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research-d-implementation
ResearchPilot Research Assistant [Phase D]: Implementation design
用 Codex 或 Claude 帮你安装 复制这段 Prompt,粘贴到 Codex、Claude 或其他助手里,让它检查 Skill 页面并帮你完成安装。
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ResearchPilot Research Assistant [Phase D]: Implementation design
用 Codex 或 Claude 帮你安装 复制这段 Prompt,粘贴到 Codex、Claude 或其他助手里,让它检查 Skill 页面并帮你完成安装。
基于 SOC 职业分类
ResearchPilot Research Assistant [Phase E]: Coding
ResearchPilot Research Assistant [Phase F]: Code iteration
ResearchPilot Research Assistant [Phase G.0]: Paper planning
ResearchPilot Research Assistant [Phase G.1]: Write manuscript Method
ResearchPilot Research Assistant [Phase G.2]: Write manuscript Experiments
ResearchPilot Research Assistant [Phase G.3]: Write manuscript Abstract
| name | research[D]-implementation |
| description | ResearchPilot Research Assistant [Phase D]: Implementation design |
| version | 2.0.0 |
| license | LICENSE |
user_requirements.md priority: All user constraints recorded in
docs/user_requirements.md(direction preferences, implementation requirements, document format, etc.) take precedence over any default instruction in this skill. Always read that file before generating any output to ensure compliance with confirmed user constraints.
Generate a function-level coding guide — precise to every function signature,
parameters, return values, and implementation logic — then validate and confirm
before coding begins. Produces docs/implementation.md, then moves to Phase E.
Prerequisite: docs/idea_report.md contains Part 3 (Phase C complete).
ResearchPilot-Skills splits a complete academic research project into seven independent stage skills. The current skill is one link in that chain.
| Skill | Phase | Main Output |
|---|---|---|
/research[A]-exploration | Direction Exploration | docs/idea_report.md Part 1 |
/research[B]-idea | Idea Deepening | docs/idea_report.md Part 2 |
/research[C]-experiment | Experiment Design | docs/idea_report.md Part 3 |
/research[D]-implementation | Implementation Design | docs/implementation.md |
/research[E]-coding | Coding | code/ + docs/dev_log.md |
/research[F]-iteration | Code Iteration | dev_log.md iteration records |
/research[G.0]-plan | Paper Planning | manuscript architecture + notebooks/figures.ipynb |
/research[G.1]-method | Method | manuscript Method section |
/research[G.2]-experiments | Experiments | manuscript Experiments section |
/research[G.3]-abstract | Abstract | manuscript Abstract |
/research[G.4]-introduction | Introduction | manuscript Introduction |
/research[G.5]-related | Related Works | manuscript Related Works |
/research[G.6]-conclusion | Conclusion + References | manuscript Conclusion |
/research[G.7]-review | Full-paper Review | review report |
docs/
idea_report.md # Research report in three parts:
# Part 1: Motivation, RQs, Key Works (Phase A)
# Part 2: Introduction, Related Works, Method (Phase B)
# Part 3: Datasets, Experiment Design, Resource Estimate (Phase C)
implementation.md # Coding guide: file- and function-level implementation plan (Phase D)
dev_log.md # Dev log: progress, decisions, "How to Run" section (Phase E)
user_requirements.md # User constraints: collected and maintained by Claude
papers/ # Downloaded paper PDFs or abstract TXTs
manuscripts/ # Paper drafts, each revision archived separately
# (e.g. v1.0-initial-draft.md, v1.1-revision.md)
code/
src/ # Core model and training code
scripts/ # Run scripts (train.sh, evaluate.sh, ablation.sh)
configs/ # Hyperparameter config files
baselines/ # Baseline model implementations
notebooks/ # Visualization notebooks; paper figure/table generation
data/ # Datasets (gitignored)
results/ # Experiment results (gitignored)
logs/ # Training logs (gitignored)
README.md # Environment setup and run commands
requirements.txt # Dependencies (library names only, no torch family)
/research[D]-implementation
An optional natural-language instruction may follow the command. The AI will treat it as an additional constraint or supplement for this invocation.
D-0 Ask whether to use a strong baseline (improve existing open-source project
vs. build from scratch)
Path A (Strong Baseline):
D-A1 Obtain open-source project (git clone or user clones)
D-A2 Scan project structure, extract all classes/functions/dependencies
D-A3 Collect coding constraints (framework, features to preserve, requirements)
D-A4 Generate implementation.md (strong baseline format)
Path B (From Scratch):
D-B1 Collect coding constraints (framework, special requirements)
D-B2 Generate implementation.md (from-scratch format)
D-end1 Run implementation.md validation (coverage / consistency / completeness)
D-end2 Pre-coding checklist (env / device / datasets / run strategy / README location)
Full step-by-step instructions: references/phase-D.md.
After every generation or revision, run three checks:
Validation output format:
✅ Experiment coverage: {pass / missing: …}
✅ Logic consistency: {pass / issue found: …}
✅ Completeness: {pass / missing: …}
references/template-flexibility.md take precedence over any
specific template instruction.After implementation.md and pre-coding checklist are both confirmed:
Phase D complete. implementation.md has been generated and validated.
Pre-coding checklist confirmed.
After implementation.md and pre-coding checklist are both confirmed:
Phase D complete. implementation.md has been generated and validated.
→ Use /research[E]-coding to start coding.
references/phase-D.mdreferences/document-formats.mdreferences/template-flexibility.md