LLM Prompt Optimizer
Overview
This skill transforms weak, vague, or inconsistent prompts into precision-engineered instructions that reliably produce high-quality outputs from any LLM (Claude, Gemini, GPT-4, Llama, etc.). It applies systematic prompt engineering frameworks — from zero-shot to few-shot, chain-of-thought, and structured output patterns.
When to Use This Skill
- Use when a prompt returns inconsistent, vague, or hallucinated results
- Use when you need structured/JSON output from an LLM reliably
- Use when designing system prompts for AI agents or chatbots
- Use when you want to reduce token usage without sacrificing quality
- Use when implementing chain-of-thought reasoning for complex tasks
- Use when prompts work on one model but fail on another
Step-by-Step Guide
1. Diagnose the Weak Prompt
Before optimizing, identify which problem pattern applies:
| Problem | Symptom | Fix |
|---|---|---|
| Too vague | Generic, unhelpful answers | Add role + context + constraints |
| No structure | Unformatted, hard-to-parse output | Specify output format explicitly |
| Hallucination | Confident wrong answers | Add "say I don't know if unsure" |
| Inconsistent | Different answers each run | Add few-shot examples |
| Too long | Verbose, padded responses | Add length constraints |
2. Apply the RSCIT Framework
Every optimized prompt should have:
- R — Role: Who is the AI in this interaction?
- S — Situation: What context does it need?
- C — Constraints: What are the rules and limits?
- I — Instructions: What exactly should it do?
- T — Template: What should the output look like?
Before (weak prompt):
Explain machine learning.
After (optimized prompt):
You are a senior ML engineer explaining concepts to a junior developer.
Context: The developer has 1 year of Python experience but no ML background.
Task: Explain supervised machine learning in simple terms.
Constraints:
- Use an analogy from everyday life
- Maximum 200 words
- No mathematical formulas
- End with one actionable next step
Format: Plain prose, no bullet points.
3. Chain-of-Thought (CoT) Pattern
For reasoning tasks, instruct the model to think step-by-step:
Solve this problem step by step, showing your work at each stage.
Only provide the final answer after completing all reasoning steps.
Problem: [your problem here]
Thinking process:
Step 1: [identify what's given]
Step 2: [identify what's needed]
Step 3: [apply logic or formula]
Step 4: [verify the answer]
Final Answer:
4. Few-Shot Examples Pattern
Provide 2-3 examples to establish the pattern:
Classify the sentiment of customer reviews as POSITIVE, NEGATIVE, or NEUTRAL.
Examples:
Review: "This product exceeded my expectations!" -> POSITIVE
Review: "It arrived broken and support was useless." -> NEGATIVE
Review: "Product works as described, nothing special." -> NEUTRAL
Now classify:
Review: "[your review here]" ->
5. Structured JSON Output Pattern
Extract the following information from the text below and return it as valid JSON only.
Do not include any explanation or markdown — just the raw JSON object.
Schema:
{
"name": string,
"email": string | null,
"company": string | null,
"role": string | null
}
Text: [input text here]
6. Reduce Hallucination Pattern
Answer the following question based ONLY on the provided context.
If the answer is not contained in the context, respond with exactly: "I don't have enough information to answer this."
Do not make up or infer information not present in the context.
Context:
[your context here]
Question: [your question here]
7. Prompt Compression Techniques
Reduce token count without losing effectiveness:
# Verbose (expensive)
"Please carefully analyze the following code and provide a detailed explanation of
what it does, how it works, and any potential issues you might find."
# Compressed (efficient, same quality)
"Analyze this code: explain what it does, how it works, and flag any issues."
Best Practices
- ✅ Do: Always specify the output format (JSON, markdown, plain text, bullet list)
- ✅ Do: Use delimiters (```, ---) to separate instructions from content
- ✅ Do: Test prompts with edge cases (empty input, unusual data)
- ✅ Do: Version your system prompts in source control
- ✅ Do: Add "think step by step" for math, logic, or multi-step tasks
- ❌ Don't: Use negative-only instructions ("don't be verbose") — add positive alternatives
- ❌ Don't: Assume the model knows your codebase context — always include it
- ❌ Don't: Use the same prompt across different models without testing — they behave differently
Prompt Audit Checklist
Before using a prompt in production:
- Does it have a clear role/persona?
- Is the output format explicitly defined?
- Are edge cases handled (empty input, ambiguous data)?
- Is the length appropriate (not too long/short)?
- Has it been tested on 5+ varied inputs?
- Is hallucination risk addressed for factual tasks?
Troubleshooting
Problem: Model ignores format instructions Solution: Move format instructions to the END of the prompt, after examples. Use strong language: "You MUST return only valid JSON."
Problem: Inconsistent results between runs Solution: Lower the temperature setting (0.0-0.3 for factual tasks). Add more few-shot examples.
Problem: Prompt works in playground but fails in production Solution: Check if system prompt is being sent correctly. Verify token limits aren't being exceeded (use a token counter).
Problem: Output is too long Solution: Add explicit word/sentence limits: "Respond in exactly 3 bullet points, each under 20 words."