sglang
SGLang is a high-performance LLM serving framework that uses RadixAttention prefix caching to enable structured outputs like JSON and regex-constrained generation, achieving up to 5× faster inference than standard solutions. Use it for agentic workflows with function calling, multi-turn conversations with shared context, or any application requiring constrained decoding and automatic prefix caching across repeated prompts.
git clone --depth 1 https://github.com/davila7/claude-code-templates /tmp/sglang && cp -r /tmp/sglang/cli-tool/components/skills/ai-research/inference-serving-sglang ~/.claude/skills/sglangSKILL.md
# SGLang
High-performance serving framework for LLMs and VLMs with RadixAttention for automatic prefix caching.
## When to use SGLang
**Use SGLang when:**
- Need structured outputs (JSON, regex, grammar)
- Building agents with repeated prefixes (system prompts, tools)
- Agentic workflows with function calling
- Multi-turn conversations with shared context
- Need faster JSON decoding (3× vs standard)
**Use vLLM instead when:**
- Simple text generation without structure
- Don't need prefix caching
- Want mature, widely-tested production system
**Use TensorRT-LLM instead when:**
- Maximum single-request latency (no batching needed)
- NVIDIA-only deployment
- Need FP8/INT4 quantization on H100
## Quick start
### Installation
```bash
# pip install (recommended)
pip install "sglang[all]"
# With FlashInfer (faster, CUDA 11.8/12.1)
pip install sglang[all] flashinfer -i https://flashinfer.ai/whl/cu121/torch2.4/
# From source
git clone https://github.com/sgl-project/sglang.git
cd sglang
pip install -e "python[all]"
```
### Launch server
```bash
# Basic server (Llama 3-8B)
python -m sglang.launch_server \
--model-path meta-llama/Meta-Llama-3-8B-Instruct \
--port 30000
# With RadixAttention (automatic prefix caching)
python -m sglang.launch_server \
--model-path meta-llama/Meta-Llama-3-8B-Instruct \
--port 30000 \
--enable-radix-cache # Default: enabled
# Multi-GPU (tensor parallelism)
python -m sglang.launch_server \
--model-path meta-llama/Meta-Llama-3-70B-Instruct \
--tp 4 \
--port 30000
```
### Basic inference
```python
import sglang as sgl
# Set backend
sgl.set_default_backend(sgl.OpenAI("http://localhost:30000/v1"))
# Simple generation
@sgl.function
def simple_gen(s, question):
s += "Q: " + question + "\n"
s += "A:" + sgl.gen("answer", max_tokens=100)
# Run
state = simple_gen.run(question="What is the capital of France?")
print(state["answer"])
# Output: "The capital of France is Paris."
```
### Structured JSON output
```python
import sglang as sgl
@sgl.function
def extract_person(s, text):
s += f"Extract person information from: {text}\n"
s += "Output JSON:\n"
# Constrained JSON generation
s += sgl.gen(
"json_output",
max_tokens=200,
regex=r'\{"name": "[^"]+", "age": \d+, "occupation": "[^"]+"\}'
)
# Run
state = extract_person.run(
text="John Smith is a 35-year-old software engineer."
)
print(state["json_output"])
# Output: {"name": "John Smith", "age": 35, "occupation": "software engineer"}
```
## RadixAttention (Key Innovation)
**What it does**: Automatically caches and reuses common prefixes across requests.
**Performance**:
- **5× faster** for agentic workloads with shared system prompts
- **10× faster** for few-shot prompting with repeated examples
- **Zero configuration** - works automatically
**How it works**:
1. Builds radix tree of all processed tokens
2. Automatically detects shared prefixes
3. Reuses KV cache for matching prefixes
4. Only computes new tokens
**Example** (Agent with system prompt):
```
Request 1: [SYSTEM_PROMPT] + "What's the weather?"
→ Computes full prompt (1000 tokens)
Request 2: [SAME_SYSTEM_PROMPT] + "Book a flight"
→ Reuses system prompt KV cache (998 tokens)
→ Only computes 2 new tokens
→ 5× faster!
```
## Structured generation patterns
### JSON with schema
```python
@sgl.function
def structured_extraction(s, article):
s += f"Article: {article}\n\n"
s += "Extract key information as JSON:\n"
# JSON schema constraint
schema = {
"type": "object",
"properties": {
"title": {"type": "string"},
"author": {"type": "string"},
"summary": {"type": "string"},
"sentiment": {"type": "string", "enum": ["positive", "negative", "neutral"]}
},
"required": ["title", "author", "summary", "sentiment"]
}
s += sgl.gen("info", max_tokens=300, json_schema=schema)
state = structured_extraction.run(article="...")
print(state["info"])
# Output: Valid JSON matching schema
```
### Regex-constrained generation
```python
@sgl.function
def extract_email(s, text):
s += f"Extract email from: {text}\n"
s += "Email: "
# Email regex pattern
s += sgl.gen(
"email",
max_tokens=50,
regex=r'[a-zA-Z0-9._%+-]+@[a-zA-Z0-9.-]+\.[a-zA-Z]{2,}'
)
state = extract_email.run(text="Contact john.doe@example.com for details")
print(state["email"])
# Output: "john.doe@example.com"
```
### Grammar-based generation
```python
@sgl.function
def generate_code(s, description):
s += f"Generate Python code for: {description}\n"
s += "```python\n"
# EBNF grammar for Python
python_grammar = """
?start: function_def
function_def: "def" NAME "(" [parameters] "):" suite
parameters: parameter ("," parameter)*
parameter: NAME
suite: simple_stmt | NEWLINE INDENT stmt+ DEDENT
"""
s += sgl.gen("code", max_tokens=200, grammar=python_grammar)
s += "\n```"
```
## Agent workflows with function calling
```python
import sglang as sgl
# Define tools
tools = [
{
"name": "get_weather",
"description": "Get weather for a location",
"parameters": {
"type": "object",
"properties": {
"location": {"type": "string"}
}
}
},
{
"name": "book_flight",
"description": "Book a flight",
"parameters": {
"type": "object",
"properties": {
"from": {"type": "string"},
"to": {"type": "string"},
"date": {"type": "string"}
}
}
}
]
@sgl.function
def agent_workflow(s, user_query, tools):
# System prompt (cached with RadixAttention)
s += "You are a helpful assistant with access to tools.\n"
s += f"Available tools: {tools}\n\n"
# User query
s += f"User: {user_query}\n"
s += "Assistant: "
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