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jeremylongshore

openrouter-model-routing

@jeremylongshore/openrouter-model-routing
jeremylongshore
2,103
284 forks
Updated 5/5/2026
View on GitHub

Implement intelligent model routing to optimize cost, quality, and latency on OpenRouter. Use when building multi-model systems or optimizing spend across task types. Triggers: 'openrouter routing', 'model routing', 'route to model', 'model selection openrouter'.

Installation

$npx agent-skills-cli install @jeremylongshore/openrouter-model-routing
Claude Code
Cursor
Copilot
Codex
Antigravity

Details

Repositoryjeremylongshore/claude-code-plugins-plus-skills
Pathplugins/saas-packs/openrouter-pack/skills/openrouter-model-routing/SKILL.md
Branchmain
Scoped Name@jeremylongshore/openrouter-model-routing

Usage

After installing, this skill will be available to your AI coding assistant.

Verify installation:

npx agent-skills-cli list

Skill Instructions

name: openrouter-model-routing description: 'Implement intelligent model routing to optimize cost, quality, and latency on OpenRouter. Use when building multi-model systems or optimizing spend across task types. Triggers: ''openrouter routing'', ''model routing'', ''route to model'', ''model selection openrouter''.

' allowed-tools: Read, Write, Edit, Bash, Grep version: 2.0.0 license: MIT author: Jeremy Longshore jeremy@intentsolutions.io tags:

  • saas
  • openrouter
  • routing
  • cost-optimization
  • model-selection compatibility: Designed for Claude Code, also compatible with Codex and OpenClaw

OpenRouter Model Routing

Overview

OpenRouter gives you access to 100+ models through one API. The key to cost efficiency is routing each request to the right model based on task complexity, required capabilities, cost budget, and latency requirements. This skill covers task-based routing, complexity classification, cost-aware selection, and OpenRouter's native routing features.

Task-Based Router

import os, re
from openai import OpenAI

client = OpenAI(
    base_url="https://openrouter.ai/api/v1",
    api_key=os.environ["OPENROUTER_API_KEY"],
    default_headers={"HTTP-Referer": "https://my-app.com", "X-Title": "my-app"},
)

# Model tiers by cost and capability
MODELS = {
    "free":    "google/gemma-2-9b-it:free",          # $0/0 — testing only
    "budget":  "meta-llama/llama-3.1-8b-instruct",   # $0.06/$0.06 per 1M
    "mid":     "openai/gpt-4o-mini",                  # $0.15/$0.60 per 1M
    "standard":"anthropic/claude-3.5-sonnet",         # $3/$15 per 1M
    "premium": "openai/o1",                           # $15/$60 per 1M
}

TASK_ROUTING = {
    "classification":  "budget",   # Simple label assignment
    "translation":     "mid",      # Moderate quality needed
    "summarization":   "mid",      # Good quality, cost-effective
    "code_generation": "standard", # Needs high accuracy
    "code_review":     "standard", # Needs reasoning
    "analysis":        "standard", # Complex reasoning
    "creative_writing":"standard", # Quality matters
    "deep_reasoning":  "premium",  # Multi-step logic
    "simple_qa":       "budget",   # Basic questions
    "chat":            "mid",      # General conversation
}

def route_request(task_type: str, messages: list[dict], **kwargs) -> dict:
    """Route to appropriate model based on task type."""
    tier = TASK_ROUTING.get(task_type, "mid")
    model = MODELS[tier]

    response = client.chat.completions.create(
        model=model, messages=messages, **kwargs
    )
    return {
        "content": response.choices[0].message.content,
        "model": response.model,
        "tier": tier,
        "tokens": response.usage.prompt_tokens + response.usage.completion_tokens,
    }

Complexity-Based Auto-Router

def classify_complexity(prompt: str) -> str:
    """Classify prompt complexity to select model tier.

    Simple heuristics -- replace with a trained classifier for production.
    """
    word_count = len(prompt.split())
    has_code = bool(re.search(r'```|def |function |class |import ', prompt))
    has_reasoning = bool(re.search(r'explain|analyze|compare|why|how does|trade.?off', prompt, re.I))
    has_math = bool(re.search(r'calculate|equation|formula|derive|proof', prompt, re.I))

    if has_math or (has_reasoning and has_code):
        return "premium"
    if has_code or has_reasoning or word_count > 500:
        return "standard"
    if word_count > 100:
        return "mid"
    return "budget"

def auto_route(messages: list[dict], **kwargs):
    """Automatically select model based on prompt complexity."""
    user_msg = next((m["content"] for m in reversed(messages) if m["role"] == "user"), "")
    tier = classify_complexity(user_msg)
    model = MODELS[tier]

    response = client.chat.completions.create(model=model, messages=messages, **kwargs)
    return response

OpenRouter Native Routing

# Route: "fallback" — try models in order until one succeeds
response = client.chat.completions.create(
    model="anthropic/claude-3.5-sonnet",
    messages=[{"role": "user", "content": "Hello"}],
    max_tokens=200,
    extra_body={
        "models": [
            "anthropic/claude-3.5-sonnet",
            "openai/gpt-4o",
            "openai/gpt-4o-mini",
        ],
        "route": "fallback",
    },
)

# Provider routing — control which provider serves a model
response = client.chat.completions.create(
    model="anthropic/claude-3.5-sonnet",
    messages=[{"role": "user", "content": "Hello"}],
    max_tokens=200,
    extra_body={
        "provider": {
            "order": ["Anthropic", "AWS Bedrock"],
            "allow_fallbacks": True,
        },
    },
)

# Model variant: ":floor" picks cheapest provider
response = client.chat.completions.create(
    model="anthropic/claude-3.5-sonnet:floor",
    messages=[{"role": "user", "content": "Hello"}],
    max_tokens=200,
)

Cost-Aware Router

import requests

def get_model_pricing() -> dict:
    """Fetch current pricing for cost-aware routing."""
    models = requests.get("https://openrouter.ai/api/v1/models").json()["data"]
    return {
        m["id"]: {
            "prompt": float(m["pricing"]["prompt"]) * 1_000_000,
            "completion": float(m["pricing"]["completion"]) * 1_000_000,
            "context": m["context_length"],
        }
        for m in models
    }

def cheapest_model_for_task(pricing: dict, min_context: int = 4096,
                             needs_tools: bool = False) -> str:
    """Find the cheapest model that meets requirements."""
    candidates = [
        (mid, p) for mid, p in pricing.items()
        if p["context"] >= min_context and p["prompt"] > 0  # Exclude free (unreliable)
    ]
    candidates.sort(key=lambda x: x[1]["prompt"] + x[1]["completion"])
    return candidates[0][0] if candidates else "openai/gpt-4o-mini"

Error Handling

ErrorCauseFix
Wrong model selectedClassification too coarseAdd more task categories; test with diverse prompts
Model unavailableSelected model temporarily downAdd fallback chain per tier
Cost overrunComplex tasks routed to premium modelsSet max_tokens and daily budget caps
Quality regressionBudget model can't handle taskMonitor output quality; escalate tier on poor results

Enterprise Considerations

  • Start with manual task-type routing (explicit labels), then graduate to auto-classification
  • Log every routing decision (task type, tier, model, cost) to tune the router over time
  • Use OpenRouter's :floor variant to automatically get the cheapest provider for any model
  • Set max_tokens on every request to cap per-request cost regardless of model tier
  • A/B test routing rules: send 10% of traffic to a different tier and compare quality metrics
  • Combine with fallback chains so each tier has backup models

References

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