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Zijie Tian 1eb7521994 📝 docs: add XAttention density types documentation

Document the difference between compute density (BSA block level)
and communication density (CPU block level).

Key finding: Even with 37% compute density, comm density can be 100%
due to any() aggregation across heads/Q-positions spreading sparse
blocks across all CPU blocks.

Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>

2026-02-05 01:44:11 +08:00

.claude

✨ feat: add nsys-profiler agent for kernel performance analysis

2026-01-28 06:24:09 +08:00

.ralph-tui

[plugin] Added ralph-tui setup.

2026-02-05 01:27:53 +08:00

3rdparty

chore: add Block-SparseAttention submodule from tzj/vs_offload

2026-01-18 19:22:40 +08:00

assets

add logo and trendshift

2025-11-04 00:45:10 +08:00

csrc

[WIP] Added sgDMA operator for scatter kvcache communication.

2025-12-24 23:48:52 +08:00

docs

📝 docs: add XAttention density types documentation

2026-02-05 01:44:11 +08:00

nanovllm

📊 feat: distinguish compute density and communication density in DensityObserver

2026-02-05 01:43:17 +08:00

scripts

[refactor] Refactor the profile_offload.sh

2026-01-29 08:39:34 +08:00

tests

📊 feat: distinguish compute density and communication density in DensityObserver

2026-02-05 01:43:17 +08:00

.gitignore

🔧 chore: add nsys profiling rule and update gitignore

2026-01-27 03:42:17 +08:00

.gitmodules

chore: add Block-SparseAttention submodule from tzj/vs_offload

2026-01-18 19:22:40 +08:00

bench_offload.py

📈 feat: add MemoryObserver for GPU-CPU communication tracking

2026-01-28 04:06:45 +08:00

bench_vllm.py

🔧 chore: add --use-v1 flag to bench_vllm.py

2026-01-27 09:14:55 +08:00

bench.py

♻️ refactor: restructure Observer as base class with InferenceObserver

2026-01-28 03:15:33 +08:00

CLAUDE.md

📝 docs: add XAttention density types documentation

2026-02-05 01:44:11 +08:00

example.py

simplify

2025-08-31 20:02:51 +08:00

LICENSE

init commit

2025-06-10 00:27:01 +08:00

pyproject.toml

[WIP] Added sgDMA operator for scatter kvcache communication.

2025-12-24 23:48:52 +08:00

README.md

support qwen2

2025-11-04 01:44:42 +08:00

setup.py

[fix] Fixed compile problem.

2025-12-26 21:02:43 +08:00

README.md

Nano-vLLM

A lightweight vLLM implementation built from scratch.

Key Features

🚀 Fast offline inference - Comparable inference speeds to vLLM
📖 Readable codebase - Clean implementation in ~ 1,200 lines of Python code
⚡ Optimization Suite - Prefix caching, Tensor Parallelism, Torch compilation, CUDA graph, etc.

Installation

pip install git+https://github.com/GeeeekExplorer/nano-vllm.git

Model Download

To download the model weights manually, use the following command:

huggingface-cli download --resume-download Qwen/Qwen3-0.6B \
  --local-dir ~/huggingface/Qwen3-0.6B/ \
  --local-dir-use-symlinks False

Quick Start

See example.py for usage. The API mirrors vLLM's interface with minor differences in the LLM.generate method:

from nanovllm import LLM, SamplingParams
llm = LLM("/YOUR/MODEL/PATH", enforce_eager=True, tensor_parallel_size=1)
sampling_params = SamplingParams(temperature=0.6, max_tokens=256)
prompts = ["Hello, Nano-vLLM."]
outputs = llm.generate(prompts, sampling_params)
outputs[0]["text"]

Benchmark

See bench.py for benchmark.

Test Configuration:

Hardware: RTX 4070 Laptop (8GB)
Model: Qwen3-0.6B
Total Requests: 256 sequences
Input Length: Randomly sampled between 100–1024 tokens
Output Length: Randomly sampled between 100–1024 tokens

Performance Results:

Inference Engine	Output Tokens	Time (s)	Throughput (tokens/s)
vLLM	133,966	98.37	1361.84
Nano-vLLM	133,966	93.41	1434.13

README.md Unescape Escape

Nano-vLLM

Key Features

Installation

Model Download

Quick Start

Benchmark

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README.md