# GLM-5 ## Introduction [GLM-5](https://huggingface.co/zai-org/GLM-5) use a Mixture-of-Experts (MoE) architecture and targeting at complex systems engineering and long-horizon agentic tasks. This document will show the main verification steps of the model, including supported features, feature configuration, environment preparation, single-node and multi-node deployment, accuracy and performance evaluation. ## Supported Features Refer to [supported features](../../user_guide/support_matrix/supported_models.md) to get the model's supported feature matrix. Refer to [feature guide](../../user_guide/feature_guide/index.md) to get the feature's configuration. ## Environment Preparation ### Model Weight - `GLM-5`(BF16 version): [Download model weight](https://www.modelscope.cn/models/ZhipuAI/GLM-5). - `GLM-5-w4a8`(Quantized version without MTP quant): [Download model weight](https://modelscope.cn/models/Eco-Tech/GLM-5-w4a8). - `GLM-5-w4a8`(Quantized version with MTP quant): [Download model weight](https://modelscope.cn/models/Eco-Tech/GLM-5-w4a8-mtp-QuaRot). - You can use [msmodelslim](https://gitcode.com/Ascend/msmodelslim) to quantify the model naively. It is recommended to download the model weight to the shared directory of multiple nodes, such as `/root/.cache/` ### Installation vLLM and vLLM-ascend only support GLM-5 on our main branches. you can use our glm5 docker images for inference. :::::{tab-set} :sync-group: install ::::{tab-item} A3 series :sync: A3 Start the docker image on your each node. ```{code-block} bash :substitutions: # Update --device according to your device (Atlas A3:/dev/davinci[0-15]). # Update the vllm-ascend image according to your environment. # Note you should download the weight to /root/.cache in advance. # Update the vllm-ascend image, glm5-a3 can be replaced by: glm5;glm5-openeuler;glm5-a3-openeuler export IMAGE=m.daocloud.io/quay.io/ascend/vllm-ascend:glm5-a3 export NAME=vllm-ascend # Run the container using the defined variables # Note: If you are running bridge network with docker, please expose available ports for multiple nodes communication in advance docker run --rm \ --name $NAME \ --net=host \ --shm-size=1g \ --device /dev/davinci0 \ --device /dev/davinci1 \ --device /dev/davinci2 \ --device /dev/davinci3 \ --device /dev/davinci4 \ --device /dev/davinci5 \ --device /dev/davinci6 \ --device /dev/davinci7 \ --device /dev/davinci8 \ --device /dev/davinci9 \ --device /dev/davinci10 \ --device /dev/davinci11 \ --device /dev/davinci12 \ --device /dev/davinci13 \ --device /dev/davinci14 \ --device /dev/davinci15 \ --device /dev/davinci_manager \ --device /dev/devmm_svm \ --device /dev/hisi_hdc \ -v /usr/local/dcmi:/usr/local/dcmi \ -v /usr/local/Ascend/driver/tools/hccn_tool:/usr/local/Ascend/driver/tools/hccn_tool \ -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 /etc/ascend_install.info:/etc/ascend_install.info \ -v /root/.cache:/root/.cache \ -it $IMAGE bash ``` :::: ::::{tab-item} A2 series :sync: A2 Start the docker image on your each node. ```{code-block} bash :substitutions: export IMAGE=quay.io/ascend/vllm-ascend:glm5 docker run --rm \ --name vllm-ascend \ --shm-size=1g \ --net=host \ --device /dev/davinci0 \ --device /dev/davinci1 \ --device /dev/davinci2 \ --device /dev/davinci3 \ --device /dev/davinci4 \ --device /dev/davinci5 \ --device /dev/davinci6 \ --device /dev/davinci7 \ --device /dev/davinci_manager \ --device /dev/devmm_svm \ --device /dev/hisi_hdc \ -v /usr/local/dcmi:/usr/local/dcmi \ -v /usr/local/Ascend/driver/tools/hccn_tool:/usr/local/Ascend/driver/tools/hccn_tool \ -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 /etc/ascend_install.info:/etc/ascend_install.info \ -v /root/.cache:/root/.cache \ -it $IMAGE bash ``` :::: ::::: In addition, if you don't want to use the docker image as above, you can also build all from source: - Install `vllm-ascend` from source, refer to [installation](https://docs.vllm.ai/projects/ascend/en/latest/installation.html). - After install `vllm-ascend` from source, you should upgrade vllm、vllm-ascend、transformers to main branches: ```shell # upgrade vllm git clone https://github.com/vllm-project/vllm.git cd vllm git checkout 978a37c82387ce4a40aaadddcdbaf4a06fc4d590 VLLM_TARGET_DEVICE=empty pip install -v . # upgrade vllm-ascend git clone https://github.com/vllm-project/vllm-ascend.git cd vllm-ascend git checkout ff3a50d011dcbea08f87ebed69ff1bf156dbb01e git submodule update --init --recursive pip install -v . # reinstall transformers pip install git+https://github.com/huggingface/transformers.git ``` If you want to deploy multi-node environment, you need to set up environment on each node. ## Deployment ### Single-node Deployment :::::{tab-set} :sync-group: install ::::{tab-item} A3 series :sync: A3 - Quantized model `glm-5-w4a8` can be deployed on 1 Atlas 800 A3 (64G × 16) . Run the following script to execute online inference. ```{code-block} bash :substitutions: export HCCL_OP_EXPANSION_MODE="AIV" export OMP_PROC_BIND=false export OMP_NUM_THREADS=10 export VLLM_USE_V1=1 export HCCL_BUFFSIZE=200 export PYTORCH_NPU_ALLOC_CONF=expandable_segments:True export VLLM_ASCEND_BALANCE_SCHEDULING=1 vllm serve /root/.cache/modelscope/hub/models/vllm-ascend/GLM5-w4a8 \ --host 0.0.0.0 \ --port 8077 \ --data-parallel-size 1 \ --tensor-parallel-size 16 \ --enable-expert-parallel \ --seed 1024 \ --served-model-name glm-5 \ --max-num-seqs 8 \ --max-model-len 66600 \ --max-num-batched-tokens 4096 \ --trust-remote-code \ --gpu-memory-utilization 0.95 \ --quantization ascend \ --enable-chunked-prefill \ --enable-prefix-caching \ --async-scheduling \ --additional-config '{"multistream_overlap_shared_expert":true}' \ --compilation-config '{"cudagraph_mode": "FULL_DECODE_ONLY"}' \ --speculative-config '{"num_speculative_tokens": 3, "method": "deepseek_mtp"}' ``` :::: ::::{tab-item} A2 series :sync: A2 - Quantized model `glm-5-w4a8` can be deployed on 1 Atlas 800 A2 (64G × 8) . Run the following script to execute online inference. ```{code-block} bash :substitutions: export HCCL_OP_EXPANSION_MODE="AIV" export OMP_PROC_BIND=false export OMP_NUM_THREADS=10 export VLLM_USE_V1=1 export HCCL_BUFFSIZE=200 export PYTORCH_NPU_ALLOC_CONF=expandable_segments:True export VLLM_ASCEND_BALANCE_SCHEDULING=1 vllm serve /root/.cache/modelscope/hub/models/vllm-ascend/GLM-5-w4a8 \ --host 0.0.0.0 \ --port 8077 \ --data-parallel-size 1 \ --tensor-parallel-size 8 \ --enable-expert-parallel \ --seed 1024 \ --served-model-name glm-5 \ --max-num-seqs 2 \ --max-model-len 32768 \ --max-num-batched-tokens 4096 \ --trust-remote-code \ --gpu-memory-utilization 0.95 \ --quantization ascend \ --enable-chunked-prefill \ --enable-prefix-caching \ --async-scheduling \ --compilation-config '{"cudagraph_mode": "FULL_DECODE_ONLY"}' \ --additional-config '{"multistream_overlap_shared_expert":true}' \ --speculative-config '{"num_speculative_tokens": 3, "method": "deepseek_mtp"}' ``` :::: ::::: **Notice:** The parameters are explained as follows: - For single-node deployment, we recommend using `dp1tp16` and turn off expert parallel in low-latency scenarios. - `--async-scheduling` Asynchronous scheduling is a technique used to optimize inference efficiency. It allows non-blocking task scheduling to improve concurrency and throughput, especially when processing large-scale models. ### Multi-node Deployment If you want to deploy multi-node environment, you need to verify multi-node communication according to [verify multi-node communication environment](../../installation.md#verify-multi-node-communication). :::::{tab-set} :sync-group: install ::::{tab-item} A3 series :sync: A3 - `glm-5-bf16`: require at least 2 Atlas 800 A3 (64G × 16). Run the following scripts on two nodes respectively. **node 0** ```{code-block} bash :substitutions: # this obtained through ifconfig # nic_name is the network interface name corresponding to local_ip of the current node nic_name="xxx" local_ip="xxx" # The value of node0_ip must be consistent with the value of local_ip set in node0 (master node) node0_ip="xxxx" export HCCL_OP_EXPANSION_MODE="AIV" export HCCL_IF_IP=$local_ip export GLOO_SOCKET_IFNAME=$nic_name export TP_SOCKET_IFNAME=$nic_name export HCCL_SOCKET_IFNAME=$nic_name export OMP_PROC_BIND=false export OMP_NUM_THREADS=10 export VLLM_USE_V1=1 export HCCL_BUFFSIZE=200 export PYTORCH_NPU_ALLOC_CONF=expandable_segments:True vllm serve /root/.cache/modelscope/hub/models/vllm-ascend/GLM5-bf16 \ --host 0.0.0.0 \ --port 8077 \ --data-parallel-size 2 \ --data-parallel-size-local 1 \ --data-parallel-address $node0_ip \ --data-parallel-rpc-port 12890 \ --tensor-parallel-size 16 \ --seed 1024 \ --served-model-name glm-5 \ --enable-expert-parallel \ --max-num-seqs 16 \ --max-model-len 8192 \ --max-num-batched-tokens 4096 \ --trust-remote-code \ --no-enable-prefix-caching \ --gpu-memory-utilization 0.95 \ --compilation-config '{"cudagraph_mode": "FULL_DECODE_ONLY"}' \ --speculative-config '{"num_speculative_tokens": 3, "method": "deepseek_mtp"}' ``` **node 1** ```{code-block} bash :substitutions: # this obtained through ifconfig # nic_name is the network interface name corresponding to local_ip of the current node nic_name="xxx" local_ip="xxx" # The value of node0_ip must be consistent with the value of local_ip set in node0 (master node) node0_ip="xxxx" export HCCL_OP_EXPANSION_MODE="AIV" export HCCL_IF_IP=$local_ip export GLOO_SOCKET_IFNAME=$nic_name export TP_SOCKET_IFNAME=$nic_name export HCCL_SOCKET_IFNAME=$nic_name export OMP_PROC_BIND=false export OMP_NUM_THREADS=10 export VLLM_USE_V1=1 export HCCL_BUFFSIZE=200 export PYTORCH_NPU_ALLOC_CONF=expandable_segments:True vllm serve /root/.cache/modelscope/hub/models/vllm-ascend/GLM5-bf16 \ --host 0.0.0.0 \ --port 8077 \ --headless \ --data-parallel-size 2 \ --data-parallel-size-local 1 \ --data-parallel-start-rank 1 \ --data-parallel-address $node0_ip \ --data-parallel-rpc-port 12890 \ --tensor-parallel-size 16 \ --seed 1024 \ --served-model-name glm-5 \ --enable-expert-parallel \ --max-num-seqs 16 \ --max-model-len 8192 \ --max-num-batched-tokens 4096 \ --trust-remote-code \ --no-enable-prefix-caching \ --gpu-memory-utilization 0.95 \ --compilation-config '{"cudagraph_mode": "FULL_DECODE_ONLY"}' \ --speculative-config '{"num_speculative_tokens": 3, "method": "deepseek_mtp"}' ``` :::: ::::{tab-item} A2 series :sync: A2 Run the following scripts on two nodes respectively. **node 0** ```{code-block} bash :substitutions: # this obtained through ifconfig # nic_name is the network interface name corresponding to local_ip of the current node nic_name="xxx" local_ip="xxx" # The value of node0_ip must be consistent with the value of local_ip set in node0 (master node) node0_ip="xxx" export HCCL_OP_EXPANSION_MODE="AIV" export HCCL_IF_IP=$local_ip export GLOO_SOCKET_IFNAME=$nic_name export TP_SOCKET_IFNAME=$nic_name export HCCL_SOCKET_IFNAME=$nic_name export OMP_PROC_BIND=false export OMP_NUM_THREADS=10 export VLLM_USE_V1=1 export HCCL_BUFFSIZE=200 export PYTORCH_NPU_ALLOC_CONF=expandable_segments:True vllm serve /root/.cache/modelscope/hub/models/vllm-ascend/GLM-5-w4a8 \ --host 0.0.0.0 \ --port 8077 \ --data-parallel-size 2 \ --data-parallel-size-local 1 \ --data-parallel-address $node0_ip \ --data-parallel-rpc-port 13389 \ --tensor-parallel-size 8 \ --quantization ascend \ --seed 1024 \ --served-model-name glm-5 \ --enable-expert-parallel \ --max-num-seqs 2 \ --max-model-len 131072 \ --max-num-batched-tokens 4096 \ --trust-remote-code \ --no-enable-prefix-caching \ --gpu-memory-utilization 0.95 \ --compilation-config '{"cudagraph_mode": "FULL_DECODE_ONLY"}' \ --additional-config '{"multistream_overlap_shared_expert":true}' \ --speculative-config '{"num_speculative_tokens": 3, "method": "deepseek_mtp"}' ``` **node 1** ```{code-block} bash :substitutions: # this obtained through ifconfig # nic_name is the network interface name corresponding to local_ip of the current node nic_name="xxx" local_ip="xxx" # The value of node0_ip must be consistent with the value of local_ip set in node0 (master node) node0_ip="xxx" export HCCL_OP_EXPANSION_MODE="AIV" export HCCL_IF_IP=$local_ip export GLOO_SOCKET_IFNAME=$nic_name export TP_SOCKET_IFNAME=$nic_name export HCCL_SOCKET_IFNAME=$nic_name export OMP_PROC_BIND=false export OMP_NUM_THREADS=10 export VLLM_USE_V1=1 export HCCL_BUFFSIZE=200 export PYTORCH_NPU_ALLOC_CONF=expandable_segments:True vllm serve /root/.cache/modelscope/hub/models/vllm-ascend/GLM-5-w4a8 \ --host 0.0.0.0 \ --port 8077 \ --headless \ --data-parallel-size 2 \ --data-parallel-size-local 1 \ --data-parallel-start-rank 1 \ --data-parallel-address $node0_ip \ --data-parallel-rpc-port 13389 \ --tensor-parallel-size 8 \ --quantization ascend \ --seed 1024 \ --served-model-name glm-5 \ --enable-expert-parallel \ --max-num-seqs 2 \ --max-model-len 131072 \ --max-num-batched-tokens 4096 \ --trust-remote-code \ --no-enable-prefix-caching \ --gpu-memory-utilization 0.95 \ --compilation-config '{"cudagraph_mode": "FULL_DECODE_ONLY"}' \ --additional-config '{"multistream_overlap_shared_expert":true}' \ --speculative-config '{"num_speculative_tokens": 3, "method": "deepseek_mtp"}' ``` :::: ::::: - For bf16 weight, use this script on each node to enable [Multi Token Prediction (MTP)](../../user_guide/feature_guide/Multi_Token_Prediction.md). ```shell python adjust_weight.py "path_of_bf16_weight" ``` ```python # adjust_weight.py from safetensors.torch import safe_open, save_file import torch import json import os import sys target_keys = ["model.embed_tokens.weight", "lm_head.weight"] def get_tensor_info(file_path): with safe_open(file_path, framework="pt", device="cpu") as f: tensor_names = f.keys() tensor_dict = {} for name in tensor_names: tensor = f.get_tensor(name) tensor_dict[name] = tensor return tensor_dict if __name__ == "__main__": directory_path = sys.argv[1] json_name = "model.safetensors.index.json" json_path = os.path.join(directory_path, json_name) with open(json_path, 'r', encoding='utf-8') as f: json_data = json.load(f) weight_map = json_data.get('weight_map', {}) file_list = [] for key in target_keys: safetensor_file = weight_map.get(key) file_list.append(directory_path + safetensor_file) new_dict = {} for file_path in file_list: tensor_dict = get_tensor_info(file_path) for key in target_keys: if key in tensor_dict: if key == "model.embed_tokens.weight": new_key = "model.layers.78.embed_tokens.weight" elif key == "lm_head.weight": new_key = "model.layers.78.shared_head.head.weight" new_dict[new_key] = tensor_dict[key] new_file_name = os.path.join(directory_path, "mtp-others.safetensors") new_key = ["model.layers.78.embed_tokens.weight", "model.layers.78.shared_head.head.weight"] save_file(tensors=new_dict, filename=new_file_name) for key in new_key: json_data["weight_map"][key] = "mtp-others.safetensors" with open(json_path, 'w', encoding='utf-8') as f: json.dump(json_data, f, indent=2) ``` ### Prefill-Decode Disaggregation Not test yet. ## Accuracy Evaluation Here are two accuracy evaluation methods. ### Using AISBench 1. Refer to [Using AISBench](../../developer_guide/evaluation/using_ais_bench.md) for details. 2. After execution, you can get the result. ### Using Language Model Evaluation Harness Not test yet. ## Performance ### Using AISBench Refer to [Using AISBench for performance evaluation](../../developer_guide/evaluation/using_ais_bench.md#execute-performance-evaluation) for details. ### Using vLLM Benchmark Refer to [vllm benchmark](https://docs.vllm.ai/en/latest/contributing/benchmarks.html) for more details.