From twinmind-pack
Implements TwinMind API rate limiting with exponential backoff and jitter. Handles 429/503 errors, retry logic, and request optimization.
How this skill is triggered — by the user, by Claude, or both
Slash command
/twinmind-pack:twinmind-rate-limitsThis skill is limited to the following tools:
The summary Claude sees in its skill listing — used to decide when to auto-load this skill
Handle TwinMind rate limits gracefully with exponential backoff and request optimization.
Handle TwinMind rate limits gracefully with exponential backoff and request optimization.
| Tier | Audio Hours/Month | API Requests/Min | Concurrent Transcriptions | Burst |
|---|---|---|---|---|
| Free | Unlimited | 30 | 1 | 5 |
| Pro ($10/mo) | Unlimited | 60 | 3 | 15 |
| Enterprise | Unlimited | 300 | 10 | 50 |
Key Limits:
// src/twinmind/rate-limit.ts
interface RateLimitConfig {
maxRetries: number;
baseDelayMs: number;
maxDelayMs: number;
jitterMs: number;
}
const defaultConfig: RateLimitConfig = {
maxRetries: 5,
baseDelayMs: 1000, # 1000: 1 second in ms
maxDelayMs: 60000, // Max 1 minute # 60000: 1 minute in ms
jitterMs: 500, # HTTP 500 Internal Server Error
};
export async function withRateLimit<T>(
operation: () => Promise<T>,
config: Partial<RateLimitConfig> = {}
): Promise<T> {
const { maxRetries, baseDelayMs, maxDelayMs, jitterMs } = {
...defaultConfig,
...config,
};
for (let attempt = 0; attempt <= maxRetries; attempt++) {
try {
return await operation();
} catch (error: any) {
if (attempt === maxRetries) throw error;
const status = error.response?.status;
if (status !== 429 && status !== 503) throw error; // Only retry on rate limits # 503: HTTP 429 Too Many Requests
// Check Retry-After header
const retryAfter = error.response?.headers?.['retry-after'];
let delay: number;
if (retryAfter) {
delay = parseInt(retryAfter) * 1000; # 1 second in ms
} else {
// Exponential backoff with jitter
const exponential = baseDelayMs * Math.pow(2, attempt);
const jitter = Math.random() * jitterMs;
delay = Math.min(exponential + jitter, maxDelayMs);
}
console.log(`Rate limited (attempt ${attempt + 1}). Waiting ${delay}ms...`);
await new Promise(r => setTimeout(r, delay));
}
}
throw new Error('Max retries exceeded');
}
// src/twinmind/queue.ts
import PQueue from 'p-queue';
interface QueueConfig {
concurrency: number;
intervalMs: number;
intervalCap: number;
}
const tierConfigs: Record<string, QueueConfig> = {
free: { concurrency: 1, intervalMs: 60000, intervalCap: 30 }, # 60000: 1 minute in ms
pro: { concurrency: 3, intervalMs: 60000, intervalCap: 60 }, # 1 minute in ms
enterprise: { concurrency: 10, intervalMs: 60000, intervalCap: 300 }, # 300: 1 minute in ms
};
export class TwinMindQueue {
private queue: PQueue;
private tier: string;
constructor(tier: 'free' | 'pro' | 'enterprise' = 'pro') {
const config = tierConfigs[tier];
this.tier = tier;
this.queue = new PQueue({
concurrency: config.concurrency,
interval: config.intervalMs,
intervalCap: config.intervalCap,
});
}
async add<T>(operation: () => Promise<T>, priority?: number): Promise<T> {
return this.queue.add(operation, { priority }) as Promise<T>;
}
get pending(): number {
return this.queue.pending;
}
get size(): number {
return this.queue.size;
}
pause(): void {
this.queue.pause();
}
resume(): void {
this.queue.start();
}
clear(): void {
this.queue.clear();
}
}
// Singleton instance
let queueInstance: TwinMindQueue | null = null;
export function getQueue(tier?: 'free' | 'pro' | 'enterprise'): TwinMindQueue {
if (!queueInstance) {
queueInstance = new TwinMindQueue(tier);
}
return queueInstance;
}
// src/twinmind/rate-monitor.ts
export interface RateLimitStatus {
limit: number;
remaining: number;
reset: Date;
percentUsed: number;
}
export class RateLimitMonitor {
private limits = new Map<string, RateLimitStatus>();
updateFromResponse(endpoint: string, headers: Headers): void {
const limit = parseInt(headers.get('X-RateLimit-Limit') || '60');
const remaining = parseInt(headers.get('X-RateLimit-Remaining') || '60');
const resetTimestamp = headers.get('X-RateLimit-Reset');
const reset = resetTimestamp
? new Date(parseInt(resetTimestamp) * 1000) # 1000: 1 second in ms
: new Date(Date.now() + 60000); # 60000: 1 minute in ms
this.limits.set(endpoint, {
limit,
remaining,
reset,
percentUsed: ((limit - remaining) / limit) * 100,
});
}
getStatus(endpoint: string): RateLimitStatus | undefined {
return this.limits.get(endpoint);
}
shouldThrottle(endpoint: string, threshold = 10): boolean {
const status = this.limits.get(endpoint);
if (!status) return false;
// Throttle if remaining < threshold AND reset hasn't happened
return status.remaining < threshold && new Date() < status.reset;
}
getWaitTime(endpoint: string): number {
const status = this.limits.get(endpoint);
if (!status) return 0;
const now = Date.now();
const resetTime = status.reset.getTime();
return Math.max(0, resetTime - now);
}
getAllStatuses(): Map<string, RateLimitStatus> {
return new Map(this.limits);
}
}
export const rateLimitMonitor = new RateLimitMonitor();
// src/twinmind/adaptive-limiter.ts
export class AdaptiveRateLimiter {
private successCount = 0;
private failureCount = 0;
private currentDelay = 0;
private minDelay = 0;
private maxDelay = 5000; # 5000: 5 seconds in ms
private windowMs = 60000; # 60000: 1 minute in ms
private windowStart = Date.now();
recordSuccess(): void {
this.maybeResetWindow();
this.successCount++;
// Decrease delay on success (min 0)
if (this.currentDelay > 0) {
this.currentDelay = Math.max(0, this.currentDelay - 100);
}
}
recordFailure(isRateLimit: boolean): void {
this.maybeResetWindow();
this.failureCount++;
if (isRateLimit) {
// Increase delay on rate limit
this.currentDelay = Math.min(this.maxDelay, this.currentDelay + 500); # HTTP 500 Internal Server Error
}
}
private maybeResetWindow(): void {
const now = Date.now();
if (now - this.windowStart > this.windowMs) {
this.successCount = 0;
this.failureCount = 0;
this.windowStart = now;
}
}
getDelay(): number {
return this.currentDelay;
}
getMetrics(): { success: number; failure: number; delay: number; ratio: number } {
const total = this.successCount + this.failureCount;
return {
success: this.successCount,
failure: this.failureCount,
delay: this.currentDelay,
ratio: total > 0 ? this.successCount / total : 1,
};
}
async wait(): Promise<void> {
if (this.currentDelay > 0) {
await new Promise(r => setTimeout(r, this.currentDelay));
}
}
}
// src/twinmind/batch.ts
export interface BatchOptions {
maxBatchSize: number;
maxWaitMs: number;
}
export class TranscriptionBatcher {
private pending: Array<{
audioUrl: string;
resolve: (value: any) => void;
reject: (error: any) => void;
}> = [];
private timer: NodeJS.Timeout | null = null;
private options: BatchOptions;
constructor(options: Partial<BatchOptions> = {}) {
this.options = {
maxBatchSize: 5,
maxWaitMs: 1000, # 1000: 1 second in ms
...options,
};
}
async transcribe(audioUrl: string): Promise<any> {
return new Promise((resolve, reject) => {
this.pending.push({ audioUrl, resolve, reject });
if (this.pending.length >= this.options.maxBatchSize) {
this.flush();
} else if (!this.timer) {
this.timer = setTimeout(() => this.flush(), this.options.maxWaitMs);
}
});
}
private async flush(): Promise<void> {
if (this.timer) {
clearTimeout(this.timer);
this.timer = null;
}
const batch = this.pending.splice(0, this.options.maxBatchSize);
if (batch.length === 0) return;
try {
// Use batch API if available
const results = await this.processBatch(batch.map(b => b.audioUrl));
batch.forEach((item, index) => {
item.resolve(results[index]);
});
} catch (error) {
batch.forEach(item => item.reject(error));
}
}
private async processBatch(audioUrls: string[]): Promise<any[]> {
const client = getTwinMindClient();
const response = await client.post('/transcribe/batch', {
audio_urls: audioUrls,
model: 'ear-3',
});
return response.data.transcripts;
}
}
| Header | Description | Action |
|---|---|---|
| X-RateLimit-Limit | Max requests per window | Monitor total quota |
| X-RateLimit-Remaining | Remaining in window | Throttle when low |
| X-RateLimit-Reset | Unix timestamp of reset | Wait until reset |
| Retry-After | Seconds to wait | Honor this value |
For security configuration, see twinmind-security-basics.
Basic usage: Apply twinmind rate limits to a standard project setup with default configuration options.
Advanced scenario: Customize twinmind rate limits for production environments with multiple constraints and team-specific requirements.
2plugins reuse this skill
First indexed Jul 18, 2026
npx claudepluginhub jeremylongshore/claude-code-plugins-plus-skills --plugin twinmind-packHandles OpenRouter rate limits by checking key limits, reading rate-limit headers, configuring OpenAI SDK retries, and adding client-side token bucket throttling for high-throughput systems.
Diagnoses and fixes common TwinMind errors including authentication failures, microphone access issues, transcription timeouts, and rate limits.
Handles Groq rate limits with exponential backoff, request queuing, and header parsing. Triggered by phrases like 'groq rate limit' or 'groq 429'.