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| disagg_config.yaml | ||
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Disaggregated Serving
To run TensorRT-LLM in disaggregated mode, you must first launch context (prefill) and generation (decode) servers using trtllm-serve.
Launching disaggregated servers locally on single node
We use the cache_transceiver_config configuration to set up disaggregated serving, which includes the following parameters:
cache_transceiver_config:
backend: <str>
max_tokens_in_buffer: <int>
backend specifies the communication backend for transferring the kvCache, valid options include DEFAULT,UCX, NIXL, and MPI, the default backend is UCX.
max_tokens_in_buffer defines the buffer size for kvCache transfers, it is recommended to set this value greater than or equal to the maximum ISL (Input Sequence Length) of all requests for optimal performance.
You can use multiple trtllm-serve commands to launch the context and generation servers that will be used
for disaggregated serving. For example, you could launch two context servers and one generation servers as follows:
# Generate context_extra-llm-api-config.yml
# Overlap scheduler for context servers are disabled because it's not supported for disaggregated context servers yet
echo -e "disable_overlap_scheduler: True\ncache_transceiver_config:\n backend: UCX\n max_tokens_in_buffer: 2048" > context_extra-llm-api-config.yml
# Start context servers
CUDA_VISIBLE_DEVICES=0 trtllm-serve TinyLlama/TinyLlama-1.1B-Chat-v1.0 --host localhost --port 8001 --extra_llm_api_options ./context_extra-llm-api-config.yml &> log_ctx_0 &
CUDA_VISIBLE_DEVICES=1 trtllm-serve TinyLlama/TinyLlama-1.1B-Chat-v1.0 --host localhost --port 8002 --extra_llm_api_options ./context_extra-llm-api-config.yml &> log_ctx_1 &
# Generate gen_extra-llm-api-config.yml
echo -e "cache_transceiver_config:\n backend: UCX\n max_tokens_in_buffer: 2048" > gen_extra-llm-api-config.yml
# Start generation servers
CUDA_VISIBLE_DEVICES=2 trtllm-serve TinyLlama/TinyLlama-1.1B-Chat-v1.0 --host localhost --port 8003 --extra_llm_api_options ./gen_extra-llm-api-config.yml &> log_gen_0 &
Once the context and generation servers are launched, you can launch the disaggregated server, which will accept requests from clients and do the orchestration between context and generation servers. The disaggregated server can be launched with:
trtllm-serve disaggregated -c disagg_config.yaml
where disagg_config.yaml contains information about the context and generation servers. For the current example,
it would look like:
hostname: localhost
port: 8000
backend: pytorch
context_servers:
num_instances: 2
urls:
- "localhost:8001"
- "localhost:8002"
generation_servers:
num_instances: 1
urls:
- "localhost:8003"
Clients can then send requests to the disaggregated server at localhost:8000, which is an OpenAI API compatible endpoint.
Launching disaggregated servers on SLURM clusters
Refer to Disaggregated Inference Benchmark Scripts.
Sending requests to the disaggregated server
Once the context, generation and disaggregated servers are launched, you can send requests to the disaggregated server using curl:
curl http://localhost:8000/v1/completions \
-H "Content-Type: application/json" \
-d '{
"model": "TinyLlama/TinyLlama-1.1B-Chat-v1.0",
"prompt": "NVIDIA is a great company because",
"max_tokens": 16,
"temperature": 0
}' -w "\n"
Or using the provided client parsing the prompts from a file and sending request to the disaggregated server specified in the disagg_config.yaml file at the chat endpoint:
python3 ./clients/disagg_client.py -c disagg_config.yaml -p ./clients/prompts.json -e chat
Dynamic scaling (Experimental)
Currently, trtllm supports dynamic addition and removal of servers by leveraging ETCD. To enable this feature, you should start the context and generation servers with an additional flag --metadata_server_config_file and --server_role.
Before launching the context and generation servers, you should first start the ETCD server. By default, the ETCD server listens for client requests at localhost:2379.
etcd
After this, you can enable the dynamic scaling feature for the use case above as follows:
export TRTLLM_USE_UCX_KVCACHE=1
# Context servers
CUDA_VISIBLE_DEVICES=0 trtllm-serve TinyLlama/TinyLlama-1.1B-Chat-v1.0 --host localhost --port 8001 --server_role CONTEXT --extra_llm_api_options ./context_extra-llm-api-config.yml --metadata_server_config_file ./metadata_config.yml &> log_ctx_0 &
CUDA_VISIBLE_DEVICES=1 trtllm-serve TinyLlama/TinyLlama-1.1B-Chat-v1.0 --host localhost --port 8002 --server_role CONTEXT --extra_llm_api_options ./context_extra-llm-api-config.yml --metadata_server_config_file ./metadata_config.yml &> log_ctx_1 &
# Generation servers
CUDA_VISIBLE_DEVICES=2 trtllm-serve TinyLlama/TinyLlama-1.1B-Chat-v1.0 --host localhost --port 8003 --server_role GENERATION --extra_llm_api_options ./gen_extra-llm-api-config.yml --metadata_server_config_file ./metadata_config.yml &> log_gen_0 &
As for the disaggregated server, you should also specify the --metadata_server_config_file like the following
trtllm-serve disaggregated -c disagg_config.yaml -m ./metadata_config.yml
The metadata_config file looks like
hostname: "localhost"
port: 2379
health_check_timeout: 5.0
refersh_interval: 10.0
The hostname and port must match those used when starting the ETCD server. The health_check_timeout parameter specifies how long a server will be considered dead if no healthy response is received. By default, trtllm will perform two checks before marking a server as dead. The refresh_interval parameter determines how often the latest server list is fetched from the ETCD server.
Dynamically adding servers
Users can add servers by directly launching them with trtllm-serve. For example, you can start an additional generation server as follows:
CUDA_VISIBLE_DEVICES=3 trtllm-serve TinyLlama/TinyLlama-1.1B-Chat-v1.0 \
--host localhost --port 8004 \
--server_role GENERATION \
--extra_llm_api_options ./gen_extra-llm-api-config.yml \
--metadata_server_config_file ./metadata_config.yml &> log_gen_0 &
TensorRT-LLM will automatically register any newly launched server with the ETCD server, allowing the router to send new requests to the added server.
Dynamically removing servers
When removing servers, special attention is required in the current version. You need to first remove the corresponding key from the ETCD server. After you see the log message "Server xxxx is removed," you can then safely shut down the server. This part will be improved soon.
Launching context and generation servers using MPI (Deprecated)
One can also launch all context and generation servers using MPI. This can be done by issuing the following command:
export TRTLLM_USE_MPI_KVCACHE=1
mpirun -n <total_num_ranks> trtllm-serve disaggregated_mpi_worker -c disagg_config.yaml
where <total_num_ranks> is the sum of TP*PP for all context and generation servers. For the example above, total_num_ranks is 3
since TP and PP is 1 for the two context and one generation server.
The disagg_config.yaml file must now contain the configuration parameters of the context and generation servers. For example,
it could look like:
hostname: localhost
port: 8000
model: TinyLlama/TinyLlama-1.1B-Chat-v1.0
backend: "pytorch"
disable_overlap_scheduler: True
context_servers:
num_instances: 2
tensor_parallel_size: 1
pipeline_parallel_size: 1
kv_cache_config:
free_gpu_memory_fraction: 0.9
cache_transceiver_config:
backend: UCX
urls:
- "localhost:8001"
- "localhost:8002"
generation_servers:
num_instances: 1
tensor_parallel_size: 1
pipeline_parallel_size: 1
cache_transceiver_config:
backend: UCX
urls:
- "localhost:8003"
Once the context and generation servers are launched, you can again launch the disaggregated server with
trtllm-serve disaggregated -c disagg_config.yaml
Know Issues
The MPI communication backend for kvCache transfer has been deprecated and may not be supported in the future. When using the MPI backend, the environment variable TRTLLM_USE_MPI_KVCACHE=1 should be set to avoid conflicts between mpi4py and kvCache transfer.