Shannon Thinking

A tool for systematic problem-solving based on Claude Shannon's methodology, breaking down complex problems into structured thoughts.

GitHub

shannon-thinking

An MCP server demonstrating Claude Shannon's systematic problem-solving methodology. This server provides a tool that helps break down complex problems into structured thoughts following Shannon's approach of problem definition, mathematical modeling, and practical implementation.

Overview

Claude Shannon, known as the father of information theory, approached complex problems through a systematic methodology:

Problem Definition: Strip the problem to its fundamental elements
Constraints: Identify system limitations and boundaries
Model: Develop mathematical/theoretical frameworks
Proof/Validation: Validate through formal proofs or experimental testing
Implementation/Experiment: Design and test practical solutions

This MCP server demonstrates this methodology as a tool that helps guide systematic problem-solving through these stages.

Installation

NPX

{
  "mcpServers": {
    "shannon-thinking": {
      "command": "npx",
      "args": [
        "-y",
        "server-shannon-thinking@latest"
      ]
    }
  }
}

Usage

The server provides a single tool named shannonthinking that structures problem-solving thoughts according to Shannon's methodology.

Each thought must include:

The actual thought content
Type (problem_definition/constraints/model/proof/implementation)
Thought number and total thoughts estimate
Confidence level (uncertainty: 0-1)
Dependencies on previous thoughts
Explicit assumptions
Whether another thought step is needed

Additional capabilities:

Revision: Thoughts can revise earlier steps as understanding evolves
Recheck: Mark steps that need re-examination with new information
Experimental Validation: Support for empirical testing alongside formal proofs
Implementation Notes: Practical constraints and proposed solutions

Example Usage

const thought = {
  thought: "The core problem can be defined as an information flow optimization",
  thoughtType: "problem_definition",
  thoughtNumber: 1,
  totalThoughts: 5,
  uncertainty: 0.2,
  dependencies: [],
  assumptions: ["System has finite capacity", "Information flow is continuous"],
  nextThoughtNeeded: true,
  // Optional: Mark as revision of earlier definition
  isRevision: false,
  // Optional: Indicate step needs recheck
  recheckStep: {
    stepToRecheck: "constraints",
    reason: "New capacity limitations discovered",
    newInformation: "System shows non-linear scaling"
  }
};

// Use with MCP client
const result = await client.callTool("shannonthinking", thought);

Features

Iterative Problem-Solving: Supports revisions and rechecks as understanding evolves
Flexible Validation: Combines formal proofs with experimental validation
Dependency Tracking: Explicitly tracks how thoughts build upon previous ones
Assumption Management: Requires clear documentation of assumptions
Confidence Levels: Quantifies uncertainty in each step
Rich Feedback: Formatted console output with color-coding, symbols, and validation results

Development

# Install dependencies
npm install

# Build
npm run build

# Run tests
npm test

# Watch mode during development
npm run watch

Tool Schema

The tool accepts thoughts with the following structure:

interface ShannonThought {
  thought: string;
  thoughtType: "problem_definition" | "constraints" | "model" | "proof" | "implementation";
  thoughtNumber: number;
  totalThoughts: number;
  uncertainty: number; // 0-1
  dependencies: number[];
  assumptions: string[];
  nextThoughtNeeded: boolean;
  
  // Optional revision fields
  isRevision?: boolean;
  revisesThought?: number;
  
  // Optional recheck field
  recheckStep?: {
    stepToRecheck: ThoughtType;
    reason: string;
    newInformation?: string;
  };
  
  // Optional validation fields
  proofElements?: {
    hypothesis: string;
    validation: string;
  };
  experimentalElements?: {
    testDescription: string;
    results: string;
    confidence: number; // 0-1
    limitations: string[];
  };
  
  // Optional implementation fields
  implementationNotes?: {
    practicalConstraints: string[];
    proposedSolution: string;
  };
}

When to Use

This thinking pattern is particularly valuable for:

Complex system analysis
Information processing problems
Engineering design challenges
Problems requiring theoretical frameworks
Optimization problems
Systems requiring practical implementation
Problems that need iterative refinement
Cases where experimental validation complements theory

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