Files
agentic-kvc/third_party/vllm
Gahow Wang e3a1d70cf2 Switch from RDMA READ to bootstrap-triggered PUSH
RDMA READ (batch_transfer_sync_read) fails on GPU memory because
batch_register_memory only sets IBV_ACCESS_REMOTE_WRITE.

New approach: D sends /push_blocks to C's bootstrap with token_ids
+ D's GPU addresses. C's bootstrap:
1. Looks up matching blocks in synced hash table (640/640 verified)
2. Uses C's TransferEngine.batch_transfer_sync_write to PUSH blocks
   directly into D's GPU memory
3. Returns match count + push status

C's scheduler is still NOT involved (0 GPU compute on C).
The push uses C's worker thread + existing RDMA WRITE path (proven reliable).

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
2026-05-24 01:47:49 +08:00
..

vLLM

Easy, fast, and cheap LLM serving for everyone

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🔥 We have built a vllm website to help you get started with vllm. Please visit vllm.ai to learn more. For events, please visit vllm.ai/events to join us.


About

vLLM is a fast and easy-to-use library for LLM inference and serving.

Originally developed in the Sky Computing Lab at UC Berkeley, vLLM has evolved into a community-driven project with contributions from both academia and industry.

vLLM is fast with:

  • State-of-the-art serving throughput
  • Efficient management of attention key and value memory with PagedAttention
  • Continuous batching of incoming requests
  • Fast model execution with CUDA/HIP graph
  • Quantizations: GPTQ, AWQ, AutoRound, INT4, INT8, and FP8
  • Optimized CUDA kernels, including integration with FlashAttention and FlashInfer
  • Speculative decoding
  • Chunked prefill

vLLM is flexible and easy to use with:

  • Seamless integration with popular Hugging Face models
  • High-throughput serving with various decoding algorithms, including parallel sampling, beam search, and more
  • Tensor, pipeline, data and expert parallelism support for distributed inference
  • Streaming outputs
  • OpenAI-compatible API server
  • Support for NVIDIA GPUs, AMD CPUs and GPUs, Intel CPUs and GPUs, PowerPC CPUs, Arm CPUs, and TPU. Additionally, support for diverse hardware plugins such as Intel Gaudi, IBM Spyre and Huawei Ascend.
  • Prefix caching support
  • Multi-LoRA support

vLLM seamlessly supports most popular open-source models on HuggingFace, including:

  • Transformer-like LLMs (e.g., Llama)
  • Mixture-of-Expert LLMs (e.g., Mixtral, Deepseek-V2 and V3)
  • Embedding Models (e.g., E5-Mistral)
  • Multi-modal LLMs (e.g., LLaVA)

Find the full list of supported models here.

Getting Started

Install vLLM with pip or from source:

pip install vllm

Visit our documentation to learn more.

Contributing

We welcome and value any contributions and collaborations. Please check out Contributing to vLLM for how to get involved.

Citation

If you use vLLM for your research, please cite our paper:

@inproceedings{kwon2023efficient,
  title={Efficient Memory Management for Large Language Model Serving with PagedAttention},
  author={Woosuk Kwon and Zhuohan Li and Siyuan Zhuang and Ying Sheng and Lianmin Zheng and Cody Hao Yu and Joseph E. Gonzalez and Hao Zhang and Ion Stoica},
  booktitle={Proceedings of the ACM SIGOPS 29th Symposium on Operating Systems Principles},
  year={2023}
}

Contact Us

  • For technical questions and feature requests, please use GitHub Issues
  • For discussing with fellow users, please use the vLLM Forum
  • For coordinating contributions and development, please use Slack
  • For security disclosures, please use GitHub's Security Advisories feature
  • For collaborations and partnerships, please contact us at collaboration@vllm.ai

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