# Prefill-Decode Disaggregation Llmdatadist Verification (Qwen2.5-VL) ## Getting Start vLLM-Ascend now supports prefill-decode (PD) disaggregation. This guide takes one-by-one steps to verify these features with constrained resources. Using the Qwen2.5-VL-7B-Instruct model as an example, use vllm-ascend v0.11.0rc1 (with vLLM v0.11.0) on 1 Atlas 800T A2 server to deploy the "1P1D" architecture. Assume the IP address is 192.0.0.1. ## Verify Communication Environment ### Verification Process 1. Single Node Verification: Execute the following commands in sequence. The results must all be `success` and the status must be `UP`: ```bash # Check the remote switch ports for i in {0..7}; do hccn_tool -i $i -lldp -g | grep Ifname; done # Get the link status of the Ethernet ports (UP or DOWN) for i in {0..7}; do hccn_tool -i $i -link -g ; done # Check the network health status for i in {0..7}; do hccn_tool -i $i -net_health -g ; done # View the network detected IP configuration for i in {0..7}; do hccn_tool -i $i -netdetect -g ; done # View gateway configuration for i in {0..7}; do hccn_tool -i $i -gateway -g ; done # View NPU network configuration cat /etc/hccn.conf ``` 2. Get NPU IP Addresses ```bash for i in {0..7}; do hccn_tool -i $i -ip -g;done ``` ## Generate Ranktable The rank table is a JSON file that specifies the mapping of Ascend NPU ranks to nodes. For more details, please refer to the [vllm-ascend examples](https://github.com/vllm-project/vllm-ascend/blob/main/examples/disaggregated_prefill_v1/README.md). Execute the following commands for reference. ```shell cd vllm-ascend/examples/disaggregate_prefill_v1/ bash gen_ranktable.sh --ips 192.0.0.1 \ --npus-per-node 2 --network-card-name eth0 --prefill-device-cnt 1 --decode-device-cnt 1 ``` If you want to run "2P1D", please set npus-per-node to 3 and prefill-device-cnt to 2. The rank table will be generated at /vllm-workspace/vllm-ascend/examples/disaggregate_prefill_v1/ranktable.json |Parameter | Meaning | | --- | --- | | --ips | Each node's local IP address (prefiller nodes should be in front of decoder nodes) | | --npus-per-node | Each node's NPU clips | | --network-card-name | The physical machines' NIC | |--prefill-device-cnt | NPU clips used for prefill | |--decode-device-cnt |NPU clips used for decode | ## Prefiller/Decoder Deployment We can run the following scripts to launch a server on the prefiller/decoder NPU, respectively. :::::{tab-set} ::::{tab-item} Prefiller ```shell export ASCEND_RT_VISIBLE_DEVICES=0 export HCCL_IF_IP=192.0.0.1 # node ip export GLOO_SOCKET_IFNAME="eth0" # network card name export TP_SOCKET_IFNAME="eth0" export HCCL_SOCKET_IFNAME="eth0" export DISAGGREGATED_PREFILL_RANK_TABLE_PATH="/path/to/your/generated/ranktable.json" export OMP_PROC_BIND=false export OMP_NUM_THREADS=10 export VLLM_ASCEND_LLMDD_RPC_PORT=5959 vllm serve /model/Qwen2.5-VL-7B-Instruct \ --host 0.0.0.0 \ --port 13700 \ --tensor-parallel-size 1 \ --no-enable-prefix-caching \ --seed 1024 \ --served-model-name qwen25vl \ --max-model-len 40000 \ --max-num-batched-tokens 40000 \ --trust-remote-code \ --gpu-memory-utilization 0.9 \ --kv-transfer-config \ '{"kv_connector": "LLMDataDistCMgrConnector", "kv_buffer_device": "npu", "kv_role": "kv_producer", "kv_parallel_size": 1, "kv_port": "20001", "engine_id": "0", "kv_connector_module_path": "vllm_ascend.distributed.llmdatadist_c_mgr_connector" }' ``` :::: ::::{tab-item} Decoder ```shell export ASCEND_RT_VISIBLE_DEVICES=1 export HCCL_IF_IP=192.0.0.1 # node ip export GLOO_SOCKET_IFNAME="eth0" # network card name export TP_SOCKET_IFNAME="eth0" export HCCL_SOCKET_IFNAME="eth0" export DISAGGREGATED_PREFILL_RANK_TABLE_PATH="/path/to/your/generated/ranktable.json" export OMP_PROC_BIND=false export OMP_NUM_THREADS=10 export VLLM_ASCEND_LLMDD_RPC_PORT=5979 vllm serve /model/Qwen2.5-VL-7B-Instruct \ --host 0.0.0.0 \ --port 13701 \ --no-enable-prefix-caching \ --tensor-parallel-size 1 \ --seed 1024 \ --served-model-name qwen25vl \ --max-model-len 40000 \ --max-num-batched-tokens 40000 \ --trust-remote-code \ --gpu-memory-utilization 0.9 \ --kv-transfer-config \ '{"kv_connector": "LLMDataDistCMgrConnector", "kv_buffer_device": "npu", "kv_role": "kv_consumer", "kv_parallel_size": 1, "kv_port": "20001", "engine_id": "0", "kv_connector_module_path": "vllm_ascend.distributed.llmdatadist_c_mgr_connector" }' ``` :::: ::::: If you want to run "2P1D", please set ASCEND_RT_VISIBLE_DEVICES, VLLM_ASCEND_LLMDD_RPC_PORT and port to different values for each P process. ## Example Proxy for Deployment Run a proxy server on the same node with the prefiller service instance. You can get the proxy program in the repository's examples: [load\_balance\_proxy\_server\_example.py](https://github.com/vllm-project/vllm-ascend/blob/main/examples/disaggregated_prefill_v1/load_balance_proxy_server_example.py) ```shell python load_balance_proxy_server_example.py \ --host 192.0.0.1 \ --port 8080 \ --prefiller-hosts 192.0.0.1 \ --prefiller-port 13700 \ --decoder-hosts 192.0.0.1 \ --decoder-ports 13701 ``` |Parameter | Meaning | | --- | --- | | --port | Port of proxy | | --prefiller-port | All ports of prefill | | --decoder-ports | All ports of decoder | ## Verification Check service health using the proxy server endpoint. ```shell curl http://192.0.0.1:8080/v1/chat/completions \ -H "Content-Type: application/json" \ -d '{ "model": "qwen25vl", "messages": [ {"role": "system", "content": "You are a helpful assistant."}, {"role": "user", "content": [ {"type": "image_url", "image_url": {"url": "https://modelscope.oss-cn-beijing.aliyuncs.com/resource/qwen.png"}}, {"type": "text", "text": "What is the text in the illustrate?"} ]} ], "max_tokens": 100, "temperature": 0 }' ```