Productivity
performance-regression-debugging▌
aj-geddes/useful-ai-prompts · updated Apr 8, 2026
$npx skills add https://github.com/aj-geddes/useful-ai-prompts --skill performance-regression-debugging
summary
Performance regressions occur when code changes degrade application performance. Detection and quick resolution are critical.
skill.md
Performance Regression Debugging
Table of Contents
Overview
Performance regressions occur when code changes degrade application performance. Detection and quick resolution are critical.
When to Use
- After deployment performance degrades
- Metrics show negative trend
- User complaints about slowness
- A/B testing shows variance
- Regular performance monitoring
Quick Start
Minimal working example:
// Before: 500ms response time
// After: 1000ms response time (2x slower = regression)
// Capture baseline metrics
const baseline = {
responseTime: 500, // ms
timeToInteractive: 2000, // ms
largestContentfulPaint: 1500, // ms
memoryUsage: 50, // MB
bundleSize: 150, // KB gzipped
};
// Monitor after change
const current = {
responseTime: 1000,
timeToInteractive: 4000,
largestContentfulPaint: 3000,
memoryUsage: 150,
bundleSize: 200,
};
// Calculate regression
const regressions = {};
for (let metric in baseline) {
const change = (current[metric] - baseline[metric]) / baseline[metric];
// ... (see reference guides for full implementation)
Reference Guides
Detailed implementations in the references/ directory:
| Guide | Contents |
|---|---|
| Detection & Measurement | Detection & Measurement |
| Root Cause Identification | Root Cause Identification |
| Fixing & Verification | Fixing & Verification |
| Prevention Measures | Prevention Measures |
Best Practices
✅ DO
- Follow established patterns and conventions
- Write clean, maintainable code
- Add appropriate documentation
- Test thoroughly before deploying
❌ DON'T
- Skip testing or validation
- Ignore error handling
- Hard-code configuration values