name: Framework Orchestrator
description: Meta-skill that coordinates all frameworks and skills throughout the project lifecycle, providing intelligent sequencing based on project patterns
version: 1.0.0
category: orchestration
triggers:
- 'framework-orchestrator'
- 'framework orchestrator'
- 'orchestrate frameworks'
- 'coordinate skills'
- 'project orchestration'
dependencies:
required_mcps: []
required_tools: []
required_integrations: []

Framework Orchestrator

Overview

The Framework Orchestrator is the meta-skill that coordinates all other skills and frameworks throughout your project lifecycle. It analyzes your project, identifies the appropriate pattern, and sequences frameworks and skills in the optimal order.

Think of it as: Your AI project manager that knows when to apply which methodology.

When to Use This Skill

Use Framework Orchestrator when:

• Starting a new project and need guidance on methodology
• Unsure which frameworks or skills to apply first
• Want a complete orchestrated plan for your project
• Need to understand your project's complexity pattern
• Transitioning between project phases
• Managing multiple workstreams in parallel

Key Capabilities

• Analyze projects and identify complexity patterns (A, B, C)
• Recommend optimal framework sequences
• Coordinate skill activation at appropriate phases
• Provide phase-gate validation
• Adapt orchestration based on project evolution
• Ensure comprehensive coverage across all dimensions

Workflow

Step 1: Pattern Identification

Analyze the project and categorize into one of three patterns:

Pattern A: Simple Feature/Enhancement

Characteristics:

• Adding to existing system
• Well-understood requirements
• Low risk, minimal security impact
• Single-team, short timeline (days to 1-2 weeks)

Examples:

• Add filter to existing search
• New dashboard widget
• Form field additions
• UI styling updates

Timeline: 1-5 days

Pattern B: New Product/System

Characteristics:

• Building from scratch or major module
• User validation needed
• Security/compliance important
• Multiple considerations (UX, architecture, testing)
• Medium timeline (weeks to months)

Examples:

• New SaaS product
• Customer portal
• Internal tool
• API platform

Timeline: 4-12 weeks

Pattern C: AI-Native/Complex System

Characteristics:

• All Pattern B characteristics, PLUS:
• AI agents, RAG systems, or knowledge graphs
• Complex orchestration
• Novel technology
• Higher uncertainty and iteration

Examples:

• Multi-agent AI system
• RAG-powered knowledge base
• Intelligent automation platform
• AI-assisted decision support

Timeline: 8-20 weeks

Step 2: Framework Selection

Based on pattern, recommend framework sequence:

Pattern A Sequence (Simple Feature)

1. simple_feature_framework - Lightweight requirements and validation
2. code-quality-enforcer - Ensure code standards
3. testing-strategist - Unit test coverage
4. deployment-advisor - Ship quickly

Coordinating Skills:

• quality-assurance (testing)
• performance-optimizer (if needed)

Pattern B Sequence (New Product)

Phase 1: Discovery & Validation

• discovery_validation_framework - User research and problem validation
• product_market_fit_framework - Market analysis and positioning
• prp-generator skill - Create Product Requirements Prompt
• user-researcher skill - Conduct user interviews

Phase 2: Architecture & Design

• bmad-method skill - Business model and architecture alignment
• design_prototyping_framework - Wireframes and prototypes
• ux-designer skill - User journey mapping
• security-architect skill - Threat modeling and security design
• api-designer skill (if applicable) - API contract design

Phase 3: Development

• full_stack_dev_framework - Implementation guidance
• frontend-builder / api-designer skills - Build UI and backend
• quality-assurance skill - Code quality and testing

Phase 4: Testing & Validation

• testing_validation_framework - Comprehensive testing strategy
• quality-assurance skill - Test pyramid execution
• usability-tester skill - User acceptance testing
• security-architect skill - Security testing

Phase 5: Deployment & Launch

• deployment_devops_framework - CI/CD and infrastructure
• deployment-advisor skill - Deployment strategy
• go-to-market-planner skill - Launch planning

Pattern C Sequence (AI-Native)

All Pattern B phases, PLUS:

Phase 2b: AI Architecture (parallel with standard architecture)

• multi-agent-architect skill - Agent system design
• rag-implementer skill - RAG architecture (if applicable)
• knowledge-graph-builder skill - Knowledge structure (if applicable)
• agentic-workflow-orchestration-framework - Agent coordination

Phase 3b: AI Development (integrated with standard development)

• context_engineering_framework - Prompt and context design
• multi_agent_orchestration_framework - Agent implementation

Phase 4b: AI Testing (additional testing layer)

• Test agent behaviors and edge cases
• Validate RAG retrieval quality
• Benchmark LLM performance

Step 3: Phase Orchestration

Execute phases with validation gates:

Phase Gate Structure

Entry to Phase 2 (Design):

• PRP document complete
• Problem statement validated
• Success metrics defined
• User stories documented

Entry to Phase 3 (Development):

• Architecture documented
• Data model designed
• Security threats identified
• Mitigations planned

Entry to Phase 4 (Testing):

• Features complete
• Unit tests >80% coverage
• Code review passed
• SAST scans clean

Entry to Phase 5 (Deployment):

• All tests passing
• UAT completed
• Security testing done
• Coverage >90%

Step 4: Skill Coordination

Orchestrate skills based on current phase:

Discovery Phase Skills:

• user-researcher
• product-strategist
• product-analyst

Design Phase Skills:

• ux-designer
• design-system-architect
• bmad-method
• security-architect

Development Phase Skills:

• frontend-builder
• api-designer
• multi-agent-architect (Pattern C)
• rag-implementer (Pattern C)
• mvp-builder

Testing Phase Skills:

• quality-assurance
• usability-tester
• security-architect

Deployment Phase Skills:

• deployment-advisor
• go-to-market-planner
• performance-optimizer

Post-Launch Skills:

• product-analyst
• customer-feedback-analyzer
• performance-optimizer

Examples

Example 1: SaaS Analytics Platform (Pattern B)

Project Analysis:

• New product from scratch
• B2B SaaS model
• Security and compliance important
• 8-week timeline

Recommended Sequence:

Week 1: Discovery

1. discovery_validation_framework
2. user-researcher skill → User interviews
3. product-strategist skill → Market validation
4. prp-generator skill → Create PRP

Week 2: Architecture 5. bmad-method skill → Business model + architecture alignment 6. design_prototyping_framework → Wireframes 7. ux-designer skill → User journeys 8. api-designer skill → API design 9. security-architect skill → Threat model

Week 3-6: Development 10. full_stack_dev_framework 11. frontend-builder skill → Build React UI 12. api-designer skill → Build backend 13. quality-assurance skill → Continuous testing

Week 7: Testing 14. testing_validation_framework 15. quality-assurance skill → Test pyramid 16. usability-tester skill → User testing 17. security-architect skill → Security testing

Week 8: Deployment 18. deployment_devops_framework 19. deployment-advisor skill → Deploy to production 20. go-to-market-planner skill → Launch plan

Example 2: Multi-Agent Customer Support System (Pattern C)

Project Analysis:

• AI-native system with multiple agents
• RAG for knowledge retrieval
• Complex orchestration
• 12-week timeline

Recommended Sequence:

Week 1-2: Discovery (same as Pattern B)

Week 3-4: Architecture

• bmad-method skill
• security-architect skill
• multi-agent-architect skill → Agent system design
• rag-implementer skill → RAG architecture
• knowledge-graph-builder skill → Knowledge structure
• agentic-workflow-orchestration-framework

Week 5-9: Development

• full_stack_dev_framework
• frontend-builder skill
• multi-agent-architect skill → Agent implementation
• rag-implementer skill → Vector DB + embeddings
• context_engineering_framework → Prompt design
• quality-assurance skill

Week 10-11: Testing

• testing_validation_framework
• quality-assurance skill
• Test agent behaviors, RAG quality, LLM performance
• usability-tester skill

Week 12: Deployment

• deployment_devops_framework
• deployment-advisor skill
• go-to-market-planner skill

Example 3: Add User Export Feature (Pattern A)

Project Analysis:

• Enhancement to existing system
• Well-understood requirements
• Low complexity
• 3-day timeline

Recommended Sequence:

Day 1:

1. simple_feature_framework → Define requirements
2. api-designer skill → Design export endpoint

Day 2: 3. Build backend + frontend 4. quality-assurance skill → Unit tests

Day 3: 5. testing-strategist skill → Integration tests 6. deployment-advisor skill → Deploy to staging, then production

Best Practices

1. Always Start with Pattern Identification

Don't jump to frameworks. First understand:

• Scope (simple feature, new product, AI system)
• Timeline (days, weeks, months)
• Risk (low, medium, high)

2. Respect Phase Gates

Don't skip validation checkpoints. Each gate ensures:

• Previous work is complete
• Next phase has proper foundation
• Risks are identified and mitigated

3. Parallelize When Possible

Some work can run in parallel:

• UX design + Architecture design (Phase 2)
• Frontend + Backend development (Phase 3)
• Test writing + Feature development (Phase 3)

4. Adapt Orchestration Based on Reality

If project evolves:

• Pattern A → Pattern B: Add discovery and design phases
• Pattern B → Pattern C: Add AI architecture and testing
• Scope reduction: Simplify orchestration

5. Coordinate Skills, Don't Overwhelm

Don't activate all skills at once. Sequence them:

• 1-3 skills per phase maximum
• Clear handoffs between skills
• Each skill has specific deliverable

Common Pitfalls

1. Mis-Identifying Pattern

Antipattern: Treating Pattern B (new product) as Pattern A (simple feature)
Result: Skip discovery, build wrong thing

Fix: If any uncertainty exists, default to Pattern B

2. Skipping Phases

Antipattern: Jump straight to development without design
Result: Rework, missed requirements, security gaps

Fix: Respect the sequence, validate phase gates

3. Over-Orchestrating Simple Features

Antipattern: Use full Pattern B orchestration for a button color change
Result: Waste time on unnecessary process

Fix: Pattern A is valid for truly simple work

4. Under-Orchestrating Complex Projects

Antipattern: Build AI system without proper architecture phase
Result: Technical debt, poor performance, rewrites

Fix: Pattern C requires comprehensive orchestration

5. Ignoring Phase Gates

Antipattern: Move to development with incomplete architecture
Result: Build on shaky foundation, blockers mid-development

Fix: Enforce phase gates, document readiness

Related Skills

• prp-generator - Creates requirements (called by orchestrator in Phase 1)
• bmad-method - Business/architecture alignment (Phase 2)
• security-architect - Security design (Phase 2 & 4)
• quality-assurance - Testing strategy (Phase 3 & 4)
• deployment-advisor - Infrastructure (Phase 5)
• All other skills - Activated by orchestrator at appropriate phases

Deliverables

When using Framework Orchestrator, produce:

1. Pattern Identification
2. Pattern: A, B, or C
3. Rationale for classification

4. Estimated timeline

5. Orchestration Plan

6. Phase breakdown
7. Framework sequence
8. Skill activation points

9. Phase gate criteria

10. Current Phase Status

11. Where you are now
12. Completion percentage
13. Gate criteria readiness

14. Next steps

15. Risk & Adaptation Plan

16. Identified risks
17. Contingency plans
18. When to adapt orchestration

Success Metrics

Successful orchestration means:

• Right pattern identified (no mis-classification)
• Frameworks applied in optimal sequence
• Phase gates enforced and passed
• Skills activated at appropriate times
• No major rework due to skipped phases
• Team clarity on current phase and next steps
• Project delivered with appropriate quality for pattern

Remember: The orchestrator ensures you apply the right methodology at the right time. It's the difference between organized development and chaotic thrashing.