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Expert knowledge for Motivation Layer modeling in Documentation Robotics
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Expert knowledge for Motivation Layer modeling in Documentation Robotics
Codex または Claude でインストール この Prompt をコピーして Codex、Claude、または他のアシスタントに貼り付けると、Skill ページを確認してインストールできます。
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Expert knowledge for Data Store Layer modeling in Documentation Robotics
Graph-based code intelligence for using dr analyzer subcommands to understand codebase structure, discover elements, and verify model alignment
Expert knowledge for Application Layer modeling in Documentation Robotics
Expert knowledge for Business Layer modeling in Documentation Robotics
Expert knowledge for Security Layer modeling in Documentation Robotics
Expert knowledge for Application Layer modeling in Documentation Robotics
| name | LAYER_01_MOTIV |
| description | Expert knowledge for Motivation Layer modeling in Documentation Robotics |
| triggers | ["stakeholder","driver","assessment","goal","outcome","principle","requirement","constraint","motivation","archimate motivation"] |
| version | 0.6.0 |
Layer Number: 01 Specification: Metadata Model Spec v0.6.0 Purpose: Captures stakeholder concerns, goals, requirements, and constraints that drive architectural decisions using ArchiMate motivation elements.
The Motivation Layer is the highest layer in the 12-layer architecture and provides governance to all other layers. It describes:
This layer uses ArchiMate 3.2 Motivation Layer standard without custom extensions.
| Entity Type | Description | Key Attributes |
|---|---|---|
| Stakeholder | Individual, team, or organization with interest in the outcome | Types: internal, external, customer, partner, regulator |
| Driver | External or internal condition that motivates an organization | Categories: market, regulatory, technology, competitive, operational, strategic |
| Assessment | Outcome of analysis of the state of affairs (SWOT) | Types: strength, weakness, opportunity, threat, risk, gap |
| Goal | High-level statement of intent, direction, or desired end state | Priority: critical, high, medium, low. Can be SMART (measurable, target-date, KPI) |
| Outcome | End result that has been achieved | Status: planned, in-progress, achieved, not-achieved |
| Principle | Normative property of all systems in a given context | Categories: business, data, application, technology, security, integration |
| Requirement | Statement of need that must be realized | Types: functional, non-functional, business, technical, compliance, user |
| Constraint | Restriction on the way in which a system is realized | Types: budget, time, technology, regulatory, organizational, resource |
| Meaning | Knowledge or expertise present in a representation | Used to describe semantics and interpretations |
| Value | Relative worth, utility, or importance of something | Types: financial, customer, operational, strategic, social |
| Source Type | Predicate | Target Type | Example |
|---|---|---|---|
| Goal | aggregates | Goal | Strategic Goal aggregates Operational Goals |
| Requirement | aggregates | Requirement | Business Requirement aggregates Functional Requirements |
| Principle | aggregates | Principle | Enterprise Principles aggregate Domain Principles |
| Constraint | aggregates | Constraint | Budget Constraint aggregates Project Budget Constraints |
| Outcome | realizes | Goal | "Launched Mobile App" realizes "Launch Mobile App by Q4" |
| Goal | realizes | Value | "Improve Customer Satisfaction" realizes "Customer Value" |
| Requirement | realizes | Goal | Functional Requirements realize Business Goals |
| Requirement | realizes | Principle | Technical Requirements realize Security Principles |
| Constraint | realizes | Principle | Technology Constraints realize Technology Principles |
| Goal | specializes | Goal | "Reduce API Latency" specializes "Improve Performance" |
| Requirement | specializes | Requirement | "95% Uptime SLA" specializes "High Availability Requirement" |
| Principle | specializes | Principle | "Encrypt All PII" specializes "Data Security Principle" |
| Value | specializes | Value | "Customer Retention Value" specializes "Customer Value" |
| Source Type | Predicate | Target Type | Example |
|---|---|---|---|
| Driver | influences | Goal | "Digital Transformation" influences "Modernize Architecture" |
| Driver | influences | Requirement | "GDPR Compliance" influences "Data Protection Requirements" |
| Driver | influences | Principle | "Cloud-First Strategy" influences "Cloud-Native Principles" |
| Assessment | influences | Goal | "Legacy System Weakness" influences "Modernization Goal" |
| Goal | influences | Requirement | Business Goals influence Functional Requirements |
| Principle | influences | Requirement | Security Principles influence Technical Requirements |
| Principle | influences | Constraint | "API-First Principle" influences "RESTful API Constraint" |
| Constraint | influences | Requirement | Budget Constraints influence Implementation Requirements |
| Value | influences | Goal | "Customer Value" influences "Improve UX Goal" |
| Stakeholder | influences | Goal | "CEO" influences Strategic Goals |
| Stakeholder | influences | Requirement | "End Users" influence Functional Requirements |
| Stakeholder | influences | Value | "Shareholders" influence Financial Value |
| Stakeholder | associated-with | Driver | "Product Manager" associated with "Market Competition Driver" |
| Goal | associated-with | Outcome | "Improve Performance" associated with "Achieved 50ms Latency" |
| Requirement | associated-with | Outcome | "High Availability Requirement" associated with "99.99% Uptime Outcome" |
| Driver | associated-with | Assessment | "Market Driver" associated with "Competitive Threat Assessment" |
| Value | associated-with | Meaning | "Customer Value" associated with "Definition of Customer Success" |
Motivation Layer is the highest layer - It does NOT reference any lower layers. Instead, lower layers reference UP to this layer for governance.
| Layer | References Motivation For |
|---|---|
| Layer 2 (Business) | BusinessService delivers Value, supports Goals, governed by Principles; BusinessActor is Stakeholder; Contract drives Constraints |
| Layer 3 (Security) | Actor references Stakeholder; ActorObjective references Goal; Threat references Assessment; Countermeasure implements Requirement |
| Layer 4 (Application) | ApplicationService supports Goals, delivers Value, governed by Principles; ApplicationFunction fulfills Requirements |
| Layer 5 (Technology) | TechnologyService supports Goals, governed by Principles; Node fulfills Requirements, constrained by Constraints |
| Layer 6 (API) | Operation supports Goals (x-supports-goals), fulfills Requirements, governed by Principles, constrained by Constraints |
| Layer 7-12 | All layers can reference Principles, Constraints, Requirements, Goals for governance and traceability |
Design Pattern: Lower layers "look up" to the Motivation layer to justify WHY they exist and WHAT value they deliver.
The Motivation Layer is typically NOT extracted from code but documented separately. However, certain patterns suggest the need for motivation elements:
# REQUIREMENT: REQ-001 - User authentication must support OAuth 2.0
# GOAL: Improve security and user experience
# PRINCIPLE: Security by design
def configure_oauth(provider: str):
pass
Maps to:
@npm test.mark.performance
def test_api_response_time():
"""Verify API responds within 200ms (GOAL: sub-second response)"""
response_time = measure_api_call()
assert response_time < 0.2 # Constraint: < 200ms
Maps to:
# Constraint: Budget limit for cloud spending
MAX_MONTHLY_CLOUD_COST = 10000 # USD
# Principle: Data residency compliance
ALLOWED_REGIONS = ["us-east-1", "us-west-2"] # Constraint: US-only
# Goal: 99.99% availability
TARGET_UPTIME_SLA = 0.9999
Maps to:
## Goals
- Achieve 99.9% system availability
- Reduce customer onboarding time to < 5 minutes
- Support 10,000 concurrent users
## Principles
- API-first architecture
- Microservices over monoliths
- Security by design
## Constraints
- Budget: $500K for 2024
- Timeline: Launch by Q3 2024
- Technology: Must run on AWS
Maps to: Direct creation of Goal, Principle, and Constraint entities
Start by documenting WHO cares about the system:
# Add key stakeholders
dr add motivation stakeholder "End Users" \
--properties type=external \
--description "Customers using the platform"
dr add motivation stakeholder "Product Manager" \
--properties type=internal \
--description "Defines product vision and priorities"
dr add motivation stakeholder "Compliance Team" \
--properties type=internal \
--description "Ensures regulatory compliance"
Identify WHAT is pushing the organization:
# Market driver
dr add motivation driver "Cloud Migration Pressure" \
--properties category=market \
--description "Industry shift to cloud-native architectures"
# SWOT assessment
dr add motivation assessment "Legacy System Debt" \
--properties assessmentType=weakness \
--description "Monolithic architecture limits agility"
dr add motivation assessment "Strong Engineering Team" \
--properties assessmentType=strength \
--description "Experienced team with cloud expertise"
Articulate WHAT we want to achieve:
# Strategic goal
dr add motivation goal "Modernize Architecture" \
--properties priority=critical,measurable=true,target-date=2024-12-31 \
--description "Migrate to microservices architecture"
# Value delivered
dr add motivation value "Operational Efficiency" \
--properties type=operational \
--description "Reduced deployment time and increased reliability"
Define HOW we will operate:
# Functional requirement
dr add motivation requirement "API Authentication" \
--properties type=functional \
--description "All API endpoints must authenticate users"
# Guiding principle
dr add motivation principle "API-First Design" \
--properties category=application \
--description "All services expose RESTful APIs with OpenAPI specs"
# Hard constraint
dr add motivation constraint "AWS-Only Infrastructure" \
--properties type=technology \
--description "All services must deploy to AWS (no multi-cloud)"
Connect motivation elements using predicates:
# Driver influences Goal
dr relationship add "motivation/driver/cloud-migration-pressure" \
influences "motivation/goal/modernize-architecture"
# Goal realizes Value
dr relationship add "motivation/goal/modernize-architecture" \
realizes "motivation/value/operational-efficiency"
# Principle influences Requirement
dr relationship add "motivation/principle/api-first-design" \
influences "motivation/requirement/api-authentication"
# Stakeholder influences Goal
dr relationship add "motivation/stakeholder/product-manager" \
influences "motivation/goal/modernize-architecture"
# Assessment influences Goal
dr relationship add "motivation/assessment/legacy-system-debt" \
influences "motivation/goal/modernize-architecture"
dr validate --layer motivation
dr validate --validate-relationships
Strategic Goal: "Improve Customer Satisfaction"
├── aggregates → Business Goal: "Reduce Response Time"
│ ├── aggregates → Operational Goal: "Achieve <100ms API Latency"
│ └── aggregates → Operational Goal: "Implement Caching Layer"
└── aggregates → Business Goal: "Improve Mobile Experience"
├── aggregates → Operational Goal: "Launch iOS App"
└── aggregates → Operational Goal: "Launch Android App"
Business Requirement: "Secure User Data"
├── aggregates → Functional Requirement: "Encrypt Data at Rest"
│ └── influences → Technical Requirement: "Use AES-256 Encryption"
├── aggregates → Functional Requirement: "Encrypt Data in Transit"
│ └── influences → Technical Requirement: "Use TLS 1.3"
└── aggregates → Compliance Requirement: "GDPR Data Protection"
└── influences → Technical Requirement: "Right to Deletion API"
Principle: "Cloud-Native Architecture"
├── influences → Requirement: "Containerized Deployments"
├── influences → Requirement: "Stateless Services"
├── influences → Constraint: "No On-Premise Infrastructure"
└── realizes → Value: "Scalability and Resilience"
Stakeholder: "CEO"
└── influences → Goal: "Reduce Operating Costs by 20%"
├── influences → Requirement: "Automated CI/CD Pipeline"
├── influences → Principle: "Infrastructure as Code"
└── realizes → Value: "Financial Efficiency"
└── (lower layers reference this chain)
Question: "Why are we building this feature?"
Approach:
Question: "How do we track GDPR compliance?"
Approach:
Question: "Document why we chose microservices?"
Approach:
When exporting to ArchiMate format:
dr export archimate --layer motivation --output motivation.archimate
Supported ArchiMate Elements:
Stakeholder → ArchiMate StakeholderDriver → ArchiMate DriverAssessment → ArchiMate AssessmentGoal → ArchiMate GoalOutcome → ArchiMate OutcomePrinciple → ArchiMate PrincipleRequirement → ArchiMate RequirementConstraint → ArchiMate ConstraintMeaning → ArchiMate MeaningValue → ArchiMate ValueSupported Relationships:
aggregates, realizes, specializes, influences, associated-withCommon validation issues:
| Issue | Cause | Fix |
|---|---|---|
| Orphaned Goal | No stakeholder influences it | Add stakeholder or driver that influences goal |
| Unrealized Requirement | No goal justifies it | Link requirement to goal or principle |
| Unused Principle | No requirements reference it | Either apply principle or remove it |
| Missing Value | Goals don't realize any value | Add value elements and link goals |
| No Traceability | Lower layers don't reference motivation | Add references from business/application layers |
Add Commands:
dr add motivation stakeholder <name> --properties type=<type>
dr add motivation driver <name> --properties category=<category>
dr add motivation goal <name> --properties priority=<priority>
dr add motivation requirement <name> --properties type=<type>
dr add motivation principle <name> --properties category=<category>
dr add motivation constraint <name> --properties type=<type>
Relationship Commands:
dr relationship add <source-id> influences <target-id>
dr relationship add <source-id> aggregates <target-id>
dr relationship add <source-id> realizes <target-id>
dr relationship add <source-id> specializes <target-id>
Query Commands:
dr search --layer motivation --type goal
dr search --layer motivation --property priority=critical
dr relationship list <element-id> --direction outgoing