performance
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SKILL.md
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Performance optimization
Deep performance optimization based on Lighthouse performance audits. Focuses on loading speed, runtime efficiency, and resource optimization.
How it works
- Identify performance bottlenecks in code and assets
- Prioritize by impact on Core Web Vitals
- Provide specific optimizations with code examples
- Measure improvement with before/after metrics
Performance budget
| Resource | Budget | Rationale |
|---|---|---|
| Total page weight | < 1.5 MB | 3G loads in ~4s |
| JavaScript (compressed) | < 300 KB | Parsing + execution time |
| CSS (compressed) | < 100 KB | Render blocking |
| Images (above-fold) | < 500 KB | LCP impact |
| Fonts | < 100 KB | FOIT/FOUT prevention |
| Third-party | < 200 KB | Uncontrolled latency |
Critical rendering path
Server response
- TTFB < 800ms. Time to First Byte should be fast. Use CDN, caching, and efficient backends.
- Enable compression. Gzip or Brotli for text assets. Brotli preferred (15-20% smaller).
- HTTP/2 or HTTP/3. Multiplexing reduces connection overhead.
- Edge caching. Cache HTML at CDN edge when possible.
Resource loading
Preconnect to required origins:
<link rel="preconnect" href="https://fonts.googleapis.com">
<link rel="preconnect" href="https://cdn.example.com" crossorigin>
Preload critical resources:
<!-- LCP image -->
<link rel="preload" href="/hero.webp" as="image" fetchpriority="high">
<!-- Critical font -->
<link rel="preload" href="/font.woff2" as="font" type="font/woff2" crossorigin>
Defer non-critical CSS:
<!-- Critical CSS inlined -->
<style>/* Above-fold styles */</style>
<!-- Non-critical CSS -->
<link rel="preload" href="/styles.css" as="style" onload="this.onload=null;this.rel='stylesheet'">
<noscript><link rel="stylesheet" href="/styles.css"></noscript>
JavaScript optimization
Defer non-essential scripts:
<!-- Parser-blocking (avoid) -->
<script src="/critical.js"></script>
<!-- Deferred (preferred) -->
<script defer src="/app.js"></script>
<!-- Async (for independent scripts) -->
<script async src="/analytics.js"></script>
<!-- Module (deferred by default) -->
<script type="module" src="/app.mjs"></script>
Code splitting patterns:
// Route-based splitting
const Dashboard = lazy(() => import('./Dashboard'));
// Component-based splitting
const HeavyChart = lazy(() => import('./HeavyChart'));
// Feature-based splitting
if (user.isPremium) {
const PremiumFeatures = await import('./PremiumFeatures');
}
Tree shaking best practices:
// ❌ Imports entire library
import _ from 'lodash';
_.debounce(fn, 300);
// ✅ Imports only what's needed
import debounce from 'lodash/debounce';
debounce(fn, 300);
Image optimization
Format selection
| Format | Use case | Browser support |
|---|---|---|
| AVIF | Photos, best compression | 92%+ |
| WebP | Photos, good fallback | 97%+ |
| PNG | Graphics with transparency | Universal |
| SVG | Icons, logos, illustrations | Universal |
Responsive images
<picture>
<!-- AVIF for modern browsers -->
<source
type="image/avif"
srcset="hero-400.avif 400w,
hero-800.avif 800w,
hero-1200.avif 1200w"
sizes="(max-width: 600px) 100vw, 50vw">
<!-- WebP fallback -->
<source
type="image/webp"
srcset="hero-400.webp 400w,
hero-800.webp 800w,
hero-1200.webp 1200w"
sizes="(max-width: 600px) 100vw, 50vw">
<!-- JPEG fallback -->
<img
src="hero-800.jpg"
srcset="hero-400.jpg 400w,
hero-800.jpg 800w,
hero-1200.jpg 1200w"
sizes="(max-width: 600px) 100vw, 50vw"
width="1200"
height="600"
alt="Hero image"
loading="lazy"
decoding="async">
</picture>
LCP image priority
<!-- Above-fold LCP image: eager loading, high priority -->
<img
src="hero.webp"
fetchpriority="high"
loading="eager"
decoding="sync"
alt="Hero">
<!-- Below-fold images: lazy loading -->
<img
src="product.webp"
loading="lazy"
decoding="async"
alt="Product">
Font optimization
Loading strategy
/* System font stack as fallback */
body {
font-family: 'Custom Font', -apple-system, BlinkMacSystemFont,
'Segoe UI', Roboto, sans-serif;
}
/* Prevent invisible text */
@font-face {
font-family: 'Custom Font';
src: url('/fonts/custom.woff2') format('woff2');
font-display: swap; /* or optional for non-critical */
font-weight: 400;
font-style: normal;
unicode-range: U+0000-00FF; /* Subset to Latin */
}
Preloading critical fonts
<link rel="preload" href="/fonts/heading.woff2" as="font" type="font/woff2" crossorigin>
Variable fonts
/* One file instead of multiple weights */
@font-face {
font-family: 'Inter';
src: url('/fonts/Inter-Variable.woff2') format('woff2-variations');
font-weight: 100 900;
font-display: swap;
}
Caching strategy
Cache-Control headers
# HTML (short or no cache)
Cache-Control: no-cache, must-revalidate
# Static assets with hash (immutable)
Cache-Control: public, max-age=31536000, immutable
# Static assets without hash
Cache-Control: public, max-age=86400, stale-while-revalidate=604800
# API responses
Cache-Control: private, max-age=0, must-revalidate
Service worker caching
// Cache-first for static assets
self.addEventListener('fetch', (event) => {
if (event.request.destination === 'image' ||
event.request.destination === 'style' ||
event.request.destination === 'script') {
event.respondWith(
caches.match(event.request).then((cached) => {
return cached || fetch(event.request).then((response) => {
const clone = response.clone();
caches.open('static-v1').then((cache) => cache.put(event.request, clone));
return response;
});
})
);
}
});
Runtime performance
Avoid layout thrashing
// ❌ Forces multiple reflows
elements.forEach(el => {
const height = el.offsetHeight; // Read
el.style.height = height + 10 + 'px'; // Write
});
// ✅ Batch reads, then batch writes
const heights = elements.map(el => el.offsetHeight); // All reads
elements.forEach((el, i) => {
el.style.height = heights[i] + 10 + 'px'; // All writes
});
Debounce expensive operations
function debounce(fn, delay) {
let timeout;
return (...args) => {
clearTimeout(timeout);
timeout = setTimeout(() => fn(...args), delay);
};
}
// Debounce scroll/resize handlers
window.addEventListener('scroll', debounce(handleScroll, 100));
Use requestAnimationFrame
// ❌ May cause jank
setInterval(animate, 16);
// ✅ Synced with display refresh
function animate() {
// Animation logic
requestAnimationFrame(animate);
}
requestAnimationFrame(animate);
Virtualize long lists
// For lists > 100 items, render only visible items
// Use libraries like react-window, vue-virtual-scroller, or native CSS:
.virtual-list {
content-visibility: auto;
contain-intrinsic-size: 0 50px; /* Estimated item height */
}
Third-party scripts
Load strategies
// ❌ Blocks main thread
<script src="https://analytics.example.com/script.js"></script>
// ✅ Async loading
<script async src="https://analytics.example.com/script.js"></script>
// ✅ Delay until interaction
<script>
document.addEventListener('DOMContentLoaded', () => {
const observer = new IntersectionObserver((entries) => {
if (entries[0].isIntersecting) {
const script = document.createElement('script');
script.src = 'https://widget.example.com/embed.js';
document.body.appendChild(script);
observer.disconnect();
}
});
observer.observe(document.querySelector('#widget-container'));
});
</script>
Facade pattern
<!-- Show static placeholder until interaction -->
<div class="youtube-facade"
data-video-id="abc123"
onclick="loadYouTube(this)">
<img src="/thumbnails/abc123.jpg" alt="Video title">
<button aria-label="Play video">▶</button>
</div>
Measurement
Key metrics
| Metric | Target | Tool |
|---|---|---|
| LCP | < 2.5s | Lighthouse, CrUX |
| FCP | < 1.8s | Lighthouse |
| Speed Index | < 3.4s | Lighthouse |
| TBT | < 200ms | Lighthouse |
| TTI | < 3.8s | Lighthouse |
Testing commands
# Lighthouse CLI
npx lighthouse https://example.com --output html --output-path report.html
# Web Vitals library
import {onLCP, onINP, onCLS} from 'web-vitals';
onLCP(console.log);
onINP(console.log);
onCLS(console.log);
References
For Core Web Vitals specific optimizations, see Core Web Vitals.
Source
git clone https://github.com/addyosmani/web-quality-skills/blob/main/skills/performance/SKILL.mdView on GitHub Overview
Performance optimization uses Lighthouse-driven audits to identify bottlenecks in loading speed, runtime efficiency, and resource usage. It prioritizes improvements that impact Core Web Vitals and delivers concrete, code-level optimizations to speed up pages.
How This Skill Works
It analyzes code and asset bottlenecks, then prioritizes fixes by impact on Core Web Vitals. It provides concrete optimizations with code examples, including preconnect, preload, inline critical CSS, and JS defer/async patterns, and finally measures improvements with before/after metrics.
When to Use It
- When asked to speed up my site
- When asked to optimize performance
- When asked to reduce load time
- When dealing with slow loading pages
- During a performance audit
Quick Start
- Step 1: Run a Lighthouse performance audit to identify bottlenecks
- Step 2: Implement core optimizations: preconnect, preload, inline critical CSS, defer non-critical CSS, and defer/async JS
- Step 3: Re-run the audit and compare before/after metrics; iterate until metrics stabilize
Best Practices
- Set a performance budget for total page weight and key assets (e.g., JS, CSS, images) and track it over time
- Prioritize changes by Core Web Vitals impact and verify improvements with Lighthouse
- Optimize the critical rendering path with preconnect, preload, and inlining critical CSS while deferring non-critical CSS
- Improve JavaScript by code splitting, tree shaking, and using defer/async or module scripts
- Optimize assets with modern formats (AVIF/WebP), responsive images, compression, and careful third-party usage
Example Use Cases
- Reduce LCP by inlining critical CSS and deferring the rest
- Switch images to AVIF/WebP and implement responsive image srcset
- Apply route-based and component-based code splitting to load only needed code
- Enable Brotli compression and HTTP/2 or HTTP/3 with edge caching
- Audit and remove unused JavaScript, lazy-load third-party scripts, and apply tree shaking
Frequently Asked Questions
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