| name | performance-optimization |
| description | Use when performance requirements exist, when you suspect performance regressions, or when Core Web Vitals or load times need improvement. Use when profiling reveals bottlenecks that need fixing. |
Performance Optimization
Overview
Measure before optimizing. Performance work without measurement is guessing — and guessing leads to premature optimization that adds complexity without improving what matters. Profile first, identify the actual bottleneck, fix it, measure again. Optimize only what measurements prove matters.
When to Use
- Performance requirements exist in the spec (load time budgets, response time SLAs)
- Users or monitoring report slow behavior
- Core Web Vitals scores are below thresholds
- You suspect a change introduced a regression
- Building features that handle large datasets or high traffic
When NOT to use: Don't optimize before you have evidence of a problem. Premature optimization adds complexity that costs more than the performance it gains.
Core Web Vitals Targets
| Metric | Good | Needs Improvement | Poor |
|---|
| LCP (Largest Contentful Paint) | ≤ 2.5s | ≤ 4.0s | > 4.0s |
| INP (Interaction to Next Paint) | ≤ 200ms | ≤ 500ms | > 500ms |
| CLS (Cumulative Layout Shift) | ≤ 0.1 | ≤ 0.25 | > 0.25 |
The Optimization Workflow
1. MEASURE → Establish baseline with real data
2. IDENTIFY → Find the actual bottleneck (not assumed)
3. FIX → Address the specific bottleneck
4. VERIFY → Measure again, confirm improvement
5. GUARD → Add monitoring or tests to prevent regression
Step 1: Measure
Frontend:
import { onLCP, onINP, onCLS } from 'web-vitals';
onLCP(console.log);
onINP(console.log);
onCLS(console.log);
Backend:
console.time('db-query');
const result = await db.query(...);
console.timeEnd('db-query');
Step 2: Identify the Bottleneck
Common bottlenecks by category:
Frontend:
| Symptom | Likely Cause | Investigation |
|---|
| Slow LCP | Large images, render-blocking resources, slow server | Check network waterfall, image sizes |
| High CLS | Images without dimensions, late-loading content, font shifts | Check layout shift attribution |
| Poor INP | Heavy JavaScript on main thread, large DOM updates | Check long tasks in Performance trace |
| Slow initial load | Large bundle, many network requests | Check bundle size, code splitting |
Backend:
| Symptom | Likely Cause | Investigation |
|---|
| Slow API responses | N+1 queries, missing indexes, unoptimized queries | Check database query log |
| Memory growth | Leaked references, unbounded caches, large payloads | Heap snapshot analysis |
| CPU spikes | Synchronous heavy computation, regex backtracking | CPU profiling |
| High latency | Missing caching, redundant computation, network hops | Trace requests through the stack |
Step 3: Fix Common Anti-Patterns
N+1 Queries (Backend)
const tasks = await db.tasks.findMany();
for (const task of tasks) {
task.owner = await db.users.findUnique({ where: { id: task.ownerId } });
}
const tasks = await db.tasks.findMany({
include: { owner: true },
});
Unbounded Data Fetching
const allTasks = await db.tasks.findMany();
const tasks = await db.tasks.findMany({
take: 20,
skip: (page - 1) * 20,
orderBy: { createdAt: 'desc' },
});
Missing Image Optimization (Frontend)
<img src="/hero.jpg" />
<img
src="/hero.jpg"
srcset="/hero-400.webp 400w, /hero-800.webp 800w, /hero-1200.webp 1200w"
sizes="(max-width: 768px) 100vw, 50vw"
width="1200"
height="600"
loading="lazy"
alt="Hero image description"
/>
Unnecessary Re-renders (React)
function TaskList() {
return <TaskFilters options={{ sortBy: 'date', order: 'desc' }} />;
}
const DEFAULT_OPTIONS = { sortBy: 'date', order: 'desc' } as const;
function TaskList() {
return <TaskFilters options={DEFAULT_OPTIONS} />;
}
const TaskItem = React.memo(function TaskItem({ task }: Props) {
return <div>{/* expensive render */}</div>;
});
function TaskStats({ tasks }: Props) {
const stats = useMemo(() => calculateStats(tasks), [tasks]);
return <div>{stats.completed} / {stats.total}</div>;
}
Large Bundle Size
import { format } from 'date-fns';
import { format } from 'date-fns/format';
const ChartLibrary = lazy(() => import('./ChartLibrary'));
Missing Caching (Backend)
const CACHE_TTL = 5 * 60 * 1000;
let cachedConfig: AppConfig | null = null;
let cacheExpiry = 0;
async function getAppConfig(): Promise<AppConfig> {
if (cachedConfig && Date.now() < cacheExpiry) {
return cachedConfig;
}
cachedConfig = await db.config.findFirst();
cacheExpiry = Date.now() + CACHE_TTL;
return cachedConfig;
}
app.use('/static', express.static('public', {
maxAge: '1y',
immutable: true,
}));
res.set('Cache-Control', 'public, max-age=300');
Performance Budget
Set budgets and enforce them:
JavaScript bundle: < 200KB gzipped (initial load)
CSS: < 50KB gzipped
Images: < 200KB per image (above the fold)
Fonts: < 100KB total
API response time: < 200ms (p95)
Time to Interactive: < 3.5s on 4G
Lighthouse Performance score: ≥ 90
Enforce in CI:
npx bundlesize --config bundlesize.config.json
npx lhci autorun
Common Rationalizations
| Rationalization | Reality |
|---|
| "We'll optimize later" | Performance debt compounds. Fix obvious anti-patterns now, defer micro-optimizations. |
| "It's fast on my machine" | Your machine isn't the user's. Profile on representative hardware and networks. |
| "This optimization is obvious" | If you didn't measure, you don't know. Profile first. |
| "Users won't notice 100ms" | Research shows 100ms delays impact conversion rates. Users notice more than you think. |
| "The framework handles performance" | Frameworks prevent some issues but can't fix N+1 queries or oversized bundles. |
Red Flags
- Optimization without profiling data to justify it
- N+1 query patterns in data fetching
- List endpoints without pagination
- Images without dimensions, lazy loading, or responsive sizes
- Bundle size growing without review
- No performance monitoring in production
React.memo and useMemo everywhere (overusing is as bad as underusing)
Verification
After any performance-related change: