From web-performance-optimization
Optimizes web app performance using React code splitting, webpack bundles, image optimization, service workers, caching, and Core Web Vitals monitoring for faster loads and better metrics.
How this skill is triggered — by the user, by Claude, or both
Slash command
/web-performance-optimization:web-performance-optimizationThe summary Claude sees in its skill listing — used to decide when to auto-load this skill
Implement performance optimization strategies including lazy loading, code splitting, caching, compression, and monitoring to improve Core Web Vitals and user experience.
Implement performance optimization strategies including lazy loading, code splitting, caching, compression, and monitoring to improve Core Web Vitals and user experience.
import { lazy, Suspense } from 'react';
import { Routes, Route } from 'react-router-dom';
const Home = lazy(() => import('./pages/Home'));
const Dashboard = lazy(() => import('./pages/Dashboard'));
const Settings = lazy(() => import('./pages/Settings'));
function App() {
return (
<Suspense fallback={<Loading />}>
<Routes>
<Route path="/" element={<Home />} />
<Route path="/dashboard" element={<Dashboard />} />
<Route path="/settings" element={<Settings />} />
</Routes>
</Suspense>
);
}
// webpack.config.js
module.exports = {
optimization: {
splitChunks: {
chunks: 'all',
cacheGroups: {
vendor: {
test: /[\\/]node_modules[\\/]/,
name: 'vendors',
chunks: 'all'
}
}
}
}
};
<picture>
<source srcset="image.webp" type="image/webp">
<source srcset="image.jpg" type="image/jpeg">
<img
src="image.jpg"
srcset="image-400.jpg 400w, image-800.jpg 800w, image-1200.jpg 1200w"
sizes="(max-width: 600px) 100vw, 50vw"
loading="lazy"
decoding="async"
alt="Description"
>
</picture>
// sw.js
const CACHE_NAME = 'app-v1';
const ASSETS = ['/', '/index.html', '/main.js', '/styles.css'];
self.addEventListener('install', (event) => {
event.waitUntil(
caches.open(CACHE_NAME).then(cache => cache.addAll(ASSETS))
);
});
self.addEventListener('fetch', (event) => {
event.respondWith(
caches.match(event.request).then(cached => {
return cached || fetch(event.request).then(response => {
return caches.open(CACHE_NAME).then(cache => {
cache.put(event.request, response.clone());
return response;
});
});
})
);
});
// Track LCP, CLS, INP (Note: INP replaced FID as of March 2024)
// sendToAnalytics is a placeholder function that sends metrics to your analytics endpoint
// Expected signature: sendToAnalytics({ metric: string, value: number }) => void
// Example implementation:
function sendToAnalytics({ metric, value }) {
// Replace with your analytics implementation (e.g., Google Analytics, Segment)
fetch('/api/analytics', {
method: 'POST',
headers: { 'Content-Type': 'application/json' },
body: JSON.stringify({ metric, value, timestamp: Date.now() })
});
}
// Largest Contentful Paint (LCP)
new PerformanceObserver((list) => {
for (const entry of list.getEntries()) {
console.log(`LCP: ${entry.startTime}ms`);
sendToAnalytics({ metric: 'LCP', value: entry.startTime });
}
}).observe({ type: 'largest-contentful-paint', buffered: true });
// Cumulative Layout Shift (CLS)
new PerformanceObserver((list) => {
let cls = 0;
for (const entry of list.getEntries()) {
if (!entry.hadRecentInput) cls += entry.value;
}
sendToAnalytics({ metric: 'CLS', value: cls });
}).observe({ type: 'layout-shift', buffered: true });
// Interaction to Next Paint (INP) - replaces FID
new PerformanceObserver((list) => {
for (const entry of list.getEntries()) {
// INP measures responsiveness - duration of slowest interaction
const inp = entry.processingEnd - entry.processingStart;
console.log(`INP: ${inp}ms`);
sendToAnalytics({ metric: 'INP', value: inp });
}
}).observe({ type: 'event', buffered: true }); // 'event' captures interaction events
| Metric | Good | Needs Improvement |
|---|---|---|
| LCP | <2.5s | 2.5-4s |
| INP | <200ms | 200-500ms |
| CLS | <0.1 | 0.1-0.25 |
| TTI | <3.8s | 3.8-7.3s |
Note: INP (Interaction to Next Paint) replaced FID (First Input Delay) as a Core Web Vital in March 2024. INP provides a more comprehensive measure of page responsiveness by capturing the full duration of interactions, not just the input delay.
gzip on;
gzip_types text/plain text/css application/json application/javascript;
gzip_min_length 1000;
gzip_comp_level 6;
See references/compression-monitoring.md for:
See references/typescript-advanced.md for:
npx claudepluginhub midego1/claude-skills --plugin web-performance-optimizationOptimizes web app performance using React code splitting, webpack bundles, image optimization, service workers, caching, and Core Web Vitals monitoring for faster loads and better metrics.
Optimizes web performance using code splitting, lazy loading, caching, compression, and monitoring to improve Core Web Vitals and user experience.
Optimizes web performance with bundle analysis, code splitting, image optimization, caching headers, and virtual lists. Useful for improving Core Web Vitals and load times.