Files
sglang/docs
laoyao0822 5769b63082 Reduce CP shared KV materialize and direct-write overhead
Shared KV now relies on page-aligned CP metadata and compute-owner page allocation so persistent MLA KV and NSA index shards can be written by the rank that computed them. The compatibility read path keeps the dense full-view contract for existing topk and attention kernels, but removes duplicated prev/next index materialize, adds optional tai materialize integration, and tightens tests/docs around the fallback boundaries.

Constraint: Decode remains non-CP while prefill CP owns the shared-KV changes

Constraint: Existing attention/topk kernels still expect dense full-view KV/index inputs

Rejected: Change attention kernels to read owner-sharded KV directly | larger semantic change reserved for later phases

Rejected: Merge index K/scale storage with MLA KV storage | would couple topk and attention cache lifecycles before materialize overhead is isolated

Confidence: medium

Scope-risk: broad

Directive: Do not remove fallback logging or debug-gated assertions without reproducing long-context chunked/radix-hit paths

Tested: git diff --check --cached

Not-tested: Local pytest/runtime server verification not run in this commit step per current workflow constraints
2026-05-02 07:07:28 +08:00
..
2025-04-03 21:20:21 -07:00

SGLang Documentation

This is the documentation website for the SGLang project (https://github.com/sgl-project/sglang).

We recommend new contributors start from writing documentation, which helps you quickly understand SGLang codebase. Most documentation files are located under the docs/ folder.

Docs Workflow

Install Dependency

Linux:

apt-get update && apt-get install -y pandoc parallel retry
pip install -r requirements.txt

macOS:

brew install pandoc parallel retry
pip install -r requirements.txt

Update Documentation

Update your Jupyter notebooks in the appropriate subdirectories under docs/. If you add new files, remember to update index.rst (or relevant .rst files) accordingly.

  • pre-commit run --all-files manually runs all configured checks, applying fixes if possible. If it fails the first time, re-run it to ensure lint errors are fully resolved. Make sure your code passes all checks before creating a Pull Request.
# 1) Compile all Jupyter notebooks
make compile  # This step can take a long time (10+ mins). You can consider skipping this step if you can make sure your added files are correct.
make html

# 2) Compile and Preview documentation locally with auto-build
# This will automatically rebuild docs when files change
# Open your browser at the displayed port to view the docs
bash serve.sh

# 2a) Alternative ways to serve documentation
# Directly use make serve
make serve
# With custom port
PORT=8080 make serve

# 3) Clean notebook outputs
# nbstripout removes notebook outputs so your PR stays clean
pip install nbstripout
find . -name '*.ipynb' -exec nbstripout {} \;

# 4) Pre-commit checks and create a PR
# After these checks pass, push your changes and open a PR on your branch
pre-commit run --all-files

Documentation Style Guidelines

  • For common functionalities, we prefer Jupyter Notebooks over Markdown so that all examples can be executed and validated by our docs CI pipeline. For complex features (e.g., distributed serving), Markdown is preferred.
  • Keep in mind the documentation execution time when writing interactive Jupyter notebooks. Each interactive notebook will be run and compiled against every commit to ensure they are runnable, so it is important to apply some tips to reduce the documentation compilation time:
    • Use small models (e.g., qwen/qwen2.5-0.5b-instruct) for most cases to reduce server launch time.
    • Reuse the launched server as much as possible to reduce server launch time.
  • Do not use absolute links (e.g., https://docs.sglang.io/get_started/install.html). Always prefer relative links (e.g., ../get_started/install.md).
  • Follow the existing examples to learn how to launch a server, send a query and other common styles.

Documentation Build, Deployment, and CI

The SGLang documentation pipeline is based on Sphinx and supports rendering Jupyter notebooks (.ipynb) into HTML/Markdown for web display. Detailed logits can be found in the Makefile.

Notebook Execution (make compile)

The make compile target is responsible for executing notebooks before rendering:

  • Finds all .ipynb files under docs/ (excluding _build/)
  • Executes notebooks in parallel using GNU Parallel, with a relatively small --mem-fraction-static
  • Wraps execution with retry to reduce flaky failures
  • Executes notebooks via jupyter nbconvert --execute --inplace
  • Records execution timing in logs/timing.log

This step ensures notebooks contain up-to-date outputs with each commit in the main branch before rendering.

Web Rendering (make html)

After compilation, Sphinx builds the website:

  • Reads Markdown, reStructuredText, and Jupyter notebooks
  • Renders them into HTML pages
  • Outputs the website into:
docs/_build/html/

This directory is the source for online documentation hosting.

Markdown Export (make markdown)

To support downstream consumers, we add a new Makefile target:

make markdown

This target:

  • Does not modify make compile
  • Scans all .ipynb files (excluding _build/)
  • Converts notebooks directly to Markdown using jupyter nbconvert --to markdown
  • Writes Markdown artifacts into the existing build directory:
docs/_build/html/markdown/<relative-path>.md

Example:

docs/advanced_features/lora.ipynb
→ docs/_build/html/markdown/advanced_features/lora.md

CI Execution

In our CI, the documentation pipeline first gets all the executed results and renders HTML and Markdown by:

make compile    # execute notebooks (ensure outputs are up to date)
make html       # build website as usual
make markdown   # export markdown artifacts into _build/html/markdown

Then, the compiled results are forced pushed to sgl-project.io for rendering. In other words, sgl-project.io is push-only. All the changes of SGLang docs should be made directly in SGLang main repo, then push to the sgl-project.io.