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--- |
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license: llama2 |
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pipeline_tag: text-generation |
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tags: |
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- text-generation-inference |
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--- |
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<div align="center"> |
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<img src="https://cdn-uploads.huggingface.co/production/uploads/64ccdc322e592905f922a06e/VhwQtaklohkUXFWkjA-3M.png" width="450"/> |
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English | [简体ä¸æ–‡](README_zh-CN.md) |
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</div> |
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<p align="center"> |
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👋 join us on <a href="https://twitter.com/intern_lm" target="_blank">Twitter</a>, <a href="https://discord.gg/xa29JuW87d" target="_blank">Discord</a> and <a href="https://r.vansin.top/?r=internwx" target="_blank">WeChat</a> |
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</p> |
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# W4A16 LLM Model Deployment |
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LMDeploy supports LLM model inference of 4-bit weight, with the minimum requirement for NVIDIA graphics cards being sm80. |
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Before proceeding with the inference, please ensure that lmdeploy(>=v0.0.14) is installed. |
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```shell |
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pip install 'lmdeploy>=0.0.14' |
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``` |
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## 4-bit LLM model Inference |
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You can download the pre-quantized 4-bit weight models from LMDeploy's [model zoo](https://huggingface.co/lmdeploy) and conduct inference using the following command. |
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Alternatively, you can quantize 16-bit weights to 4-bit weights following the ["4-bit Weight Quantization"](#4-bit-weight-quantization) section, and then perform inference as per the below instructions. |
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Take the 4-bit Llama-2-70B model from the model zoo as an example: |
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```shell |
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git-lfs install |
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git clone https://huggingface.co/lmdeploy/llama2-chat-70b-4bit |
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``` |
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As demonstrated in the command below, first convert the model's layout using `turbomind.deploy`, and then you can interact with the AI assistant in the terminal |
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```shell |
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## Convert the model's layout and store it in the default path, ./workspace. |
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lmdeploy convert \ |
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--model-name llama2 \ |
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--model-path ./llama2-chat-70b-w4 \ |
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--model-format awq \ |
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--group-size 128 |
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## inference |
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lmdeploy chat ./workspace |
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``` |
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## Serve with gradio |
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If you wish to interact with the model via web ui, please initiate the gradio server as indicated below: |
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```shell |
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lmdeploy serve gradio ./workspace --server_name {ip_addr} --server_port {port} |
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``` |
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Subsequently, you can open the website `http://{ip_addr}:{port}` in your browser and interact with the model |
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## Inference Performance |
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We benchmarked the Llama 2 7B and 13B with 4-bit quantization on NVIDIA GeForce RTX 4090 using [profile_generation.py](https://github.com/InternLM/lmdeploy/blob/main/benchmark/profile_generation.py). And we measure the token generation throughput (tokens/s) by setting a single prompt token and generating 512 tokens. All the results are measured for single batch inference. |
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| model | llm-awq | mlc-llm | turbomind | |
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| ----------- | ------- | ------- | --------- | |
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| Llama 2 7B | 112.9 | 159.4 | 206.4 | |
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| Llama 2 13B | N/A | 90.7 | 115.8 | |
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```shell |
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pip install nvidia-ml-py |
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``` |
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```bash |
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python profile_generation.py \ |
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--model-path /path/to/your/model \ |
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--concurrency 1 8 --prompt-tokens 0 512 --completion-tokens 2048 512 |
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``` |
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## 4-bit Weight Quantization |
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It includes two steps: |
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- generate quantization parameter |
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- quantize model according to the parameter |
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### Step 1: Generate Quantization Parameter |
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```shell |
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lmdeploy lite calibrate \ |
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--model $HF_MODEL \ |
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--calib_dataset 'c4' \ # Calibration dataset, supports c4, ptb, wikitext2, pileval |
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--calib_samples 128 \ # Number of samples in the calibration set, if memory is insufficient, you can appropriately reduce this |
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--calib_seqlen 2048 \ # Length of a single piece of text, if memory is insufficient, you can appropriately reduce this |
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--work_dir $WORK_DIR \ # Folder storing Pytorch format quantization statistics parameters and post-quantization weight |
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``` |
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### Step2: Quantize Weights |
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LMDeploy employs AWQ algorithm for model weight quantization. |
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```shell |
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lmdeploy lite auto_awq \ |
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--model $HF_MODEL \ |
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--w_bits 4 \ # Bit number for weight quantization |
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--w_sym False \ # Whether to use symmetric quantization for weights |
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--w_group_size 128 \ # Group size for weight quantization statistics |
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--work_dir $WORK_DIR \ # Directory saving quantization parameters from Step 1 |
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``` |
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After the quantization is complete, the quantized model is saved to `$WORK_DIR`. Then you can proceed with model inference according to the instructions in the ["4-Bit Weight Model Inference"](#4-bit-llm-model-inference) section. |