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TensorRT-LLM保姆级教程(二)-离线环境搭建、模型量化及推理

随着大模型的爆火,投入到生产环境的模型参数量规模也变得越来越大(从数十亿参数到千亿参数规模),从而导致大模型的推理成本急剧增加。因此,市面上也出现了很多的推理框架,用于降低模型推理延迟以及提升模型吞吐量。

本系列将针对TensorRT-LLM推理进行讲解。本文为该系列第二篇,将基于Bloom进行模型量化及推理。

另外,我撰写的大模型相关的博客及配套代码均整理放置在Github:llm-action,有需要的朋友自取。

环境搭建

基础配置:

  • CUDA:12.2
  • 镜像:nvcr.io/nvidia/pytorch:23.10-py3

由于服务器无法访问外网,只能预先准备好镜像,安装包、编译源码等,接下来准备安装 TensorRT-LLM,推荐使用 Docker 构建和运行 TensorRT-LLM,整个安装步骤参考 TensorRT-LLM 中构建 Docker 镜像的步骤。

首先,进入Docker容器。

docker run -dt --name tensorrt_llm_lgd \
--restart=always \
--gpus all \
--network=host \
--shm-size=4g \
-m 64G \
-v /home/guodong.li/workspace:/workspace \
-w /workspace \
nvcr.io/nvidia/pytorch:23.10-py3 \
/bin/bash

docker exec -it tensorrt_llm_lgd bash

安装PyTorch、TensorRT、mpi4py等:

# 卸载TensorRT
pip uninstall -y tensorrt
pip uninstall -y torch-tensorrt

pip install mpi4py -i http://nexus3.xxx.com/repository/pypi/simple --trusted-host nexus3.xxx.com
pip install polygraphy-0.48.1-py2.py3-none-any.whl -i http://nexus3.xxx.com/repository/pypi/simple --trusted-host nexus3.xxx.com

# 重新安装PyTorch
pip install torch==2.1.0 -i http://nexus3.xxx.com/repository/pypi/simple --trusted-host nexus3.xxx.com
pip uninstall transformer-engine


# 重新安装TensorRT
tar -xf /tmp/TensorRT.tar -C /usr/local/
mv /usr/local/TensorRT-9.1.0.4 /usr/local/tensorrt
pip install /usr/local/tensorrt/python/tensorrt-*-cp310-*.whl -i http://nexus3.xxx.com/repository/pypi/simple --trusted-host nexus3.xxx.com

配置环境变量/etc/profile

ENV LD_LIBRARY_PATH=/usr/local/tensorrt/lib:${LD_LIBRARY_PATH}

构建 TensorRT-LLM:

python3 ./scripts/build_wheel.py --clean --trt_root /usr/local/tensorrt --cuda_architectures "80-real"

由于离线构建,需修改配置文件:

  1. 修改pip源:https://github.com/NVIDIA/TensorRT-LLM/blob/release/0.5.0/scripts/build_wheel.py#L65
  2. 修改git远程仓库地址:https://github.com/NVIDIA/TensorRT-LLM/blob/release/0.5.0/cpp/tests/CMakeLists.txt#L19

安装TensorRT-LLM:

pip install ./build/tensorrt_llm*.whl -i http://nexus3.xxx.com/repository/pypi/simple --trusted-host nexus3.xxx.com

至此,整个环境搭建就完成了。

基于 Bloom 模型开发实践简介

接下来以Bloom模型为例,进行 TensorRT-LLM 开发实践。

Bloom 示例中主要文件:

  • build.py:用于构建 TensorRT 引擎来运行Bloom模型。
  • run.py:模型推理。
  • summarize.py:使用模型来总结 CNN Dailymail 数据集中的文章。
  • hf_bloom_convert.py:将HF格式的模型进行转换。

TensorRT-LLM 中,目前针对 Bloom 模型支持的特性如下:

  • 支持 FP16
  • 支持 INT8 & INT4 仅权重量化
  • 支持 INT8 KV CACHE 量化
  • 支持SmoothQuant 量化
  • 支持张量并行

关于大模型量化之前的文章:大模型量化概述 进行过简要概述,后续有时间更详细的梳理常见的一些大模型量化技术。

数据与模型下载

下载Bloom模型,本文基于bloomz-3b进行量化和推理。

# 需先安装git-lfs,通常情况下前面已经安装过了。
# git lfs install

# 下载模型
rm -rf /workspace/model/bloomz-3b
mkdir -p /workspace/model/bloomz-3b && git clone https://huggingface.co/bigscience/bloomz-3b /workspace/model/bloomz-3b

下载数据集,本文会用到 CNN Dailymail 数据集和 LAMBADA 数据集。

  • https://huggingface.co/datasets/ccdv/cnn_dailymail
  • https://huggingface.co/datasets/lambada

构建 TensorRT 引擎

TensorRT-LLM 基于 HF 上 Bloom 的 checkpoint 构建 TensorRT 引擎。 如果未指定 checkpoint 目录,TensorRT-LLM 将使用虚拟权重构建引擎。

下面使用 build.py 脚本来构建TensorRT 引擎;通常,build.py 仅需单个 GPU,但如果您有推理所需的所有 GPU,则可以通过添加 --parallel_build 参数来启用并行构建,以使引擎构建过程更快。

注意:目前parallel_build功能仅支持单节点。

hf_bloom_convert.py 脚本常用参数说明:

  • out_dir:模型格式转化之后的输出路径。
  • in_file:原始模型路径。
  • tensor_parallelism:模型推理时的张量并行度
  • calibrate_kv_cache:生成 KV 缓存的缩放因子。 以 INT8 存储 KV Cache 时使用。
  • smoothquant:使用Smoothquant对模型进行量化时设置α参数,
    ,并输出int8权重。第一次尝试最好是 0.5。 该参数必须在 [0, 1] 之间。
  • storage_type:设置模型参数存储的数据类型。

build.py 脚本常用参数说明:

  • model_dir:指定原始HF模型目录。
  • bin_model_dir:SmoothQuant 或 KV CACHE 量化时,指定模型转换后的二进制文件。
  • dtype:指定模型数据类型。
  • use_gemm_plugin:设置gemm数据类型。
  • use_gpt_attention_plugin:设置attention的数据类型。
  • output_dir:引擎输出目录。
  • use_layernorm_plugin:设置layernorm的数据类型。
  • use_weight_only:设置仅权重量化,将各种 GEMM 的权重量化为 INT4/INT8。。
  • weight_only_precision:设置仅权重量化时的权重精度。必须使用use_weight_only时该参数才会生效。
  • use_smooth_quant:使用 SmoothQuant 方法量化各种 GEMM 的激活和权重。更细粒度的量化选项,使用 --per_channel 和 --per_token 参数选型。
  • per_channel:默认情况下,对 GEMM 结果使用单个静态缩放因子。per_channel 相反,它为每个通道使用不同的静态缩放因子。后者通常更准确,但速度稍慢。
  • per_token:默认情况下,我们使用单个静态缩放因子来缩放 int8 范围内的激活。per_token 在运行时为每个token选择一个自定义缩放因子。后者通常更准确,但速度稍慢。
  • int8_kv_cache:默认情况下,使用 dtype 进行 KV 缓存。 int8_kv_cache为KV选择int8量化。
  • use_parallel_embedding:默认情况下,嵌入并行被禁用。通过设置此参数,可以启用嵌入并行。
  • embedding_sharding_dim:尝试通过在两层之间共享嵌入查找表来减小引擎大小。注意:当不满足条件时,该参数可能不会生效。

FP16

使用 HF 权重基于单 GPU 及 float16 精度构建引擎。使用 use_gemm_plugin 来防止准确性问题。

python build.py --model_dir /workspace/model/bloomz-3b \
                --dtype float16 \
                --use_gemm_plugin float16 \
                --use_gpt_attention_plugin float16 \
                --output_dir /workspace/model/bloomz-3b_trt_engines/fp16/1-gpu/

输出模型引擎文件:

> tree -h  /workspace/model/bloomz-3b_trt_engines/fp16/1-gpu/
├── [6.8G]  bloom_float16_tp1_rank0.engine
├── [1.2K]  config.json
└── [327K]  model.cache

仅 INT8 权重量化(W8A16)

使用单 GPU 和仅 INT8 权重量化构建引擎

python build.py --model_dir /workspace/model/bloomz-3b \
                --dtype float16 \
                --use_gemm_plugin float16 \
                --use_gpt_attention_plugin float16 \
                --use_weight_only \
                --output_dir /workspace/model/bloomz-3b_trt_engines/int8_weight_only/1-gpu/

输出模型引擎文件:

> tree -h /workspace/model/bloomz-3b_trt_engines/int8_weight_only/1-gpu/

├── [4.6G]  bloom_float16_tp1_rank0.engine
├── [1.2K]  config.json
└── [317K]  model.cache

FP16 + 2路张量并行

使用2路张量并行构建引擎

python build.py --model_dir /workspace/model/bloomz-3b \
                --dtype float16 \
                --use_gemm_plugin float16 \
                --use_gpt_attention_plugin float16 \
                --output_dir /workspace/model/bloomz-3b_trt_engines/fp16/2-gpu/ \
                --world_size 2

输出模型引擎文件:

> tree -h  /workspace/model/bloomz-3b_trt_engines/fp16/2-gpu/

├── [4.0G]  bloom_float16_tp2_rank0.engine
├── [4.0G]  bloom_float16_tp2_rank1.engine
├── [1.2K]  config.json
└── [327K]  model.cache

仅 INT8 权重量化 & INT8 KV CACHE 量化

下面使用仅 INT8 权重量化及 INT8 KV CACHE 量化

对于 INT8 KV 缓存,hf_bloom_convert.py 脚本中有 --calibrate-kv-cache-kv 选项。设置 -kv 将校准模型,然后导出 INT8 KV CACHE推理所需的缩放因子(scaling factors)。

python3 hf_bloom_convert.py \
-i /workspace/model/bloomz-3b \
-o /workspace/model/bloom-c-model/int8_kv_cache/3b \
--calibrate-kv-cache -t float16

输出结果:

> tree -h /workspace/model/bloom-c-model/int8_kv_cache/3b
/workspace/model/bloom-c-model/int8_kv_cache/3b
└── [ 28K]  1-gpu
    ├── [2.1K]  config.ini
    ├── [5.0K]  model.final_layernorm.bias.bin
    ├── [5.0K]  model.final_layernorm.weight.bin
    ├── [5.0K]  model.layers.0.attention.dense.bias.bin
    ├── [ 12M]  model.layers.0.attention.dense.weight.0.bin
    ├── [ 15K]  model.layers.0.attention.query_key_value.bias.0.bin
    ├── [   4]  model.layers.0.attention.query_key_value.scale_y_quant_orig.bin
    ├── [ 38M]  model.layers.0.attention.query_key_value.weight.0.bin
    ├── [5.0K]  model.layers.0.input_layernorm.bias.bin
    ├── [5.0K]  model.layers.0.input_layernorm.weight.bin
    ├── [5.0K]  model.layers.0.mlp.dense_4h_to_h.bias.bin
    ├── [ 50M]  model.layers.0.mlp.dense_4h_to_h.weight.0.bin
    ├── [ 20K]  model.layers.0.mlp.dense_h_to_4h.bias.0.bin
    ├── [ 50M]  model.layers.0.mlp.dense_h_to_4h.weight.0.bin
    ├── [5.0K]  model.layers.0.post_attention_layernorm.bias.bin
    ├── [5.0K]  model.layers.0.post_attention_layernorm.weight.bin
    ├── [5.0K]  model.layers.10.attention.dense.bias.bin
    ├── [ 12M]  model.layers.10.attention.dense.weight.0.bin
    ├── [ 15K]  model.layers.10.attention.query_key_value.bias.0.bin
    ├── [   4]  model.layers.10.attention.query_key_value.scale_y_quant_orig.bin
    ├── [ 38M]  model.layers.10.attention.query_key_value.weight.0.bin
    ├── [5.0K]  model.layers.10.input_layernorm.bias.bin
    ├── [5.0K]  model.layers.10.input_layernorm.weight.bin
    ├── [5.0K]  model.layers.10.mlp.dense_4h_to_h.bias.bin
    ├── [ 50M]  model.layers.10.mlp.dense_4h_to_h.weight.0.bin
    ├── [ 20K]  model.layers.10.mlp.dense_h_to_4h.bias.0.bin
    ├── [ 50M]  model.layers.10.mlp.dense_h_to_4h.weight.0.bin
    ├── [5.0K]  model.layers.10.post_attention_layernorm.bias.bin
    ├── [5.0K]  model.layers.10.post_attention_layernorm.weight.bin
	...
    ├── [5.0K]  model.word_embeddings_layernorm.bias.bin
    ├── [5.0K]  model.word_embeddings_layernorm.weight.bin
    └── [1.2G]  model.wpe.bin

组合仅 INT8 权重量化及 INT8 KV CACHE 量化构建引擎:

# Build model with both INT8 weight-only and INT8 KV cache enabled

python build.py --bin_model_dir=/workspace/model/bloom-c-model/int8_kv_cache/3b/1-gpu \
                --dtype float16 \
                --use_gpt_attention_plugin float16 \
                --use_gemm_plugin float16 \
                --use_layernorm_plugin \
                --int8_kv_cache \
                --output_dir /workspace/model/bloom-3b-c-model/int8_kv_cache/ \
                --use_weight_only

运行结果:

tree -h /workspace/model/bloom-3b-c-model/int8_kv_cache/
/workspace/model/bloom-3b-c-model/int8_kv_cache/
├── [4.6G]  bloom_float16_tp1_rank0.engine
├── [1.2K]  config.json
└── [ 78K]  model.cache

0 directories, 3 files

SmoothQuant 量化(W8A8)

与 FP16 构建引擎处理 HF 权重并直接加载到 TensorRT-LLM 不同,SmoothQuant 需要加载 INT8 权重,该权重应在构建引擎之前进行预处理。

python3 hf_bloom_convert.py \
-i /workspace/model/bloomz-3b \
-o /workspace/model/bloom-3b-c-model/smooth/ \
--smoothquant 0.5 \
--tensor-parallelism 1 \
--storage-type float16                

运行结果:

> tree -h /workspace/model/bloom-3b-c-model/smooth/
/workspace/model/bloom-3b-c-model/smooth/
└── [100K]  1-gpu
    ├── [2.1K]  config.ini
    ├── [5.0K]  model.final_layernorm.bias.bin
    ├── [5.0K]  model.final_layernorm.weight.bin
    ├── [5.0K]  model.layers.0.attention.dense.bias.bin
    ├── [   4]  model.layers.0.attention.dense.scale_w_quant_orig.bin
    ├── [ 10K]  model.layers.0.attention.dense.scale_w_quant_orig.col.bin
    ├── [   4]  model.layers.0.attention.dense.scale_x_orig_quant.bin
    ├── [   4]  model.layers.0.attention.dense.scale_y_accum_quant.bin
    ├── [ 10K]  model.layers.0.attention.dense.scale_y_accum_quant.col.bin
    ├── [   4]  model.layers.0.attention.dense.scale_y_quant_orig.bin
    ├── [ 10K]  model.layers.0.attention.dense.smoother.0.bin
    ├── [ 12M]  model.layers.0.attention.dense.weight.0.bin
    ├── [6.2M]  model.layers.0.attention.dense.weight.int8.0.bin
    ├── [6.2M]  model.layers.0.attention.dense.weight.int8.col.0.bin
    ├── [ 15K]  model.layers.0.attention.query_key_value.bias.0.bin
    ├── [ 30K]  model.layers.0.attention.query_key_value.scale_w_quant_orig.bin
    ├── [ 30K]  model.layers.0.attention.query_key_value.scale_w_quant_orig.col.0.bin
    ├── [   4]  model.layers.0.attention.query_key_value.scale_x_orig_quant.bin
    ├── [ 30K]  model.layers.0.attention.query_key_value.scale_y_accum_quant.bin
    ├── [ 30K]  model.layers.0.attention.query_key_value.scale_y_accum_quant.col.0.bin
    ├── [   4]  model.layers.0.attention.query_key_value.scale_y_quant_orig.bin
    ├── [ 38M]  model.layers.0.attention.query_key_value.weight.0.bin
    ├── [ 19M]  model.layers.0.attention.query_key_value.weight.int8.0.bin
    ├── [ 19M]  model.layers.0.attention.query_key_value.weight.int8.col.0.bin
    ├── [5.0K]  model.layers.0.input_layernorm.bias.bin
    ├── [5.0K]  model.layers.0.input_layernorm.weight.bin
    ├── [5.0K]  model.layers.0.mlp.dense_4h_to_h.bias.bin
    ├── [   4]  model.layers.0.mlp.dense_4h_to_h.scale_w_quant_orig.bin
    ├── [ 10K]  model.layers.0.mlp.dense_4h_to_h.scale_w_quant_orig.col.bin
    ├── [   4]  model.layers.0.mlp.dense_4h_to_h.scale_x_orig_quant.bin
    ├── [   4]  model.layers.0.mlp.dense_4h_to_h.scale_y_accum_quant.bin
    ├── [ 10K]  model.layers.0.mlp.dense_4h_to_h.scale_y_accum_quant.col.bin
    ├── [   4]  model.layers.0.mlp.dense_4h_to_h.scale_y_quant_orig.bin
    ├── [ 40K]  model.layers.0.mlp.dense_4h_to_h.smoother.0.bin
    ├── [ 50M]  model.layers.0.mlp.dense_4h_to_h.weight.0.bin
    ├── [ 25M]  model.layers.0.mlp.dense_4h_to_h.weight.int8.0.bin
    ├── [ 25M]  model.layers.0.mlp.dense_4h_to_h.weight.int8.col.0.bin
    ├── [ 20K]  model.layers.0.mlp.dense_h_to_4h.bias.0.bin
    ├── [   4]  model.layers.0.mlp.dense_h_to_4h.scale_w_quant_orig.bin
    ├── [ 40K]  model.layers.0.mlp.dense_h_to_4h.scale_w_quant_orig.col.0.bin
    ├── [   4]  model.layers.0.mlp.dense_h_to_4h.scale_x_orig_quant.bin
    ├── [   4]  model.layers.0.mlp.dense_h_to_4h.scale_y_accum_quant.bin
    ├── [ 40K]  model.layers.0.mlp.dense_h_to_4h.scale_y_accum_quant.col.0.bin
    ├── [   4]  model.layers.0.mlp.dense_h_to_4h.scale_y_quant_orig.bin
    ├── [ 50M]  model.layers.0.mlp.dense_h_to_4h.weight.0.bin
    ├── [ 25M]  model.layers.0.mlp.dense_h_to_4h.weight.int8.0.bin
    ├── [ 25M]  model.layers.0.mlp.dense_h_to_4h.weight.int8.col.0.bin
    ├── [5.0K]  model.layers.0.post_attention_layernorm.bias.bin
    ├── [5.0K]  model.layers.0.post_attention_layernorm.weight.bin
	...
    ├── [5.0K]  model.word_embeddings_layernorm.bias.bin
    ├── [5.0K]  model.word_embeddings_layernorm.weight.bin
    └── [1.2G]  model.wpe.bin

通过 --use_smooth_quant 选型启动 INT8 量化。默认情况下,使用逐层量化(_per_tensor_)构建引擎:

# Build model for SmoothQuant in the _per_tensor_ mode.
python3 build.py --bin_model_dir=/workspace/model/bloom-3b-c-model/smooth/1-gpu \
                 --use_smooth_quant \
                 --output_dir "/workspace/model/bloom-3b-c-model/smooth-quant" \
                 --use_gpt_attention_plugin float16
                 

运行结果:

> tree -h /workspace/model/bloom-3b-c-model/smooth-quant
/workspace/model/bloom-3b-c-model/smooth-quant
├── [3.4G]  bloom_float16_tp1_rank0.engine
├── [1.2K]  config.json
└── [516K]  model.cache

0 directories, 3 files

同时,支持使用逐通道量化( _per_token_ + _per_channel_)构建引擎:

# Build model for SmoothQuant in the _per_token_ + _per_channel_ mode
python3 build.py --bin_model_dir=/workspace/model/bloom-3b-c-model/smooth/1-gpu \
                 --use_smooth_quant \
                 --use_gpt_attention_plugin float16 \
                 --output_dir "/workspace/model/bloom-3b-c-model/smooth-quant-channel-token" \
                 --per_token \
                 --per_channel

运行结果:

tree -h /home/guodong.li/workspace/model/bloom-3b-c-model/smooth-quant-channel-token
/home/guodong.li/workspace/model/bloom-3b-c-model/smooth-quant-channel-token
├── [4.6G]  bloom_float16_tp1_rank0.engine
├── [1.2K]  config.json
└── [516K]  model.cache

0 directories, 3 files

注意

  • 目前需要为 SmoothQuant 启用 GPT 注意力插件(--use_gpt_attention_plugin)。
  • 使用 --bin_model_dir 而不是 --model_dir,是因为 SmoothQuant 量化时,模型需要二进制文件中的 INT8 权重和各种缩放(scales)。

模型推理

接下来运行模型进行推理,同时,使用rouge指标评估模型。

summarize.py 脚本常用参数说明:

  • hf_model_location:指定HF模型和词表地址
  • test_hf:测试HF
  • test_trt_llm:测试TensorRT-LLM
  • data_type:指定数据类型,该参数指定test_hf时使用,将模型参数转换成半精度
  • dataset_path:指定数据集缓存目录
  • engine_dir:指定引擎目录

FP16

python summarize.py --test_trt_llm \
                    --hf_model_location /workspace/model/bloomz-3b \
                    --data_type fp16 \
                    --engine_dir /workspace/model/bloomz-3b_trt_engines/fp16/1-gpu/

仅 INT8 权重量化

python summarize.py --test_trt_llm \
                    --hf_model_location /workspace/model/bloomz-3b \
                    --data_type fp16 \
                    --engine_dir /workspace/model/bloomz-3b_trt_engines/int8_weight_only/1-gpu/

运行过程:

[11/14/2023-09:54:48] [TRT-LLM] [I] Load tokenizer takes: 0.6626021862030029 sec
[11/14/2023-09:54:54] [TRT] [I] Loaded engine size: 4708 MiB
[11/14/2023-09:54:55] [TRT] [I] [MemUsageChange] Init cuBLAS/cuBLASLt: CPU +0, GPU +8, now: CPU 6142, GPU 46624 (MiB)
[11/14/2023-09:54:55] [TRT] [I] [MemUsageChange] Init cuDNN: CPU +2, GPU +10, now: CPU 6144, GPU 46634 (MiB)
[11/14/2023-09:54:55] [TRT] [W] TensorRT was linked against cuDNN 8.9.4 but loaded cuDNN 8.9.2
[11/14/2023-09:54:55] [TRT] [I] [MemUsageChange] TensorRT-managed allocation in engine deserialization: CPU +0, GPU +4703, now: CPU 0, GPU 4703 (MiB)
[11/14/2023-09:54:55] [TRT] [I] [MemUsageChange] Init cuBLAS/cuBLASLt: CPU +0, GPU +8, now: CPU 6149, GPU 48652 (MiB)
[11/14/2023-09:54:55] [TRT] [I] [MemUsageChange] Init cuDNN: CPU +0, GPU +8, now: CPU 6149, GPU 48660 (MiB)
[11/14/2023-09:54:55] [TRT] [W] TensorRT was linked against cuDNN 8.9.4 but loaded cuDNN 8.9.2
[11/14/2023-09:54:56] [TRT] [I] [MemUsageChange] TensorRT-managed allocation in IExecutionContext creation: CPU +0, GPU +0, now: CPU 0, GPU 4703 (MiB)
[11/14/2023-09:54:56] [TRT] [I] [MemUsageChange] Init cuBLAS/cuBLASLt: CPU +0, GPU +8, now: CPU 6195, GPU 48680 (MiB)
[11/14/2023-09:54:56] [TRT] [I] [MemUsageChange] Init cuDNN: CPU +1, GPU +10, now: CPU 6196, GPU 48690 (MiB)
[11/14/2023-09:54:56] [TRT] [W] TensorRT was linked against cuDNN 8.9.4 but loaded cuDNN 8.9.2
[11/14/2023-09:54:57] [TRT] [I] [MemUsageChange] TensorRT-managed allocation in IExecutionContext creation: CPU +0, GPU +0, now: CPU 0, GPU 4703 (MiB)
[11/14/2023-09:54:58] [TRT-LLM] [I] Load engine takes: 9.880424976348877 sec
/workspace/TensorRT-LLM/examples/bloom/summarize.py:165: UserWarning: To copy construct from a tensor, it is recommended to use sourceTensor.clone().detach() or sourceTensor.clone().detach().requires_grad_(True), rather than torch.tensor(sourceTensor).
  [torch.tensor(line_encoded[i], dtype=torch.int32), pad],
[11/14/2023-09:54:59] [TRT-LLM] [I] ---------------------------------------------------------
[11/14/2023-09:54:59] [TRT-LLM] [I] TensorRT-LLM Generated :
[11/14/2023-09:54:59] [TRT-LLM] [I]  Article : ['(CNN)James Best, best known for his portrayal of bumbling sheriff Rosco P. Coltrane on TV's "The Dukes of Hazzard," died Monday after a brief illness. He was 88. Best died in hospice in Hickory, North Carolina, of complications from pneumonia, said Steve Latshaw, a longtime friend and Hollywood colleague. Although he'd been a busy actor for decades in theater and in Hollywood, Best didn't become famous until 1979, when "The Dukes of Hazzard's" cornpone charms began beaming into millions of American homes almost every Friday night. For seven seasons, Best's Rosco P. Coltrane chased the moonshine-running Duke boys back and forth across the back roads of fictitious Hazzard County, Georgia, although his "hot pursuit" usually ended with him crashing his patrol car. Although Rosco was slow-witted and corrupt, Best gave him a childlike enthusiasm that got laughs and made him endearing. His character became known for his distinctive "kew-kew-kew" chuckle and for goofy catchphrases such as "cuff 'em and stuff 'em!" upon making an arrest. Among the most popular shows on TV in the early '80s, "The Dukes of Hazzard" ran until 1985 and spawned TV movies, an animated series and video games. Several of Best's "Hazzard" co-stars paid tribute to the late actor on social media. "I laughed and learned more from Jimmie in one hour than from anyone else in a whole year," co-star John Schneider, who played Bo Duke, said on Twitter. "Give Uncle Jesse my love when you see him dear friend." "Jimmy Best was the most constantly creative person I have ever known," said Ben Jones, who played mechanic Cooter on the show, in a Facebook post. "Every minute of his long life was spent acting, writing, producing, painting, teaching, fishing, or involved in another of his life's many passions." Born Jewel Guy on July 26, 1926, in Powderly, Kentucky, Best was orphaned at 3 and adopted by Armen and Essa Best, who renamed him James and raised him in rural Indiana. Best served in the Army during World War II before launching his acting career. In the 1950s and 1960s, he accumulated scores of credits, playing a range of colorful supporting characters in such TV shows as "The Twilight Zone," "Bonanza," "The Andy Griffith Show" and "Gunsmoke." He later appeared in a handful of Burt Reynolds' movies, including "Hooper" and "The End." But Best will always be best known for his "Hazzard" role, which lives on in reruns. "Jimmie was my teacher, mentor, close friend and collaborator for 26 years," Latshaw said. "I directed two of his feature films, including the recent 'Return of the Killer Shrews,' a sequel he co-wrote and was quite proud of as he had made the first one more than 50 years earlier." People we've lost in 2015 . CNN's Stella Chan contributed to this story.']
[11/14/2023-09:54:59] [TRT-LLM] [I]
 Highlights : ['James Best, who played the sheriff on "The Dukes of Hazzard," died Monday at 88 .\n"Hazzard" ran from 1979 to 1985 and was among the most popular shows on TV .']
[11/14/2023-09:54:59] [TRT-LLM] [I]
 Summary : [[' Actor James Best, best known for his role as bumbling sheriff Rosco P. Coltrane on TV's "The Dukes of Hazzard," has died at age 88.']]
[11/14/2023-09:54:59] [TRT-LLM] [I] ---------------------------------------------------------
/workspace/TensorRT-LLM/examples/bloom/summarize.py:165: UserWarning: To copy construct from a tensor, it is recommended to use sourceTensor.clone().detach() or sourceTensor.clone().detach().requires_grad_(True), rather than torch.tensor(sourceTensor).
  [torch.tensor(line_encoded[i], dtype=torch.int32), pad],
[11/14/2023-09:55:10] [TRT-LLM] [I] TensorRT-LLM (total latency: 10.436434745788574 sec)
[11/14/2023-09:55:10] [TRT-LLM] [I] TensorRT-LLM beam 0 result
[11/14/2023-09:55:11] [TRT-LLM] [I]   rouge1 : 30.60846842935061
[11/14/2023-09:55:11] [TRT-LLM] [I]   rouge2 : 11.315593160478784
[11/14/2023-09:55:11] [TRT-LLM] [I]   rougeL : 24.043680494718327
[11/14/2023-09:55:11] [TRT-LLM] [I]   rougeLsum : 26.250663629946125

FP16 + 2路张量并行

mpirun -n 2 --allow-run-as-root \
    python summarize.py --test_trt_llm \
                        --hf_model_location /workspace/model/bloomz-3b \
                        --data_type fp16 \
                        --engine_dir /workspace/model/bloomz-3b_trt_engines/fp16/2-gpu/

运行过程:

[11/14/2023-09:58:13] [TRT-LLM] [MPI_Rank 1] [I] Load tokenizer takes: 0.4274311065673828 sec
[11/14/2023-09:58:13] [TRT-LLM] [MPI_Rank 0] [I] Load tokenizer takes: 0.45519232749938965 sec
[11/14/2023-09:58:17] [TRT] [I] Loaded engine size: 4094 MiB
[11/14/2023-09:58:18] [TRT] [I] [MemUsageChange] Init cuBLAS/cuBLASLt: CPU +0, GPU +8, now: CPU 5533, GPU 41994 (MiB)
[11/14/2023-09:58:18] [TRT] [I] [MemUsageChange] Init cuDNN: CPU +1, GPU +10, now: CPU 5534, GPU 42004 (MiB)
[11/14/2023-09:58:18] [TRT] [W] TensorRT was linked against cuDNN 8.9.4 but loaded cuDNN 8.9.2
[11/14/2023-09:58:19] [TRT] [I] Loaded engine size: 4094 MiB
[11/14/2023-09:58:20] [TRT] [I] [MemUsageChange] Init cuBLAS/cuBLASLt: CPU +0, GPU +8, now: CPU 5529, GPU 46010 (MiB)
[11/14/2023-09:58:20] [TRT] [I] [MemUsageChange] Init cuDNN: CPU +1, GPU +10, now: CPU 5530, GPU 46020 (MiB)
[11/14/2023-09:58:20] [TRT] [W] TensorRT was linked against cuDNN 8.9.4 but loaded cuDNN 8.9.2
[11/14/2023-09:58:23] [TRT] [I] [MemUsageChange] TensorRT-managed allocation in engine deserialization: CPU +0, GPU +4088, now: CPU 0, GPU 4088 (MiB)
[11/14/2023-09:58:23] [TRT] [I] [MemUsageChange] TensorRT-managed allocation in engine deserialization: CPU +0, GPU +4088, now: CPU 0, GPU 4088 (MiB)
[11/14/2023-09:58:23] [TRT] [I] [MemUsageChange] Init cuBLAS/cuBLASLt: CPU +0, GPU +8, now: CPU 5749, GPU 43220 (MiB)
[11/14/2023-09:58:23] [TRT] [I] [MemUsageChange] Init cuDNN: CPU +0, GPU +8, now: CPU 5749, GPU 43228 (MiB)
[11/14/2023-09:58:23] [TRT] [W] TensorRT was linked against cuDNN 8.9.4 but loaded cuDNN 8.9.2
[11/14/2023-09:58:23] [TRT] [I] [MemUsageChange] Init cuBLAS/cuBLASLt: CPU +0, GPU +8, now: CPU 5749, GPU 47236 (MiB)
[11/14/2023-09:58:23] [TRT] [I] [MemUsageChange] Init cuDNN: CPU +0, GPU +8, now: CPU 5749, GPU 47244 (MiB)
[11/14/2023-09:58:23] [TRT] [W] TensorRT was linked against cuDNN 8.9.4 but loaded cuDNN 8.9.2
[11/14/2023-09:58:23] [TRT] [I] [MemUsageChange] TensorRT-managed allocation in IExecutionContext creation: CPU +0, GPU +0, now: CPU 0, GPU 4088 (MiB)
[11/14/2023-09:58:23] [TRT] [I] [MemUsageChange] Init cuBLAS/cuBLASLt: CPU +1, GPU +8, now: CPU 5796, GPU 47262 (MiB)
[11/14/2023-09:58:23] [TRT] [I] [MemUsageChange] Init cuDNN: CPU +0, GPU +10, now: CPU 5796, GPU 47272 (MiB)
[11/14/2023-09:58:23] [TRT] [W] TensorRT was linked against cuDNN 8.9.4 but loaded cuDNN 8.9.2
[11/14/2023-09:58:24] [TRT] [I] [MemUsageChange] TensorRT-managed allocation in IExecutionContext creation: CPU +0, GPU +0, now: CPU 0, GPU 4088 (MiB)
[11/14/2023-09:58:24] [TRT] [I] [MemUsageChange] Init cuBLAS/cuBLASLt: CPU +0, GPU +8, now: CPU 5796, GPU 43246 (MiB)
[11/14/2023-09:58:24] [TRT] [I] [MemUsageChange] Init cuDNN: CPU +0, GPU +10, now: CPU 5796, GPU 43256 (MiB)
[11/14/2023-09:58:24] [TRT] [W] TensorRT was linked against cuDNN 8.9.4 but loaded cuDNN 8.9.2
[11/14/2023-09:58:24] [TRT] [I] [MemUsageChange] TensorRT-managed allocation in IExecutionContext creation: CPU +0, GPU +0, now: CPU 0, GPU 4088 (MiB)
[11/14/2023-09:58:24] [TRT] [I] [MemUsageChange] TensorRT-managed allocation in IExecutionContext creation: CPU +0, GPU +0, now: CPU 0, GPU 4088 (MiB)
[11/14/2023-09:58:25] [TRT-LLM] [MPI_Rank 0] [I] Load engine takes: 11.81023645401001 sec
[11/14/2023-09:58:25] [TRT-LLM] [MPI_Rank 1] [I] Load engine takes: 11.762826204299927 sec
/workspace/TensorRT-LLM/examples/bloom/summarize.py:165: UserWarning: To copy construct from a tensor, it is recommended to use sourceTensor.clone().detach() or sourceTensor.clone().detach().requires_grad_(True), rather than torch.tensor(sourceTensor).
  [torch.tensor(line_encoded[i], dtype=torch.int32), pad],
/workspace/TensorRT-LLM/examples/bloom/summarize.py:165: UserWarning: To copy construct from a tensor, it is recommended to use sourceTensor.clone().detach() or sourceTensor.clone().detach().requires_grad_(True), rather than torch.tensor(sourceTensor).
  [torch.tensor(line_encoded[i], dtype=torch.int32), pad],
[11/14/2023-09:58:27] [TRT-LLM] [MPI_Rank 0] [I] ---------------------------------------------------------
[11/14/2023-09:58:27] [TRT-LLM] [MPI_Rank 0] [I] TensorRT-LLM Generated :
[11/14/2023-09:58:27] [TRT-LLM] [MPI_Rank 0] [I]  Article : ['(CNN)James Best, best known for his portrayal of bumbling sheriff Rosco P. Coltrane on TV's "The Dukes of Hazzard," died Monday after a brief illness. He was 88. Best died in hospice in Hickory, North Carolina, of complications from pneumonia, said Steve Latshaw, a longtime friend and Hollywood colleague. Although he'd been a busy actor for decades in theater and in Hollywood, Best didn't become famous until 1979, when "The Dukes of Hazzard's" cornpone charms began beaming into millions of American homes almost every Friday night. For seven seasons, Best's Rosco P. Coltrane chased the moonshine-running Duke boys back and forth across the back roads of fictitious Hazzard County, Georgia, although his "hot pursuit" usually ended with him crashing his patrol car. Although Rosco was slow-witted and corrupt, Best gave him a childlike enthusiasm that got laughs and made him endearing. His character became known for his distinctive "kew-kew-kew" chuckle and for goofy catchphrases such as "cuff 'em and stuff 'em!" upon making an arrest. Among the most popular shows on TV in the early '80s, "The Dukes of Hazzard" ran until 1985 and spawned TV movies, an animated series and video games. Several of Best's "Hazzard" co-stars paid tribute to the late actor on social media. "I laughed and learned more from Jimmie in one hour than from anyone else in a whole year," co-star John Schneider, who played Bo Duke, said on Twitter. "Give Uncle Jesse my love when you see him dear friend." "Jimmy Best was the most constantly creative person I have ever known," said Ben Jones, who played mechanic Cooter on the show, in a Facebook post. "Every minute of his long life was spent acting, writing, producing, painting, teaching, fishing, or involved in another of his life's many passions." Born Jewel Guy on July 26, 1926, in Powderly, Kentucky, Best was orphaned at 3 and adopted by Armen and Essa Best, who renamed him James and raised him in rural Indiana. Best served in the Army during World War II before launching his acting career. In the 1950s and 1960s, he accumulated scores of credits, playing a range of colorful supporting characters in such TV shows as "The Twilight Zone," "Bonanza," "The Andy Griffith Show" and "Gunsmoke." He later appeared in a handful of Burt Reynolds' movies, including "Hooper" and "The End." But Best will always be best known for his "Hazzard" role, which lives on in reruns. "Jimmie was my teacher, mentor, close friend and collaborator for 26 years," Latshaw said. "I directed two of his feature films, including the recent 'Return of the Killer Shrews,' a sequel he co-wrote and was quite proud of as he had made the first one more than 50 years earlier." People we've lost in 2015 . CNN's Stella Chan contributed to this story.']
[11/14/2023-09:58:27] [TRT-LLM] [MPI_Rank 0] [I]
 Highlights : ['James Best, who played the sheriff on "The Dukes of Hazzard," died Monday at 88 .\n"Hazzard" ran from 1979 to 1985 and was among the most popular shows on TV .']
[11/14/2023-09:58:27] [TRT-LLM] [MPI_Rank 0] [I]
 Summary : [[' Actor James Best, best known for his role as bumbling sheriff Rosco P. Coltrane on TV's "The Dukes of Hazzard," has died at age 88.']]
[11/14/2023-09:58:27] [TRT-LLM] [MPI_Rank 0] [I] ---------------------------------------------------------
/workspace/TensorRT-LLM/examples/bloom/summarize.py:165: UserWarning: To copy construct from a tensor, it is recommended to use sourceTensor.clone().detach() or sourceTensor.clone().detach().requires_grad_(True), rather than torch.tensor(sourceTensor).
  [torch.tensor(line_encoded[i], dtype=torch.int32), pad],
/workspace/TensorRT-LLM/examples/bloom/summarize.py:165: UserWarning: To copy construct from a tensor, it is recommended to use sourceTensor.clone().detach() or sourceTensor.clone().detach().requires_grad_(True), rather than torch.tensor(sourceTensor).
  [torch.tensor(line_encoded[i], dtype=torch.int32), pad],
[11/14/2023-09:58:42] [TRT-LLM] [MPI_Rank 0] [I] TensorRT-LLM (total latency: 14.928563356399536 sec)
[11/14/2023-09:58:42] [TRT-LLM] [MPI_Rank 0] [I] TensorRT-LLM beam 0 result
[11/14/2023-09:58:43] [TRT-LLM] [MPI_Rank 0] [I]   rouge1 : 27.12991734291884
[11/14/2023-09:58:43] [TRT-LLM] [MPI_Rank 0] [I]   rouge2 : 8.273487794146279
[11/14/2023-09:58:43] [TRT-LLM] [MPI_Rank 0] [I]   rougeL : 21.08356714989421
[11/14/2023-09:58:43] [TRT-LLM] [MPI_Rank 0] [I]   rougeLsum : 23.51165220383353

SmoothQuant 量化

逐层量化:

python summarize.py --test_trt_llm \
                    --hf_model_location /workspace/model/bloomz-3b \
                    --data_type fp16 \
                    --engine_dir /workspace/model/bloom-3b-c-model/smooth-quant

逐通道量化:

python summarize.py --test_trt_llm \
                    --hf_model_location /workspace/model/bloomz-3b \
                    --data_type fp16 \
                    --engine_dir /workspace/model/bloom-3b-c-model/smooth-quant-channel-token

总结

本文简要介绍了TensorRT-LLM环境搭建,同时,基于Bloom进行模型量化及推理。码字不易,如果觉得有帮助,欢迎点赞收藏加关注。

参考文档

  • https://github.com/NVIDIA/TensorRT-LLM/tree/v0.5.0
  • https://github.com/NVIDIA/TensorRT-LLM/blob/v0.5.0/docker/Dockerfile.multi
  • https://github.com/NVIDIA/TensorRT-LLM/blob/v0.5.0/docs/source/installation.md

http://www.kler.cn/a/157341.html

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