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cavis/libnd4j/blas/Environment.cpp

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/*******************************************************************************
* Copyright (c) 2015-2018 Skymind, Inc.
*
* This program and the accompanying materials are made available under the
* terms of the Apache License, Version 2.0 which is available at
* https://www.apache.org/licenses/LICENSE-2.0.
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations
* under the License.
*
* SPDX-License-Identifier: Apache-2.0
******************************************************************************/
//
// Created by raver119 on 06.10.2017.
//
#include <iostream>
#include <cstdlib>
#include <stdexcept>
#include <string>
#include "Environment.h"
#include <helpers/StringUtils.h>
#include <thread>
#include <helpers/logger.h>
#ifdef _OPENMP
#include <omp.h>
#endif
#ifdef __CUDABLAS__
#include <cuda.h>
#include <cuda_runtime.h>
#include "BlasVersionHelper.h"
#endif
namespace nd4j {
nd4j::Environment::Environment() {
_tadThreshold.store(1);
_elementThreshold.store(1024);
_verbose.store(false);
_debug.store(false);
_profile.store(false);
_precBoost.store(false);
_leaks.store(false);
_dataType.store(nd4j::DataType::FLOAT32);
_maxThreads = std::thread::hardware_concurrency();
_maxMasterThreads = _maxThreads.load();
#ifndef ANDROID
const char* omp_threads = std::getenv("OMP_NUM_THREADS");
if (omp_threads != nullptr) {
try {
std::string omp(omp_threads);
int val = std::stoi(omp);
_maxThreads.store(val);
} catch (std::invalid_argument &e) {
// just do nothing
} catch (std::out_of_range &e) {
// still do nothing
}
}
/**
* Defines size of thread pool used for parallelism
*/
const char* max_threads = std::getenv("SD_MAX_THREADS");
if (max_threads != nullptr) {
try {
std::string t(max_threads);
int val = std::stoi(t);
_maxThreads.store(val);
} catch (std::invalid_argument &e) {
// just do nothing
} catch (std::out_of_range &e) {
// still do nothing
}
}
/**
* Defines max number of threads usable at once
*/
const char* max_master_threads = std::getenv("SD_MASTER_THREADS");
if (max_master_threads != nullptr) {
try {
std::string t(max_master_threads);
int val = std::stoi(t);
_maxMasterThreads.store(val);
} catch (std::invalid_argument &e) {
// just do nothing
} catch (std::out_of_range &e) {
// still do nothing
}
}
/**
* If this env var is defined - we'll disallow use of platform-specific helpers (mkldnn, cudnn, etc)
*/
const char* forbid_helpers = std::getenv("SD_FORBID_HELPERS");
if (max_master_threads != nullptr) {
_allowHelpers = false;
}
/**
* This var defines max amount of host memory library can allocate
*/
const char* max_primary_memory = std::getenv("SD_MAX_PRIMARY_BYTES");
if (max_primary_memory != nullptr) {
try {
std::string t(max_primary_memory);
auto val = std::stol(t);
_maxTotalPrimaryMemory.store(val);
} catch (std::invalid_argument &e) {
// just do nothing
} catch (std::out_of_range &e) {
// still do nothing
}
}
/**
* This var defines max amount of special (i.e. device) memory library can allocate on all devices combined
*/
const char* max_special_memory = std::getenv("SD_MAX_SPECIAL_BYTES");
if (max_special_memory != nullptr) {
try {
std::string t(max_special_memory);
auto val = std::stol(t);
_maxTotalSpecialMemory.store(val);
} catch (std::invalid_argument &e) {
// just do nothing
} catch (std::out_of_range &e) {
// still do nothing
}
}
/**
* This var defines max amount of special (i.e. device) memory library can allocate on all devices combined
*/
const char* max_device_memory = std::getenv("SD_MAX_DEVICE_BYTES");
if (max_device_memory != nullptr) {
try {
std::string t(max_device_memory);
auto val = std::stol(t);
_maxDeviceMemory.store(val);
} catch (std::invalid_argument &e) {
// just do nothing
} catch (std::out_of_range &e) {
// still do nothing
}
}
#endif
#ifdef __CUDABLAS__
int devCnt = 0;
cudaGetDeviceCount(&devCnt);
auto devProperties = new cudaDeviceProp[devCnt];
for (int i = 0; i < devCnt; i++) {
cudaSetDevice(i);
cudaGetDeviceProperties(&devProperties[i], i);
//cudaDeviceSetLimit(cudaLimitStackSize, 4096);
Pair p(devProperties[i].major, devProperties[i].minor);
_capabilities.emplace_back(p);
}
BlasVersionHelper ver;
_blasMajorVersion = ver._blasMajorVersion;
_blasMinorVersion = ver._blasMinorVersion;
_blasPatchVersion = ver._blasPatchVersion;
cudaSetDevice(0);
delete[] devProperties;
#else
#endif
}
nd4j::Environment::~Environment() {
//
}
void Environment::setMaxPrimaryMemory(uint64_t maxBytes) {
_maxTotalPrimaryMemory = maxBytes;
}
void Environment::setMaxSpecialyMemory(uint64_t maxBytes) {
_maxTotalSpecialMemory;
}
void Environment::setMaxDeviceMemory(uint64_t maxBytes) {
_maxDeviceMemory = maxBytes;
}
Environment *Environment::getInstance() {
if (_instance == 0)
_instance = new Environment();
return _instance;
}
bool Environment::isVerbose() {
return _verbose.load();
}
bool Environment::isExperimentalBuild() {
return _experimental;
}
nd4j::DataType Environment::defaultFloatDataType() {
return _dataType.load();
}
std::vector<Pair>& Environment::capabilities() {
return _capabilities;
}
void Environment::setDefaultFloatDataType(nd4j::DataType dtype) {
if (dtype != nd4j::DataType::FLOAT32 && dtype != nd4j::DataType::DOUBLE && dtype != nd4j::DataType::FLOAT8 && dtype != nd4j::DataType::HALF)
throw std::runtime_error("Default Float data type must be one of [FLOAT8, FLOAT16, FLOAT32, DOUBLE]");
_dataType.store(dtype);
}
void Environment::setVerbose(bool reallyVerbose) {
_verbose = reallyVerbose;
}
bool Environment::isDebug() {
return _debug.load();
}
bool Environment::isProfiling() {
return _profile.load();
}
bool Environment::isDetectingLeaks() {
return _leaks.load();
}
void Environment::setLeaksDetector(bool reallyDetect) {
_leaks.store(reallyDetect);
}
void Environment::setProfiling(bool reallyProfile) {
_profile.store(reallyProfile);
}
bool Environment::isDebugAndVerbose() {
return this->isDebug() && this->isVerbose();
}
void Environment::setDebug(bool reallyDebug) {
_debug = reallyDebug;
}
int Environment::tadThreshold() {
return _tadThreshold.load();
}
void Environment::setTadThreshold(int threshold) {
_tadThreshold = threshold;
}
int Environment::elementwiseThreshold() {
return _elementThreshold.load();
}
void Environment::setElementwiseThreshold(int threshold) {
_elementThreshold = threshold;
}
int Environment::maxThreads() {
return _maxThreads.load();
}
int Environment::maxMasterThreads() {
return _maxMasterThreads.load();
}
void Environment::setMaxThreads(int max) {
//_maxThreads.store(max);
}
void Environment::setMaxMasterThreads(int max) {
//_maxMasterThreads = max;
}
bool Environment::precisionBoostAllowed() {
return _precBoost.load();
}
void Environment::allowPrecisionBoost(bool reallyAllow) {
_precBoost.store(reallyAllow);
}
bool Environment::isCPU() {
#ifdef __CUDABLAS__
return false;
#else
return true;
#endif
}
int Environment::blasMajorVersion(){
return _blasMajorVersion;
}
int Environment::blasMinorVersion(){
return _blasMinorVersion;
}
int Environment::blasPatchVersion(){
return _blasPatchVersion;
}
bool Environment::helpersAllowed() {
return _allowHelpers.load();
}
void Environment::allowHelpers(bool reallyAllow) {
_allowHelpers.store(reallyAllow);
}
nd4j::Environment *nd4j::Environment::_instance = 0;
}
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