From instantly-pack
Optimizes Instantly.ai API v2 performance with caching for analytics/campaigns, batch lead operations with concurrency, and rate limit handling. Use for slow responses or high-volume leads.
How this skill is triggered — by the user, by Claude, or both
Slash command
/instantly-pack:instantly-performance-tuningThis skill is limited to the following tools:
The summary Claude sees in its skill listing — used to decide when to auto-load this skill
Optimize Instantly API v2 integrations for speed and throughput. Key areas: caching analytics data, batching lead operations, concurrent request management, efficient pagination, and connection reuse. The email listing endpoint has a strict **20 req/min** limit that requires special handling.
Optimize Instantly API v2 integrations for speed and throughput. Key areas: caching analytics data, batching lead operations, concurrent request management, efficient pagination, and connection reuse. The email listing endpoint has a strict 20 req/min limit that requires special handling.
instantly-install-auth setupCampaign analytics don't change every second — cache them for 5-15 minutes to avoid redundant API calls.
class InstantlyCache {
private cache = new Map<string, { data: unknown; expiry: number }>();
get<T>(key: string): T | null {
const entry = this.cache.get(key);
if (!entry || Date.now() > entry.expiry) {
this.cache.delete(key);
return null;
}
return entry.data as T;
}
set(key: string, data: unknown, ttlMs: number) {
this.cache.set(key, { data, expiry: Date.now() + ttlMs });
}
}
const cache = new InstantlyCache();
async function getCachedAnalytics(campaignId: string) {
const cacheKey = `analytics:${campaignId}`;
const cached = cache.get<CampaignAnalytics>(cacheKey);
if (cached) return cached;
const data = await instantly<CampaignAnalytics>(
`/campaigns/analytics?id=${campaignId}`
);
cache.set(cacheKey, data, 5 * 60 * 1000); // 5 min TTL
return data;
}
// Cache campaign list (changes infrequently)
async function getCachedCampaigns() {
const cacheKey = "campaigns:all";
const cached = cache.get<Campaign[]>(cacheKey);
if (cached) return cached;
const campaigns = await instantly<Campaign[]>("/campaigns?limit=100");
cache.set(cacheKey, campaigns, 15 * 60 * 1000); // 15 min TTL
return campaigns;
}
interface BatchResult<T> {
succeeded: T[];
failed: Array<{ input: unknown; error: string }>;
duration: number;
}
async function batchAddLeads(
campaignId: string,
leads: Array<{ email: string; first_name?: string; company_name?: string }>,
options = { concurrency: 5, delayMs: 200, retries: 3 }
): Promise<BatchResult<Lead>> {
const start = Date.now();
const succeeded: Lead[] = [];
const failed: Array<{ input: unknown; error: string }> = [];
let active = 0;
const addWithRetry = async (lead: typeof leads[0]) => {
for (let attempt = 0; attempt <= options.retries; attempt++) {
try {
const result = await instantly<Lead>("/leads", {
method: "POST",
body: JSON.stringify({
campaign: campaignId,
email: lead.email,
first_name: lead.first_name,
company_name: lead.company_name,
skip_if_in_workspace: true,
}),
});
succeeded.push(result);
return;
} catch (err: any) {
if (err.status === 429) {
await new Promise((r) => setTimeout(r, Math.pow(2, attempt) * 1000));
continue;
}
if (attempt === options.retries) {
failed.push({ input: lead, error: err.message });
}
}
}
};
// Process in chunks
for (let i = 0; i < leads.length; i += options.concurrency) {
const chunk = leads.slice(i, i + options.concurrency);
await Promise.allSettled(chunk.map(addWithRetry));
if (i + options.concurrency < leads.length) {
await new Promise((r) => setTimeout(r, options.delayMs));
}
// Progress report
const progress = Math.min(i + options.concurrency, leads.length);
console.log(`Progress: ${progress}/${leads.length} (${succeeded.length} ok, ${failed.length} failed)`);
}
return { succeeded, failed, duration: Date.now() - start };
}
// Pre-fetch next page while processing current page
async function* prefetchPaginate<T extends { id: string }>(
path: string,
pageSize = 100
): AsyncGenerator<T[]> {
let startingAfter: string | undefined;
let nextPagePromise: Promise<T[]> | null = null;
const fetchPage = (after?: string) => {
const qs = new URLSearchParams({ limit: String(pageSize) });
if (after) qs.set("starting_after", after);
return instantly<T[]>(`${path}?${qs}`);
};
// Fetch first page
let currentPage = await fetchPage();
while (currentPage.length > 0) {
// Start fetching next page immediately
if (currentPage.length === pageSize) {
const lastId = currentPage[currentPage.length - 1].id;
nextPagePromise = fetchPage(lastId);
} else {
nextPagePromise = null;
}
yield currentPage;
if (!nextPagePromise) break;
currentPage = await nextPagePromise;
}
}
// Usage — processes next page while current page is being handled
for await (const batch of prefetchPaginate<Lead>("/leads/list")) {
for (const lead of batch) {
// Process lead — next page is already loading
}
}
import { Agent } from "undici";
// Create a persistent connection pool
const dispatcher = new Agent({
keepAliveTimeout: 30000, // keep connections alive for 30s
keepAliveMaxTimeout: 60000,
connections: 10, // max 10 concurrent connections
pipelining: 1,
});
async function instantlyPooled<T>(path: string, options: RequestInit = {}): Promise<T> {
const url = `https://api.instantly.ai/api/v2${path}`;
const res = await fetch(url, {
...options,
headers: {
"Content-Type": "application/json",
Authorization: `Bearer ${process.env.INSTANTLY_API_KEY}`,
...options.headers,
},
// @ts-ignore — undici dispatcher
dispatcher,
});
if (!res.ok) throw new Error(`Instantly ${res.status}: ${await res.text()}`);
return res.json() as Promise<T>;
}
class ThrottledEmailClient {
private timestamps: number[] = [];
private readonly maxPerMinute = 18; // leave margin
private async throttle() {
const now = Date.now();
this.timestamps = this.timestamps.filter((t) => now - t < 60000);
if (this.timestamps.length >= this.maxPerMinute) {
const wait = 60000 - (now - this.timestamps[0]) + 500;
await new Promise((r) => setTimeout(r, wait));
}
this.timestamps.push(Date.now());
}
async listEmails(params: { campaign_id?: string; limit?: number; starting_after?: string }) {
await this.throttle();
const qs = new URLSearchParams();
if (params.campaign_id) qs.set("campaign_id", params.campaign_id);
if (params.limit) qs.set("limit", String(params.limit));
if (params.starting_after) qs.set("starting_after", params.starting_after);
return instantly(`/emails?${qs}`);
}
async getUnreadCount() {
await this.throttle();
return instantly("/emails/unread/count");
}
}
| Operation | Unoptimized | Optimized | Improvement |
|---|---|---|---|
| 500 lead import | ~250s (sequential) | ~30s (5 concurrent + batch) | 8x |
| Campaign analytics (10 queries) | 10 API calls | 1 API call (cached) | 10x |
| All campaigns page load | ~2s (no cache) | ~50ms (cached) | 40x |
| Lead pagination (10K leads) | ~100s (sequential) | ~50s (prefetch) | 2x |
| Error | Cause | Solution |
|---|---|---|
429 during batch import | Too many concurrent requests | Reduce concurrency, increase delay |
429 on email listing | >20 req/min | Use ThrottledEmailClient |
| Stale cache data | TTL too long | Reduce TTL or add cache invalidation |
| Memory issues | Large pagination result set | Use async generators, process in chunks |
For cost optimization, see instantly-cost-tuning.
npx claudepluginhub luxdevnet/claude-plus-lux --plugin instantly-pack5plugins reuse this skill
First indexed Jul 10, 2026
Optimizes Instantly.ai API v2 integrations with caching, batching, concurrent request management, and connection pooling for high-volume lead operations.
Optimize Klaviyo API performance with caching, batching, and pagination tuning. Use when experiencing slow API responses, implementing caching strategies, or optimizing request throughput for Klaviyo integrations. Trigger with phrases like "klaviyo performance", "optimize klaviyo", "klaviyo latency", "klaviyo caching", "klaviyo slow", "klaviyo batch".
Guides collaborative design exploration before implementation: explores context, asks clarifying questions, proposes approaches, and writes a design doc for user approval.