3.1 KiB
3.1 KiB
Sequential Thinking
Solve complex problems step-by-step through a dynamic, iterative thinking process. This flexible approach allows for course corrections and revisions during the thinking process.
Usage
# Request Claude to think sequentially
"Analyze [task] using sequential-thinking"
Basic Examples
# Algorithm design
"Design an efficient caching strategy using sequential-thinking"
# Problem solving
"Solve database performance issues using sequential-thinking"
# Design review
"Examine real-time notification system design using sequential-thinking"
Collaboration with Claude
# Complex implementation strategy
"Examine authentication system implementation strategy using sequential-thinking. Consider OAuth2, JWT, and session management"
# Bug cause analysis
"Analyze memory leak causes using sequential-thinking. Include code review and profiling results"
# Refactoring strategy
cat src/complex_module.js
"Develop a refactoring strategy for this module using sequential-thinking"
# Technology selection
"Analyze front-end framework selection using sequential-thinking. Consider project requirements and constraints"
Thinking Process
- Initial Analysis - Basic understanding and decomposition of the problem
- Hypothesis Generation - Formulate hypotheses for solutions
- Verification and Revision - Verify hypotheses and revise as needed
- Branching and Exploration - Explore multiple solution paths
- Integration and Conclusion - Derive optimal solution
Features
- Dynamic Adjustment - Ability to change direction during thinking
- Hypothesis Testing - Cycle of forming and testing hypotheses
- Branching Thinking - Simultaneously explore multiple thought paths
- Gradual Refinement - Step-by-step refinement of solutions
- Flexibility - Policy changes based on new information
Detailed Examples
# Complex system design
"Examine e-commerce site microservice design using sequential-thinking. Include order processing, inventory management, and payment integration"
# Security design
"Examine API security design using sequential-thinking. Include authentication, authorization, rate limiting, and audit logging"
# Performance optimization
"Examine large-scale data processing optimization using sequential-thinking. Consider memory usage, processing speed, and scalability"
# Dependency management
"Examine monorepo dependency management strategy using sequential-thinking. Include build time, deployment, and test execution"
Notes
Sequential-thinking is ideal for complex problems that require deepening thought in stages. For simple questions or those with clear answers, use normal question format.
Execution Example
# Usage example
"Examine GraphQL schema design using sequential-thinking"
# Expected behavior
# 1. Initial analysis: Analyze basic requirements for GraphQL schema
# 2. Hypothesis generation: Examine multiple design patterns
# 3. Verification: Verify advantages and disadvantages of each pattern
# 4. Branching: Explore new approaches as needed
# 5. Integration: Propose optimal schema design