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Oraclaw

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Decision intelligence MCP — 17 tools (optimize, simulate, predict, score, graph). Sub-25ms.

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Decision intelligence MCP — 17 tools (optimize, simulate, predict, score, graph). Sub-25ms.

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MIT License MCP Algorithms Latency npm API Status

MCP Optimization Tools for AI Agents -- 17 tools (11 free, no key), sub-25ms. Zero LLM cost.

Your AI agent can't do math. OraClaw gives it deterministic optimization, simulation, forecasting, and risk analysis through the Model Context Protocol. Every tool returns structured JSON, runs in under 25ms, and costs nothing to compute.


🚀 Using OraClaw in production — or want managed hosting, premium tools, or priority support? Tell me about your use case → — I read every one.

💬 Building something with it? Star the repo and say hi in Discussions — what you build steers what I ship next.


What this solves

LLMs generate plausible text, not mathematically optimal answers. OraClaw gives an AI agent a set of deterministic numerical tools it can call instead of guessing — each returns structured JSON from a real algorithm, with no token spend on reasoning. Concretely:

  • Your agent needs to pick the next variant to try (A/B test arm, ad/email copy, recommendation) and balance exploration against exploitation — without hand-rolling a bandit or letting the model eyeball it. Call optimize_bandit (or optimize_contextual when the best choice depends on per-call features).
  • Your agent needs a provably optimal allocation or schedule under hard constraints (budget split, integer counts, capacity caps) — without the model hallucinating constraints. Call solve_constraints (LP/MIP/QP via HiGHS) or solve_schedule for task-to-slot fitting.
  • Your agent needs to quantify uncertainty around an outcome — project a value under an uncertain input, or measure VaR/CVaR on a weighted multi-asset book with auditable assumptions — without a Monte Carlo loop in the prompt. Call simulate_montecarlo, simulate_scenario, or analyze_risk.
  • Your agent needs a point forecast or an outlier flag on a time series (demand, KPIs, sensor/metric streams) — without inventing trend math. Call predict_forecast (ARIMA / Holt-Winters) or detect_anomaly (Z-score / IQR).
  • Your agent needs to fuse or score probability signals — combine model outputs, measure how much independent sources agree, or check whether past predictions were well-calibrated. Call predict_ensemble, score_convergence, or score_calibration.
  • Your agent needs to reason over a graph — rank influential nodes, cluster a dependency/knowledge graph, find a critical path, or route between two nodes. Call analyze_graph or plan_pathfind.

Where the algorithms have been used

OraClaw's algorithms have informed implementations in several open-source projects -- through contributed routing specs, algorithm guidance, and shared math -- spanning AI agent orchestration, time-series tracking, vector search, and optimization.

Selected contributions (see CHANGELOG.md for the full list):

  • chernistry/bernstein -- agent orchestration framework. LinUCB contextual router (α=0.3) with shadow-evaluation path and interpretable decision reasons, shipped in codex/issue-367-linucb-router after a contributed spec correction.
  • stxkxs/nanohype -- contextual bandit routing, pluggable strategy registry (hash / sliding-TTL / semantic), cost anomaly detection. "Your input shaped a lot of what actually shipped."
  • rfivesix/hypertrack -- Bayesian/Kalman-style adaptive estimator with phase-aware ramp. Shipped in 0.8.0-beta.
  • AlanHuang99/pyrollmatch -- entropy balancing (Hainmueller 2012) with moment constraints + max_weight cap. Shipped in v0.1.3.
  • stffns/vstash -- IDF-sigmoid relevance weighting. Shipped in v0.17.0.

Marketplace distribution:


Quick Start

1. MCP Server (recommended for AI agents)

Add to your claude_desktop_config.json:

{
  "mcpServers": {
    "oraclaw": {
      "command": "npx",
      "args": ["-y", "@oraclaw/mcp-server"]
    }
  }
}

Then ask your agent:

"I have 3 email subject line variants. Which should I send next?"

The agent calls optimize_bandit and gets a statistically optimal selection in 0.01ms.

2. REST API (no install)

curl -X POST https://oraclaw-api.onrender.com/api/v1/optimize/bandit \
  -H 'Content-Type: application/json' \
  -d '{
    "arms": [
      {"id": "A", "name": "Option A", "pulls": 10, "totalReward": 7},
      {"id": "B", "name": "Option B", "pulls": 10, "totalReward": 5},
      {"id": "C", "name": "Option C", "pulls": 2, "totalReward": 1.8}
    ],
    "algorithm": "ucb1"
  }'

Response (<1ms):

{
  "selected": { "id": "C", "name": "Option C" },
  "score": 1.876,
  "algorithm": "ucb1",
  "exploitation": 0.9,
  "exploration": 0.976,
  "regret": 0.1
}

Free tier: 25 calls/day, no API key needed.

3. npm SDK

npm install @oraclaw/bandit
import { OraBandit } from '@oraclaw/bandit';

const client = new OraBandit({ baseUrl: 'https://oraclaw-api.onrender.com' });
const result = await client.optimize({
  arms: [
    { id: 'A', name: 'Short Subject', pulls: 500, totalReward: 175 },
    { id: 'B', name: 'Long Subject', pulls: 300, totalReward: 126 },
  ],
  algorithm: 'ucb1',
});

14 SDK packages: @oraclaw/bandit, @oraclaw/solver, @oraclaw/simulate, @oraclaw/risk, @oraclaw/forecast, @oraclaw/anomaly, @oraclaw/graph, @oraclaw/bayesian, @oraclaw/ensemble, @oraclaw/calibrate, @oraclaw/evolve, @oraclaw/pathfind, @oraclaw/cmaes, @oraclaw/decide


Why?

LLMs generate plausible text, not optimal solutions. Ask GPT to pick the best A/B test variant and it applies a heuristic that ignores the exploration-exploitation tradeoff. Ask it to solve a linear program and it hallucinates constraints. OraClaw gives your agent access to real algorithms -- bandits, solvers, forecasters, risk models -- that return mathematically correct answers in sub-millisecond time, without burning tokens on reasoning.


MCP Tool Catalog (17 tools)

Free tier (11 tools, no API key — 25 calls/day per IP):

Tool What It Does Latency
optimize_bandit UCB1 / Thompson / Epsilon-Greedy arm selection 0.01ms
optimize_contextual Context-aware LinUCB bandit 0.05ms
optimize_evolve Genetic algorithm for discrete + multi-objective problems <10ms
solve_schedule Energy-matched task scheduling 3ms
score_convergence Multi-source probability consensus (Hellinger) 0.04ms
score_calibration Brier + log score for forecaster accuracy 0.02ms
predict_bayesian Beta posterior update from weighted evidence 0.05ms
predict_ensemble Multi-model consensus + uncertainty decomposition 0.1ms
plan_pathfind A* + Yen's k-shortest paths 0.1ms
simulate_montecarlo Single-factor Monte Carlo (6 distributions) <2ms
simulate_scenario What-if comparison + sensitivity ranking <5ms

Premium tier (6 tools, requires ORACLAW_API_KEY):

Tool What It Does Latency
optimize_cmaes CMA-ES continuous black-box optimization 12ms
solve_constraints LP / MIP / QP solver via HiGHS (provably optimal) 2ms
analyze_graph PageRank, Louvain communities, bottleneck detection 0.5ms
analyze_risk VaR and CVaR (Expected Shortfall) <2ms
predict_forecast ARIMA + Holt-Winters time series forecasting 0.08ms
detect_anomaly Z-Score + IQR anomaly detection 0.01ms

14 of 18 REST endpoints respond in under 1ms. All under 25ms.


Try It Now

The API is live. No signup required.

# Bayesian inference
curl -X POST https://oraclaw-api.onrender.com/api/v1/predict/bayesian \
  -H 'Content-Type: application/json' \
  -d '{"prior": 0.3, "evidence": [{"factor": "positive_test", "weight": 0.9, "value": 0.05}]}'

# Monte Carlo simulation
curl -X POST https://oraclaw-api.onrender.com/api/v1/simulate/montecarlo \
  -H 'Content-Type: application/json' \
  -d '{"simulations": 1000, "distribution": "normal", "params": {"mean": 100, "stddev": 15}}'

# Monte Carlo with a non-normal distribution
curl -X POST https://oraclaw-api.onrender.com/api/v1/simulate/montecarlo \
  -H 'Content-Type: application/json' \
  -d '{"simulations": 1000, "distribution": "triangular", "params": {"min": 80, "mode": 100, "max": 140}}'

Premium tools (detect_anomaly, predict_forecast, analyze_risk, solve_constraints, analyze_graph, optimize_cmaes) need an API key or an x402 payment — see Pricing below.


Pricing

Tier Calls Price Auth
Free 25/day $0 None
Pay-per-call 1K/day $0.005/call API key
Starter 50K/mo $9/mo API key
Growth 500K/mo $49/mo API key
Scale 5M/mo $199/mo API key

x402 (for autonomous agents): pay $0.001/call in USDC on Base — no signup, no API key. Send a signed PAYMENT-SIGNATURE header on any premium endpoint; the API verifies, meters, and settles per call. Get a key instead with a one-line POST /api/v1/auth/signup ({"email":"you@…"}) — instant, no card.


Source Code

Component Path
MCP Server mission-control/packages/mcp-server/
REST API mission-control/apps/api/
Algorithms mission-control/apps/api/src/services/oracle/algorithms/
SDK Packages mission-control/packages/sdk/
LangChain Tools mission-control/integrations/langchain/oraclaw_tools.py
Mobile App mission-control/apps/mobile/
Dashboard (Next.js) web/

Building with OraClaw?

We'd love to hear what you're working on. Share your use case, ask questions, or request features:


Links


If this saved your agent from hallucinating math, star us :star:

License

MIT

from github.com/Whatsonyourmind/oraclaw

Install Oraclaw in Claude Desktop, Claude Code & Cursor

Recommended · one command, every IDE
unyly install oraclaw

Installs into Claude Desktop, Claude Code, Cursor & VS Code — handles npx, uvx and build-from-source repos for you.

First time? Get the CLI: curl -fsSL https://unyly.org/install | sh

Or configure manually

Run in your terminal:

claude mcp add oraclaw -- npx -y @oraclaw/mcp-server

FAQ

Is Oraclaw MCP free?

Yes, Oraclaw MCP is free — one-click install via Unyly at no cost.

Does Oraclaw need an API key?

No, Oraclaw runs without API keys or environment variables.

Is Oraclaw hosted or self-hosted?

Self-hosted: the server runs locally on your machine via the install command above.

How do I install Oraclaw in Claude Desktop, Claude Code or Cursor?

Open Oraclaw on unyly.org, pick your client tab (Claude Desktop, Claude Code, Cursor) and press Install — the config is generated automatically, no JSON editing.

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