/* * SPDX-FileCopyrightText: Copyright (c) 1993-2026 NVIDIA CORPORATION & AFFILIATES. All rights reserved. * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://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. */ #include #include #include #include #include #include #include "NvInfer.h" #include "common/serialize.hpp" #include "embLayerNormVarSeqlenPluginLegacy.h" using namespace nvinfer1; using namespace nvinfer1::plugin; using namespace nvinfer1::plugin::bert; namespace { using namespace std::string_view_literals; constexpr char const* kEMB_LAYER_NORM_VAR_SEQLEN_VERSION_HFACE{"2"}; constexpr char const* kEMB_LAYER_NORM_VAR_SEQLEN_VERSION_MTRON{"3"}; constexpr char const* kEMB_LAYER_NORM_VAR_SEQLEN_NAME{"CustomEmbLayerNormPluginDynamic"}; } // namespace REGISTER_TENSORRT_PLUGIN(EmbLayerNormVarSeqlenPluginLegacyHFaceCreator); REGISTER_TENSORRT_PLUGIN(EmbLayerNormVarSeqlenPluginLegacyMTronCreator); EmbLayerNormVarSeqlenPluginLegacyBase::EmbLayerNormVarSeqlenPluginLegacyBase(std::string const& name, DataType type, Weights const& beta, Weights const& gamma, Weights const& wordEmb, Weights const& posEmb, Weights const& tokEmb, DataType maskType) : mLayerName(name) , mLd(beta.count) , mType(type) , mMaskType(maskType) { // Assuming Weights.count is the number of elements and not bytes PLUGIN_VALIDATE(beta.count == gamma.count); PLUGIN_VALIDATE(mLd > 0U); PLUGIN_VALIDATE(wordEmb.count % mLd == 0); PLUGIN_VALIDATE(posEmb.count % mLd == 0); PLUGIN_VALIDATE(tokEmb.count % mLd == 0); mWordVocabSize = wordEmb.count / mLd; mPosVocabSize = posEmb.count / mLd; mTokVocabSize = tokEmb.count / mLd; mBeta.convertAndCopy(beta, nvinfer1::DataType::kFLOAT); mGamma.convertAndCopy(gamma, nvinfer1::DataType::kFLOAT); mWordEmb.convertAndCopy(wordEmb, mType); mTokEmb.convertAndCopy(tokEmb, mType); mPosEmb.convertAndCopy(posEmb, mType); copyToDevice(mGamma, sizeof(float) * mGamma.count, mGammaDev); copyToDevice(mBeta, sizeof(float) * mBeta.count, mBetaDev); copyToDevice(mWordEmb, getWeightsSize(mWordEmb, mType), mWordEmbDev); copyToDevice(mPosEmb, getWeightsSize(mPosEmb, mType), mPosEmbDev); copyToDevice(mTokEmb, getWeightsSize(mTokEmb, mType), mTokEmbDev); } EmbLayerNormVarSeqlenPluginLegacyBase::EmbLayerNormVarSeqlenPluginLegacyBase( std::string const& name, void const* data, size_t length) : mLayerName(name) , mGammaDev(nullptr) , mBetaDev(nullptr) , mWordEmbDev(nullptr) , mTokEmbDev(nullptr) , mPosEmbDev(nullptr) { // Deserialize in the same order as serialization deserialize_value(&data, &length, &mType); deserialize_value(&data, &length, &mLd); deserialize_value(&data, &length, &mWordVocabSize); deserialize_value(&data, &length, &mPosVocabSize); deserialize_value(&data, &length, &mTokVocabSize); deserialize_value(&data, &length, &mMaskType); char const* d = static_cast(data); mBeta.convertAndCopy(d, mLd, nvinfer1::DataType::kFLOAT); mGamma.convertAndCopy(d, mLd, nvinfer1::DataType::kFLOAT); mWordEmb.convertAndCopy(d, mLd * mWordVocabSize, mType); mPosEmb.convertAndCopy(d, mLd * mPosVocabSize, mType); mTokEmb.convertAndCopy(d, mLd * mTokVocabSize, mType); copyToDevice(mGamma, sizeof(float) * mGamma.count, mGammaDev); copyToDevice(mBeta, sizeof(float) * mBeta.count, mBetaDev); copyToDevice(mWordEmb, getWeightsSize(mWordEmb, mType), mWordEmbDev); copyToDevice(mPosEmb, getWeightsSize(mPosEmb, mType), mPosEmbDev); copyToDevice(mTokEmb, getWeightsSize(mTokEmb, mType), mTokEmbDev); } EmbLayerNormVarSeqlenPluginLegacyHFace::EmbLayerNormVarSeqlenPluginLegacyHFace(std::string const& name, DataType const type, Weights const& beta, Weights const& gamma, Weights const& wordEmb, Weights const& posEmb, Weights const& tokEmb) : EmbLayerNormVarSeqlenPluginLegacyBase(name, type, beta, gamma, wordEmb, posEmb, tokEmb, DataType::kINT32) { } EmbLayerNormVarSeqlenPluginLegacyHFace::EmbLayerNormVarSeqlenPluginLegacyHFace( std::string const& name, void const* data, size_t length) : EmbLayerNormVarSeqlenPluginLegacyBase(name, data, length) { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyHFace deserialize"); } EmbLayerNormVarSeqlenPluginLegacyMTron::EmbLayerNormVarSeqlenPluginLegacyMTron(std::string const& name, DataType const type, Weights const& beta, Weights const& gamma, Weights const& wordEmb, Weights const& posEmb, Weights const& tokEmb) : EmbLayerNormVarSeqlenPluginLegacyBase(name, type, beta, gamma, wordEmb, posEmb, tokEmb, type) { } EmbLayerNormVarSeqlenPluginLegacyMTron::EmbLayerNormVarSeqlenPluginLegacyMTron( std::string const& name, void const* data, size_t length) : EmbLayerNormVarSeqlenPluginLegacyBase(name, data, length) { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyMTron deserialize"); } // IPluginV2DynamicExt Methods IPluginV2DynamicExt* EmbLayerNormVarSeqlenPluginLegacyHFace::clone() const noexcept { try { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyHFace clone"); auto p = std::make_unique( mLayerName, mType, mBeta, mGamma, mWordEmb, mPosEmb, mTokEmb); p->setPluginNamespace(mNamespace.c_str()); return p.release(); } catch (std::exception const& e) { caughtError(e); } return nullptr; } IPluginV2DynamicExt* EmbLayerNormVarSeqlenPluginLegacyMTron::clone() const noexcept { try { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyMTron clone"); auto p = std::make_unique( mLayerName, mType, mBeta, mGamma, mWordEmb, mPosEmb, mTokEmb); p->setPluginNamespace(mNamespace.c_str()); return p.release(); } catch (std::exception const& e) { caughtError(e); } return nullptr; } DimsExprs EmbLayerNormVarSeqlenPluginLegacyHFace::getOutputDimensions( int32_t outputIndex, DimsExprs const* inputs, int32_t nbInputs, IExprBuilder& exprBuilder) noexcept { // Input should be input ids and token ids and cumulative seqlens // Output should be the embeddings tensor and mask indices PLUGIN_ASSERT(nbInputs == 4); PLUGIN_ASSERT(inputs[0].nbDims == 1); // sum of all s PLUGIN_ASSERT(inputs[0].nbDims == inputs[1].nbDims); PLUGIN_ASSERT(inputs[2].nbDims == 1); // B+1 PLUGIN_ASSERT(outputIndex == 0 || outputIndex == 1); if (outputIndex == 0) { DimsExprs ret; ret.nbDims = 4; ret.d[0] = inputs[0].d[0]; ret.d[1] = exprBuilder.constant(mLd); ret.d[2] = exprBuilder.constant(1); ret.d[3] = exprBuilder.constant(1); return ret; } // Return empty tensor since this is dummy output, we do not delete it for backward compatibility. DimsExprs ret{}; ret.nbDims = 0; return ret; } DimsExprs EmbLayerNormVarSeqlenPluginLegacyMTron::getOutputDimensions( int32_t outputIndex, DimsExprs const* inputs, int32_t nbInputs, IExprBuilder& exprBuilder) noexcept { // Input should be input ids and token ids and cumulative seqlens // Output should be the embeddings tensor and mask indices PLUGIN_ASSERT(nbInputs == 4); PLUGIN_ASSERT(inputs[0].nbDims == 1); // sum of all s PLUGIN_ASSERT(inputs[0].nbDims == inputs[1].nbDims); PLUGIN_ASSERT(inputs[2].nbDims == 1); // B+1 PLUGIN_ASSERT(outputIndex == 0 || outputIndex == 1); DimsExprs ret; ret.nbDims = 4; ret.d[0] = inputs[0].d[0]; ret.d[1] = exprBuilder.constant(mLd); ret.d[2] = exprBuilder.constant(1); ret.d[3] = exprBuilder.constant(1); return ret; } bool EmbLayerNormVarSeqlenPluginLegacyBase::supportsFormatCombination( int32_t pos, PluginTensorDesc const* inOut, int32_t nbInputs, int32_t nbOutputs) noexcept { // The four inputs to this plugin input_ids, segment_ids, cu_seqlens and a dummy input with the // size of the max seq length in that order PLUGIN_ASSERT(nbInputs == 4); // The two outputs of the plugin are embedding and the mask PLUGIN_ASSERT(nbOutputs == 2); PluginTensorDesc const& desc = inOut[pos]; if (desc.format != TensorFormat::kLINEAR) { return false; } if (pos == 0 || pos == 2) // input_ids and cu_seqlens { return desc.type == DataType::kINT32 && desc.dims.nbDims == 1; } PluginTensorDesc const& prev = inOut[pos - 1]; if (pos == 1) // segment ids: check it's the same as input_ids { return desc.type == DataType::kINT32 && desc.dims.nbDims == 1 && desc.dims.d[0] == prev.dims.d[0]; } if (pos == 3) { return desc.dims.nbDims == 1; } // embedded sequence if (pos == nbInputs) { return desc.type == mType && desc.dims.nbDims == 4 && desc.dims.d[0] == inOut[0].dims.d[0] && desc.dims.d[2] == 1 && desc.dims.d[3] == 1; } // mask return desc.type == mMaskType; } void checkConfigurationInputs(DynamicPluginTensorDesc const* inputs, int32_t nbInputs, DynamicPluginTensorDesc const* outputs, int32_t nbOutputs) noexcept { // Validate input arguments PLUGIN_ASSERT(nbInputs == 4); PLUGIN_ASSERT(nbOutputs == 2); PLUGIN_ASSERT(inputs[0].desc.dims.nbDims == 1); PLUGIN_ASSERT(inputs[1].desc.dims.nbDims == 1); PLUGIN_ASSERT(inputs[1].desc.dims.d[0] == inputs[0].desc.dims.d[0]); PLUGIN_ASSERT(inputs[2].desc.dims.nbDims == 1); PLUGIN_ASSERT(outputs[0].desc.dims.nbDims == 4); PLUGIN_ASSERT(static_cast(outputs[0].desc.dims.d[0]) == static_cast(inputs[0].desc.dims.d[0])); PLUGIN_ASSERT(outputs[0].desc.dims.d[2] == 1); PLUGIN_ASSERT(outputs[0].desc.dims.d[3] == 1); PLUGIN_ASSERT(inputs[0].desc.type == DataType::kINT32); PLUGIN_ASSERT(inputs[1].desc.type == DataType::kINT32); PLUGIN_ASSERT(inputs[2].desc.type == DataType::kINT32); } void EmbLayerNormVarSeqlenPluginLegacyHFace::configurePlugin(DynamicPluginTensorDesc const* inputs, int32_t nbInputs, DynamicPluginTensorDesc const* outputs, int32_t nbOutputs) noexcept { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyHFace configurePlugin"); checkConfigurationInputs(inputs, nbInputs, outputs, nbOutputs); PLUGIN_ASSERT(static_cast(outputs[0].desc.dims.d[1]) == static_cast(mLd)); // check mask PLUGIN_ASSERT(outputs[1].desc.dims.nbDims == 0); PLUGIN_ASSERT(outputs[0].desc.type == mType); PLUGIN_ASSERT(outputs[1].desc.type == mMaskType); } void EmbLayerNormVarSeqlenPluginLegacyMTron::configurePlugin(DynamicPluginTensorDesc const* inputs, int32_t nbInputs, DynamicPluginTensorDesc const* outputs, int32_t nbOutputs) noexcept { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyMTron configurePlugin"); checkConfigurationInputs(inputs, nbInputs, outputs, nbOutputs); PLUGIN_ASSERT(static_cast(outputs[0].desc.dims.d[1]) == static_cast(mLd)); PLUGIN_ASSERT(outputs[1].desc.dims.nbDims == 4); PLUGIN_ASSERT(static_cast(outputs[1].desc.dims.d[0]) == static_cast(inputs[0].desc.dims.d[0])); PLUGIN_ASSERT(static_cast(outputs[1].desc.dims.d[1]) == static_cast(mLd)); PLUGIN_ASSERT(outputs[1].desc.dims.d[2] == 1); PLUGIN_ASSERT(outputs[1].desc.dims.d[3] == 1); PLUGIN_ASSERT(outputs[0].desc.type == mType); PLUGIN_ASSERT(outputs[1].desc.type == mMaskType); } size_t EmbLayerNormVarSeqlenPluginLegacyBase::getWorkspaceSize( PluginTensorDesc const* inputs, int32_t nbInputs, PluginTensorDesc const* outputs, int32_t nbOutputs) const noexcept { return 0; } int32_t EmbLayerNormVarSeqlenPluginLegacyHFace::enqueue(PluginTensorDesc const* inputDesc, PluginTensorDesc const* /* outputDesc */, void const* const* inputs, void* const* outputs, void* /* workspace */, cudaStream_t stream) noexcept { try { PLUGIN_VALIDATE(inputDesc != nullptr && inputs != nullptr && outputs != nullptr); int32_t const batchSize = inputDesc[2].dims.d[0] - 1; // read out the maximum sequence length from the dummy input int32_t const maxSeqlen = inputDesc[3].dims.d[0]; // There are four versions of the kernel which are optimized for sequence lengths 384, 256, 192 and 128. // Find the closest sequence length bigger than the max seq length in this batch. int32_t S = 384; if (maxSeqlen <= 128) { S = 128; } else if (maxSeqlen <= 192) { S = 192; } else if (maxSeqlen <= 256) { S = 256; } // Our plugin outputs only one tensor auto const inputIds = static_cast(inputs[0]); auto const segmentIds = static_cast(inputs[1]); int32_t const* cuSeqlens = static_cast(inputs[2]); float const* beta = mBetaDev.get(); float const* gamma = mGammaDev.get(); if (mType == DataType::kFLOAT) { auto output = static_cast(outputs[0]); auto const wordEmb = static_cast(mWordEmbDev.get()); auto const tokEmb = static_cast(mTokEmbDev.get()); auto const posEmb = static_cast(mPosEmbDev.get()); return embSkipLayerNormHFace(stream, static_cast(mLd), batchSize, S, inputIds, segmentIds, cuSeqlens, beta, gamma, wordEmb, posEmb, tokEmb, mWordVocabSize, mTokVocabSize, output); } if (mType == DataType::kHALF) { auto output = static_cast(outputs[0]); auto const wordEmb = static_cast(mWordEmbDev.get()); auto const tokEmb = static_cast(mTokEmbDev.get()); auto const posEmb = static_cast(mPosEmbDev.get()); return embSkipLayerNormHFace(stream, static_cast(mLd), batchSize, S, inputIds, segmentIds, cuSeqlens, beta, gamma, wordEmb, posEmb, tokEmb, mWordVocabSize, mTokVocabSize, output); } else { gLogError << "Unsupported type error, expected [kHALF,kFLOAT], but received " << static_cast(mType) << std::endl; return STATUS_NOT_SUPPORTED; } return STATUS_SUCCESS; } catch (std::exception const& e) { caughtError(e); } return STATUS_FAILURE; } int32_t EmbLayerNormVarSeqlenPluginLegacyMTron::enqueue(PluginTensorDesc const* inputDesc, PluginTensorDesc const* /* outputDesc */, void const* const* inputs, void* const* outputs, void* /* workspace */, cudaStream_t stream) noexcept { try { PLUGIN_VALIDATE(inputDesc != nullptr && inputs != nullptr && outputs != nullptr); int32_t const batchSize = inputDesc[2].dims.d[0] - 1; // read out the maximum sequence length from the dummy input int32_t const maxSeqlen = inputDesc[3].dims.d[0]; // There are four versions of the kernel which are optimized for sequence lengths 384, 256, 192 and 128. // Find the closest sequence length bigger than the max seq length in this batch. int32_t S = 384; if (maxSeqlen <= 128) { S = 128; } else if (maxSeqlen <= 192) { S = 192; } else if (maxSeqlen <= 256) { S = 256; } // Our plugin outputs only one tensor auto const inputIds = static_cast(inputs[0]); auto const segmentIds = static_cast(inputs[1]); int32_t const* cuSeqlens = static_cast(inputs[2]); float const* beta = mBetaDev.get(); float const* gamma = mGammaDev.get(); if (mType == DataType::kFLOAT) { auto output = static_cast(outputs[0]); auto skip = static_cast(outputs[1]); auto const wordEmb = static_cast(mWordEmbDev.get()); auto const tokEmb = static_cast(mTokEmbDev.get()); auto const posEmb = static_cast(mPosEmbDev.get()); return embSkipLayerNormMTron(stream, static_cast(mLd), batchSize, S, inputIds, segmentIds, cuSeqlens, beta, gamma, wordEmb, posEmb, tokEmb, mWordVocabSize, mTokVocabSize, output, skip); } if (mType == DataType::kHALF) { auto output = static_cast(outputs[0]); auto skip = static_cast(outputs[1]); auto const wordEmb = static_cast(mWordEmbDev.get()); auto const tokEmb = static_cast(mTokEmbDev.get()); auto const posEmb = static_cast(mPosEmbDev.get()); return embSkipLayerNormMTron(stream, static_cast(mLd), batchSize, S, inputIds, segmentIds, cuSeqlens, beta, gamma, wordEmb, posEmb, tokEmb, mWordVocabSize, mTokVocabSize, output, skip); } else { gLogError << "Unsupported type error, expected [kHALF,kFLOAT], but received " << static_cast(mType) << std::endl; return STATUS_NOT_SUPPORTED; } return STATUS_SUCCESS; } catch (std::exception const& e) { caughtError(e); } return STATUS_FAILURE; } // IPluginV2Ext Methods DataType EmbLayerNormVarSeqlenPluginLegacyBase::getOutputDataType( int32_t index, DataType const* inputTypes, int32_t nbInputs) const noexcept { PLUGIN_ASSERT(index == 0 || index == 1); PLUGIN_ASSERT(mType == DataType::kHALF || mType == DataType::kFLOAT); return index == 0 ? mType : mMaskType; } // IPluginV2 Methods char const* EmbLayerNormVarSeqlenPluginLegacyBase::getPluginType() const noexcept { return kEMB_LAYER_NORM_VAR_SEQLEN_NAME; } char const* EmbLayerNormVarSeqlenPluginLegacyHFace::getPluginVersion() const noexcept { return kEMB_LAYER_NORM_VAR_SEQLEN_VERSION_HFACE; } char const* EmbLayerNormVarSeqlenPluginLegacyMTron::getPluginVersion() const noexcept { return kEMB_LAYER_NORM_VAR_SEQLEN_VERSION_MTRON; } int32_t EmbLayerNormVarSeqlenPluginLegacyBase::getNbOutputs() const noexcept { return 2; } int32_t EmbLayerNormVarSeqlenPluginLegacyHFace::initialize() noexcept { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyHFace initialize"); return 0; } int32_t EmbLayerNormVarSeqlenPluginLegacyMTron::initialize() noexcept { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyMTron initialize"); return 0; } void EmbLayerNormVarSeqlenPluginLegacyHFace::terminate() noexcept { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyHFace terminate"); } void EmbLayerNormVarSeqlenPluginLegacyMTron::terminate() noexcept { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyMTron terminate"); } size_t EmbLayerNormVarSeqlenPluginLegacyBase::getSerializationSize() const noexcept { size_t const wordSize = getElementSize(mType); return 2 * sizeof(float) * mLd // beta + gamma + sizeof(mType) // + sizeof(mLd) // + sizeof(mWordVocabSize) // + sizeof(mPosVocabSize) // + sizeof(mTokVocabSize) // + wordSize * mLd * mWordVocabSize // word emb + wordSize * mLd * mPosVocabSize // pos emb + wordSize * mLd * mTokVocabSize // tok emb + sizeof(mMaskType) // mask type ; } void EmbLayerNormVarSeqlenPluginLegacyBase::serialize(void* buffer) const noexcept { serialize_value(&buffer, mType); serialize_value(&buffer, mLd); serialize_value(&buffer, mWordVocabSize); serialize_value(&buffer, mPosVocabSize); serialize_value(&buffer, mTokVocabSize); serialize_value(&buffer, mMaskType); char* d = static_cast(buffer); size_t const wordSize = getElementSize(mType); serFromDev(d, mBetaDev.get(), mLd); serFromDev(d, mGammaDev.get(), mLd); serFromDev(d, static_cast(mWordEmbDev.get()), mLd * mWordVocabSize * wordSize); serFromDev(d, static_cast(mPosEmbDev.get()), mLd * mPosVocabSize * wordSize); serFromDev(d, static_cast(mTokEmbDev.get()), mLd * mTokVocabSize * wordSize); } void EmbLayerNormVarSeqlenPluginLegacyBase::destroy() noexcept { // This gets called when the network containing plugin is destroyed mGammaDev.reset(nullptr); mBetaDev.reset(nullptr); mWordEmbDev.reset(nullptr); mPosEmbDev.reset(nullptr); mTokEmbDev.reset(nullptr); delete this; } void EmbLayerNormVarSeqlenPluginLegacyHFace::destroy() noexcept { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyHFace destroy"); EmbLayerNormVarSeqlenPluginLegacyBase::destroy(); } void EmbLayerNormVarSeqlenPluginLegacyMTron::destroy() noexcept { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenPluginLegacyMTron destroy"); EmbLayerNormVarSeqlenPluginLegacyBase::destroy(); } void EmbLayerNormVarSeqlenPluginLegacyBase::setPluginNamespace(char const* libNamespace) noexcept { try { mNamespace = libNamespace; } catch (std::exception const& e) { caughtError(e); } } char const* EmbLayerNormVarSeqlenPluginLegacyBase::getPluginNamespace() const noexcept { return mNamespace.c_str(); } /////////////////////// EmbLayerNormVarSeqlenPluginLegacyBaseCreator::EmbLayerNormVarSeqlenPluginLegacyBaseCreator() { mPluginAttributes.clear(); mPluginAttributes.emplace_back(PluginField("bert_embeddings_layernorm_beta")); mPluginAttributes.emplace_back(PluginField("bert_embeddings_layernorm_gamma")); mPluginAttributes.emplace_back(PluginField("bert_embeddings_word_embeddings")); mPluginAttributes.emplace_back(PluginField("bert_embeddings_token_type_embeddings")); mPluginAttributes.emplace_back(PluginField("bert_embeddings_position_embeddings")); mPluginAttributes.emplace_back(PluginField("output_fp16")); mFC.nbFields = mPluginAttributes.size(); mFC.fields = mPluginAttributes.data(); } char const* EmbLayerNormVarSeqlenPluginLegacyBaseCreator::getPluginName() const noexcept { return kEMB_LAYER_NORM_VAR_SEQLEN_NAME; } char const* EmbLayerNormVarSeqlenPluginLegacyHFaceCreator::getPluginVersion() const noexcept { return kEMB_LAYER_NORM_VAR_SEQLEN_VERSION_HFACE; } char const* EmbLayerNormVarSeqlenPluginLegacyMTronCreator::getPluginVersion() const noexcept { return kEMB_LAYER_NORM_VAR_SEQLEN_VERSION_MTRON; } PluginFieldCollection const* EmbLayerNormVarSeqlenPluginLegacyBaseCreator::getFieldNames() noexcept { return &mFC; } bool initializeFields(char const* name, PluginFieldCollection const* fc, Weights& beta, Weights& gamma, Weights& word_emb, Weights& pos_emb, Weights& tok_emb) { bool output_fp16 = false; std::set const requiredAttributes{ "bert_embeddings_layernorm_beta", "bert_embeddings_layernorm_gamma", "bert_embeddings_word_embeddings", "bert_embeddings_token_type_embeddings", "bert_embeddings_position_embeddings", }; plugin::validateRequiredAttributesExist(requiredAttributes, fc); for (int32_t i = 0; i < fc->nbFields; i++) { std::string_view const field_name = fc->fields[i].name; if (field_name == "bert_embeddings_layernorm_beta"sv) { BERT_DEBUG_MSG("Building bert_embeddings_layernorm_beta..."); beta.values = fc->fields[i].data; beta.count = fc->fields[i].length; beta.type = fieldTypeToDataType(fc->fields[i].type); } if (field_name == "bert_embeddings_layernorm_gamma"sv) { BERT_DEBUG_MSG("Building bert_embeddings_layernorm_gamma..."); gamma.values = fc->fields[i].data; gamma.count = fc->fields[i].length; gamma.type = fieldTypeToDataType(fc->fields[i].type); } if (field_name == "bert_embeddings_word_embeddings"sv) { BERT_DEBUG_MSG("Building bert_embeddings_word_embeddings..."); word_emb.values = fc->fields[i].data; word_emb.count = fc->fields[i].length; word_emb.type = fieldTypeToDataType(fc->fields[i].type); } if (field_name == "bert_embeddings_token_type_embeddings"sv) { BERT_DEBUG_MSG("Building bert_embeddings_token_type_embeddings..."); tok_emb.values = fc->fields[i].data; tok_emb.count = fc->fields[i].length; tok_emb.type = fieldTypeToDataType(fc->fields[i].type); } if (field_name == "bert_embeddings_position_embeddings"sv) { BERT_DEBUG_MSG("Building bert_embeddings_position_embeddings..."); pos_emb.values = fc->fields[i].data; pos_emb.count = fc->fields[i].length; pos_emb.type = fieldTypeToDataType(fc->fields[i].type); } if (field_name == "output_fp16"sv) { BERT_DEBUG_MSG("Building output_fp16..."); PLUGIN_VALIDATE(fc->fields[i].type == PluginFieldType::kINT32); output_fp16 = static_cast(fc->fields[i].data)[0] != 0; } } return output_fp16; } IPluginV2* EmbLayerNormVarSeqlenPluginLegacyHFaceCreator::createPlugin( char const* name, PluginFieldCollection const* fc) noexcept { try { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenHFace createPlugin"); Weights beta{}; // required attribute: validateRequiredAttributesExist() call in initializeFields() will verify // existence Weights gamma{}; // required attribute: validateRequiredAttributesExist() call in initializeFields() will verify // existence Weights word_emb{}; // required attribute: validateRequiredAttributesExist() call in initializeFields() will // verify existence Weights pos_emb{}; // required attribute: validateRequiredAttributesExist() call in initializeFields() will // verify existence Weights tok_emb{}; // required attribute: validateRequiredAttributesExist() call in initializeFields() will // verify existence bool output_fp16 = initializeFields(name, fc, beta, gamma, word_emb, pos_emb, tok_emb); BERT_DEBUG_MSG("Building the Plugin..."); auto p = std::make_unique( name, output_fp16 ? DataType::kHALF : DataType::kFLOAT, beta, gamma, word_emb, pos_emb, tok_emb); return p.release(); } catch (std::exception const& e) { caughtError(e); } return nullptr; } IPluginV2* EmbLayerNormVarSeqlenPluginLegacyMTronCreator::createPlugin( char const* name, PluginFieldCollection const* fc) noexcept { try { BERT_DEBUG_MSG("EmbLayerNormVarSeqlenMTron createPlugin"); Weights beta{}; // required attribute: validateRequiredAttributesExist() call in initializeFields() will verify // existence Weights gamma{}; // required attribute: validateRequiredAttributesExist() call in initializeFields() will verify // existence Weights word_emb{}; // required attribute: validateRequiredAttributesExist() call in initializeFields() will // verify existence Weights pos_emb{}; // required attribute: validateRequiredAttributesExist() call in initializeFields() will // verify existence Weights tok_emb{}; // required attribute: validateRequiredAttributesExist() call in initializeFields() will // verify existence bool output_fp16 = initializeFields(name, fc, beta, gamma, word_emb, pos_emb, tok_emb); BERT_DEBUG_MSG("Building the Plugin..."); auto p = std::make_unique( name, output_fp16 ? DataType::kHALF : DataType::kFLOAT, beta, gamma, word_emb, pos_emb, tok_emb); return p.release(); } catch (std::exception const& e) { caughtError(e); } return nullptr; } IPluginV2* EmbLayerNormVarSeqlenPluginLegacyHFaceCreator::deserializePlugin( char const* name, void const* serialData, size_t serialLength) noexcept { try { // This object will be deleted when the network is destroyed, which will // call EmbLayerNormVarSeqlen::destroy() return new EmbLayerNormVarSeqlenPluginLegacyHFace(name, serialData, serialLength); } catch (std::exception const& e) { caughtError(e); } return nullptr; } IPluginV2* EmbLayerNormVarSeqlenPluginLegacyMTronCreator::deserializePlugin( char const* name, void const* serialData, size_t serialLength) noexcept { try { // This object will be deleted when the network is destroyed, which will // call EmbLayerNormVarSeqlen::destroy() return new EmbLayerNormVarSeqlenPluginLegacyMTron(name, serialData, serialLength); } catch (std::exception const& e) { caughtError(e); } return nullptr; } void EmbLayerNormVarSeqlenPluginLegacyBaseCreator::setPluginNamespace(char const* libNamespace) noexcept { try { mNamespace = libNamespace; } catch (std::exception const& e) { caughtError(e); } } char const* EmbLayerNormVarSeqlenPluginLegacyBaseCreator::getPluginNamespace() const noexcept { return mNamespace.c_str(); }