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TensorRT-LLMs/cpp/tensorrt_llm/kernels/samplingTopPKernels.h
Dan Blanaru 16d2467ea8 Update TensorRT-LLM (#2755) 
* Update TensorRT-LLM

---------

Co-authored-by: Denis Kayshev <topenkoff@gmail.com>
Co-authored-by: akhoroshev <arthoroshev@gmail.com>
Co-authored-by: Patrick Reiter Horn <patrick.horn@gmail.com>

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2025-02-11 03:01:00 +00:00

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/*
* Copyright (c) 2020-2024, NVIDIA CORPORATION. All rights reserved.
*
* 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.
*/
#pragma once
#include "tensorrt_llm/common/assert.h"
#include "tensorrt_llm/kernels/decodingCommon.h"
#include "tensorrt_llm/runtime/common.h"
#include <curand_kernel.h>
namespace tensorrt_llm::kernels
{
template <typename T>
struct TopPSamplingKernelParams
{
//! input buffer [batchSize, vocabSizePadded], required. Probabilities of each token in the vocab.
T const* probs{nullptr};
//! output buffer [maxBatchSize][maxSeqLen]. Contains pointers to rows with output tokens per request.
//! If nullptr, outputIds must be provided.
runtime::TokenIdType** outputIdsPtrs{nullptr};
//! output buffer [maxBatchSize, maxSeqLen], optional. Tensor to store output tokens.
//! Not used if outputIdsPtrs != nullptr
runtime::TokenIdType* outputIds{nullptr};
//! pointer to the workspace. Has to be pre-allocated by caller.
//! Function does not take ownership of the buffer.
void* workspace{nullptr};
//! input buffer [maxBatchSize], required. P for topP sampling per request. Supported P is in range (0.0; 1.0].
//! If nullptr maxTopP is used for all requests.
float const* topPs{nullptr};
//! input/output buffer [maxBatchSize], required. Current sequence length of the request up to, but excluding endId
//! token.
runtime::SizeType32* sequenceLength{nullptr};
//! input buffer [maxBatchSize], optional. EOS token ids per request
runtime::TokenIdType const* endIds{nullptr};
//! input buffer[batchSize], optional. Indices of rows of data in memory pool.
runtime::SizeType32 const* batchSlots{nullptr};
//! input buffer [maxBatchSize], optional. Exit early if true.
FinishedState const* finishedInput{nullptr};
//! output buffer [maxBatchSize], optional. Set flag if sequence has finished (if finished || outputId == endId).
FinishedState* finishedOutput{nullptr};
//! input buffer [maxBatchSize], optional. Flags whether to skip decoding per request
bool const* skipDecode{nullptr};
//! input/output buffer [maxBatchSize], optional. Cumulative log probability of selected tokens. Ignored if nullptr.
float* cumLogProbs{nullptr};
//! output buffer [maxBatchSize], optional. Log probs is the probability induced by the TopP sampling.
//! I.e., log_prob = log P(i | i is in vocab).
float* outputLogProbs{nullptr};
//! input buffer [maxBatchSize], optional. Curand states properly initialized using
//! invokeCurandInitialize per request. Either curandState or randomVals should be specified.
curandState_t* curandState{nullptr};
//! input buffer [maxBatchSize], optional. Precomputed random values per request.
//! Either curandState or randomVals should be specified.
float const* randomVals{nullptr};
//! The appropriate block configuration calculated based on the number of multiprocessors, occupancy,
//! batchSize and vocabSizePadded. Required for AirTopP
runtime::SizeType32 blockNum{-1};
//! bool, optional. Default value is false.
//! When isDeterministic==true, the result is reproducible. Required for AirTopP
bool isDeterministic{true};
runtime::SizeType32 batchSize{-1};
runtime::SizeType32 maxBatchSize{-1};
runtime::SizeType32 vocabSizePadded{-1};
runtime::SizeType32 maxSeqLen{-1};
//! flag to return all selected TopK results
bool returnAllSelectedTokens{false};
//! flag to return all selected TopK results per request.
bool const* returnAllSelectedTokensPerSlot{nullptr};
//! output buffer [maxBatchSize], optional.
//! Store the multinomial sampled target token id in TopK/TopP sampled tokens when returnAllSelectedTokens==True.
//! Only return when skipOutputIdCurrentStep != nullptr && skipOutputIdCurrentStep == False
runtime::TokenIdType* outputIdCurrentStep{nullptr};
//! input buffer [maxBatchSize]. Determine if multinomial sampling is required when returnAllSelectedTokens==True.
bool const* skipOutputIdCurrentStep{nullptr};
void checkParams() const
{
TLLM_CHECK(batchSize > 0);
TLLM_CHECK(maxBatchSize > 0);
TLLM_CHECK(maxBatchSize >= batchSize);
TLLM_CHECK(vocabSizePadded > 0);
TLLM_CHECK(probs);
TLLM_CHECK(outputIds || outputIdsPtrs);
TLLM_CHECK(workspace);
TLLM_CHECK((curandState != nullptr) || (randomVals != nullptr));
TLLM_CHECK(((curandState != nullptr) & (randomVals != nullptr)) == 0);
TLLM_CHECK(topPs);
if (outputIds)
{
TLLM_CHECK(maxSeqLen > 0);
}
TLLM_CHECK(((finishedOutput == nullptr) ^ (endIds == nullptr)) == 0);
TLLM_CHECK((skipOutputIdCurrentStep && outputIdCurrentStep && returnAllSelectedTokens)
|| (skipOutputIdCurrentStep == nullptr && outputIdCurrentStep == nullptr));
}
};
//! \brief Returns workspace size in bytes needed for sampling TopP computation
//! \param batchSize batch size
//! \param vocabSizePadded size of padded vocab
template <typename T>
[[nodiscard]] size_t getTopPWorkspaceSize(runtime::SizeType32 batchSize, runtime::SizeType32 vocabSizePadded);
//! \brief Returns workspace size in bytes needed for initialization of sampling TopP
//! \param batchSize batch size
[[nodiscard]] std::vector<size_t> getTopPInitWorkspaceSizes(runtime::SizeType32 batchSize);
// clang-format off
//! \brief Given probs, performs Top P sampling. Fills sampled tokens to outputIds.
//! Updates sequenceLength, finished state, cumLogProbs inplace.
//! Sampling per request can be controlled using skipDecode and topPs parameters.
// clang-format on
template <typename T>
void invokeBatchTopPSampling(TopPSamplingKernelParams<T> const& params, cudaStream_t stream);
//! \brief Compute the topp decay by https://arxiv.org/pdf/2206.04624.pdf
//! In short, the formula is
//! runtimeTopP = max(runtimeTopP * topPDecay, topPMin)
//! If generating the topPResetIds, then reset the runtimeTopP.
//!
//! \param runtimeTopP
//! \param runtimeInitialTopP
//! \param outputIds
//! \param topPDecay
//! \param topPMin
//! \param topPResetIds
//! \param sequenceLengths
//! \param batchSlots input buffer[batchSize], optional. Indices of rows of data in memory pool
//! \param localBatchSize
void invokeComputeToppDecay(float* runtimeTopP, float const* runtimeInitialTopP, runtime::TokenIdType const** outputIds,
float const* topPDecay, float const* topPMin, runtime::TokenIdType const* topPResetIds,
runtime::SizeType32 const* sequenceLengths, runtime::SizeType32 const* batchSlots,
runtime::SizeType32 localBatchSize, cudaStream_t stream);
//! \brief Given probs, performs top P sampling.
//! Note different from invokeTopPSampling() and invokeBatchTopPSampling() there two functions invokeAirTopPSampling
//! and invokeBatchAirTopPSampling is non-deterministic.
//! Fills sampled tokens to outputIds. Computes sequenceLength, finished state, cumLogProbs inplace.
//! Sampling per request can be controlled using skipDecode and topPs parameters.
//! Function sets workspaceSize and exits early if workspace is nullptr.
//! When isDeterministic==true, the result is reproducible.
template <typename T>
void invokeBatchAirTopPSampling(TopPSamplingKernelParams<T> const& params, cudaStream_t stream);
//! \brief Calculate the number of blocks based on the number of multiprocessors, batchSize and vocabSize.
//! \tparam T the data type of value
//! \param batchSize
//! \param len the number of candidates for each case
//! \param smCnt number of multiprocessors on device
//! \param isDeterministic bool, optional. Default value is false.
//! When isDeterministic==true, the result is reproducible.
template <typename T>
uint32_t calcAirTopPBlockNum(int batchSize, int len, int smCnt, bool isDeterministic = false);
//! \brief Returns workspace size in bytes needed for sampling Air TopP computation
//! \param batchSize batch size
//! \param vocabSizePadded size of padded vocab
//! \param isDeterministic bool, optional. Default value is false.
//! When isDeterministic==true, the result is reproducible.
template <typename T>
[[nodiscard]] size_t getAirTopPWorkspaceSize(int32_t batchSize, int32_t vocabSizePadded, bool isDeterministic = false);
void invokeSetTopPRuntimeArgs(runtime::SizeType32 batchSize, ScatterDecodingParamEntry<runtime::SizeType32> topK,
ScatterDecodingParamEntry<float> topP, bool* skipDecodePtr, float* initialTopPPtr,
runtime::SizeType32 const* batchSlotsPtr, bool onDevice, cudaStream_t stream = nullptr);
} // namespace tensorrt_llm::kernels
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