--- name: llm-integration license: MIT compatibility: "Claude Code 2.1.76+." description: LLM integration patterns for function calling, streaming responses, local inference with Ollama, and fine-tuning customization. Use when implementing tool use, SSE streaming, local model deployment, LoRA/QLoRA fine-tuning, or multi-provider LLM APIs. tags: [llm, function-calling, streaming, ollama, fine-tuning, lora, tool-use, local-inference] context: fork agent: llm-integrator version: 2.0.0 author: OrchestKit user-invocable: false disable-model-invocation: true complexity: medium persuasion-type: reference metadata: category: mcp-enhancement allowed-tools: - Read - Glob - Grep - WebFetch - WebSearch --- # LLM Integration Patterns for integrating LLMs into production applications: tool use, streaming, local inference, and fine-tuning. Each category has individual rule files in `rules/` loaded on-demand. ## Quick Reference | Category | Rules | Impact | When to Use | |----------|-------|--------|-------------| | [Function Calling](#function-calling) | 3 | CRITICAL | Tool definitions, parallel execution, input validation | | [Streaming](#streaming) | 3 | HIGH | SSE endpoints, structured streaming, backpressure handling | | [Local Inference](#local-inference) | 3 | HIGH | Ollama setup, model selection, GPU optimization | | [Fine-Tuning](#fine-tuning) | 3 | HIGH | LoRA/QLoRA training, dataset preparation, evaluation | | [Context Optimization](#context-optimization) | 2 | HIGH | Window management, compression, caching, budget scaling | | [Evaluation](#evaluation) | 2 | HIGH | LLM-as-judge, RAGAS metrics, quality gates, benchmarks | | [Prompt Engineering](#prompt-engineering) | 4 | HIGH | CoT, few-shot, versioning, DSPy optimization, ReAct, cost optimization | **Total: 20 rules across 7 categories** ## Quick Start ```python # Function calling: strict mode tool definition tools = [{ "type": "function", "function": { "name": "search_documents", "description": "Search knowledge base", "strict": True, "parameters": { "type": "object", "properties": { "query": {"type": "string", "description": "Search query"}, "limit": {"type": "integer", "description": "Max results"} }, "required": ["query", "limit"], "additionalProperties": False } } }] ``` ```python # Streaming: SSE endpoint with FastAPI @app.get("/chat/stream") async def stream_chat(prompt: str): async def generate(): async for token in async_stream(prompt): yield {"event": "token", "data": token} yield {"event": "done", "data": ""} return EventSourceResponse(generate()) ``` ```python # Local inference: Ollama with LangChain llm = ChatOllama( model="deepseek-r1:70b", base_url="http://localhost:11434", temperature=0.0, num_ctx=32768, ) ``` ```python # Fine-tuning: QLoRA with Unsloth model, tokenizer = FastLanguageModel.from_pretrained( model_name="unsloth/Meta-Llama-3.1-8B", max_seq_length=2048, load_in_4bit=True, ) model = FastLanguageModel.get_peft_model(model, r=16, lora_alpha=32) ``` ## Function Calling Enable LLMs to use external tools and return structured data. Use strict mode schemas (2026 best practice) for reliability. Limit to 5-15 tools per request, validate all inputs with Pydantic/Zod, and return errors as tool results. - `calling-tool-definition.md` -- Strict mode schemas, OpenAI/Anthropic formats, LangChain binding - `calling-parallel.md` -- Parallel tool execution, asyncio.gather, strict mode constraints - `calling-validation.md` -- Input validation, error handling, tool execution loops ## Streaming Deliver LLM responses in real-time for better UX. Use SSE for web, WebSocket for bidirectional. Handle backpressure with bounded queues. - `streaming-sse.md` -- FastAPI SSE endpoints, frontend consumers, async iterators - `streaming-structured.md` -- Streaming with tool calls, partial JSON parsing, chunk accumulation - `streaming-backpressure.md` -- Backpressure handling, bounded buffers, cancellation ## Local Inference Run LLMs locally with Ollama for cost savings (93% vs cloud), privacy, and offline development. Pre-warm models, use provider factory for cloud/local switching. - `local-ollama-setup.md` -- Installation, model pulling, environment configuration - `local-model-selection.md` -- Model comparison by task, hardware profiles, quantization - `local-gpu-optimization.md` -- Apple Silicon tuning, keep-alive, CI integration ## Fine-Tuning Customize LLMs with parameter-efficient techniques. Fine-tune ONLY after exhausting prompt engineering and RAG. Requires 1000+ quality examples. - `tuning-lora.md` -- LoRA/QLoRA configuration, Unsloth training, adapter merging - `tuning-dataset-prep.md` -- Synthetic data generation, quality validation, deduplication - `tuning-evaluation.md` -- DPO alignment, evaluation metrics, anti-patterns ## Context Optimization Manage context windows, compression, and attention-aware positioning. Optimize for tokens-per-task. - `context-window-management.md` -- Five-layer architecture, anchored summarization, compression triggers - `context-caching.md` -- Just-in-time loading, budget scaling, probe evaluation, CC 2.1.32+ ## Evaluation Evaluate LLM outputs with multi-dimension scoring, quality gates, and benchmarks. - `evaluation-metrics.md` -- LLM-as-judge, RAGAS metrics, hallucination detection - `evaluation-benchmarks.md` -- Quality gates, batch evaluation, pairwise comparison ## Prompt Engineering Design, version, and optimize prompts for production LLM applications. - `prompt-design.md` -- Chain-of-Thought, few-shot learning, pattern selection guide - `prompt-testing.md` -- Langfuse versioning, DSPy optimization, A/B testing, self-consistency - `prompt-react-pattern.md` -- ReAct loop for tool-using agents, thought-action-observation format - `prompt-optimization.md` -- Token reduction, cost optimization, model tiering, prompt spec format ## Key Decisions | Decision | Recommendation | |----------|----------------| | Tool schema mode | `strict: true` (2026 best practice) | | Tool count | 5-15 max per request | | Streaming protocol | SSE for web, WebSocket for bidirectional | | Buffer size | 50-200 tokens | | Local model (reasoning) | `deepseek-r1:70b` | | Local model (coding) | `qwen2.5-coder:32b` | | Fine-tuning approach | LoRA/QLoRA (try prompting first) | | LoRA rank | 16-64 typical | | Training epochs | 1-3 (more risks overfitting) | | Context compression | Anchored iterative (60-80%) | | Compress trigger | 70% utilization, target 50% | | Judge model | `claude-haiku-4-5-20251001` (cost tier) or `gpt-5.2` | | Quality threshold | 0.7 production, 0.6 drafts | | Few-shot examples | 3-5 diverse, representative | | Prompt versioning | Langfuse with labels | | Auto-optimization | DSPy MIPROv2 | ## Related Skills - `ork:rag-retrieval` -- Embedding patterns, when RAG is better than fine-tuning - `agent-loops` -- Multi-step tool use with reasoning - `llm-evaluation` -- Evaluate fine-tuned and local models - `langfuse-observability` -- Track training experiments ## Capability Details ### function-calling **Keywords:** tool, function, define tool, tool schema, function schema, strict mode, parallel tools **Solves:** - Define tools with clear descriptions and strict schemas - Execute tool calls in parallel with asyncio.gather - Validate inputs and handle errors in tool execution loops ### streaming **Keywords:** streaming, SSE, Server-Sent Events, real-time, backpressure, token stream **Solves:** - Stream LLM tokens via SSE endpoints - Handle tool calls within streams - Manage backpressure with bounded queues ### local-inference **Keywords:** Ollama, local, self-hosted, model selection, GPU, Apple Silicon **Solves:** - Set up Ollama for local LLM inference - Select models based on task and hardware - Optimize GPU usage and CI integration ### fine-tuning **Keywords:** LoRA, QLoRA, fine-tune, DPO, synthetic data, PEFT, alignment **Solves:** - Configure LoRA/QLoRA for parameter-efficient training - Generate and validate synthetic training data - Align models with DPO and evaluate results