprintf(stderr, "Node %d needs not 12(k=%u, i=%u)\n", rank, k, j);
#endif
}
}
}
/*
* Task 21 (Update upper right (TRSM))
*/
static void create_task_21_recv(unsigned k, unsigned i)
{
unsigned j;
/* The current node is not computing that task, so we receive the block
* with MPI */
/* We don't issue a MPI receive request until everyone using the
* temporary buffer is done : 21_(k-1)i can be used by 22_(k-1)ij with
* j >= k */
unsigned ndeps = 0;
starpu_tag_t tag_array[nblocks];
#ifdef SINGLE_TMP1221
if (k > 0)
for (j = (k-1)+1; j < nblocks; j++)
#else
if (k > 1)
for (j = (k-2)+1; j < nblocks; j++)
#endif
{
if (rank == get_block_rank(i, j))
#ifdef SINGLE_TMP1221
tag_array[ndeps++] = TAG22(k-1, i, j);
#else
tag_array[ndeps++] = TAG22(k-2, i, j);
#endif
}
int source = get_block_rank(i, k);
#ifdef SINGLE_TMP1221
starpu_data_handle_t block_handle = STARPU_PLU(get_tmp_21_block_handle)(i);
#else
starpu_data_handle_t block_handle = STARPU_PLU(get_tmp_21_block_handle)(i, k);
#endif
int mpi_tag = MPI_TAG21(k, i);
starpu_tag_t partial_tag = TAG21_SAVE_PARTIAL(k, i);
starpu_tag_t unlocked_tag = TAG21_SAVE(k, i);
// fprintf(stderr, "NODE %d - 21 (%d, %d) - recv when done ndeps %d - tag array %lx\n", rank, k, i, ndeps, tag_array[0]);
receive_when_deps_are_done(ndeps, tag_array, source, mpi_tag, block_handle, partial_tag, unlocked_tag);
}
static void find_nodes_using_21(unsigned k, unsigned i, int *rank_mask)
{
memset(rank_mask, 0, world_size*sizeof(int));
/* Block 21_ki is used to compute 22_kij with j > k */
unsigned j;
for (j = k+1; j < nblocks; j++)
{
int r = get_block_rank(i, j);
rank_mask[r] = 1;
}
}
static void callback_task_21_real(void *_arg)
{
struct callback_arg *arg = _arg;
unsigned k = arg->k;
unsigned i = arg->i;
/* Find all the nodes potentially requiring this block */
int rank_mask[world_size];
find_nodes_using_21(k, i, rank_mask);
rank_mask[rank] = 0;
/* Send the block to those nodes */
starpu_data_handle_t block_handle = STARPU_PLU(get_block_handle)(i, k);
starpu_tag_t tag = TAG21_SAVE(k, i);
int mpi_tag = MPI_TAG21(k, i);
send_data_to_mask(block_handle, rank_mask, mpi_tag, tag);
free(arg);
}
static void create_task_21_real(unsigned k, unsigned i)
{
struct starpu_task *task = create_task(TAG21(k, i));
#ifdef STARPU_DEVEL
#warning temporary fix
#endif
// task->cl = &STARPU_PLU(cl21);
task->cl = &STARPU_PLU(cl12);
task->cl_arg = create_debug_info(i, i, k);
unsigned diag_block_is_local = (get_block_rank(k, k) == rank);
starpu_tag_t tag_11_dep;
/* which sub-data is manipulated ? */
starpu_data_handle_t diag_block;
if (diag_block_is_local)
{
diag_block = STARPU_PLU(get_block_handle)(k, k);
tag_11_dep = TAG11(k);
}
else
{
#ifdef SINGLE_TMP11
diag_block = STARPU_PLU(get_tmp_11_block_handle)();
#else
diag_block = STARPU_PLU(get_tmp_11_block_handle)(k);
#endif
tag_11_dep = TAG11_SAVE(k);
}
task->handles[0] = diag_block;
task->handles[1] = STARPU_PLU(get_block_handle)(i, k);
STARPU_ASSERT(task->handles[0] != STARPU_POISON_PTR);
STARPU_ASSERT(task->handles[1] != STARPU_POISON_PTR);
struct callback_arg *arg = malloc(sizeof(struct callback_arg));
arg->i = i;
arg->k = k;
task->callback_func = callback_task_21_real;
task->callback_arg = arg;
if (!no_prio && (i == k+1))
{
task->priority = STARPU_MAX_PRIO;
}
/* enforce dependencies ... */
if (k > 0)
{
starpu_tag_declare_deps(TAG21(k, i), 2, tag_11_dep, TAG22(k-1, i, k));
}
else
{
starpu_tag_declare_deps(TAG21(k, i), 1, tag_11_dep);
}
int ret = starpu_task_submit(task);
STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
}
static void create_task_21(unsigned k, unsigned i)
{
if (get_block_rank(i, k) == rank)
{
#ifdef VERBOSE_INIT
fprintf(stderr, "CREATE real task 21(k = %u, i = %u) on node %d\n", k, i, rank);
#endif
create_task_21_real(k, i);
}
else
{
/* We don't handle the task, but perhaps we have to generate MPI transfers. */
int rank_mask[world_size];
find_nodes_using_21(k, i, rank_mask);
if (rank_mask[rank])
{
#ifdef VERBOSE_INIT
fprintf(stderr, "create RECV task 21(k = %u, i = %u) on node %d\n", k, i, rank);
#endif
create_task_21_recv(k, i);
}
else
{
#ifdef VERBOSE_INIT
fprintf(stderr, "Node %d needs not 21(k=%u, i=%u)\n", rank, k,i);
#endif
}
}
}
/*
* Task 22 (GEMM)
*/
static void create_task_22_real(unsigned k, unsigned i, unsigned j)
{
// printf("task 22 k,i,j = %d,%d,%d TAG = %llx\n", k,i,j, TAG22(k,i,j));
struct starpu_task *task = create_task(TAG22(k, i, j));
task->cl = &STARPU_PLU(cl22);
task->cl_arg = create_debug_info(i, j, k);
/* which sub-data is manipulated ? */
/* produced by TAG21_SAVE(k, i) */
unsigned block21_is_local = (get_block_rank(i, k) == rank);
starpu_tag_t tag_21_dep;
starpu_data_handle_t block21;
if (block21_is_local)
{
block21 = STARPU_PLU(get_block_handle)(i, k);
tag_21_dep = TAG21(k, i);
}
else
{
#ifdef SINGLE_TMP1221
block21 = STARPU_PLU(get_tmp_21_block_handle)(i);
#else
block21 = STARPU_PLU(get_tmp_21_block_handle)(i, k);
#endif
tag_21_dep = TAG21_SAVE(k, i);
}
/* produced by TAG12_SAVE(k, j) */
unsigned block12_is_local = (get_block_rank(k, j) == rank);
starpu_tag_t tag_12_dep;
starpu_data_handle_t block12;
if (block12_is_local)
{
// block12 = STARPU_PLU(get_block_handle)(j, k);
block12 = STARPU_PLU(get_block_handle)(k, j);
tag_12_dep = TAG12(k, j);
}
else
{
#ifdef SINGLE_TMP1221
block12 = STARPU_PLU(get_tmp_12_block_handle)(j);
#else
block12 = STARPU_PLU(get_tmp_12_block_handle)(j, k);
#endif
tag_12_dep = TAG12_SAVE(k, j);
}
#ifdef STARPU_DEVEL
#warning temporary fix :/
#endif
//task->handles[0] = block21;
task->handles[0] = block12;
//task->handles[1] = block12;
task->handles[1] = block21;
/* produced by TAG22(k-1, i, j) */
task->handles[2] = STARPU_PLU(get_block_handle)(i, j);
STARPU_ASSERT(task->handles[0] != STARPU_POISON_PTR);
STARPU_ASSERT(task->handles[1] != STARPU_POISON_PTR);
STARPU_ASSERT(task->handles[2] != STARPU_POISON_PTR);
if (!no_prio && (i == k + 1) && (j == k +1) )
{
task->priority = STARPU_MAX_PRIO;
}
/* enforce dependencies ... */
if (k > 0)
{
starpu_tag_declare_deps(TAG22(k, i, j), 3, TAG22(k-1, i, j), tag_12_dep, tag_21_dep);
}
else
{
starpu_tag_declare_deps(TAG22(k, i, j), 2, tag_12_dep, tag_21_dep);
}
int ret = starpu_task_submit(task);
STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
}
static void create_task_22(unsigned k, unsigned i, unsigned j)
{
if (get_block_rank(i, j) == rank)
{
// fprintf(stderr, "CREATE real task 22(k = %d, i = %d, j = %d) on node %d\n", k, i, j, rank);
create_task_22_real(k, i, j);
}
// else
// {
// fprintf(stderr, "Node %d needs not 22(k=%d, i=%d, j = %d)\n", rank, k,i,j);
// }
}
static void wait_tag_and_fetch_handle(starpu_tag_t tag, starpu_data_handle_t handle)
{
STARPU_ASSERT(handle != STARPU_POISON_PTR);
starpu_tag_wait(tag);
// fprintf(stderr, "Rank %d : tag %lx is done\n", rank, tag);
starpu_data_acquire(handle, STARPU_R);
// starpu_data_unregister(handle);
}
static void wait_termination(void)
{
unsigned k, i, j;
for (k = 0; k < nblocks; k++)
{
/* Wait task 11k if needed */
if (get_block_rank(k, k) == rank)
{
starpu_data_handle_t diag_block = STARPU_PLU(get_block_handle)(k, k);
wait_tag_and_fetch_handle(TAG11_SAVE(k), diag_block);
}
for (i = k + 1; i < nblocks; i++)
{
/* Wait task 21ki if needed */
if (get_block_rank(i, k) == rank)
{
starpu_data_handle_t block21 = STARPU_PLU(get_block_handle)(i, k);
//starpu_data_handle_t block21 = STARPU_PLU(get_block_handle)(k, i);
//fprintf(stderr, "BLOCK21 i %d k %d -> handle %p\n", i, k, block21);
wait_tag_and_fetch_handle(TAG21_SAVE(k, i), block21);
}
}
for (j = k + 1; j < nblocks; j++)
{
/* Wait task 12kj if needed */
if (get_block_rank(k, j) == rank)
{
//starpu_data_handle_t block12 = STARPU_PLU(get_block_handle)(j, k);
starpu_data_handle_t block12 = STARPU_PLU(get_block_handle)(k, j);
//fprintf(stderr, "BLOCK12 j %d k %d -> handle %p\n", j, k, block12);
wait_tag_and_fetch_handle(TAG12_SAVE(k, j), block12);
}
}
}
}
/*
* code to bootstrap the factorization
*/
double STARPU_PLU(plu_main)(unsigned _nblocks, int _rank, int _world_size)
{
double start;
double end;
nblocks = _nblocks;
rank = _rank;
world_size = _world_size;
/* create all the DAG nodes */
unsigned i,j,k;
for (k = 0; k < nblocks; k++)
{
starpu_iteration_push(k);
create_task_11(k);
for (i = k+1; i<nblocks; i++)
{
create_task_12(k, i);
create_task_21(k, i);
}
for (i = k+1; i<nblocks; i++)
{
for (j = k+1; j<nblocks; j++)
{
create_task_22(k, i, j);
}
}
starpu_iteration_pop();
}
int barrier_ret = starpu_mpi_barrier(MPI_COMM_WORLD);
STARPU_ASSERT(barrier_ret == MPI_SUCCESS);
/* schedule the codelet */
start = starpu_timing_now();
starpu_tag_notify_from_apps(STARPU_TAG_INIT);
wait_termination();
end = starpu_timing_now();
double timing = end - start;
// fprintf(stderr, "RANK %d -> took %f ms\n", rank, timing/1000);
return timing;
}