Best use case
ck:ask is best used when you need a repeatable AI agent workflow instead of a one-off prompt.
Answer technical and architectural questions with expert consultation.
Teams using ck:ask should expect a more consistent output, faster repeated execution, less prompt rewriting.
When to use this skill
- You want a reusable workflow that can be run more than once with consistent structure.
When not to use this skill
- You only need a quick one-off answer and do not need a reusable workflow.
- You cannot install or maintain the underlying files, dependencies, or repository context.
Installation
Claude Code / Cursor / Codex
Manual Installation
- Download SKILL.md from GitHub
- Place it in
.claude/skills/ask/SKILL.mdinside your project - Restart your AI agent — it will auto-discover the skill
How ck:ask Compares
| Feature / Agent | ck:ask | Standard Approach |
|---|---|---|
| Platform Support | Not specified | Limited / Varies |
| Context Awareness | High | Baseline |
| Installation Complexity | Unknown | N/A |
Frequently Asked Questions
What does this skill do?
Answer technical and architectural questions with expert consultation.
Where can I find the source code?
You can find the source code on GitHub using the link provided at the top of the page.
SKILL.md Source
# Technical Consultation Technical question or architecture challenge: <questions>$ARGUMENTS</questions> Current development workflows, system constraints, scale requirements, and business context will be considered: - Primary workflow: `./.claude/rules/primary-workflow.md` - Development rules: `./.claude/rules/development-rules.md` - Orchestration protocols: `./.claude/rules/orchestration-protocol.md` - Documentation management: `./.claude/rules/documentation-management.md` **Project Documentation:** ``` ./docs ├── project-overview-pdr.md ├── code-standards.md ├── codebase-summary.md ├── design-guidelines.md ├── deployment-guide.md ├── system-architecture.md └── project-roadmap.md ``` ## Your Role You are a Senior Systems Architect providing expert consultation and architectural guidance. You focus on high-level design, strategic decisions, and architectural patterns rather than implementation details. You orchestrate four specialized architectural advisors: 1. **Systems Designer** – evaluates system boundaries, interfaces, and component interactions. 2. **Technology Strategist** – recommends technology stacks, frameworks, and architectural patterns. 3. **Scalability Consultant** – assesses performance, reliability, and growth considerations. 4. **Risk Analyst** – identifies potential issues, trade-offs, and mitigation strategies. You operate by the holy trinity of software engineering: **YAGNI** (You Aren't Gonna Need It), **KISS** (Keep It Simple, Stupid), and **DRY** (Don't Repeat Yourself). Every solution you propose must honor these principles. ## Process 1. **Problem Understanding**: Analyze the technical question and gather architectural context. - If the architecture context doesn't contain the necessary information, use the `ck:scout` skill to scout the codebase again. 2. **Expert Consultation**: - Systems Designer: Define system boundaries, data flows, and component relationships - Technology Strategist: Evaluate technology choices, patterns, and industry best practices - Scalability Consultant: Assess non-functional requirements and scalability implications - Risk Analyst: Identify architectural risks, dependencies, and decision trade-offs 3. **Architecture Synthesis**: Combine insights to provide comprehensive architectural guidance. 4. **Strategic Validation**: Ensure recommendations align with business goals and technical constraints. ## Output Format **Be honest, be brutal, straight to the point, and be concise.** 1. **Architecture Analysis** – comprehensive breakdown of the technical challenge and context. 2. **Design Recommendations** – high-level architectural solutions with rationale and alternatives. 3. **Technology Guidance** – strategic technology choices with pros/cons analysis. 4. **Implementation Strategy** – phased approach and architectural decision framework. 5. **Next Actions** – strategic next steps, proof-of-concepts, and architectural validation points. ## Important This command focuses on architectural consultation and strategic guidance. Do not start implementing anything.
Related Skills
ck:worktree
Create isolated git worktree for parallel development in monorepos.
ck:web-testing
Web testing with Playwright, Vitest, k6. E2E/unit/integration/load/security/visual/a11y testing. Use for test automation, flakiness, Core Web Vitals, mobile gestures, cross-browser.
ck:web-frameworks
Build with Next.js (App Router, RSC, SSR, ISR), Turborepo monorepos. Use for React apps, server rendering, build optimization, caching strategies, shared dependencies.
ck:web-design-guidelines
Review UI code for Web Interface Guidelines compliance. Use when asked to "review my UI", "check accessibility", "audit design", "review UX", or "check my site against best practices".
ck:watzup
Review recent changes and wrap up the current work session.
ck:use-mcp
Utilize MCP server tools with intelligent discovery and execution.
ck:ui-ux-pro-max
UI/UX design intelligence. 50 styles, 21 palettes, 50 font pairings, 20 charts, 9 stacks (React, Next.js, Vue, Svelte, SwiftUI, React Native, Flutter, Tailwind, shadcn/ui). Actions: plan, build, create, design, implement, review, fix, improve, optimize, enhance, refactor, check UI/UX code. Projects: website, landing page, dashboard, admin panel, e-commerce, SaaS, portfolio, blog, mobile app, .html, .tsx, .vue, .svelte. Elements: button, modal, navbar, sidebar, card, table, form, chart. Styles: glassmorphism, claymorphism, minimalism, brutalism, neumorphism, bento grid, dark mode, responsive, skeuomorphism, flat design. Topics: color palette, accessibility, animation, layout, typography, font pairing, spacing, hover, shadow, gradient. Integrations: shadcn/ui MCP for component search and examples.
ck:ui-styling
Style UIs with shadcn/ui components (Radix UI + Tailwind CSS). Use for accessible components, themes, dark mode, responsive layouts, design systems, color customization.
ck:threejs
Build 3D web apps with Three.js (WebGL/WebGPU). 556 searchable examples, 60 API classes, 20 use cases. Actions: create 3D scene, load model, add animation, implement physics, build VR/XR. Topics: GLTF loader, PBR materials, particle effects, shadows, post-processing, compute shaders, TSL. Integrations: WebGPU, physics engines, spatial audio.
ck:test
Run unit, integration, e2e, and UI tests. Use for test execution, coverage analysis, build verification, visual regression, and QA reports.
ck:template-skill
Replace with description of the skill and when Claude should use it.
ck:team
Orchestrate Agent Teams for parallel multi-session collaboration. Use for research, implementation, review, and debug workflows requiring independent teammates.