/* ****************************************************************************** * * * 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. * * See the NOTICE file distributed with this work for additional * information regarding copyright ownership. * 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 ******************************************************************************/ // // @author raver119@gmail.com // #include #include #include #include //#include #include namespace sd { void RandomLauncher::applyDropOut(sd::LaunchContext *context, sd::graph::RandomGenerator& rng, NDArray *array, double retainProb, NDArray* z) { if (z == nullptr) z = array; ExtraArguments arguments({retainProb}); PointersManager pm(context, "applyDropOut"); NDArray::prepareSpecialUse({z}, {array}); NativeOpExecutioner::execRandom(context, random::DropOut, &rng, array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), z->buffer(), z->shapeInfo(), z->specialBuffer(), z->specialShapeInfo(), arguments.argumentsAsT(z->dataType())); pm.synchronize(); NDArray::registerSpecialUse({z}, {array}); } void RandomLauncher::applyInvertedDropOut(sd::LaunchContext *context, sd::graph::RandomGenerator& rng, NDArray *array, double retainProb, NDArray* z) { if (z == nullptr) z = array; ExtraArguments arguments({retainProb}); PointersManager pm(context, "applyInvertedDropOut"); NDArray::prepareSpecialUse({z}, {array}); NativeOpExecutioner::execRandom(context, random::DropOutInverted, &rng, array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), z->buffer(), z->shapeInfo(), z->specialBuffer(), z->specialShapeInfo(), arguments.argumentsAsT(z->dataType())); pm.synchronize(); NDArray::registerSpecialUse({z}, {array}); } void RandomLauncher::applyAlphaDropOut(sd::LaunchContext *context, sd::graph::RandomGenerator& rng, NDArray *array, double retainProb, double alpha, double beta, double alphaPrime, NDArray* z) { if (z == nullptr) z = array; ExtraArguments arguments({retainProb, alpha, beta, alphaPrime}); PointersManager pm(context, "applyAlphaDropOut"); NDArray::prepareSpecialUse({z}, {array}); NativeOpExecutioner::execRandom(context, random::AlphaDropOut, &rng, array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), z->buffer(), z->shapeInfo(), z->specialBuffer(), z->specialShapeInfo(), arguments.argumentsAsT(z->dataType())); pm.synchronize(); NDArray::registerSpecialUse({z}, {array}); } void RandomLauncher::fillBernoulli(sd::LaunchContext *context, sd::graph::RandomGenerator& rng, NDArray* array, double prob) { ExtraArguments arguments({prob}); PointersManager pm(context, "fillBernoulli"); NDArray::prepareSpecialUse({array}, {}); NativeOpExecutioner::execRandom(context, random::BernoulliDistribution, &rng, array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), arguments.argumentsAsT(array->dataType())); pm.synchronize(); NDArray::registerSpecialUse({array}, {}); } void RandomLauncher::fillUniform(sd::LaunchContext *context, sd::graph::RandomGenerator& rng, NDArray* array, double from, double to) { ExtraArguments arguments({from, to}); PointersManager pm(context, "fillUniform"); NDArray::prepareSpecialUse({array}, {}); NativeOpExecutioner::execRandom(context, random::UniformDistribution, &rng, array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), arguments.argumentsAsT(array->dataType())); pm.synchronize(); NDArray::registerSpecialUse({array}, {}); } void RandomLauncher::fillGaussian(sd::LaunchContext *context, sd::graph::RandomGenerator& rng, NDArray* array, double mean, double stdev) { ExtraArguments arguments({mean, stdev}); PointersManager pm(context, "fillGaussian"); NDArray::prepareSpecialUse({array}, {}); NativeOpExecutioner::execRandom(context, random::GaussianDistribution, &rng, array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), arguments.argumentsAsT(array->dataType())); pm.synchronize(); NDArray::registerSpecialUse({array}, {}); } void RandomLauncher::fillExponential(sd::LaunchContext *context, sd::graph::RandomGenerator& rng, NDArray* array, double lambda) { ExtraArguments arguments({lambda}); PointersManager pm(context, "fillExponential"); NDArray::prepareSpecialUse({array}, {}); NativeOpExecutioner::execRandom(context, random::ExponentialDistribution, &rng, array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), arguments.argumentsAsT(array->dataType())); pm.synchronize(); NDArray::registerSpecialUse({array}, {}); } void RandomLauncher::fillLogNormal(sd::LaunchContext *context, sd::graph::RandomGenerator& rng, NDArray* array, double mean, double stdev) { ExtraArguments arguments({mean, stdev}); PointersManager pm(context, "fillLogNormal"); NDArray::prepareSpecialUse({array}, {}); NativeOpExecutioner::execRandom(context, random::GaussianDistribution, &rng, array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), arguments.argumentsAsT(array->dataType())); pm.synchronize(); NDArray::registerSpecialUse({array}, {}); } void RandomLauncher::fillTruncatedNormal(sd::LaunchContext *context, sd::graph::RandomGenerator& rng, NDArray* array, double mean, double stdev) { ExtraArguments arguments({mean, stdev}); PointersManager pm(context, "fillTruncatedNormal"); NDArray::prepareSpecialUse({array}, {}); NativeOpExecutioner::execRandom(context, random::TruncatedNormalDistribution, &rng, array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), arguments.argumentsAsT(array->dataType())); pm.synchronize(); NDArray::registerSpecialUse({array}, {}); } void RandomLauncher::fillBinomial(sd::LaunchContext *context, sd::graph::RandomGenerator& rng, NDArray* array, int trials, double prob) { ExtraArguments arguments({(double) trials, prob}); PointersManager pm(context, "fillBinomial"); NDArray::prepareSpecialUse({array}, {}); NativeOpExecutioner::execRandom(context, random::BinomialDistributionEx, &rng, array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), array->buffer(), array->shapeInfo(), array->specialBuffer(), array->specialShapeInfo(), arguments.argumentsAsT(array->dataType())); pm.synchronize(); NDArray::registerSpecialUse({array}, {}); } }