Agent Skills: PDCA Skill

PDCA Skill

Unified Skill for managing PDCA cycle. Supports the entire Plan → Design → Do → Check → Act flow.

Arguments

| Argument | Description | Example | |----------|-------------|---------| | pm [feature] | Run PM Agent Team analysis (pre-Plan) | /pdca pm user-auth | | plan [feature] | Create Plan document | /pdca plan user-auth | | design [feature] | Create Design document | /pdca design user-auth | | do [feature] | Do phase guide (start implementation) | /pdca do user-auth | | analyze [feature] | Run Gap analysis (Check phase) | /pdca analyze user-auth | | iterate [feature] | Auto improvement iteration (Act phase) | /pdca iterate user-auth | | qa [feature] | Run QA phase (L1-L5 tests) | /pdca qa user-auth | | report [feature] | Generate completion report | /pdca report user-auth | | archive [feature] | Archive completed PDCA documents | /pdca archive user-auth | | cleanup [feature] | Cleanup archived features from status | /pdca cleanup | | team [feature] | Start PDCA Team Mode (requires Agent Teams) | /pdca team user-auth | | team status | Show Team status | /pdca team status | | team cleanup | Cleanup Team resources | /pdca team cleanup | | status | Show current PDCA status | /pdca status | | next | Guide to next phase | /pdca next |

Action Details

pm (PM Analysis Phase)

Run PM Agent Team for product discovery and strategy analysis before Plan phase.

1. Call pm-lead Agent (orchestrates 4 sub-agents)
2. pm-lead runs Phase 1: Context Collection (project info, git history)
3. pm-lead runs Phase 2: Parallel Analysis (3 agents simultaneously)
   • pm-discovery: Opportunity Solution Tree (Teresa Torres)
   • pm-strategy: Value Proposition (JTBD 6-Part) + Lean Canvas
   • pm-research: 3 Personas + 5 Competitors + TAM/SAM/SOM
4. pm-lead runs Phase 3: PRD Synthesis via pm-prd agent
   • Beachhead Segment (Geoffrey Moore) + GTM Strategy
   • 8-section PRD generation
5. Output PRD to docs/00-pm/{feature}.prd.md
6. Create Task: [PM] {feature}
7. Update .bkit-memory.json: phase = "pm"
8. Guide user to next step: /pdca plan {feature}

Output Path: docs/00-pm/{feature}.prd.md

Requirements:

• Agent Teams enabled: CLAUDE_CODE_EXPERIMENTAL_AGENT_TEAMS=1
• Project level: Dynamic or Enterprise (Starter not supported)

plan (Plan Phase)

0. Template Loading: Read templates/plan.template.md to understand the required Plan document structure and sections. Use this template's sections as your document outline. This is MANDATORY — do not generate Plan documents from memory or assumptions.
1. PRD Auto-Reference: Check if docs/00-pm/{feature}.prd.md exists
   • If found: Read PRD and use as context for Plan document (improves quality significantly)
   • If not found: Proceed normally (tip: run /pdca pm {feature} first for better results)
2. Check if docs/01-plan/features/{feature}.plan.md exists
3. If not, create based on plan.template.md
4. If exists, display content and suggest modifications
5. Checkpoint 1 — Requirements Confirmation: Present understanding of the feature (problem, scope, constraints) and use AskUserQuestion: "요구사항 이해가 맞나요? 빠진 건 없나요?" Wait for user confirmation before proceeding.
6. Checkpoint 2 — Clarifying Questions: Identify underspecified elements (edge cases, error handling, integration points, compatibility). Present organized question list. Wait for answers before generating the document.
7. Generate Plan document with user-confirmed requirements
8. Create Task: [Plan] {feature}
9. Update .bkit-memory.json: phase = "plan"
10. Write ## Executive Summary at document top with 4-perspective table (Problem/Solution/Function UX Effect/Core Value), each 1-2 sentences
11. Context Anchor Generation: After generating Plan document, extract Context Anchor (WHY/WHO/RISK/SUCCESS/SCOPE) from Executive Summary, Requirements, and Risk sections. Write as ## Context Anchor table between Executive Summary and Section 1. This anchor propagates to Design/Do documents for cross-session context continuity.
12. MANDATORY: After completing the document, also output the Executive Summary table in your response so the user sees it immediately without opening the file

Output Path: docs/01-plan/features/{feature}.plan.md

Tip: For features with ambiguous requirements or multiple implementation approaches, use /plan-plus {feature} instead. Plan Plus adds brainstorming phases (intent discovery, alternatives exploration, YAGNI review) before document generation for higher-quality plans.

design (Design Phase)

0. Template Loading: Read templates/design.template.md to understand the required Design document structure. Use this template's sections as your document outline. This is MANDATORY — do not generate Design documents from memory or assumptions.
1. Verify Plan document exists (required - suggest running plan first if missing)
2. Read Plan document to understand requirements and scope
3. PRD Context Loading: Check if docs/00-pm/{feature}.prd.md exists. If found, read the Executive Summary and Beachhead/GTM sections to inform architecture decisions with market context. This prevents strategic context loss at the Plan→Design handoff.
4. Context Anchor Embed: Copy Plan's ## Context Anchor table to Design document top (between header metadata and ## 1. Overview). If Plan has no Context Anchor (legacy), skip this step gracefully.
5. Generate 3 Architecture Options (inspired by feature-dev Phase 4):
   • Option A — Minimal Changes: Least modification, maximum reuse of existing code. Fast but potentially coupled.
   • Option B — Clean Architecture: Best separation of concerns, most maintainable. More files, more refactoring.
   • Option C — Pragmatic Balance: Good boundaries without over-engineering. Recommended default.
6. Present comparison table with trade-offs (complexity, maintainability, effort, risk)
7. Checkpoint 3 — Architecture Selection: Use AskUserQuestion: "3가지 설계안 중 어떤 걸 선택하시겠습니까?" Include recommendation. Wait for user selection.
8. Create docs/02-design/features/{feature}.design.md using selected architecture
9. Use design.template.md structure + reference Plan content
10. Session Guide Generation: Analyze Design's ## 11. Implementation Guide structure to generate Module Map and Recommended Session Plan. Add as ### 11.3 Session Guide within Implementation Guide section. This enables /pdca do {feature} --scope module-N for multi-session incremental implementation.
11. Design Anchor Integration (Pencil MCP): If the feature involves UI and Pencil MCP is available:
    • Suggest: "UI 컨셉 페이지를 1-2개 먼저 만든 후 /design-anchor capture {feature} 로 디자인 토큰을 잠그세요"
    • If Design Anchor already exists (docs/02-design/styles/{feature}.design-anchor.md), embed it in the Design document as ## Design Anchor section
    • This ensures design tokens (colors, typography, spacing) are locked before implementation
12. Create Task: [Design] {feature} (blockedBy: Plan task)
13. Update .bkit-memory.json: phase = "design"

Output Path: docs/02-design/features/{feature}.design.md

do (Do Phase)

1. Verify Design document exists (required)
2. Read Design document FULLY (read the entire document, not just a summary. This is critical — full context reload ensures each session starts with complete architectural context)
3. Full Upstream Context Loading (Phase 2+3): Load the COMPLETE upstream document chain:
   • Read PRD (docs/00-pm/{feature}.prd.md) — extract WHY context (JTBD, value proposition, market positioning)
   • Read Plan (docs/01-plan/features/{feature}.plan.md) — extract Context Anchor, Success Criteria, Requirements
   • This ensures implementation decisions are guided by strategic intent from PRD→Plan→Design, not just the Design spec
4. Decision Record Chain Display: Extract and display key decisions from PRD→Plan→Design as a unified chain. Format:

   📋 Decision Record Chain
   [PRD] Target: {market/user segment} — {rationale}
   [Plan] Architecture: {selected option} — {rationale}
   [Design] State Mgmt: {selected approach} — {rationale}
   

5. Success Criteria Tracking: Extract Success Criteria from Plan document. Display as implementation checklist — each criterion must be addressed during implementation. Mark criteria that are covered by the current --scope.
6. Parse --scope parameter: If arguments contain --scope <value>, extract module list (comma-separated scope keys). Match against Design's Session Guide Module Map. Filter implementation items to show only matching modules.
7. Display Context Anchor: Show the Context Anchor table from Design document header. Format: "📌 Context Anchor" + WHY/WHO/RISK/SUCCESS/SCOPE table. This reminds the user WHY we're building this feature.
8. Session Guide Display:
   • If no --scope: Show full Module Map from Design + recommend session split + proceed with full implementation guide
   • If --scope provided: Show only the selected modules' implementation items
9. Summarize implementation scope:
   • Files to create: N
   • Files to modify: M
   • Estimated changes: ~X lines
10. Checkpoint 4 — Implementation Approval: Present scope summary and use AskUserQuestion: "이 범위로 구현을 시작해도 되겠습니까?" DO NOT START IMPLEMENTATION WITHOUT USER APPROVAL.
11. After approval, provide implementation guide based on do.template.md
12. Reference implementation order from Design document (filtered by --scope if provided)
13. Code Comment Convention (Phase 3): During implementation, add Design reference comments for key architectural decisions:
    • At module/file level: // Design Ref: §{section} — {decision rationale}
    • At critical logic: // Plan SC: {success criteria being addressed}
    • These comments create traceable links from code back to design decisions
14. Create Task: [Do] {feature} (blockedBy: Design task)
15. Update .bkit-memory.json: phase = "do"

--scope Parameter:

/pdca do feature                      # Full scope (backward compatible) + session guide
/pdca do feature --scope module-1     # Only module-1
/pdca do feature --scope module-1,module-2  # Multiple modules

Guide Provided:

• Context Anchor (WHY/WHO/RISK/SUCCESS/SCOPE)
• Session scope (filtered or full)
• Implementation order checklist
• Key files/components list
• Dependency installation commands

analyze (Check Phase)

1. Verify Do completion status (implementation code exists)

2. Full Upstream Context Loading (Phase 2+3): Load the COMPLETE upstream document chain for comprehensive evaluation:

   • Read PRD (docs/00-pm/{feature}.prd.md) — verify strategic alignment (was the right problem solved?)
   • Read Plan (docs/01-plan/features/{feature}.plan.md) — verify Requirements fulfillment + Success Criteria
   • Read Design (docs/02-design/features/{feature}.design.md) — verify structural implementation match
   • This 3-layer verification catches gaps that single-document comparison misses

3. Context Anchor Embed: Copy Context Anchor from Design to Analysis document header.

4. Strategic Alignment Check (Phase 3): Before structural gap analysis, verify:

   • Does the implementation address the PRD's core problem (WHY)?
   • Are Plan Success Criteria met or on track?
   • Were key Design decisions (architecture, data model, API) followed?
   • Flag strategic misalignments as Critical regardless of structural match rate

5. Plan Success Criteria Reference: Evaluate each Success Criteria from Plan:

   • Mark as ✅ Met / ⚠️ Partial / ❌ Not Met
   • Include evidence (file:line or test result)
   • Criteria violations are automatically Critical severity

6. Call gap-detector Agent (v2.3.0: Static Analysis + Runtime Verification Plan)

   • gap-detector performs static analysis (Structural + Functional + Contract)
   • gap-detector outputs a Runtime Verification Plan (L1/L2/L3 test specs)

7. Compare Design document vs implementation code on 3 static axes:

   • Structural Match: File existence, route coverage, component list
   • Functional Depth: Placeholder detection, Page UI Checklist verification, actual logic completeness
   • API Contract: 3-way verification (Design §4 ↔ Server route.ts ↔ Client fetch calls)

8. Runtime Verification (v2.3.0): After gap-detector completes, execute runtime tests.

   • Preferred: Run existing tests from tests/e2e/{feature}.spec.ts (written during Do phase)
   • Fallback: If no test file exists, generate from gap-detector's Runtime Verification Plan
   • Test scenarios are defined in Design §8 Test Plan, implemented during Do phase, executed here

   L1 — API Endpoint Tests (always run if server is available):

   • Execute each curl command from gap-detector's L1 plan
   • Check: HTTP status code matches expected
   • Check: Response JSON shape matches expected (has .data, .error, .pagination)
   • Check: Auth guard returns 401 for protected endpoints
   • Check: Zod validation returns 400 with fieldErrors for invalid input
   • Check: Rate limiting returns 429 after threshold
   • Detect server: curl -s -o /dev/null -w "%{http_code}" http://localhost:3000/
   • If no server running: skip L1, warn user, use static-only formula

   L2 — UI Action Tests (run if Playwright is installed):

   • Generate Playwright test file from gap-detector's L2 plan
   • Write to tests/e2e/{feature}-actions.spec.ts
   • Run: npx playwright test tests/e2e/{feature}-actions.spec.ts
   • Each test: navigate to page → perform action → assert result
   • Check: API calls triggered by UI match expected endpoints
   • If Playwright not installed: skip L2, suggest pnpm add -D @playwright/test

   L3 — E2E Scenario Tests (run if Playwright is installed):

   • Generate Playwright test file from gap-detector's L3 plan
   • Write to tests/e2e/{feature}-e2e.spec.ts
   • Run: npx playwright test tests/e2e/{feature}-e2e.spec.ts
   • Full user journey: multi-page flows with state persistence
   • Check: complete flow from start to end without errors

   Match Rate Formula (v2.3.0):

   If runtime executed:
     Overall = (Structural × 0.15) + (Functional × 0.25)
             + (Contract × 0.25) + (Runtime × 0.35)
   If static only (no server):
     Overall = (Structural × 0.2) + (Functional × 0.4) + (Contract × 0.4)
   

9. Calculate Match Rate and generate Gap list. Report all rates separately.

10. Decision Record Verification (Phase 3): Check if key decisions from Decision Record Chain were followed in implementation. Flag deviations.

11. Checkpoint 5 — Review Decision: Present issues by severity (Critical/Important only, confidence ≥80%). Use AskUserQuestion with options:

    • "지금 모두 수정" — proceed to iterate
    • "Critical만 수정" — iterate critical only
    • "그대로 진행" — accept current state Wait for user decision before proceeding.

12. Create Task: [Check] {feature} (blockedBy: Do task)

13. Update .bkit-memory.json: phase = "check", matchRate

Output Path: docs/03-analysis/{feature}.analysis.md

qa (QA Phase)

1. Verify Iterate completion (Match Rate ≥ target or max iterations reached)
2. Delegate to qa-phase skill: Invoke the standalone /qa-phase {feature} skill, which owns L1-L5 test planning, generation, execution, and reporting.
3. The qa-phase skill:
   • Reads Design doc §8 Test Plan
   • Calls qa-test-planner to refine L1-L5 test specs
   • Calls qa-test-generator to emit runnable test files
   • Executes L1 (API) / L2 (UI actions) / L3 (E2E) tests via Chrome MCP
   • Optional L4 (perf) / L5 (security) for Enterprise level
4. Emit one of:
   • QA_PASS → auto-advance to report phase
   • QA_FAIL → fall back to iterate phase
   • QA_SKIP → mark qa as skipped, proceed to report
5. Create Task: [QA] {feature}
6. Update .bkit/state/pdca-status.json: phase = "qa", qaStatus = <PASS|FAIL|SKIP>

Output Path: docs/05-qa/{feature}.qa-report.md

Agent: bkit:qa-lead (mapped via frontmatter agents.qa)

iterate (Act Phase)

1. Check results (when matchRate < 90%)
2. Call pdca-iterator Agent
3. Auto-fix code based on Gap list
4. Auto re-run Check after fixes
5. Create Task: [Act-N] {feature} (N = iteration count)
6. Stop when >= 90% reached or max iterations (5) hit

Iteration Rules:

• Max iterations: 5 (adjustable via bkit.config.json)
• Stop conditions: matchRate >= 90% or maxIterations reached

report (Completion Report)

0. Template Loading: Read templates/report.template.md to understand the required Report document structure. Use this template's sections as your document outline. This is MANDATORY — do not generate Report documents from memory or assumptions.
1. Verify Check >= 90% (warn if below)
2. Full Upstream Context Loading (Phase 2+3): Load ALL upstream documents for comprehensive reporting:
   • Read PRD — compare original value proposition vs delivered value
   • Read Plan — compare planned Requirements/Success Criteria vs actual results
   • Read Design — note architecture decisions and deviations
   • Read Analysis — include final Match Rate and resolved gaps
   • This ensures the report reflects the FULL journey from PRD→Code
3. Call report-generator Agent
4. Integrated report of PRD, Plan, Design, Implementation, Analysis
5. Decision Record Summary (Phase 3): Include section "Key Decisions & Outcomes":
   • List decisions from PRD→Plan→Design chain
   • For each: was it followed? what was the outcome?
   • This creates a learnable record for future PDCA cycles
6. Success Criteria Final Status: Include Plan Success Criteria with final status:
   • Each criterion: ✅ Met (with evidence) / ❌ Not Met (with reason)
   • Overall Success Rate: X/Y criteria met
7. Include ## Executive Summary with ### 1.3 Value Delivered reflecting actual results (4 perspectives with metrics)
8. MANDATORY: After completing the report, also output the Executive Summary table in your response
9. Create Task: [Report] {feature}
10. Update .bkit-memory.json: phase = "completed"

Output Path: docs/04-report/{feature}.report.md

team (Team Mode) - v1.5.1

Start PDCA Team Mode using Claude Code Agent Teams (requires CLAUDE_CODE_EXPERIMENTAL_AGENT_TEAMS=1).

team [feature] - Start Team Mode

1. Check if Agent Teams is available: call isTeamModeAvailable() from lib/team/coordinator.js
2. If not available, display: "Agent Teams is not enabled. Set CLAUDE_CODE_EXPERIMENTAL_AGENT_TEAMS=1 to enable."
3. Detect project level via detectLevel() - Starter projects cannot use Team Mode
4. Generate team strategy via generateTeamStrategy(level):
   • Dynamic: 3 teammates (developer, frontend, qa) — CTO Lead orchestrates
   • Enterprise: 5 teammates (architect, developer, qa, reviewer, security) — CTO Lead orchestrates
5. CTO Lead (cto-lead agent, opus) automatically:
   • Sets technical direction and selects orchestration pattern
   • Distributes tasks to teammates based on PDCA phase
   • Enforces quality gates (90% Match Rate threshold)
6. Show strategy and confirm with AskUserQuestion before starting
7. Assign PDCA tasks to teammates via assignNextTeammateWork()

team status - Show Team Status

1. Call formatTeamStatus() from lib/team/coordinator.js
2. Display: Team availability, enabled state, display mode, teammate count
3. Show current PDCA feature progress per teammate if active

Output Example:

📊 PDCA Team Status
─────────────────────────────
Agent Teams: Available ✅
Display Mode: in-process
Teammates: 4 / 4 (Enterprise)
─────────────────────────────
Feature: user-auth
  architect: [Design] in progress
  developer: [Do] waiting
  qa: idle
  reviewer: idle

team cleanup - Cleanup Team Resources

1. Stop all active teammates
2. Record team_session_ended in PDCA history via addPdcaHistory()
3. Return to single-session PDCA mode
4. Display: "Returning to single-session mode"

Required Environment: CLAUDE_CODE_EXPERIMENTAL_AGENT_TEAMS=1

Level Requirements: | Level | Available | Teammates | CTO Lead | |-------|:---------:|:---------:|:--------:| | Starter | No | - | - | | Dynamic | Yes | 3 | cto-lead (opus) | | Enterprise | Yes | 6 | cto-lead (opus) |

archive (Archive Phase)

1. Verify Report completion status (phase = "completed" or matchRate >= 90%)
2. Verify PDCA documents exist (plan, design, analysis, report)
3. Create docs/archive/YYYY-MM/{feature}/ folder
4. Move documents (delete from original location)
5. Update Archive Index (docs/archive/YYYY-MM/_INDEX.md)
6. Update .pdca-status.json: phase = "archived", record archivedTo path
7. Remove feature from status (or preserve summary with --summary option)

Arguments: | Argument | Description | Example | |----------|-------------|---------| | archive {feature} | Archive with complete cleanup (default) | /pdca archive user-auth | | archive {feature} --summary | Archive with summary preservation (FR-04) | /pdca archive user-auth --summary |

Output Path: docs/archive/YYYY-MM/{feature}/

Documents to Archive:

• docs/01-plan/features/{feature}.plan.md
• docs/02-design/features/{feature}.design.md
• docs/03-analysis/{feature}.analysis.md
• docs/04-report/features/{feature}.report.md

FR-04: Summary Preservation Option (v1.4.8):

When using --summary (or --preserve-summary, -s), the feature data in .pdca-status.json is converted to a lightweight summary instead of being deleted:

// Summary format (70% size reduction)
{
  "my-feature": {
    "phase": "archived",
    "matchRate": 100,
    "iterationCount": 2,
    "startedAt": "2026-01-15T10:00:00Z",
    "archivedAt": "2026-01-20T15:30:00Z",
    "archivedTo": "docs/archive/2026-01/my-feature/"
  }
}

Use --summary when you need:

• Historical statistics and metrics
• Project duration tracking
• PDCA efficiency analysis

Important Notes:

• Cannot archive before Report completion
• Documents are deleted from original location after move (irreversible)
• Feature name must match exactly
• Default behavior: complete deletion from status
• Use --summary to preserve metrics for future reference

cleanup (Cleanup Phase) - v1.4.8

Clean up archived features from .pdca-status.json to reduce file size.

1. Read archived features from .pdca-status.json
2. Display list with timestamps and archive paths
3. Ask user for confirmation via AskUserQuestion (FR-06)
4. Delete selected features from status using cleanupArchivedFeatures()
5. Report cleanup results

Arguments: | Argument | Description | Example | |----------|-------------|---------| | cleanup | Interactive cleanup (shows list) | /pdca cleanup | | cleanup all | Delete all archived features | /pdca cleanup all | | cleanup {feature} | Delete specific feature | /pdca cleanup old-feature |

Output Example:

🧹 PDCA Cleanup
─────────────────────────────
Archived features found: 3

1. feature-a (archived: 2026-01-15)
2. feature-b (archived: 2026-01-20)
3. feature-c (archived: 2026-01-25)

Select features to cleanup:
[ ] All archived features
[ ] Select specific features
[ ] Cancel

Related Functions (lib/pdca/status.js):

• getArchivedFeatures() - Get list of archived features
• cleanupArchivedFeatures(features?) - Cleanup specific or all archived
• deleteFeatureFromStatus(feature) - Delete single feature
• enforceFeatureLimit(max=50) - Auto cleanup when limit exceeded

Notes:

• Only archived/completed features can be deleted
• Active features are protected from deletion
• Archive documents remain in docs/archive/ (only status is cleaned)

status (Status Check)

1. Read .bkit-memory.json
2. Display current feature, PDCA phase, Task status
3. Visualize progress

Output Example:

📊 PDCA Status
─────────────────────────────
Feature: user-authentication
Phase: Check (Gap Analysis)
Match Rate: 85%
Iteration: 2/5
─────────────────────────────
[Plan] ✅ → [Design] ✅ → [Do] ✅ → [Check] 🔄 → [Act] ⏳

next (Next Phase)

1. Check current PDCA phase
2. Suggest next phase guide and commands
3. Confirm with user via AskUserQuestion

Phase Guide: | Current | Next | Suggestion | |---------|------|------------| | None | pm | /pdca pm [feature] (recommended) or /pdca plan [feature] | | pm | plan | /pdca plan [feature] (PRD auto-referenced) | | plan | design | /pdca design [feature] | | design | do | Implementation start guide | | do | check | /pdca analyze [feature] | | check (<90%) | act | /pdca iterate [feature] | | check (>=90%) | report | /pdca report [feature] | | report | archive | /pdca archive [feature] |

Template References

Templates loaded from imports are used when executing each action:

| Action | Template | Purpose | |--------|----------|---------| | plan | plan.template.md | Plan document structure | | design | design.template.md | Design document structure | | do | do.template.md | Implementation guide structure | | analyze | analysis.template.md | Analysis report structure | | report | report.template.md | Completion report structure |

Task Integration

Each PDCA phase automatically integrates with Task System:

Task Creation Pattern:
┌────────────────────────────────────────┐
│ [PM] {feature}                         │
│   ↓ (optional, pre-Plan)               │
│ [Plan] {feature}                       │
│   ↓ (blockedBy)                        │
│ [Design] {feature}                     │
│   ↓ (blockedBy)                        │
│ [Do] {feature}                         │
│   ↓ (blockedBy)                        │
│ [Check] {feature}                      │
│   ↓ (blockedBy, Check < 90%)           │
│ [Act-1] {feature}                      │
│   ↓ (on iteration)                     │
│ [Act-N] {feature}                      │
│   ↓ (Check >= 90%)                     │
│ [Report] {feature}                     │
│   ↓ (after Report completion)          │
│ [Archive] {feature}                    │
└────────────────────────────────────────┘

Agent Integration

| Action | Agent | Role | |--------|-------|------| | pm | pm-lead | Orchestrate PM Agent Team (4 sub-agents) | | analyze | gap-detector | Compare Design vs Implementation | | iterate | pdca-iterator | Auto code fix and re-verification | | report | report-generator | Generate completion report |

Usage Examples

# Run PM analysis (recommended before planning)
/pdca pm user-authentication

# Start new feature
/pdca plan user-authentication

# Create design document
/pdca design user-authentication

# Implementation guide
/pdca do user-authentication

# Gap analysis after implementation
/pdca analyze user-authentication

# Auto improvement (if needed)
/pdca iterate user-authentication

# Completion report
/pdca report user-authentication

# Check current status
/pdca status

# Guide to next phase
/pdca next

Legacy Commands Mapping

| Legacy Command | PDCA Skill | |----------------|------------| | /pdca-plan | /pdca plan | | /pdca-design | /pdca design | | /pdca-analyze | /pdca analyze | | /pdca-iterate | /pdca iterate | | /pdca-report | /pdca report | | /pdca-status | /pdca status | | /pdca-next | /pdca next | | /archive | /pdca archive |

Output Style Integration (v1.5.1)

PDCA workflows benefit from the bkit-pdca-guide output style:

/output-style bkit-pdca-guide

This provides PDCA-specific response formatting:

• Phase status badges: [Plan] -> [Design] -> [Do] -> [Check] -> [Act]
• Gap analysis suggestions after code changes
• Next-phase guidance with checklists
• Feature usage report integration

When running PDCA commands, suggest this style if not already active.

Agent Teams Integration (v1.5.1)

For Dynamic/Enterprise projects, PDCA phases can run in parallel using Agent Teams:

/pdca team {feature}        Start parallel PDCA
/pdca team status            Monitor teammate progress
/pdca team cleanup           End team session

Suggest Agent Teams when:

• Feature is classified as Major Feature (>= 1000 chars)
• Match Rate < 70% (parallel iteration can speed up fixes)
• Project level is Dynamic or Enterprise

CTO-Led Team Orchestration Patterns: | Level | Plan | Design | Do | Check | Act | |-------|------|--------|-----|-------|-----| | Dynamic | leader | leader | swarm | council | leader | | Enterprise | leader | council | swarm | council | watchdog |

Auto Triggers

Auto-suggest related action when detecting these keywords:

| Keyword | Suggested Action | |---------|------------------| | "pm", "product discovery", "PRD", "market analysis" | pm | | "plan", "planning", "roadmap" | plan | | "design", "architecture", "spec" | design | | "implement", "develop", "build" | do | | "verify", "analyze", "check" | analyze | | "improve", "iterate", "fix" | iterate | | "complete", "report", "summary" | report | | "archive", "store" | archive | | "cleanup", "clean", "remove old" | cleanup |

Slash Invoke Pattern (CC 2.1.0+)

Skills 2.0 enables direct slash invocation for all PDCA commands:

• /pdca plan [feature] — Create Plan document
• /pdca design [feature] — Create Design document
• /pdca do [feature] — Implementation guide
• /pdca analyze [feature] — Gap analysis (Check phase)
• /pdca iterate [feature] — Auto-improvement (Act phase)
• /pdca qa [feature] — Run QA phase (L1-L5 tests)
• /pdca report [feature] — Completion report
• /pdca status — Current PDCA status
• /pdca next — Next phase guide
• /plan-plus [feature] — Brainstorming-enhanced planning

Hot reload: SKILL.md changes reflect without session restart (CC 2.1.0+).

PDCA Auto-Monitoring (CC v2.1.71+)

CC v2.1.71 introduces /loop command and Cron tools for automated monitoring.

Usage Examples

• /loop 5m /pdca status - Check PDCA status every 5 minutes
• /loop 10m /pdca analyze [feature] - Run Gap analysis every 10 minutes
• Use Cron tools for session-level scheduled checks

CTO Team Integration

• Long CTO Team sessions benefit from /loop for progress monitoring
• stdin freeze fixed in v2.1.71 ensures reliable long sessions
• Background agent recovery (v2.1.71) makes background: true agents reliable