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openmpi/ompi/mca/coll/tuned/coll_tuned_allgatherv.c
Rainer Keller 6c5532072a - Split the datatype engine into two parts: an MPI specific part in
OMPI
   and a language agnostic part in OPAL. The convertor is completely
   moved into OPAL.  This offers several benefits as described in RFC
   http://www.open-mpi.org/community/lists/devel/2009/07/6387.php
   namely:
    - Fewer basic types (int* and float* types, boolean and wchar
    - Fixing naming scheme to ompi-nomenclature.
    - Usability outside of the ompi-layer.
 - Due to the fixed nature of simple opal types, their information is
   completely
   known at compile time and therefore constified
 - With fewer datatypes (22), the actual sizes of bit-field types may be
   reduced
   from 64 to 32 bits, allowing reorganizing the opal_datatype
   structure, eliminating holes and keeping data required in convertor
   (upon send/recv) in one cacheline...
   This has implications to the convertor-datastructure and other parts
   of the code.
 - Several performance tests have been run, the netpipe latency does not
   change with
   this patch on Linux/x86-64 on the smoky cluster.
 - Extensive tests have been done to verify correctness (no new
   regressions) using:
   1. mpi_test_suite on linux/x86-64 using clean ompi-trunk and
    ompi-ddt:
    a. running both trunk and ompi-ddt resulted in no differences
       (except for MPI_SHORT_INT and MPI_TYPE_MIX_LB_UB do now run
       correctly).
    b. with --enable-memchecker and running under valgrind (one buglet
       when run with static found in test-suite, commited)
   2. ibm testsuite on linux/x86-64 using clean ompi-trunk and ompi-ddt:
      all passed (except for the dynamic/ tests failed!! as trunk/MTT)
   3. compilation and usage of HDF5 tests on Jaguar using PGI and
      PathScale compilers.
   4. compilation and usage on Scicortex.
 - Please note, that for the heterogeneous case, (-m32 compiled
   binaries/ompi), neither
   ompi-trunk, nor ompi-ddt branch would successfully launch.

This commit was SVN r21641.
2009-07-13 04:56:31 +00:00

831 строка
35 KiB
C

/*
* Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
* University Research and Technology
* Corporation. All rights reserved.
* Copyright (c) 2004-2009 The University of Tennessee and The University
* of Tennessee Research Foundation. All rights
* reserved.
* Copyright (c) 2004-2005 High Performance Computing Center Stuttgart,
* University of Stuttgart. All rights reserved.
* Copyright (c) 2004-2005 The Regents of the University of California.
* All rights reserved.
* Copyright (c) 2009 University of Houston. All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
#include "ompi_config.h"
#include "mpi.h"
#include "ompi/constants.h"
#include "ompi/datatype/ompi_datatype.h"
#include "ompi/communicator/communicator.h"
#include "ompi/mca/coll/coll.h"
#include "ompi/mca/coll/base/coll_tags.h"
#include "coll_tuned.h"
#include "coll_tuned_topo.h"
#include "coll_tuned_util.h"
/*
* ompi_coll_tuned_allgatherv_intra_bruck
*
* Function: allgather using O(log(N)) steps.
* Accepts: Same arguments as MPI_Allgather
* Returns: MPI_SUCCESS or error code
*
* Description: Variation to All-to-all algorithm described by Bruck et al.in
* "Efficient Algorithms for All-to-all Communications
* in Multiport Message-Passing Systems"
* Note: Unlike in case of allgather implementation, we relay on
* indexed datatype to select buffers appropriately.
* The only additional memory requirement is for creation of
* temporary datatypes.
* Example on 7 nodes (memory lay out need not be in-order)
* Initial set up:
* # 0 1 2 3 4 5 6
* [0] [ ] [ ] [ ] [ ] [ ] [ ]
* [ ] [1] [ ] [ ] [ ] [ ] [ ]
* [ ] [ ] [2] [ ] [ ] [ ] [ ]
* [ ] [ ] [ ] [3] [ ] [ ] [ ]
* [ ] [ ] [ ] [ ] [4] [ ] [ ]
* [ ] [ ] [ ] [ ] [ ] [5] [ ]
* [ ] [ ] [ ] [ ] [ ] [ ] [6]
* Step 0: send message to (rank - 2^0), receive message from (rank + 2^0)
* # 0 1 2 3 4 5 6
* [0] [ ] [ ] [ ] [ ] [ ] [0]
* [1] [1] [ ] [ ] [ ] [ ] [ ]
* [ ] [2] [2] [ ] [ ] [ ] [ ]
* [ ] [ ] [3] [3] [ ] [ ] [ ]
* [ ] [ ] [ ] [4] [4] [ ] [ ]
* [ ] [ ] [ ] [ ] [5] [5] [ ]
* [ ] [ ] [ ] [ ] [ ] [6] [6]
* Step 1: send message to (rank - 2^1), receive message from (rank + 2^1).
* message contains all blocks from (rank) .. (rank + 2^2) with
* wrap around.
* # 0 1 2 3 4 5 6
* [0] [ ] [ ] [ ] [0] [0] [0]
* [1] [1] [ ] [ ] [ ] [1] [1]
* [2] [2] [2] [ ] [ ] [ ] [2]
* [3] [3] [3] [3] [ ] [ ] [ ]
* [ ] [4] [4] [4] [4] [ ] [ ]
* [ ] [ ] [5] [5] [5] [5] [ ]
* [ ] [ ] [ ] [6] [6] [6] [6]
* Step 2: send message to (rank - 2^2), receive message from (rank + 2^2).
* message size is "all remaining blocks"
* # 0 1 2 3 4 5 6
* [0] [0] [0] [0] [0] [0] [0]
* [1] [1] [1] [1] [1] [1] [1]
* [2] [2] [2] [2] [2] [2] [2]
* [3] [3] [3] [3] [3] [3] [3]
* [4] [4] [4] [4] [4] [4] [4]
* [5] [5] [5] [5] [5] [5] [5]
* [6] [6] [6] [6] [6] [6] [6]
*/
int ompi_coll_tuned_allgatherv_intra_bruck(void *sbuf, int scount,
struct ompi_datatype_t *sdtype,
void *rbuf, int *rcounts,
int *rdispls,
struct ompi_datatype_t *rdtype,
struct ompi_communicator_t *comm,
mca_coll_base_module_t *module)
{
int line = -1, err = 0;
int rank, size;
int sendto, recvfrom, distance, blockcount, i;
int *new_rcounts = NULL, *new_rdispls = NULL;
int *new_scounts = NULL, *new_sdispls = NULL;
ptrdiff_t slb, rlb, sext, rext;
char *tmpsend = NULL, *tmprecv = NULL;
struct ompi_datatype_t *new_rdtype, *new_sdtype;
size = ompi_comm_size(comm);
rank = ompi_comm_rank(comm);
OPAL_OUTPUT((ompi_coll_tuned_stream,
"coll:tuned:allgather_intra_bruck rank %d", rank));
err = ompi_datatype_get_extent (sdtype, &slb, &sext);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
err = ompi_datatype_get_extent (rdtype, &rlb, &rext);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
/* Initialization step:
- if send buffer is not MPI_IN_PLACE, copy send buffer to block rank of
the receive buffer.
*/
tmprecv = (char*) rbuf + rdispls[rank] * rext;
if (MPI_IN_PLACE != sbuf) {
tmpsend = (char*) sbuf;
err = ompi_datatype_sndrcv(tmpsend, scount, sdtype,
tmprecv, rcounts[rank], rdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
}
/* Communication step:
At every step i, rank r:
- doubles the distance
- sends message with blockcount blocks, (rbuf[rank] .. rbuf[rank + 2^i])
to rank (r - distance)
- receives message of blockcount blocks,
(rbuf[r + distance] ... rbuf[(r+distance) + 2^i]) from
rank (r + distance)
- blockcount doubles until the last step when only the remaining data is
exchanged.
*/
blockcount = 1;
tmpsend = (char*) rbuf;
new_rcounts = (int*) calloc(4*size, sizeof(int));
if (NULL == new_rcounts) { err = -1; line = __LINE__; goto err_hndl; }
new_rdispls = new_rcounts + size;
new_scounts = new_rdispls + size;
new_sdispls = new_scounts + size;
for (distance = 1; distance < size; distance<<=1) {
recvfrom = (rank + distance) % size;
sendto = (rank - distance + size) % size;
if (distance <= (size >> 1)) {
blockcount = distance;
} else {
blockcount = size - distance;
}
/* create send and receive datatypes */
for (i = 0; i < blockcount; i++) {
const int tmp_srank = (rank + i) % size;
const int tmp_rrank = (recvfrom + i) % size;
new_scounts[i] = rcounts[tmp_srank];
new_sdispls[i] = rdispls[tmp_srank];
new_rcounts[i] = rcounts[tmp_rrank];
new_rdispls[i] = rdispls[tmp_rrank];
}
err = ompi_datatype_create_indexed(blockcount, new_scounts, new_sdispls,
rdtype, &new_sdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
err = ompi_datatype_create_indexed(blockcount, new_rcounts, new_rdispls,
rdtype, &new_rdtype);
err = ompi_datatype_commit(&new_sdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
err = ompi_datatype_commit(&new_rdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
/* Sendreceive */
err = ompi_coll_tuned_sendrecv(rbuf, 1, new_sdtype, sendto,
MCA_COLL_BASE_TAG_ALLGATHERV,
rbuf, 1, new_rdtype, recvfrom,
MCA_COLL_BASE_TAG_ALLGATHERV,
comm, MPI_STATUS_IGNORE, rank);
ompi_datatype_destroy(&new_sdtype);
ompi_datatype_destroy(&new_rdtype);
}
free(new_rcounts);
return OMPI_SUCCESS;
err_hndl:
if( NULL != new_rcounts ) free(new_rcounts);
OPAL_OUTPUT((ompi_coll_tuned_stream, "%s:%4d\tError occurred %d, rank %2d",
__FILE__, line, err, rank));
return err;
}
/*
* ompi_coll_tuned_allgatherv_intra_ring
*
* Function: allgatherv using O(N) steps.
* Accepts: Same arguments as MPI_Allgatherv
* Returns: MPI_SUCCESS or error code
*
* Description: Ring algorithm for all gather.
* At every step i, rank r receives message from rank (r - 1)
* containing data from rank (r - i - 1) and sends message to rank
* (r + 1) containing data from rank (r - i), with wrap arounds.
* Memory requirements:
* No additional memory requirements.
*
*/
int ompi_coll_tuned_allgatherv_intra_ring(void *sbuf, int scount,
struct ompi_datatype_t *sdtype,
void* rbuf, int *rcounts, int *rdisps,
struct ompi_datatype_t *rdtype,
struct ompi_communicator_t *comm,
mca_coll_base_module_t *module)
{
int line = -1;
int rank, size;
int sendto, recvfrom, i, recvdatafrom, senddatafrom;
int err = 0;
ptrdiff_t slb, rlb, sext, rext;
char *tmpsend = NULL, *tmprecv = NULL;
size = ompi_comm_size(comm);
rank = ompi_comm_rank(comm);
OPAL_OUTPUT((ompi_coll_tuned_stream,
"coll:tuned:allgatherv_intra_ring rank %d", rank));
err = ompi_datatype_get_extent (sdtype, &slb, &sext);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
err = ompi_datatype_get_extent (rdtype, &rlb, &rext);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
/* Initialization step:
- if send buffer is not MPI_IN_PLACE, copy send buffer to
the appropriate block of receive buffer
*/
tmprecv = (char*) rbuf + rdisps[rank] * rext;
if (MPI_IN_PLACE != sbuf) {
tmpsend = (char*) sbuf;
err = ompi_datatype_sndrcv(tmpsend, scount, sdtype,
tmprecv, rcounts[rank], rdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
}
/* Communication step:
At every step i: 0 .. (P-1), rank r:
- receives message from [(r - 1 + size) % size] containing data from rank
[(r - i - 1 + size) % size]
- sends message to rank [(r + 1) % size] containing data from rank
[(r - i + size) % size]
- sends message which starts at begining of rbuf and has size
*/
sendto = (rank + 1) % size;
recvfrom = (rank - 1 + size) % size;
for (i = 0; i < size - 1; i++) {
recvdatafrom = (rank - i - 1 + size) % size;
senddatafrom = (rank - i + size) % size;
tmprecv = (char*)rbuf + rdisps[recvdatafrom] * rext;
tmpsend = (char*)rbuf + rdisps[senddatafrom] * rext;
/* Sendreceive */
err = ompi_coll_tuned_sendrecv(tmpsend, rcounts[senddatafrom], rdtype,
sendto, MCA_COLL_BASE_TAG_ALLGATHERV,
tmprecv, rcounts[recvdatafrom], rdtype,
recvfrom, MCA_COLL_BASE_TAG_ALLGATHERV,
comm, MPI_STATUS_IGNORE, rank);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
}
return OMPI_SUCCESS;
err_hndl:
OPAL_OUTPUT((ompi_coll_tuned_stream, "%s:%4d\tError occurred %d, rank %2d",
__FILE__, line, err, rank));
return err;
}
/*
* ompi_coll_tuned_allgatherv_intra_neighborexchange
*
* Function: allgatherv using N/2 steps (O(N))
* Accepts: Same arguments as MPI_Allgatherv
* Returns: MPI_SUCCESS or error code
*
* Description: Neighbor Exchange algorithm for allgather adapted for
* allgatherv.
* Described by Chen et.al. in
* "Performance Evaluation of Allgather Algorithms on
* Terascale Linux Cluster with Fast Ethernet",
* Proceedings of the Eighth International Conference on
* High-Performance Computing inn Asia-Pacific Region
* (HPCASIA'05), 2005
*
* Rank r exchanges message with one of its neighbors and
* forwards the data further in the next step.
*
* No additional memory requirements.
*
* Limitations: Algorithm works only on even number of processes.
* For odd number of processes we switch to ring algorithm.
*
* Example on 6 nodes:
* Initial state
* # 0 1 2 3 4 5
* [0] [ ] [ ] [ ] [ ] [ ]
* [ ] [1] [ ] [ ] [ ] [ ]
* [ ] [ ] [2] [ ] [ ] [ ]
* [ ] [ ] [ ] [3] [ ] [ ]
* [ ] [ ] [ ] [ ] [4] [ ]
* [ ] [ ] [ ] [ ] [ ] [5]
* Step 0:
* # 0 1 2 3 4 5
* [0] [0] [ ] [ ] [ ] [ ]
* [1] [1] [ ] [ ] [ ] [ ]
* [ ] [ ] [2] [2] [ ] [ ]
* [ ] [ ] [3] [3] [ ] [ ]
* [ ] [ ] [ ] [ ] [4] [4]
* [ ] [ ] [ ] [ ] [5] [5]
* Step 1:
* # 0 1 2 3 4 5
* [0] [0] [0] [ ] [ ] [0]
* [1] [1] [1] [ ] [ ] [1]
* [ ] [2] [2] [2] [2] [ ]
* [ ] [3] [3] [3] [3] [ ]
* [4] [ ] [ ] [4] [4] [4]
* [5] [ ] [ ] [5] [5] [5]
* Step 2:
* # 0 1 2 3 4 5
* [0] [0] [0] [0] [0] [0]
* [1] [1] [1] [1] [1] [1]
* [2] [2] [2] [2] [2] [2]
* [3] [3] [3] [3] [3] [3]
* [4] [4] [4] [4] [4] [4]
* [5] [5] [5] [5] [5] [5]
*/
int
ompi_coll_tuned_allgatherv_intra_neighborexchange(void *sbuf, int scount,
struct ompi_datatype_t *sdtype,
void* rbuf, int *rcounts, int *rdispls,
struct ompi_datatype_t *rdtype,
struct ompi_communicator_t *comm,
mca_coll_base_module_t *module)
{
int line = -1;
int rank, size;
int neighbor[2], offset_at_step[2], recv_data_from[2], send_data_from;
int new_scounts[2], new_sdispls[2], new_rcounts[2], new_rdispls[2];
int i, even_rank;
int err = 0;
ptrdiff_t slb, rlb, sext, rext;
char *tmpsend = NULL, *tmprecv = NULL;
struct ompi_datatype_t *new_rdtype, *new_sdtype;
size = ompi_comm_size(comm);
rank = ompi_comm_rank(comm);
if (size % 2) {
OPAL_OUTPUT((ompi_coll_tuned_stream,
"coll:tuned:allgatherv_intra_neighborexchange WARNING: odd size %d, switching to ring algorithm",
size));
return ompi_coll_tuned_allgatherv_intra_ring(sbuf, scount, sdtype,
rbuf, rcounts,
rdispls, rdtype,
comm, module);
}
OPAL_OUTPUT((ompi_coll_tuned_stream,
"coll:tuned:allgatherv_intra_neighborexchange rank %d", rank));
err = ompi_datatype_get_extent (sdtype, &slb, &sext);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
err = ompi_datatype_get_extent (rdtype, &rlb, &rext);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
/* Initialization step:
- if send buffer is not MPI_IN_PLACE, copy send buffer to
the appropriate block of receive buffer
*/
tmprecv = (char*) rbuf + rdispls[rank] * rext;
if (MPI_IN_PLACE != sbuf) {
tmpsend = (char*) sbuf;
err = ompi_datatype_sndrcv(tmpsend, scount, sdtype,
tmprecv, rcounts[rank], rdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
}
/* Determine neighbors, order in which blocks will arrive, etc. */
even_rank = !(rank % 2);
if (even_rank) {
neighbor[0] = (rank + 1) % size;
neighbor[1] = (rank - 1 + size) % size;
recv_data_from[0] = rank;
recv_data_from[1] = rank;
offset_at_step[0] = (+2);
offset_at_step[1] = (-2);
} else {
neighbor[0] = (rank - 1 + size) % size;
neighbor[1] = (rank + 1) % size;
recv_data_from[0] = neighbor[0];
recv_data_from[1] = neighbor[0];
offset_at_step[0] = (-2);
offset_at_step[1] = (+2);
}
/* Communication loop:
- First step is special: exchange a single block with neighbor[0].
- Rest of the steps:
update recv_data_from according to offset, and
exchange two blocks with appropriate neighbor.
the send location becomes previous receve location.
Note, we need to create indexed datatype to send and receive these
blocks properly.
*/
tmprecv = (char*)rbuf + rdispls[neighbor[0]] * rext;
tmpsend = (char*)rbuf + rdispls[rank] * rext;
err = ompi_coll_tuned_sendrecv(tmpsend, rcounts[rank], rdtype,
neighbor[0], MCA_COLL_BASE_TAG_ALLGATHERV,
tmprecv, rcounts[neighbor[0]], rdtype,
neighbor[0], MCA_COLL_BASE_TAG_ALLGATHERV,
comm, MPI_STATUS_IGNORE, rank);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
/* Determine initial sending counts and displacements*/
if (even_rank) {
send_data_from = rank;
} else {
send_data_from = recv_data_from[0];
}
for (i = 1; i < (size / 2); i++) {
const int i_parity = i % 2;
recv_data_from[i_parity] =
(recv_data_from[i_parity] + offset_at_step[i_parity] + size) % size;
/* Create new indexed types for sending and receiving.
We are sending data from ranks (send_data_from) and (send_data_from+1)
We are receiving data from ranks (recv_data_from[i_parity]) and
(recv_data_from[i_parity]+1).
*/
new_scounts[0] = rcounts[send_data_from];
new_scounts[1] = rcounts[(send_data_from + 1)];
new_sdispls[0] = rdispls[send_data_from];
new_sdispls[1] = rdispls[(send_data_from + 1)];
err = ompi_datatype_create_indexed(2, new_scounts, new_sdispls, rdtype,
&new_sdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
err = ompi_datatype_commit(&new_sdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
new_rcounts[0] = rcounts[recv_data_from[i_parity]];
new_rcounts[1] = rcounts[(recv_data_from[i_parity] + 1)];
new_rdispls[0] = rdispls[recv_data_from[i_parity]];
new_rdispls[1] = rdispls[(recv_data_from[i_parity] + 1)];
err = ompi_datatype_create_indexed(2, new_rcounts, new_rdispls, rdtype,
&new_rdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
err = ompi_datatype_commit(&new_rdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
tmprecv = (char*)rbuf;
tmpsend = (char*)rbuf;
/* Sendreceive */
err = ompi_coll_tuned_sendrecv(tmpsend, 1, new_sdtype, neighbor[i_parity],
MCA_COLL_BASE_TAG_ALLGATHERV,
tmprecv, 1, new_rdtype, neighbor[i_parity],
MCA_COLL_BASE_TAG_ALLGATHERV,
comm, MPI_STATUS_IGNORE, rank);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
send_data_from = recv_data_from[i_parity];
ompi_datatype_destroy(&new_sdtype);
ompi_datatype_destroy(&new_rdtype);
}
return OMPI_SUCCESS;
err_hndl:
OPAL_OUTPUT((ompi_coll_tuned_stream, "%s:%4d\tError occurred %d, rank %2d",
__FILE__, line, err, rank));
return err;
}
int ompi_coll_tuned_allgatherv_intra_two_procs(void *sbuf, int scount,
struct ompi_datatype_t *sdtype,
void* rbuf, int *rcounts,
int *rdispls,
struct ompi_datatype_t *rdtype,
struct ompi_communicator_t *comm,
mca_coll_base_module_t *module)
{
int line = -1, err = 0;
int rank;
int remote;
char *tmpsend = NULL, *tmprecv = NULL;
ptrdiff_t sext, rext, lb;
rank = ompi_comm_rank(comm);
OPAL_OUTPUT((ompi_coll_tuned_stream,
"ompi_coll_tuned_allgatherv_intra_two_procs rank %d", rank));
err = ompi_datatype_get_extent (sdtype, &lb, &sext);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
err = ompi_datatype_get_extent (rdtype, &lb, &rext);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
/* Exchange data:
- compute source and destinations
- send receive data
*/
remote = rank ^ 0x1;
tmpsend = (char*)sbuf;
if (MPI_IN_PLACE == sbuf) {
tmpsend = (char*)rbuf + rdispls[rank] * rext;
scount = rcounts[rank];
sdtype = rdtype;
}
tmprecv = (char*)rbuf + rdispls[remote] * rext;
err = ompi_coll_tuned_sendrecv(tmpsend, scount, sdtype, remote,
MCA_COLL_BASE_TAG_ALLGATHERV,
tmprecv, rcounts[remote], rdtype, remote,
MCA_COLL_BASE_TAG_ALLGATHERV,
comm, MPI_STATUS_IGNORE, rank);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
/* Place your data in correct location if necessary */
if (MPI_IN_PLACE != sbuf) {
err = ompi_datatype_sndrcv((char*)sbuf, scount, sdtype,
(char*)rbuf + rdispls[rank] * rext,
rcounts[rank], rdtype);
if (MPI_SUCCESS != err) { line = __LINE__; goto err_hndl; }
}
return MPI_SUCCESS;
err_hndl:
OPAL_OUTPUT((ompi_coll_tuned_stream, "%s:%4d\tError occurred %d, rank %2d",
__FILE__, line, err, rank));
return err;
}
/*
* Linear functions are copied from the BASIC coll module
* they do not segment the message and are simple implementations
* but for some small number of nodes and/or small data sizes they
* are just as fast as tuned/tree based segmenting operations
* and as such may be selected by the decision functions
* These are copied into this module due to the way we select modules
* in V1. i.e. in V2 we will handle this differently and so will not
* have to duplicate code.
* JPG following the examples from other coll_tuned implementations. Dec06.
*/
/* copied function (with appropriate renaming) starts here */
/*
* allgatherv_intra_basic
*
* Function: - allgatherv using other MPI collectives:
* gatherv + bcast (from basic module).
* Accepts: - same as MPI_Allgatherv()
* Returns: - MPI_SUCCESS or error code
*/
int
ompi_coll_tuned_allgatherv_intra_basic_default(void *sbuf, int scount,
struct ompi_datatype_t *sdtype,
void *rbuf, int *rcounts,
int *disps,
struct ompi_datatype_t *rdtype,
struct ompi_communicator_t *comm,
mca_coll_base_module_t *module)
{
int i, size, rank ;
int err;
MPI_Aint extent;
MPI_Aint lb;
char *send_buf = NULL;
struct ompi_datatype_t *newtype, *send_type;
size = ompi_comm_size(comm);
rank = ompi_comm_rank(comm);
/*
* We don't have a root process defined. Arbitrarily assign root
* to process with rank 0 (OMPI convention)
*/
OPAL_OUTPUT((ompi_coll_tuned_stream,
"ompi_coll_tuned_allgatherv_intra_basic_default rank %d",
rank));
if (MPI_IN_PLACE == sbuf) {
ompi_datatype_get_extent(rdtype, &lb, &extent);
send_type = rdtype;
send_buf = (char*)rbuf;
for (i = 0; i < rank; ++i) {
send_buf += (rcounts[i] * extent);
}
} else {
send_buf = (char*)sbuf;
send_type = sdtype;
}
err = comm->c_coll.coll_gatherv(send_buf,
rcounts[rank], send_type,rbuf,
rcounts, disps, rdtype, 0,
comm, comm->c_coll.coll_gatherv_module);
if (MPI_SUCCESS != err) {
return err;
}
/*
* we now have all the data in the root's rbuf. Need to
* broadcast the data out to the other processes
*
* Need to define a datatype that captures the different vectors
* from each process. MPI_TYPE_INDEXED with params
* size,rcount,displs,rdtype,newtype
* should do the trick.
* Use underlying ddt functions to create, and commit the
* new datatype on each process, then broadcast and destroy the
* datatype.
*/
err = ompi_datatype_create_indexed(size,rcounts,disps,rdtype,&newtype);
if (MPI_SUCCESS != err) {
return err;
}
err = ompi_datatype_commit(&newtype);
if(MPI_SUCCESS != err) {
return err;
}
comm->c_coll.coll_bcast(rbuf, 1, newtype, 0, comm,
comm->c_coll.coll_bcast_module);
ompi_datatype_destroy (&newtype);
return MPI_SUCCESS;
}
/* copied function (with appropriate renaming) ends here */
/* The following are used by dynamic and forced rules */
/* publish details of each algorithm and if its forced/fixed/locked in */
/* as you add methods/algorithms you must update this and the query/map
routines */
/* this routine is called by the component only */
/* this makes sure that the mca parameters are set to their initial values
and perms */
/* module does not call this they call the forced_getvalues routine instead */
int
ompi_coll_tuned_allgatherv_intra_check_forced_init(coll_tuned_force_algorithm_mca_param_indices_t *mca_param_indices)
{
int max_alg = 5, requested_alg;
ompi_coll_tuned_forced_max_algorithms[ALLGATHERV] = max_alg;
mca_base_param_reg_int (&mca_coll_tuned_component.super.collm_version,
"allgatherv_algorithm_count",
"Number of allgather algorithms available",
false, true, max_alg, NULL);
mca_param_indices->algorithm_param_index
= mca_base_param_reg_int(&mca_coll_tuned_component.super.collm_version,
"allgatherv_algorithm",
"Which allgather algorithm is used. Can be locked down to choice of: 0 ignore, 1 default (gatherv + bcast), 2 bruck, 3 ring, 4 neighbor exchange, 5: two proc only.",
false, false, 0, NULL);
if (mca_param_indices->algorithm_param_index < 0) {
return mca_param_indices->algorithm_param_index;
}
mca_base_param_lookup_int(mca_param_indices->algorithm_param_index,
&(requested_alg));
if( 0 > requested_alg || requested_alg > max_alg ) {
if( 0 == ompi_comm_rank( MPI_COMM_WORLD ) ) {
opal_output( 0, "Allgather algorithm #%d is not available (range [0..%d]). Switching back to ignore(0)\n",
requested_alg, max_alg );
}
mca_base_param_set_int( mca_param_indices->algorithm_param_index, 0);
}
mca_param_indices->segsize_param_index
= mca_base_param_reg_int(&mca_coll_tuned_component.super.collm_version,
"allgatherv_algorithm_segmentsize",
"Segment size in bytes used by default for allgather algorithms. Only has meaning if algorithm is forced and supports segmenting. 0 bytes means no segmentation. Currently, available algorithms do not support segmentation.",
false, false, 0, NULL);
mca_param_indices->tree_fanout_param_index
= mca_base_param_reg_int(&mca_coll_tuned_component.super.collm_version,
"allgatherv_algorithm_tree_fanout",
"Fanout for n-tree used for allgather algorithms. Only has meaning if algorithm is forced and supports n-tree topo based operation. Currently, available algorithms do not support n-tree topologies.",
false, false,
ompi_coll_tuned_init_tree_fanout, /* get system wide default */
NULL);
mca_param_indices->chain_fanout_param_index
= mca_base_param_reg_int(&mca_coll_tuned_component.super.collm_version,
"allgatherv_algorithm_chain_fanout",
"Fanout for chains used for allgather algorithms. Only has meaning if algorithm is forced and supports chain topo based operation. Currently, available algorithms do not support chain topologies.",
false, false,
ompi_coll_tuned_init_chain_fanout, /* get system wide default */
NULL);
return (MPI_SUCCESS);
}
int ompi_coll_tuned_allgatherv_intra_do_forced(void *sbuf, int scount,
struct ompi_datatype_t *sdtype,
void *rbuf, int *rcounts,
int *rdispls,
struct ompi_datatype_t *rdtype,
struct ompi_communicator_t *comm,
mca_coll_base_module_t *module)
{
mca_coll_tuned_module_t *tuned_module = (mca_coll_tuned_module_t*) module;
mca_coll_tuned_comm_t *data = tuned_module->tuned_data;
OPAL_OUTPUT((ompi_coll_tuned_stream,
"coll:tuned:allgatherv_intra_do_forced selected algorithm %d",
data->user_forced[ALLGATHERV].algorithm));
switch (data->user_forced[ALLGATHERV].algorithm) {
case (0):
return ompi_coll_tuned_allgatherv_intra_dec_fixed (sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
case (1):
return ompi_coll_tuned_allgatherv_intra_basic_default (sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
case (2):
return ompi_coll_tuned_allgatherv_intra_bruck (sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
case (3):
return ompi_coll_tuned_allgatherv_intra_ring (sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
case (4):
return ompi_coll_tuned_allgatherv_intra_neighborexchange (sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
case (5):
return ompi_coll_tuned_allgatherv_intra_two_procs (sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
default:
OPAL_OUTPUT((ompi_coll_tuned_stream,
"coll:tuned:allgatherv_intra_do_forced attempt to select algorithm %d when only 0-%d is valid?",
data->user_forced[ALLGATHERV].algorithm,
ompi_coll_tuned_forced_max_algorithms[ALLGATHERV]));
return (MPI_ERR_ARG);
} /* switch */
}
int ompi_coll_tuned_allgatherv_intra_do_this(void *sbuf, int scount,
struct ompi_datatype_t *sdtype,
void *rbuf, int *rcounts,
int *rdispls,
struct ompi_datatype_t *rdtype,
struct ompi_communicator_t *comm,
mca_coll_base_module_t *module,
int algorithm, int faninout,
int segsize)
{
OPAL_OUTPUT((ompi_coll_tuned_stream,
"coll:tuned:allgatherv_intra_do_this selected algorithm %d topo faninout %d segsize %d",
algorithm, faninout, segsize));
switch (algorithm) {
case (0):
return ompi_coll_tuned_allgatherv_intra_dec_fixed(sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
case (1):
return ompi_coll_tuned_allgatherv_intra_basic_default(sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
case (2):
return ompi_coll_tuned_allgatherv_intra_bruck(sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
case (3):
return ompi_coll_tuned_allgatherv_intra_ring(sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
case (4):
return ompi_coll_tuned_allgatherv_intra_neighborexchange(sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
case (5):
return ompi_coll_tuned_allgatherv_intra_two_procs (sbuf, scount, sdtype,
rbuf, rcounts, rdispls, rdtype,
comm, module);
default:
OPAL_OUTPUT((ompi_coll_tuned_stream,
"coll:tuned:allgatherv_intra_do_this attempt to select algorithm %d when only 0-%d is valid?",
algorithm,
ompi_coll_tuned_forced_max_algorithms[ALLGATHERV]));
return (MPI_ERR_ARG);
} /* switch */
}