Optimize Core Web Vitals (LCP, INP, CLS) for better page experience and search ranking. Use when asked to "improve Core Web Vitals", "fix LCP", "reduce CLS", "optimize INP", "page experience optimization", or "fix layout shifts".
Targeted optimization for the three Core Web Vitals metrics that affect Google Search ranking and user experience.
| Metric | Measures | Good | Needs work | Poor |
|---|---|---|---|---|
| LCP | Loading | ≤ 2.5s | 2.5s – 4s | > 4s |
| INP | Interactivity | ≤ 200ms | 200ms – 500ms | > 500ms |
| CLS | Visual Stability | ≤ 0.1 | 0.1 – 0.25 | > 0.25 |
Google measures at the 75th percentile — 75% of page visits must meet "Good" thresholds.
LCP measures when the largest visible content element renders. Usually this is:
<svg> element1. Slow server response (TTFB > 800ms)
Fix: CDN, caching, optimized backend, edge rendering
2. Render-blocking resources
<!-- ❌ Blocks rendering -->
<link rel="stylesheet" href="/all-styles.css">
<!-- ✅ Critical CSS inlined, rest deferred -->
<style>/* Critical above-fold CSS */</style>
<link rel="preload" href="/styles.css" as="style"
onload="this.onload=null;this.rel='stylesheet'">
3. Slow resource load times
<!-- ❌ No hints, discovered late -->
<img src="/hero.jpg" alt="Hero">
<!-- ✅ Preloaded with high priority -->
<link rel="preload" href="/hero.webp" as="image" fetchpriority="high">
<img src="/hero.webp" alt="Hero" fetchpriority="high">
4. Client-side rendering delays
// ❌ Content loads after JavaScript
useEffect(() => {
fetch('/api/hero-text').then(r => r.json()).then(setHeroText);
}, []);
// ✅ Server-side or static rendering
// Use SSR, SSG, or streaming to send HTML with content
export async function getServerSideProps() {
const heroText = await fetchHeroText();
return { props: { heroText } };
}
- [ ] TTFB < 800ms (use CDN, edge caching)
- [ ] LCP image preloaded with fetchpriority="high"
- [ ] LCP image optimized (WebP/AVIF, correct size)
- [ ] Critical CSS inlined (< 14KB)
- [ ] No render-blocking JavaScript in <head>
- [ ] Fonts don't block text rendering (font-display: swap)
- [ ] LCP element in initial HTML (not JS-rendered)
// Find your LCP element
new PerformanceObserver((list) => {
const entries = list.getEntries();
const lastEntry = entries[entries.length - 1];
console.log('LCP element:', lastEntry.element);
console.log('LCP time:', lastEntry.startTime);
}).observe({ type: 'largest-contentful-paint', buffered: true });
INP measures responsiveness across ALL interactions (clicks, taps, key presses) during a page visit. It reports the worst interaction (at 98th percentile for high-traffic pages).
Total INP = Input Delay + Processing Time + Presentation Delay
| Phase | Target | Optimization |
|---|---|---|
| Input Delay | < 50ms | Reduce main thread blocking |
| Processing | < 100ms | Optimize event handlers |
| Presentation | < 50ms | Minimize rendering work |
1. Long tasks blocking main thread
// ❌ Long synchronous task
function processLargeArray(items) {
items.forEach(item => expensiveOperation(item));
}
// ✅ Break into chunks with yielding
async function processLargeArray(items) {
const CHUNK_SIZE = 100;
for (let i = 0; i < items.length; i += CHUNK_SIZE) {
const chunk = items.slice(i, i + CHUNK_SIZE);
chunk.forEach(item => expensiveOperation(item));
// Yield to main thread
await new Promise(r => setTimeout(r, 0));
// Or use scheduler.yield() when available
}
}
2. Heavy event handlers
// ❌ All work in handler
button.addEventListener('click', () => {
// Heavy computation
const result = calculateComplexThing();
// DOM updates
updateUI(result);
// Analytics
trackEvent('click');
});
// ✅ Prioritize visual feedback
button.addEventListener('click', () => {
// Immediate visual feedback
button.classList.add('loading');
// Defer non-critical work
requestAnimationFrame(() => {
const result = calculateComplexThing();
updateUI(result);
});
// Use requestIdleCallback for analytics
requestIdleCallback(() => trackEvent('click'));
});
3. Third-party scripts
// ❌ Eagerly loaded, blocks interactions
<script src="https://heavy-widget.com/widget.js"></script>
// ✅ Lazy loaded on interaction or visibility
const loadWidget = () => {
import('https://heavy-widget.com/widget.js')
.then(widget => widget.init());
};
button.addEventListener('click', loadWidget, { once: true });
4. Excessive re-renders (React/Vue)
// ❌ Re-renders entire tree
function App() {
const [count, setCount] = useState(0);
return (
<div>
<Counter count={count} />
<ExpensiveComponent /> {/* Re-renders on every count change */}
</div>
);
}
// ✅ Memoized expensive components
const MemoizedExpensive = React.memo(ExpensiveComponent);
function App() {
const [count, setCount] = useState(0);
return (
<div>
<Counter count={count} />
<MemoizedExpensive />
</div>
);
}
- [ ] No tasks > 50ms on main thread
- [ ] Event handlers complete quickly (< 100ms)
- [ ] Visual feedback provided immediately
- [ ] Heavy work deferred with requestIdleCallback
- [ ] Third-party scripts don't block interactions
- [ ] Debounced input handlers where appropriate
- [ ] Web Workers for CPU-intensive operations
// Identify slow interactions
new PerformanceObserver((list) => {
for (const entry of list.getEntries()) {
if (entry.duration > 200) {
console.warn('Slow interaction:', {
type: entry.name,
duration: entry.duration,
processingStart: entry.processingStart,
processingEnd: entry.processingEnd,
target: entry.target
});
}
}
}).observe({ type: 'event', buffered: true, durationThreshold: 16 });
CLS measures unexpected layout shifts. A shift occurs when a visible element changes position between frames without user interaction.
CLS Formula: impact fraction × distance fraction
1. Images without dimensions
<!-- ❌ Causes layout shift when loaded -->
<img src="photo.jpg" alt="Photo">
<!-- ✅ Space reserved -->
<img src="photo.jpg" alt="Photo" width="800" height="600">
<!-- ✅ Or use aspect-ratio -->
<img src="photo.jpg" alt="Photo" style="aspect-ratio: 4/3; width: 100%;">
2. Ads, embeds, and iframes
<!-- ❌ Unknown size until loaded -->
<iframe src="https://ad-network.com/ad"></iframe>
<!-- ✅ Reserve space with min-height -->
<div style="min-height: 250px;">
<iframe src="https://ad-network.com/ad" height="250"></iframe>
</div>
<!-- ✅ Or use aspect-ratio container -->
<div style="aspect-ratio: 16/9;">
<iframe src="https://youtube.com/embed/..."
style="width: 100%; height: 100%;"></iframe>
</div>
3. Dynamically injected content
// ❌ Inserts content above viewport
notifications.prepend(newNotification);
// ✅ Insert below viewport or use transform
const insertBelow = viewport.bottom < newNotification.top;
if (insertBelow) {
notifications.prepend(newNotification);
} else {
// Animate in without shifting
newNotification.style.transform = 'translateY(-100%)';
notifications.prepend(newNotification);
requestAnimationFrame(() => {
newNotification.style.transform = '';
});
}
4. Web fonts causing FOUT
/* ❌ Font swap shifts text */
@font-face {
font-family: 'Custom';
src: url('custom.woff2') format('woff2');
}
/* ✅ Optional font (no shift if slow) */
@font-face {
font-family: 'Custom';
src: url('custom.woff2') format('woff2');
font-display: optional;
}
/* ✅ Or match fallback metrics */
@font-face {
font-family: 'Custom';
src: url('custom.woff2') format('woff2');
font-display: swap;
size-adjust: 105%; /* Match fallback size */
ascent-override: 95%;
descent-override: 20%;
}
5. Animations triggering layout
/* ❌ Animates layout properties */
.animate {
transition: height 0.3s, width 0.3s;
}
/* ✅ Use transform instead */
.animate {
transition: transform 0.3s;
}
.animate.expanded {
transform: scale(1.2);
}
- [ ] All images have width/height or aspect-ratio
- [ ] All videos/embeds have reserved space
- [ ] Ads have min-height containers
- [ ] Fonts use font-display: optional or matched metrics
- [ ] Dynamic content inserted below viewport
- [ ] Animations use transform/opacity only
- [ ] No content injected above existing content
// Track layout shifts
new PerformanceObserver((list) => {
for (const entry of list.getEntries()) {
if (!entry.hadRecentInput) {
console.log('Layout shift:', entry.value);
entry.sources?.forEach(source => {
console.log(' Shifted element:', source.node);
console.log(' Previous rect:', source.previousRect);
console.log(' Current rect:', source.currentRect);
});
}
}
}).observe({ type: 'layout-shift', buffered: true });
npx lighthouse <url>import {onLCP, onINP, onCLS} from 'web-vitals';
function sendToAnalytics({name, value, rating}) {
gtag('event', name, {
event_category: 'Web Vitals',
value: Math.round(name === 'CLS' ? value * 1000 : value),
event_label: rating
});
}
onLCP(sendToAnalytics);
onINP(sendToAnalytics);
onCLS(sendToAnalytics);
// LCP: Use next/image with priority
import Image from 'next/image';
<Image src="/hero.jpg" priority fill alt="Hero" />
// INP: Use dynamic imports
const HeavyComponent = dynamic(() => import('./Heavy'), { ssr: false });
// CLS: Image component handles dimensions automatically
// LCP: Preload in head
<link rel="preload" href="/hero.jpg" as="image" fetchpriority="high" />
// INP: Memoize and useTransition
const [isPending, startTransition] = useTransition();
startTransition(() => setExpensiveState(newValue));
// CLS: Always specify dimensions in img tags
<!-- LCP: Use nuxt/image with preload -->
<NuxtImg src="/hero.jpg" preload loading="eager" />
<!-- INP: Use async components -->
<component :is="() => import('./Heavy.vue')" />
<!-- CLS: Use aspect-ratio CSS -->
<img :style="{ aspectRatio: '16/9' }" />