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FlashDecoding++: Faster Large Language Model Inference on GPUs: Evaluationby@textmodels
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FlashDecoding++: Faster Large Language Model Inference on GPUs: Evaluation

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Due to the versatility of optimizations in FlashDecoding++, it can achieve up to 4.86× and 2.18× speedup on both NVIDIA and AMD GPUs compared to Hugging Face.

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This paper is available on arxiv under CC BY-NC-SA 4.0 DEED license.

Authors:

(1) Ke Hong, Tsinghua University & Infinigence-AI;

(2) Guohao Dai, Shanghai Jiao Tong University & Infinigence-AI;

(3) Jiaming Xu, Shanghai Jiao Tong University & Infinigence-AI;

(4) Qiuli Mao, Tsinghua University & Infinigence-AI;

(5) Xiuhong Li, Peking University;

(6) Jun Liu, Shanghai Jiao Tong University & Infinigence-AI;

(7) Kangdi Chen, Infinigence-AI;

(8) Yuhan Dong, Tsinghua University;

(9) Yu Wang, Tsinghua University.

6 Evaluation

6.1 Experiments Setup

We evaluate the performance of FlashDecoding++ on different GPUs with various Large Language Models. We compare the performance with several state-of-the-art LLM inference engines.



6.1.1 Hardware Platforms

We evaluate the performance of FlashDecoding++ and other LLM engines on both NVIDIA and AMD platforms to make a comprehensive comparison. We choose two different GPUs for each platform: Tesla A100 and RTX3090 for NVIDIA, MI210 and RX7900XTX for AMD. We show the detailed configuration in Table 1.

6.1.2 LLM Engine Baselines

We implement our FlashDecoding++ using the Pytorch-based front-end with the C++ and CUDA backend for NVIDIA GPUs while ROCm for AMD GPUs. We compare the inference performance in both prefill phase and decode phase with the following LLM engine baselines: Hugging Face (HF) [35], vLLM [11], DeepSpeed [9], TensorRT-LLM [14], OpenPPL [12], and FlashAttention2/FlashDecoding [19, 13]. These baselines are introduced in Section 7.

6.1.3 Models

We evaluate the performance of FlashDecoding++ with other LLM inference engines on three typical Large Language Models: Llama2, OPT, and ChatGLM2. Table 2 shows the detailed configuration of these models. Note that there may be several models in one LLM (e.g., Llama2-7B, Llama2-13B) with different configurations (e.g., number of heads and layers).


Llama2 [1] is a mainstream open-source LLM set released by Meta in 2023. It is a collection of pretrained and fine-tuned generative text models ranging in scale from 7B to 70B parameters.


OPT [36], is a suite of decoder-only pre-trained transformers ranging from 125M to 175B parameters released by Meta AI.


ChatGLM2 [37] is an open-source LLM supporting bilingual (Chinese-English) chat.

6.2 Comparison with State-of-the-art

We compare FlashDecoding++ with state-of-the-art LLM inference engines in Figure 10 and Figure 11 on NVIDIA GPUs, Figure 12 and Figure 13 for AMD GPUs. For the decode phase, FlashDecoding++ achieves up to 4.86× speedup compared with Hugging Face implementations on three LLMs and two GPUs. The average speedup over vLLM, DeepSpeed, TensorRT-LLM, OpenPPL, and FlashDecoding is 1.25×, 1.48×, 1.12×, 1.34×, and 1.24× (1.37× on Tesla A100 compared with FlashDecoding), respectively. For the prefill phase, FlashDecoding++ achieves up to 1.40× speedup compared with Hugging Face implementations. The average speedup over DeepSpeed, TensorRT-LLM, OpenPPL, FlashAttention2 and FlashDecoding is 1.05×, 1.06×, 1.08×, 1.09×, and 1.08×, respectively. We also show the decode results on two AMD GPUs. Currently, only the original Hugging Face implementation can be executed on AMD GPUs as the baseline. FlashDecoding++ achieves up to 2.08× and 2.18× compared with the baseline on RX7900XTX and MI210, respectively.


Figure 10: Speedup of the decode phase on NVIDIA GPUs. Blank bars represent the model cannot be executed (e.g.,OpenPPL does not support OPT-6.7B/ChatGLM2-6B, TensorRT-LLM fails to compile the model with > 8K input