ktransformers 0.1.1

KTransformers, pronounced as Quick Transformers, is designed to enhance your Transformers experience with advanced kernel optimizations and placement/parallelism strategies.

A Flexible Framework for Experiencing Cutting-edge LLM Inference Optimizations

🔥 Show Cases | 🚀 Quick Start | 📃 Tutorial | 💬 Discussion

🎉 Introduction

KTransformers, pronounced as Quick Transformers, is designed to enhance your 🤗 Transformers experience with advanced kernel optimizations and placement/parallelism strategies.

KTransformers is a flexible, Python-centric framework designed with extensibility at its core. By implementing and injecting an optimized module with a single line of code, users gain access to a Transformers-compatible interface, RESTful APIs compliant with OpenAI and Ollama, and even a simplified ChatGPT-like web UI.

Our vision for KTransformers is to serve as a flexible platform for experimenting with innovative LLM inference optimizations. Please let us know if you need any other features.

🔥 Show Cases

GPT-4-level Local VSCode Copilot on a Desktop with only 24GB VRAM

https://github.com/user-attachments/assets/0b9fa2da-66f0-48eb-b4b9-f0e1f06f8927

• Local 236B DeepSeek-Coder-V2: Running its Q4_K_M version using only 21GB VRAM and 136GB DRAM, attainable on a local desktop machine, which scores even better than GPT4-0613 in BigCodeBench.

• Faster Speed: Achieving 126 tokens/s for 2K prompt prefill and 13.6 tokens/s for generation through MoE offloading and injecting advanced kernels from Llamafile and Marlin.
• VSCode Integration: Wrapped into an OpenAI and Ollama compatible API for seamless integration as a backend for Tabby and various other frontends.

https://github.com/user-attachments/assets/4c6a8a38-05aa-497d-8eb1-3a5b3918429c

More advanced features will coming soon, so stay tuned!

🚀 Quick Start

Preparation

Some preparation:

• CUDA 12.1 and above, if you didn't have it yet, you may install from here.

• Linux-x86_64 with gcc, g++ and cmake

  sudo apt-get update
  sudo apt-get install gcc g++ cmake ninja-build
  

• We recommend using Conda to create a virtual environment with Python=3.11 to run our program.

  conda create --name ktransformers python=3.11
  conda activate ktransformers # you may need to run ‘conda init’ and reopen shell first
  

• Make sure that PyTorch, packaging, ninja is installed

  pip install torch packaging ninja
  

Installation

1. Use a Docker image, see documentation for Docker

2. You can install using Pypi:

   pip install ktransformers --no-build-isolation
   

3. Or you can download source code and compile:

   • init source code

     git clone https://github.com/kvcache-ai/ktransformers.git
     cd ktransformers
     git submodule init
     git submodule update
     

   • [Optional] If you want to run with website, please compile the website before execute bash install.sh
   • Compile and install

     bash install.sh
     

Local Chat

We provide a simple command-line local chat Python script that you can run for testing.

Note that this is a very simple test tool only support one round chat without any memory about last input, if you want to try full ability of the model, you may go to RESTful API and Web UI. We use the DeepSeek-V2-Lite-Chat-GGUF model as an example here. But we also support other models, you can replace it with any other model that you want to test.

Run Example

# Begin from root of your cloned repo!
# Begin from root of your cloned repo!!
# Begin from root of your cloned repo!!! 

# Download mzwing/DeepSeek-V2-Lite-Chat-GGUF from huggingface
mkdir DeepSeek-V2-Lite-Chat-GGUF
cd DeepSeek-V2-Lite-Chat-GGUF

wget https://huggingface.co/mzwing/DeepSeek-V2-Lite-Chat-GGUF/resolve/main/DeepSeek-V2-Lite-Chat.Q4_K_M.gguf -O DeepSeek-V2-Lite-Chat.Q4_K_M.gguf

cd .. # Move to repo's root dir

# Start local chat
python -m ktransformers.local_chat --model_path deepseek-ai/DeepSeek-V2-Lite-Chat --gguf_path ./DeepSeek-V2-Lite-Chat-GGUF

# If you see “OSError: We couldn't connect to 'https://huggingface.co' to load this file”, try：
# GIT_LFS_SKIP_SMUDGE=1 git clone https://huggingface.co/deepseek-ai/DeepSeek-V2-Lite
# python  ktransformers.local_chat --model_path ./DeepSeek-V2-Lite --gguf_path ./DeepSeek-V2-Lite-Chat-GGUF

It features the following arguments:

• --model_path (required): Name of the model (such as "deepseek-ai/DeepSeek-V2-Lite-Chat" which will automatically download configs from Hugging Face). Or if you already got local files you may directly use that path to initialize the model.

  Note: .safetensors files are not required in the directory. We only need config files to build model and tokenizer.

• --gguf_path (required): Path of a directory containing GGUF files which could that can be downloaded from Hugging Face (we only support q4_k_m and q8_0 for now, more formats are coming soon).
• --optimize_rule_path (required except for Qwen2Moe and DeepSeek-V2): Path of YAML file containing optimize rules. There are two rule files pre-written in the ktransformers/optimize/optimize_rules directory for optimizing DeepSeek-V2 and Qwen2-57B-A14, two SOTA MoE models.
• --max_new_tokens: Int (default=1000). Maximum number of new tokens to generate.
• --cpu_infer: Int (default=10). The number of CPUs used for inference. Should ideally be set to the (total number of cores - 2).

Supported Model

Model Name	Model Size	VRAM	Minimum DRAM	Recommended DRAM
DeepSeek-V2-q4_k_m	133G	24G	136G	192G
Qwen2-57B-A14B-Instruct-q4_k_m	33G	8G	34G	64G
DeepSeek-V2-Lite-q4_k_m	9.7G	3G	13G	16G

More will come soon. Please let us know which models you are most interested in.

Be aware that you need to be subject to their corresponding model licenses when using DeepSeek and QWen.

Click To Show how to run other examples

• Qwen2-57B

pip install flash_attn # For Qwen2

mkdir Qwen2-57B-GGUF && cd Qwen2-57B-GGUF

wget https://huggingface.co/Qwen/Qwen2-57B-A14B-Instruct-GGUF/resolve/main/qwen2-57b-a14b-instruct-q4_k_m.gguf?download=true -O qwen2-57b-a14b-instruct-q4_k_m.gguf

cd ..

python -m ktransformers.local_chat --model_name Qwen/Qwen2-57B-A14B-Instruct --gguf_path ./Qwen2-57B-GGUF

# If you see “OSError: We couldn't connect to 'https://huggingface.co' to load this file”, try：
# GIT_LFS_SKIP_SMUDGE=1 git clone https://huggingface.co/Qwen/Qwen2-57B-A14B-Instruct
# python  ktransformers/local_chat.py --model_path ./Qwen2-57B-A14B-Instruct --gguf_path ./DeepSeek-V2-Lite-Chat-GGUF

• DeepseekV2

mkdir DeepSeek-V2-Chat-0628-GGUF && cd DeepSeek-V2-Chat-0628-GGUF
# Download weights
wget https://huggingface.co/bartowski/DeepSeek-V2-Chat-0628-GGUF/resolve/main/DeepSeek-V2-Chat-0628-Q4_K_M/DeepSeek-V2-Chat-0628-Q4_K_M-00001-of-00004.gguf -o DeepSeek-V2-Chat-0628-Q4_K_M-00001-of-00004.gguf
wget https://huggingface.co/bartowski/DeepSeek-V2-Chat-0628-GGUF/resolve/main/DeepSeek-V2-Chat-0628-Q4_K_M/DeepSeek-V2-Chat-0628-Q4_K_M-00002-of-00004.gguf -o DeepSeek-V2-Chat-0628-Q4_K_M-00002-of-00004.gguf
wget https://huggingface.co/bartowski/DeepSeek-V2-Chat-0628-GGUF/resolve/main/DeepSeek-V2-Chat-0628-Q4_K_M/DeepSeek-V2-Chat-0628-Q4_K_M-00003-of-00004.gguf -o DeepSeek-V2-Chat-0628-Q4_K_M-00003-of-00004.gguf
wget https://huggingface.co/bartowski/DeepSeek-V2-Chat-0628-GGUF/resolve/main/DeepSeek-V2-Chat-0628-Q4_K_M/DeepSeek-V2-Chat-0628-Q4_K_M-00004-of-00004.gguf -o DeepSeek-V2-Chat-0628-Q4_K_M-00004-of-00004.gguf

cd ..

python -m ktransformers.local_chat --model_name deepseek-ai/DeepSeek-V2-Chat-0628 --gguf_path ./DeepSeek-V2-Chat-0628-GGUF

# If you see “OSError: We couldn't connect to 'https://huggingface.co' to load this file”, try：
# GIT_LFS_SKIP_SMUDGE=1 git clone https://huggingface.co/deepseek-ai/DeepSeek-V2-Chat-0628
# python -m ktransformers.local_chat --model_path ./DeepSeek-V2-Chat-0628 --gguf_path ./DeepSeek-V2-Chat-0628-GGUF

model name	weights download link
Qwen2-57B	Qwen2-57B-A14B-gguf-Q4K-M
DeepseekV2-coder	DeepSeek-Coder-V2-Instruct-gguf-Q4K-M
DeepseekV2-chat	DeepSeek-V2-Chat-gguf-Q4K-M
DeepseekV2-lite	DeepSeek-V2-Lite-Chat-GGUF-Q4K-M

RESTful API and Web UI

Start without website:

ktransformers --model_path deepseek-ai/DeepSeek-V2-Lite-Chat --gguf_path /path/to/DeepSeek-V2-Lite-Chat-GGUF --port 10002

Start with website:

ktransformers --model_path deepseek-ai/DeepSeek-V2-Lite-Chat --gguf_path /path/to/DeepSeek-V2-Lite-Chat-GGUF  --port 10002 --web True

Or you want to start server with transformers, the model_path should include safetensors

ktransformers --type transformers --model_path /mnt/data/model/Qwen2-0.5B-Instruct --port 10002 --web True

Access website with url http://localhost:10002/web/index.html#/chat :

More information about the RESTful API server can be found here. You can also find an example of integrating with Tabby here.

📃 Brief Injection Tutorial

At the heart of KTransformers is a user-friendly, template-based injection framework. This allows researchers to easily replace original torch modules with optimized variants. It also simplifies the process of combining multiple optimizations, allowing the exploration of their synergistic effects.

Given that vLLM already serves as a great framework for large-scale deployment optimizations, KTransformers is particularly focused on local deployments that are constrained by limited resources. We pay special attention to heterogeneous computing opportunities, such as GPU/CPU offloading of quantized models. For example, we support the efficient Llamafile and Marlin kernels for CPU and GPU, respectively. More details can be found here.

Example Usage

To utilize the provided kernels, users only need to create a YAML-based injection template and add the call to `optimize_and_load_gguf` before using the Transformers model.

with torch.device("meta"):
    model = AutoModelForCausalLM.from_config(config, trust_remote_code=True)
optimize_and_load_gguf(model, optimize_rule_path, gguf_path, config)
...
generated = prefill_and_generate(model, tokenizer, input_tensor.cuda(), max_new_tokens=1000)

In this example, the AutoModel is first initialized on the meta device to avoid occupying any memory resources. Then, optimize_and_load_gguf iterates through all sub-modules of the model, matches rules specified in your YAML rule file, and replaces them with advanced modules as specified.

After injection, the original generate interface is available, but we also provide a compatible prefill_and_generate method, which enables further optimizations like CUDAGraph to improve generation speed.

YAML Template

Below is an example of a YAML template for replacing all original Linear modules with Marlin, an advanced 4-bit quantization kernel.

- match:
    name: "^model\\.layers\\..*$"  # regular expression 
    class: torch.nn.Linear  # only match modules matching name and class simultaneously
  replace:
    class: ktransformers.operators.linear.KTransformerLinear  # optimized Kernel on quantized data types
    device: "cpu"   # which devices to load this module when initializing
    kwargs:
      generate_device: "cuda"
      generate_linear_type: "QuantizedLinearMarlin"

Each rule in the YAML file has two parts: match and replace. The match part specifies which module should be replaced, and the replace part specifies the module to be injected into the model along with the initialization keywords.

You can find example rule templates for optimizing DeepSeek-V2 and Qwen2-57B-A14, two SOTA MoE models, in the ktransformers/optimize/optimize_rules directory. These templates are used to power the local_chat.py demo.

A detailed description of the injection using DeepSeek-V2 as an example is given here.

Acknowledgment and Contributors

The development of KTransformer is based on the flexible and versatile framework provided by Transformers. We also benefit from advanced kernels such as GGUF/GGML, Llamafile, and Marlin. We are planning to contribute back to the community by upstreaming our modifications.

KTransformer is actively maintained and developed by contributors from the MADSys group at Tsinghua University and members from Approaching.AI. We welcome new contributors to join us in making KTransformer faster and easier to use.