/* * SPDX-FileCopyrightText: Copyright (c) 1993-2024 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 "mambaConv1dPlugin.h" #include "tensorrt_llm/common/assert.h" #include using namespace nvinfer1; using namespace tensorrt_llm::kernels; using namespace tensorrt_llm::common; using tensorrt_llm::plugins::MambaConv1dPluginCreator; using tensorrt_llm::plugins::MambaConv1dPlugin; static char const* MAMBA_CONV1D_PLUGIN_VERSION{"1"}; static char const* MAMBA_CONV1D_PLUGIN_NAME{"MambaConv1d"}; PluginFieldCollection MambaConv1dPluginCreator::mFC{}; std::vector MambaConv1dPluginCreator::mPluginAttributes; MambaConv1dPlugin::MambaConv1dPlugin(int dim, int dconv, int preStride, int postStride, nvinfer1::DataType type, bool removePadding, bool pagedState, bool applySilu) : mDim(dim) , mDConv(dconv) , mPreStride(preStride) , mPostStride(postStride) , mType(type) , mRemovePadding(removePadding) , mPagedState(pagedState) , mApplySilu(applySilu) { TLLM_CHECK_WITH_INFO((mType == DataType::kBF16) || (mType == DataType::kFLOAT) || (mType == DataType::kHALF), "Only support float, half, and bfloat16."); } // Parameterized constructor MambaConv1dPlugin::MambaConv1dPlugin(void const* data, size_t length) { char const *d = reinterpret_cast(data), *a = d; read(d, mDim); read(d, mDConv); read(d, mPreStride); read(d, mPostStride); read(d, mType); read(d, mRemovePadding); read(d, mPagedState); read(d, mApplySilu); TLLM_CHECK(d == a + length); TLLM_CHECK_WITH_INFO((mType == DataType::kBF16) || (mType == DataType::kFLOAT) || (mType == DataType::kHALF), "Only support float, half, and bfloat16."); } // IPluginV2DynamicExt Methods nvinfer1::IPluginV2DynamicExt* MambaConv1dPlugin::clone() const noexcept { auto* plugin = new MambaConv1dPlugin(mDim, mDConv, mPreStride, mPostStride, mType, mRemovePadding, mPagedState, mApplySilu); plugin->setPluginNamespace(mNamespace.c_str()); return plugin; } // Outputs // output_tensor: [batch_size, seq_len, dim] or [num_tokens, dim] for remove_input_padding // state: [batch_size, dconv - 1, dim] nvinfer1::DimsExprs MambaConv1dPlugin::getOutputDimensions( int outputIndex, nvinfer1::DimsExprs const* inputs, int nbInputs, nvinfer1::IExprBuilder& exprBuilder) noexcept { if (outputIndex == 0) { auto ret = inputs[getInputTensorIdx()]; ret.d[mRemovePadding ? 1 : 2] = exprBuilder.constant(mDim); return ret; } return inputs[getConvStateIdx()]; } bool MambaConv1dPlugin::supportsFormatCombination( int pos, nvinfer1::PluginTensorDesc const* inOut, int nbInputs, int nbOutputs) noexcept { if (pos == getHostRequestTypesIdx() || pos == getLastTokenIdsIdx() || (mRemovePadding && pos == getHostContextLengthIdx()) || (mPagedState && pos == getSlotMappingIdx())) { return inOut[pos].type == nvinfer1::DataType::kINT32; } else if (mPagedState && pos == getConvStateIdx()) { return inOut[pos].type == nvinfer1::DataType::kINT64; } else { return (inOut[pos].type == mType) && (inOut[pos].format == TensorFormat::kLINEAR); } } void MambaConv1dPlugin::configurePlugin(nvinfer1::DynamicPluginTensorDesc const* in, int nbInputs, nvinfer1::DynamicPluginTensorDesc const* out, int nbOutputs) noexcept { } size_t MambaConv1dPlugin::getWorkspaceSize(nvinfer1::PluginTensorDesc const* inputs, int nbInputs, nvinfer1::PluginTensorDesc const* outputs, int nbOutputs) const noexcept { return 0; } void MambaConv1dPlugin::setMambaConv1dParams(tensorrt_llm::kernels::MambaConv1dParamsBase& params, const size_t batch, const size_t dim, const size_t maxSeqLen, const size_t dconv, const size_t preStride, const size_t postStride, void const* inPtr, void const* stateInPtr, void* stateOutPtr, void const* convWeight, void const* convBias, void* outPtr, int const* lastTokenIds, int const* stateSlotMapping, bool removePadding, bool applySilu) { // Reset the parameters memset(¶ms, 0, sizeof(params)); params.batch = batch; params.dim = dim; params.max_seqlen = maxSeqLen; params.dconv = dconv; params.pre_stride = preStride; params.post_stride = postStride; params.remove_padding = removePadding; params.apply_silu = applySilu; // Set the pointers and strides. params.in_ptr = const_cast(inPtr); params.state_in_ptr = const_cast(stateInPtr); params.state_out_ptr = stateOutPtr; params.weight_ptr = const_cast(convWeight); params.bias_ptr = const_cast(convBias); params.out_ptr = outPtr; params.last_token_ids_ptr = lastTokenIds; params.state_slot_mapping_ptr = stateSlotMapping; } template int MambaConv1dPlugin::enqueueImpl(nvinfer1::PluginTensorDesc const* inputDesc, nvinfer1::PluginTensorDesc const* outputDesc, void const* const* inputs, void* const* outputs, void* workspace, cudaStream_t stream) { // inputs // 0. input_tensor [batch_size, seq_len, dim] or [num_tokens, dim] for remove_input_padding // 1. conv_state [batch_size, dconv - 1, dim] or host [1] containing only pointer for paged_state // 2. weight [dim, 1, dconv] // 3. bias [dim] // 4. host_request_types [batch_size] int32. 0: context; 1: generation; 2: none. // 5. last_token_ids [batch_size] int32 // 6. host_context_lengths [batch_size] int32, optional for remove_input_padding // 7. state_slot_mapping [batch_size] int32, optional // outputs // 0. output_tensor [batch_size, seq_len, dim] or [num_tokens, dim] for remove_input_padding // 1. conv_state [batch_size, dconv - 1, dim] auto const batchSize = inputDesc[getHostRequestTypesIdx()].dims.d[0]; int maxSeqLen; if (mRemovePadding) { int const* host_context_length = static_cast(inputs[getHostContextLengthIdx()]); maxSeqLen = *std::max_element(host_context_length, host_context_length + batchSize); } else { maxSeqLen = inputDesc[getInputTensorIdx()].dims.d[1]; } // only support context or generation, not for both of them RequestType const* reqTypes = static_cast(inputs[getHostRequestTypesIdx()]); MambaConv1dParamsBase mambaConv1dParams; int const* slotMapping = mPagedState ? static_cast(inputs[getSlotMappingIdx()]) : nullptr; void* stateInPtr = mPagedState ? *reinterpret_cast(const_cast(inputs[getConvStateIdx()])) : const_cast(inputs[getConvStateIdx()]); void* stateOutPtr = mPagedState ? *reinterpret_cast(const_cast(inputs[getConvStateIdx()])) : outputs[1]; setMambaConv1dParams(mambaConv1dParams, batchSize, mDim, maxSeqLen, mDConv, mPreStride, mPostStride, inputs[getInputTensorIdx()], stateInPtr, stateOutPtr, inputs[getWeightIdx()], inputs[getBiasIdx()], outputs[0], static_cast(inputs[getLastTokenIdsIdx()]), slotMapping, mRemovePadding, mApplySilu); if (reqTypes[0] == RequestType::kCONTEXT) { invokeMambaConv1dContext(mambaConv1dParams, stream); } else if (reqTypes[0] == RequestType::kGENERATION) { invokeMambaConv1dGeneration(mambaConv1dParams, stream); } sync_check_cuda_error(stream); return 0; } int MambaConv1dPlugin::enqueue(nvinfer1::PluginTensorDesc const* inputDesc, nvinfer1::PluginTensorDesc const* outputDesc, void const* const* inputs, void* const* outputs, void* workspace, cudaStream_t stream) noexcept { if (isBuilding()) { return 0; } if (mType == DataType::kHALF) { return enqueueImpl(inputDesc, outputDesc, inputs, outputs, workspace, stream); } else if (mType == DataType::kFLOAT) { return enqueueImpl(inputDesc, outputDesc, inputs, outputs, workspace, stream); } #ifdef ENABLE_BF16 else if (mType == DataType::kBF16) { return enqueueImpl<__nv_bfloat16>(inputDesc, outputDesc, inputs, outputs, workspace, stream); } #endif return 0; } // IPluginV2Ext Methods nvinfer1::DataType MambaConv1dPlugin::getOutputDataType( int index, nvinfer1::DataType const* inputTypes, int nbInputs) const noexcept { return inputTypes[getInputTensorIdx()]; } // IPluginV2 Methods char const* MambaConv1dPlugin::getPluginType() const noexcept { return MAMBA_CONV1D_PLUGIN_NAME; } char const* MambaConv1dPlugin::getPluginVersion() const noexcept { return MAMBA_CONV1D_PLUGIN_VERSION; } int MambaConv1dPlugin::getNbOutputs() const noexcept { return 2; } int MambaConv1dPlugin::initialize() noexcept { return 0; } void MambaConv1dPlugin::terminate() noexcept {} size_t MambaConv1dPlugin::getSerializationSize() const noexcept { return sizeof(mDim) + sizeof(mDConv) + sizeof(mPreStride) + sizeof(mPostStride) + sizeof(mType) + sizeof(mRemovePadding) + sizeof(mPagedState) + sizeof(mApplySilu); } void MambaConv1dPlugin::serialize(void* buffer) const noexcept { char *d = static_cast(buffer), *a = d; write(d, mDim); write(d, mDConv); write(d, mPreStride); write(d, mPostStride); write(d, mType); write(d, mRemovePadding); write(d, mPagedState); write(d, mApplySilu); TLLM_CHECK(d == a + getSerializationSize()); } void MambaConv1dPlugin::destroy() noexcept { delete this; } /////////////// MambaConv1dPluginCreator::MambaConv1dPluginCreator() { // Fill PluginFieldCollection with PluginField arguments metadata mPluginAttributes.clear(); mPluginAttributes.emplace_back(PluginField("dim", nullptr, PluginFieldType::kINT32)); mPluginAttributes.emplace_back(PluginField("dconv", nullptr, PluginFieldType::kINT32)); mPluginAttributes.emplace_back(PluginField("pre_stride", nullptr, PluginFieldType::kINT32)); mPluginAttributes.emplace_back(PluginField("post_stride", nullptr, PluginFieldType::kINT32)); mPluginAttributes.emplace_back(PluginField("type_id", nullptr, PluginFieldType::kINT32)); mPluginAttributes.emplace_back(PluginField("remove_input_padding", nullptr, PluginFieldType::kINT8)); mPluginAttributes.emplace_back(PluginField("paged_state", nullptr, PluginFieldType::kINT8)); mPluginAttributes.emplace_back(PluginField("apply_silu", nullptr, PluginFieldType::kINT8)); mFC.nbFields = mPluginAttributes.size(); mFC.fields = mPluginAttributes.data(); } char const* MambaConv1dPluginCreator::getPluginName() const noexcept { return MAMBA_CONV1D_PLUGIN_NAME; } char const* MambaConv1dPluginCreator::getPluginVersion() const noexcept { return MAMBA_CONV1D_PLUGIN_VERSION; } PluginFieldCollection const* MambaConv1dPluginCreator::getFieldNames() noexcept { return &mFC; } IPluginV2* MambaConv1dPluginCreator::createPlugin(char const* name, PluginFieldCollection const* fc) noexcept { PluginField const* fields = fc->fields; int dim{}; int dconv{}; int pre_stride{}; int post_stride{}; bool removePadding{}; bool pagedState{}; bool applySilu{}; nvinfer1::DataType type{}; // Read configurations from each fields for (int i = 0; i < fc->nbFields; ++i) { char const* attrName = fields[i].name; if (!strcmp(attrName, "dim")) { TLLM_CHECK(fields[i].type == PluginFieldType::kINT32); dim = static_cast(*(static_cast(fields[i].data))); } else if (!strcmp(attrName, "dconv")) { TLLM_CHECK(fields[i].type == PluginFieldType::kINT32); dconv = static_cast(*(static_cast(fields[i].data))); } else if (!strcmp(attrName, "pre_stride")) { TLLM_CHECK(fields[i].type == PluginFieldType::kINT32); pre_stride = static_cast(*(static_cast(fields[i].data))); } else if (!strcmp(attrName, "post_stride")) { TLLM_CHECK(fields[i].type == PluginFieldType::kINT32); post_stride = static_cast(*(static_cast(fields[i].data))); } else if (!strcmp(attrName, "type_id")) { TLLM_CHECK(fields[i].type == PluginFieldType::kINT32); type = static_cast(*(static_cast(fields[i].data))); } else if (!strcmp(attrName, "remove_input_padding")) { TLLM_CHECK(fields[i].type == PluginFieldType::kINT8); removePadding = static_cast(*(static_cast(fields[i].data))); } else if (!strcmp(attrName, "paged_state")) { TLLM_CHECK(fields[i].type == PluginFieldType::kINT8); pagedState = static_cast(*(static_cast(fields[i].data))); } else if (!strcmp(attrName, "apply_silu")) { TLLM_CHECK(fields[i].type == PluginFieldType::kINT8); applySilu = static_cast(*(static_cast(fields[i].data))); } } try { auto* obj = new MambaConv1dPlugin(dim, dconv, pre_stride, post_stride, type, removePadding, pagedState, applySilu); obj->setPluginNamespace(mNamespace.c_str()); return obj; } catch (std::exception const& e) { caughtError(e); } return nullptr; } IPluginV2* MambaConv1dPluginCreator::deserializePlugin( char const* name, void const* serialData, size_t serialLength) noexcept { // This object will be deleted when the network is destroyed, which will // call MambaConv1dPlugin::destroy() try { auto* obj = new MambaConv1dPlugin(serialData, serialLength); obj->setPluginNamespace(mNamespace.c_str()); return obj; } catch (std::exception const& e) { caughtError(e); } return nullptr; }