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Boost large language model inference performance on CPU platform.

Project description

xFasterTransformer

xFasterTransformer is an exceptionally optimized solution for large language models (LLM) on the X86 platform, which is similar to FasterTransformer on the GPU platform. xFasterTransformer is able to operate in distributed mode across multiple sockets and nodes to support inference on larger models. Additionally, it provides both C++ and Python APIs, spanning from high-level to low-level interfaces, making it easy to adopt and integrate.

Table of Contents

Models overview

Large Language Models (LLMs) develops very fast and are more widely used in many AI scenarios. xFasterTransformer is an optimized solution for LLM inference using the mainstream and popular LLM models on Xeon. xFasterTransformer fully leverages the hardware capabilities of Xeon platforms to achieve the high performance and high scalability of LLM inference both on single socket and multiple sockets/multiple nodes.

xFasterTransformer provides a series of APIs, both of C++ and Python, for end users to integrate xFasterTransformer into their own solutions or services directly. Many kinds of example codes are also provided to demonstrate the usage. Benchmark codes and scripts are provided for users to show the performance. Web demos for popular LLM models are also provided.

Support matrix

Models Framework Distribution DataType
PyTorch C++ FP16 BF16 INT8 BF16+FP16 BF16+INT8
ChatGLM
ChatGLM2
Llama
Llama2
Baichuan
Opt

Documents

xFasterTransformer Documents and Wiki provides the following resources:

  • An introduction to xFasterTransformer.
  • Comprehensive API references for both high-level and low-level interfaces in C++ and PyTorch.
  • Practical API usage examples for xFasterTransformer in both C++ and PyTorch.

Installation

From PyPI

pip install xfastertransformer

Using Docker

docker pull intel/xfastertransformer:latest

Built from source

Prepare Environment

Manually
  • PyTorch v2.0+ (When using the PyTorch API, it's required, but it's not needed when using the C++ API.)
    pip install torch --index-url https://download.pytorch.org/whl/cpu
    
Docker
  • Build docker image from Dockerfile
    docker build \
    -f dockerfiles/Dockerfile \
    --build-arg "HTTP_PROXY=${http_proxy}" \
    --build-arg "HTTPS_PROXY=${https_proxy}" \
    -t intel/xfastertransformer:dev-ubuntu22.04 .
    

Then run the docker with the command (Assume model files are in /data/ directory):

docker run -it \
    --name xfastertransformer-dev \
    --privileged \
    --shm-size=16g \
    -v "${PWD}":/root/xfastertransformer \
    -v /data/:/data/ \
    -w /root/xfastertransformer \
    -e "http_proxy=$http_proxy" \
    -e "https_proxy=$https_proxy" \
    intel/xfastertransformer:dev-ubuntu22.04

Notice!!!: Please enlarge --shm-size if bus error occurred while running in the multi-ranks mode . The default docker limits the shared memory size to 64MB and our implementation uses many shared memories to achieve a better performance.

How to build
  • Using 'CMake'
    # Build xFasterTransformer
    git clone https://github.com/intel/xFasterTransformer.git xFasterTransformer
    cd xFasterTransformer
    git checkout <latest-tag>
    # Please make sure torch is installed when run python example
    mkdir build && cd build
    cmake ..
    make -j
    
  • Using 'python setup.py'
    # Build xFasterTransformer library and C++ example.
    python setup.py build
    
    # Install xFasterTransformer into pip environment.
    # Run `python setup.py build` before installation.
    python setup.py install
    

Models Preparation

xFasterTransformer supports a different model format from Huggingface, but it's compatible with FasterTransformer's format.

  1. Download the huggingface format model firstly.
  2. After that, convert the model into xFasterTransformer format.
    • Using model convert module in xfastertransformer. If output directory is not provided, converted model will be placed into ${HF_DATASET_DIR}-xft.
      python -c "import xfastertransformer as xft; xft.LlamaConvert().convert("${HF_DATASET_DIR}","${OUTPUT_DIR}")"
      
      Supported model convert list:
      • LlamaConvert
      • ChatGLMConvert
      • ChatGLM2Convert
      • OPTConvert
      • BaichuanConvert
    • Using the corresponding script in tools folder. Each supported model has a corresponding conversion script. You will see many bin files in the output directory.
        python ./tools/chatglm_convert.py -i ${HF_DATASET_DIR} -o ${OUTPUT_DIR}
    

API usage

For more details, please see API document and examples.

Python API(PyTorch)

Firstly, please install the dependencies.

  • Python dependencies
    pip install -r requirements.txt
    
  • oneCCL (For multi ranks)
    Install oneCCL and setup the environment. Please refer to Prepare Environment.

xFasterTransformer's Python API is similar to transformers and also supports transformers's streamer to achieve the streaming output. In the example, we use transformers to encode input prompts to token ids.

import xfastertransformer
from transformers import AutoTokenizer, TextStreamer
# Assume huggingface model dir is `/data/chatglm-6b-hf` and converted model dir is `/data/chatglm-6b-xft`.
MODEL_PATH="/data/chatglm-6b-xft"
TOKEN_PATH="/data/chatglm-6b-hf"

INPUT_PROMPT = "Once upon a time, there existed a little girl who liked to have adventures."
tokenizer = AutoTokenizer.from_pretrained(TOKEN_PATH, use_fast=False, padding_side="left", trust_remote_code=True)
streamer = TextStreamer(tokenizer, skip_special_tokens=True, skip_prompt=False)

input_ids = tokenizer(INPUT_PROMPT, return_tensors="pt", padding=False).input_ids
model = xfastertransformer.AutoModel.from_pretrained(MODEL_PATH, dtype="bf16")
generated_ids = model.generate(input_ids, max_length=200, streamer=streamer)

C++ API

SentencePiece can be used to tokenizer and detokenizer text.

#include <vector>
#include <iostream>
#include "xfastertransformer.h"
// ChatGLM token ids for prompt "Once upon a time, there existed a little girl who liked to have adventures."
std::vector<int> input(
        {3393, 955, 104, 163, 6, 173, 9166, 104, 486, 2511, 172, 7599, 103, 127, 17163, 7, 130001, 130004});

// Assume converted model dir is `/data/chatglm-6b-xft`.
xft::AutoModel model("/data/chatglm-6b-xft", xft::DataType::bf16);

model.config(/*max length*/ 100, /*num beams*/ 1);
model.input(/*input token ids*/ input, /*batch size*/ 1);

while (!model.isDone()) {
    std::vector<int> nextIds = model.generate();
}

std::vector<int> result = model.finalize();
for (auto id : result) {
    std::cout << id << " ";
}
std::cout << std::endl;

How to run

Recommend preloading libiomp5.so to get a better performance. libiomp5.so file will be in 3rdparty/mklml/lib directory after building xFasterTransformer successfully.

Single rank

FasterTransformer will automatically check the MPI environment, or you can use the SINGLE_INSTANCE=1 environment variable to forcefully deactivate MPI.

Multi ranks

Command line

Use MPI to run in the multi-ranks mode, please install oneCCL firstly.

  • oneCCL Installation

    • If you have built xfastertransformer from source, oneCCL is installed in 3rdparty when compilation.
      source ./3rdparty/oneccl/build/_install/env/setvars.sh
      
    • Use provided scripts to build it from source code.
      cd 3rdparty
      sh prepare_oneccl.sh
      source ./oneccl/build/_install/env/setvars.sh
      
    • Install oneCCL through installing Intel® oneAPI Base Toolkit. And source the enviroment by:
      source /opt/intel/oneapi/setvars.sh
      
  • Here is a example on local.

    OMP_NUM_THREADS=48 LD_PRELOAD=libiomp5.so mpirun \
      -n 1 numactl -N 0  -m 0 ${RUN_WORKLOAD} : \
      -n 1 numactl -N 1  -m 1 ${RUN_WORKLOAD} 
    

Code

For more details, please refer to examples.

Python

model.rank can get the process's rank, model.rank == 0 is the Master.
For Slaves, after loading the model, the only thing needs to do is model.generate(). The input and generation configuration will be auto synced.

model = xfastertransformer.AutoModel.from_pretrained("/data/chatglm-6b-xft", dtype="bf16")

# Slave
while True:
    model.generate()
C++

model.getRank() can get the process's rank, model.getRank() == 0 is the Master.
For Slaves, any value can be input to model.config() and model.input since Master's value will be synced.

xft::AutoModel model("/data/chatglm-6b-xft", xft::DataType::bf16);

// Slave
while (1) {
    model.config();
    std::vector<int> input_ids;
    model.input(/*input token ids*/ input_ids, /*batch size*/ 1);

    while (!model.isDone()) {
        model.generate();
    }
}

Web Demo

A web demo based on Gradio is provided in repo. Now support ChatGLM, ChatGLM2 and Llama2 models.

  • Perpare the model.
  • Install the dependencies
    pip install -r examples/web_demo/requirements.txt
    
  • Run the script corresponding to the model. After the web server started, open the output URL in the browser to use the demo. Please specify the paths of model and tokenizer directory, and data type. transformer's tokenizer is used to encode and decode text so ${TOKEN_PATH} means the huggingface model directory. This demo also support multi-rank.
# Recommend preloading `libiomp5.so` to get a better performance.
# `libiomp5.so` file will be in `3rdparty/mklml/lib` directory after build xFasterTransformer.
LD_PRELOAD=libiomp5.so python examples/web_demo/ChatGLM.py \
                                    --dtype=bf16 \
                                    --token_path=${TOKEN_PATH} \
                                    --model_path=${MODEL_PATH}

Benchmark

Benchmark scripts are provided to get the model inference performance quickly.

  • Prepare the model.
  • Enter the folder corresponding to the model, for example
    cd benchmark/chatglm6b/
    
  • Run scripts run_${MODEL}.sh. Please modify the model and tokenizer path in ${MODEL}.sh before running.
    • Shell script will automatically check the number of numa nodes. By default, at least there are 2 nodes and 48 physics cores per node (If the system is in sub-numa status, there are 12 cores for each sub-numa).
    • By default, you will get the performance of "input token=32, output token=32, Beam_width=1, FP16".
    • If more datatype and scenarios performance needed, please modify the parameters in ${MODEL}.sh
    • If system configuration needs modification, please change run-chatglm-6b.sh.
    • If you want the custom input, please modify the prompt_pool.json file.

Notes!!!: The system and CPU configuration may be different. For the best performance, please try to modify OMP_NUM_THREADS, datatype and the memory nodes number (check the memory nodes using numactl -H) according to your test environment.

Support

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