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45872d170f2ec0e2472c8ef206dfc4a67e9d2bf1
rocm-systems/test/AllReduce_Msccl.cpp
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Ziyue Yang adafc0f759 Add MSCCL Support (#658) 
* Add MSCCL support

* Add alignment and message size checking

* Fix nRanks checking, in-place and out-of-place tests and group call handling

* Fix hipGraph unit test

* Change MSCCL init warning to INFO

* Revise license info
2022-12-12 15:51:04 -08:00

160 строки
6.3 KiB
C++
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/*************************************************************************
* Copyright (c) 2022 Advanced Micro Devices, Inc. All rights reserved.
* Modifications Copyright (c) Microsoft Corporation. Licensed under the MIT License.
*
* See LICENSE.txt for license information
************************************************************************/
#include <cstdlib>
#include "TestBed.hpp"
namespace RcclUnitTesting
{
TEST(AllReduce, MscclSingleCall)
{
TestBed testBed;
// Configuration
std::vector<ncclFunc_t> const funcTypes = {ncclCollAllReduce};
std::vector<ncclDataType_t> const dataTypes = {ncclInt8, ncclInt32, ncclFloat32};
std::vector<ncclRedOp_t> const redOps = {ncclSum, ncclProd};
std::vector<int> const roots = {0};
std::vector<int> const numElements = {384 * 1024, 384};
std::vector<bool> const inPlaceList = {true, false};
std::vector<bool> const managedMemList = {true, false};
std::vector<bool> const useHipGraphList = {true, false};
testBed.RunSimpleSweep(funcTypes, dataTypes, redOps, roots, numElements, inPlaceList, managedMemList, useHipGraphList);
testBed.Finalize();
}
TEST(AllReduce, MscclGroupCall)
{
TestBed testBed;
// Configuration
ncclFunc_t const funcType = ncclCollAllReduce;
std::vector<ncclDataType_t> const& dataTypes = {ncclFloat};
std::vector<ncclRedOp_t> const& redOps = {ncclSum};
std::vector<int> const numElements = {384 * 1024, 384};
bool const inPlace = false;
bool const useManagedMem = false;
int const numCollPerGroup = numElements.size();
OptionalColArgs options;
// This tests runs 3 collectives in the same group call
bool isCorrect = true;
for (int totalRanks = testBed.ev.minGpus; totalRanks <= testBed.ev.maxGpus && isCorrect; ++totalRanks)
for (int isMultiProcess = 0; isMultiProcess <= 1 && isCorrect; ++isMultiProcess)
{
if (!(testBed.ev.processMask & (1 << isMultiProcess))) continue;
// Test either single process all GPUs, or 1 process per GPU
int const numProcesses = isMultiProcess ? totalRanks : 1;
testBed.InitComms(TestBed::GetDeviceIdsList(numProcesses, totalRanks), numCollPerGroup);
for (int redOpIdx = 0; redOpIdx < redOps.size() && isCorrect; ++redOpIdx)
{
options.redOp = redOps[redOpIdx];
for (int dataIdx = 0; dataIdx < dataTypes.size() && isCorrect; ++dataIdx)
{
if (testBed.ev.showNames)
INFO("%s %d-ranks AllReduce %d Grouped Calls (%s-%s)\n",
isMultiProcess ? "MP" : "SP",
totalRanks, numCollPerGroup,
ncclRedOpNames[redOps[redOpIdx]], ncclDataTypeNames[dataTypes[dataIdx]]);
// Run all element sizes in parallel as single group
for (int collIdx = 0; collIdx < numCollPerGroup; ++collIdx)
{
testBed.SetCollectiveArgs(funcType,
dataTypes[dataIdx],
numElements[collIdx],
numElements[collIdx],
options,
collIdx);
}
testBed.AllocateMem(inPlace, useManagedMem);
testBed.PrepareData();
testBed.ExecuteCollectives();
testBed.ValidateResults(isCorrect);
testBed.DeallocateMem();
}
}
testBed.DestroyComms();
}
testBed.Finalize();
}
TEST(AllReduce, MscclPreMultScalar)
{
TestBed testBed;
// Configuration
ncclFunc_t const funcType = ncclCollAllReduce;
std::vector<ncclDataType_t> const& dataTypes = {ncclInt32, ncclFloat32, ncclFloat64};
ncclRedOp_t const redOp = ncclSum;
std::vector<int> const numElements = {384 * 1024, 384};
bool const inPlace = false;
bool const useManagedMem = false;
OptionalColArgs options;
// Terminate the test as soon as first failure occurs
bool isCorrect = true;
for (int totalRanks = testBed.ev.minGpus; totalRanks <= testBed.ev.maxGpus && isCorrect; ++totalRanks)
for (int isMultiProcess = 0; isMultiProcess <= 1; ++isMultiProcess)
{
if (!(testBed.ev.processMask & (1 << isMultiProcess))) continue;
int const numProcesses = isMultiProcess ? totalRanks : 1;
testBed.InitComms(TestBed::GetDeviceIdsList(numProcesses, totalRanks));
for (int dataIdx = 0; dataIdx < dataTypes.size() && isCorrect; ++dataIdx)
{
ncclDataType_t const dataType = dataTypes[dataIdx];
// Set scalars per rank
PtrUnion scalarsPerRank;
scalarsPerRank.AllocateCpuMem(totalRanks * DataTypeToBytes(dataType));
for (int i = 0; i < totalRanks; i++)
{
double F = i;
scalarsPerRank.Set(dataType, i, i, F);
}
int const numBytes = totalRanks * DataTypeToBytes(dataType);
memcpy(options.scalarTransport.ptr, scalarsPerRank.ptr, numBytes);
// Test various scalar residence modes
for (int scalarMode = 0; scalarMode <= 1 && isCorrect; ++scalarMode)
{
if (testBed.ev.showNames)
INFO("%s %d-ranks AllReduce (custom-scalar Mode %d %s)\n",
isMultiProcess ? "MP" : "SP",
totalRanks, scalarMode, ncclDataTypeNames[dataType]);
for (int i = 0; i < numElements.size() && isCorrect; ++i)
{
options.scalarMode = scalarMode;
options.redOp = redOp;
testBed.SetCollectiveArgs(funcType, dataType,
numElements[i], numElements[i],
options);
// For performance, only allocate and prepare data on largest size
if (i == 0)
{
testBed.AllocateMem(inPlace, useManagedMem);
testBed.PrepareData();
}
testBed.ExecuteCollectives();
testBed.ValidateResults(isCorrect);
}
testBed.DeallocateMem();
}
}
testBed.DestroyComms();
}
testBed.Finalize();
}
}
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