138 lines
6.8 KiB
Plaintext
138 lines
6.8 KiB
Plaintext
/*******************************************************************************
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* Copyright (c) 2019 Konduit K.K.
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*
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* This program and the accompanying materials are made available under the
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* terms of the Apache License, Version 2.0 which is available at
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* https://www.apache.org/licenses/LICENSE-2.0.
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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* License for the specific language governing permissions and limitations
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* under the License.
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*
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* SPDX-License-Identifier: Apache-2.0
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******************************************************************************/
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//
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// @author Oleh Semeniv (oleg.semeniv@gmail.com)
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//
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#include <system/op_boilerplate.h>
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#include <ops/declarable/helpers/updatersHelpers.h>
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#include <helpers/PointersManager.h>
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#include <math/platformmath.h>
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#include <math/templatemath.h>
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namespace sd {
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namespace ops {
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namespace helpers {
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///////////////////////////////////////////////////////////////////
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template<typename T>
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__global__ void nadamUpdaterCuda(const void* vx, const Nd4jLong* xShapeInfo, const void* vinv, const Nd4jLong* invShapeInfo,
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const void* vinm, const Nd4jLong* inmShapeInfo, void* vz, const Nd4jLong* zShapeInfo,
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void* vstV, const Nd4jLong* stvShapeInfo, void* vstM, const Nd4jLong* stmShapeInfo,
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const T lr, const T beta1, const T beta2, const T epsilon, const T iteration) {
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const auto grad = reinterpret_cast<const T*>(vx);
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const auto initV = reinterpret_cast<const T*>(vinv);
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const auto initM = reinterpret_cast<const T*>(vinm);
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auto up = reinterpret_cast<T*>(vz);
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auto stV = reinterpret_cast<T*>(vstV);
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auto stM = reinterpret_cast<T*>(vstM);
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__shared__ Nd4jLong xLen;
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__shared__ T mbeta1T, mbeta1, mbeta2;
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__shared__ bool bEWS, bOrdering, bXZsame, bXInUSame, bXStUSame, bXInMSame, bXStMSame;
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if (threadIdx.x == 0) {
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xLen = shape::length(xShapeInfo);
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mbeta1T = 1.0 - sd::math::nd4j_pow<T, T, T>(beta1, (iteration + 1));
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mbeta1 = (1 - beta1);
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mbeta2 = (1 - beta2);
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bEWS = 1 == shape::elementWiseStride(xShapeInfo) && 1 == shape::elementWiseStride(zShapeInfo) &&
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1 == shape::elementWiseStride(stmShapeInfo) && 1 == shape::elementWiseStride(inmShapeInfo) &&
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1 == shape::elementWiseStride(stvShapeInfo) && 1 == shape::elementWiseStride(invShapeInfo);
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bOrdering = shape::order(xShapeInfo) == shape::order(zShapeInfo) && shape::order(zShapeInfo) == shape::order(stmShapeInfo) &&
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shape::order(stmShapeInfo) == shape::order(inmShapeInfo) && shape::order(inmShapeInfo) == shape::order(stvShapeInfo) &&
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shape::order(stvShapeInfo) == shape::order(invShapeInfo);
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bXZsame = shape::haveSameShapeAndStrides(xShapeInfo, zShapeInfo);
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bXInUSame = shape::haveSameShapeAndStrides(xShapeInfo, invShapeInfo);
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bXStUSame = shape::haveSameShapeAndStrides(xShapeInfo, stvShapeInfo);
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bXInMSame = shape::haveSameShapeAndStrides(xShapeInfo, inmShapeInfo);
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bXStMSame = shape::haveSameShapeAndStrides(xShapeInfo, stmShapeInfo);
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}
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__syncthreads();
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int coords[MAX_RANK];
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for (Nd4jLong i = blockIdx.x * blockDim.x + threadIdx.x; i < xLen; i += gridDim.x * blockDim.x) {
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auto xOffset = i, zOffset = i, initMOffset = i, initUOffset = i, stMOffset = i, stUOffset = i;
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if (!bEWS || !bOrdering){
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shape::index2coords(i, xShapeInfo, coords);
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xOffset = shape::getOffset(xShapeInfo, coords);
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zOffset = bXZsame ? xOffset : shape::getOffset(zShapeInfo, coords);
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initUOffset = bXInUSame ? xOffset : shape::getOffset(invShapeInfo, coords);
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stUOffset = bXStUSame ? xOffset : shape::getOffset(stvShapeInfo, coords);
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initMOffset = bXInMSame ? xOffset : shape::getOffset(inmShapeInfo, coords);
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stMOffset = bXStMSame ? xOffset : shape::getOffset(stmShapeInfo, coords);
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}
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auto oneMinusBeta1Grad = grad[xOffset] * mbeta1;
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stM[stMOffset] = beta1 * initM[initMOffset] + oneMinusBeta1Grad;
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stV[stUOffset] = beta2 * initV[initUOffset] + grad[xOffset] * grad[xOffset] * mbeta2;
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up[zOffset] = (lr * ((stM[stMOffset] * beta1 + oneMinusBeta1Grad) / mbeta1T)) / (sd::math::nd4j_sqrt<T, T>(stV[stUOffset]) + epsilon);
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}
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}
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///////////////////////////////////////////////////////////////////
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template<typename T>
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linkage void nadamUpdaterCudaLauncher(const int blocksPerGrid, const int threadsPerBlock, const cudaStream_t* stream, const void* vx, const Nd4jLong* xShapeInfo,
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const void* vinv, const Nd4jLong* invShapeInfo, const void* vinm, const Nd4jLong* inmShapeInfo,
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void* vz, const Nd4jLong* zShapeInfo, void* vstV, const Nd4jLong* stvShapeInfo, void* vstM,
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const Nd4jLong* stmShapeInfo, const double dLr, const double dBeta1, const double dBeta2, const double dEpsilon, const int nIteration) {
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const T lr = static_cast<T>(dLr);
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const T beta1 = static_cast<T>(dBeta1);
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const T beta2 = static_cast<T>(dBeta2);
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const T epsilon = static_cast<T>(dEpsilon);
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const T iteration = static_cast<T>(nIteration);
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nadamUpdaterCuda<T><<<blocksPerGrid, threadsPerBlock, 256, * stream>>>(vx, xShapeInfo, vinv, invShapeInfo, vinm, inmShapeInfo,
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vz, zShapeInfo, vstV, stvShapeInfo, vstM, stmShapeInfo, lr, beta1, beta2, epsilon, iteration);
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}
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///////////////////////////////////////////////////////////////////
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void updaterNadam(sd::LaunchContext* context, const NDArray& gradient, const NDArray& initStateV, const NDArray& initStateM,
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NDArray& update, NDArray& stateV, NDArray& stateM, const double dLr, const double dBeta1, const double dBeta2, const double dEpsilon, const int nIteration) {
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PointersManager manager(context, "nadamUpdater");
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const int threadsPerBlock = MAX_NUM_THREADS / 4;
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const int blocksPerGrid = (gradient.lengthOf() + threadsPerBlock - 1) / threadsPerBlock;
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NDArray::prepareSpecialUse({ &update, &stateV, &stateM }, { &gradient, &initStateV, &initStateM });
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BUILD_SINGLE_SELECTOR(gradient.dataType(), nadamUpdaterCudaLauncher, (blocksPerGrid, threadsPerBlock, context->getCudaStream(), gradient.specialBuffer(), gradient.specialShapeInfo(),
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initStateV.specialBuffer(), initStateV.specialShapeInfo(), initStateM.specialBuffer(), initStateM.specialShapeInfo(),
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update.specialBuffer(), update.specialShapeInfo(), stateV.specialBuffer(), stateV.specialShapeInfo(),
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stateM.specialBuffer(), stateM.specialShapeInfo(), dLr, dBeta1, dBeta2, dEpsilon, nIteration), FLOAT_TYPES);
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NDArray::registerSpecialUse({ &update, &stateV, &stateM }, { &gradient, &initStateV, &initStateM });
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manager.synchronize();
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}
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}
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}
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}
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