llama.cpp/docs/backend/CANN.md

11 KiB

llama.cpp for CANN

Background

Ascend NPU is a range of AI processors using Neural Processing Unit. It will efficiently handle matrix-matrix multiplication, dot-product and scalars.

CANN (Compute Architecture for Neural Networks) is a heterogeneous computing architecture for AI scenarios, providing support for multiple AI frameworks on the top and serving AI processors and programming at the bottom. It plays a crucial role in bridging the gap between upper and lower layers, and is a key platform for improving the computing efficiency of Ascend AI processors. Meanwhile, it offers a highly efficient and easy-to-use programming interface for diverse application scenarios, allowing users to rapidly build AI applications and services based on the Ascend platform.

Llama.cpp + CANN

The llama.cpp CANN backend is designed to support Ascend NPU. It utilize the ability of AscendC and ACLNN which are intergrated to CANN Toolkit and kernels to using Ascend NPU directly.

News

  • 2024.11
    • Support F16 and F32 data type model for Ascend 310P NPU.
  • 2024.8
    • Support Q4_0 and Q8_0 data type for Ascend NPU.
  • 2024.7
    • Create CANN backend for Ascend NPU.

OS

OS Status Verified
Linux Support Ubuntu 22.04, OpenEuler22.03

Hardware

Ascend NPU

Verified devices

Ascend NPU Status
Atlas 300T A2 Support
Atlas 300I Duo Support

Notes:

  • If you have trouble with Ascend NPU device, please create a issue with [CANN] prefix/tag.
  • If you run successfully with your Ascend NPU device, please help update the upper table.

Model Supports

Model Name FP16 Q8_0 Q4_0
AquilaChat2-7B
Baichuan-7b
Baichuan2-7B-Chat
bitnet_b1_58-large
bloom-560m x
bloomz-alpaca-560m x
c4ai-command-r-35B-v01 x x x
chatglm3-6B x x x
chinese-alpaca-2-1.3b
CodeShell-7B
deepseek-ai_deepseek-coder-1.3B-base x x x
deepseek-ai_DeepSeek-V2-Lite x x x
deepseek-coder-6.7B-instruct x x x
DeepSeek-V2-Lite-64x1.5B x x x
falcon-7b-instruct
flan-t5-large
gemma-2-9b-it
glm-4-9B x x x
gpt2
Gpt2-163M
granite-3B-code-instruct
GritLM-7B
internlm2_5-7b-chat
koala-7B-HF
Llama-2-7b-chat-hf
Llama-3-Smaug-8B
Llama2-Chinese-7b-Chat
Llama3-8B
Llama3-8b-chinese
mamba-130m-hf
Mistral-7B-Instruct-v0.2
Mixtral-8x7B-Instruct-v0.1 x
mpt-7B
OLMo-1B-hf
OpenELM-3B-Instruct
Orion-14b-base
phi1 x x x
phi2 x x x
Phi-3-mini-4k-instruct
plamo-13b
pythia-70M x x x
Qwen-7B
Qwen2-1.5B-Instruct x
Refact-1_6B-fim
SmolLM-135M
stablelm-zephyr x x x
stablelm-2-zephyr-1_6b x x x
starcoderbase-1b
starcoder2-3b
vigogne-7b-chat
xverse-7b-chat
Yi-6b-Chat

DataType Supports

DataType Status
FP16 Support
Q8_0 Support
Q4_0 Support

Docker

Build Images

You can get a image with llama.cpp in one command.

docker build -t llama-cpp-cann -f .devops/llama-cli-cann.Dockerfile .

Run container

# Find all cards.
npu-smi info

# Select the cards that you want to use, make sure these cards are not used by someone.
# Following using cards of device0.
docker run --name llamacpp --device /dev/davinci0  --device /dev/davinci_manager --device /dev/devmm_svm --device /dev/hisi_hdc -v /usr/local/dcmi:/usr/local/dcmi -v /usr/local/bin/npu-smi:/usr/local/bin/npu-smi -v /usr/local/Ascend/driver/lib64/:/usr/local/Ascend/driver/lib64/ -v /usr/local/Ascend/driver/version.info:/usr/local/Ascend/driver/version.info -v /PATH_TO_YOUR_MODELS/:/app/models -it llama-cpp-cann -m /app/models/MODEL_PATH -ngl 32 -p "Building a website can be done in 10 simple steps:"

Notes:

  • You may need to install Ascend Driver and firmware on the host machine (Please refer to the Linux configuration for details).

Linux

I. Setup Environment

  1. Install Ascend Driver and firmware

    # create driver running user.
    sudo groupadd -g HwHiAiUser
    sudo useradd -g HwHiAiUser -d /home/HwHiAiUser -m HwHiAiUser -s /bin/bash
    sudo usermod -aG HwHiAiUser $USER
    
    # download driver from https://www.hiascend.com/hardware/firmware-drivers/community according to your system
    # and install driver.
    sudo sh Ascend-hdk-910b-npu-driver_x.x.x_linux-{arch}.run --full --install-for-all
    

    Once installed, run npu-smi info to check whether driver is installed successfully.

    +-------------------------------------------------------------------------------------------+
    | npu-smi 24.1.rc2               Version: 24.1.rc2                                          |
    +----------------------+---------------+----------------------------------------------------+
    | NPU   Name           | Health        | Power(W)    Temp(C)           Hugepages-Usage(page)|
    | Chip                 | Bus-Id        | AICore(%)   Memory-Usage(MB)  HBM-Usage(MB)        |
    +======================+===============+====================================================+
    | 2     xxx            | OK            | 64.4        51                15   / 15            |
    | 0                    | 0000:01:00.0  | 0           1873 / 15077      0    / 32768         |
    +======================+===============+====================================================+
    | 5     xxx            | OK            | 64.0        52                15   / 15            |
    | 0                    | 0000:81:00.0  | 0           1874 / 15077      0    / 32768         |
    +======================+===============+====================================================+
    | No running processes found in NPU 2                                                       |
    +======================+===============+====================================================+
    | No running processes found in NPU 5                                                       |
    +======================+===============+====================================================+
    
  2. Install Ascend Firmware

    # download driver from https://www.hiascend.com/hardware/firmware-drivers/community according to your system
    # and install driver.
    sudo sh Ascend-hdk-910b-npu-firmware_x.x.x.x.X.run --full
    

    If the following messaage appers, firmware is installed successfully.

    Firmware package installed successfully!
    
  3. Install CANN toolkit and kernels

    CANN toolkit and kernels can be obtained from the official CANN Toolkit page.

    Please download the corresponding version that satified your system. The minimum version required is 8.0.RC2.alpha002 and here is the install command.

    pip3 install attrs numpy decorator sympy cffi pyyaml pathlib2 psutil protobuf scipy requests absl-py wheel typing_extensions
    sh Ascend-cann-toolkit_8.0.RC2.alpha002_linux-aarch64.run --install
    sh Ascend-cann-kernels-910b_8.0.RC2.alpha002_linux.run --install
    

    Set Ascend Variables:

    echo "source ~/Ascend/ascend-toolkit/set_env.sh" >> ~/.bashrc
    source ~/.bashrc
    

Upon a successful installation, CANN is enabled for the available ascend devices.

II. Build llama.cpp

cmake -B build -DGGML_CANN=on -DCMAKE_BUILD_TYPE=release
cmake --build build --config release

III. Run the inference

  1. Retrieve and prepare model

    You can refer to the general Prepare and Quantize guide for model prepration.

    Notes:

    • CANN backend only supports FP16/Q4_0/Q8_0 models currently.
  2. Launch inference

    There are two device selection modes:

    • Single device: Use one device target specified by the user.
    • Multiple devices: Automatically choose the devices with the same backend.
    Device selection Parameter
    Single device --split-mode none --main-gpu DEVICE_ID
    Multiple devices --split-mode layer (default)

    Examples:

    • Use device 0:
    ./build/bin/llama-cli -m path_to_model -p "Building a website can be done in 10 simple steps:" -n 400 -e -ngl 33 -sm none -mg 0
    
    • Use multiple devices:
    ./build/bin/llama-cli -m path_to_model -p "Building a website can be done in 10 simple steps:" -n 400 -e -ngl 33 -sm layer
    

GitHub contribution:

Please add the [CANN] prefix/tag in issues/PRs titles to help the CANN-team check/address them without delay.

TODO

  • Support more models and data types.