Announcements

TMAI Token Launch This Week! The Community-Powered Token Poised to Transform Crypto Trading! 🚀

The countdown has officially begun! We are excited to announce the upcoming TMAI Token Generation Event (TGE) on December 4th.
Token Metrics Team
7
MIN

Hello, Token Metrics Community!

The countdown has officially begun! We are excited to announce the upcoming TMAI Token Generation Event (TGE) on December 4th. This isn't just another token launch—it’s the dawn of a revolutionary era in AI and crypto trading, and you are invited to be a pivotal part of it.

At Token Metrics, our mission has been clear from day one: to help crypto traders and investors find the next 100x and build generational wealth. With TMAI, we're propelling our vision forward, forging an ecosystem where cutting-edge technology seamlessly integrates with our vibrant community like never before.

"The moon is not the limit, to the moon and beyond." Join us as we reach for the stars and beyond!

Why TMAI Is a Game-Changer

Unmatched AI Innovation

  • Four Years of Excellence: Our proprietary AI has been meticulously developed over two major crypto cycles, honing its predictive prowess far beyond that of newer AI agents.

  • Exclusive Data Mastery: Harnessing expansive datasets, including market trends, trading behaviors, on-chain analytics, and sentiment data to deliver unparalleled insights.

  • Unique Crypto Ratings and Signals: Gain a competitive edge with our exclusive ratings and real-time trading signals.

Introducing the TMAI Agent

Meet the TMAI Agent—your personal AI-powered assistant designed to elevate your trading experience:

  • Data-Driven Precision: Access precise, verified information to make informed trading decisions.

  • Community-Focused: Tailored for our dynamic community of over 350,000 passionate crypto users.

Coming Soon: TM AI Integration

  • On the Token Metrics Platform: Starting this month, use TMAI tokens as a form of payment to access premium features and AI-driven insights.

  • Multi-Platform Deployment: While integration on Discord, Twitter (X), and Telegram is part of our roadmap, stay tuned for these exciting expansions!

  • Mobile App:: Our upcoming mobile app will allow you to use the TMAI Agent on the go, ensuring you never miss an opportunity to find that next 100x in crypto alpha.

Massive Community Airdrop

We prioritize our community by allocating more than 50% of the total TMAI token supply to airdrops, including:

  • Token Metrics Customers
  • Reg CF Investors (Wefunder)
  • Astrobot Society NFT Holders
  • Astra DAO Token Holders
  • TMAI Launchpad Investors
  • Galxe, Klink, and Jump Task Campaign Participants 

With 57% of the total token supply liquid on TGE day, early participants will have immediate access to utilize their tokens, maximizing their impact from day one.

Exclusive Opportunities for Early Participants

Joining the TGE unlocks a world of exclusive benefits:

  • Early Access: Be among the first to harness TMAI within our robust ecosystem.

  • Unlock Premium Features: Utilize TMAI tokens to access advanced tools and in-depth analytics on the Token Metrics platform starting this month.

  • Shape the Future: Engage in our community-driven initiatives and influence the evolution of crypto trading.

  • Be Part of the Token Metrics DAO: A for-profit DAO established in the Marshall Islands, this DAO offers the community the potential to share revenue and decide on utilizing funds for a buyback and burn, unlocking endless possibilities when integrated with the TMAI Agent.

How to Get Involved

1. Register on TMAI Launch Exchanges

2. Secure Your Account

  • Set strong, unique passwords.
  • Enable two-factor authentication (2FA) for enhanced security.

3. Fund Your Account

  • Deposit the required funds (e.g., USDT, BTC) to prepare for the TGE.

4. Participate in the TGE on December 4th

  • Search for $TMAI on your chosen exchange.
  • Complete your purchase seamlessly.

Claim Your Airdrop

If you participated in our leaderboard at airdrop.tokenmetrics.com or the Galxe, Klink, and Jump Task campaigns, remember to claim your tokens on TGE day! 

If you did not connect your wallet, make sure to do so to claim your tokens. If you have any issues claiming tokens, simply email support@tokenmetrics.com.

Exciting Roadmap Ahead

  • Seamless Integration with Token Metrics Platform: Starting this month, you can use TMAI tokens as a form of payment to unlock premium features and AI-driven insights.

  • Multi-Platform TMAI Agent Deployment: As part of our future roadmap, engage with the TMAI Agent on Discord, Twitter (X), and Telegram.

  • Token Metrics Trading Bot: Automate your trading strategies with our proprietary AI ratings and signals.

  • Exclusive Token Metrics Launchpad: Access groundbreaking projects available only through TMAI.

  • For-Profit Token Metrics DAO: Engage in governance and contribute to our ecosystem’s growth, with potential revenue sharing and collaborative opportunities.

Join the Revolution

This is more than a token; it’s a movement. Don’t miss your chance to be part of something extraordinary.

Stay Connected:

  • Twitter (X): @TokenMetricsInc
  • Telegram: Token Metrics Community

Build Smarter Crypto Apps &
AI Agents in Minutes, Not Months
Real-time prices, trading signals, and on-chain insights all from one powerful API.
Grab a Free API Key
Token Metrics Team
Token Metrics Team

Recent Posts

Research

Understanding REST APIs: A Practical Guide

Token Metrics Team
5
MIN

Modern web and mobile apps exchange data constantly. At the center of that exchange is the REST API — a widely adopted architectural style that standardizes how clients and servers communicate over HTTP. Whether you are a developer, product manager, or researcher, understanding what a REST API is and how it works is essential for designing scalable systems and integrating services efficiently.

What is a REST API? Core principles

A REST API (Representational State Transfer Application Programming Interface) is a style for designing networked applications. It defines a set of constraints that, when followed, enable predictable, scalable, and loosely coupled interactions between clients (browsers, mobile apps, services) and servers. REST is not a protocol or standard; it is a set of architectural principles introduced by Roy Fielding in 2000.

Key principles include:

  • Statelessness: Each request from the client contains all information needed; the server does not store client session state between requests.
  • Resource orientation: Everything is modeled as a resource (users, orders, posts), each identified by a URI (Uniform Resource Identifier).
  • Uniform interface: A standard set of operations (typically HTTP methods) operate on resources in predictable ways.
  • Client-server separation: Clients and servers can evolve independently as long as the interface contract is maintained.
  • Cacheability: Responses can be labeled cacheable or non-cacheable to improve performance and scalability.

How REST APIs work: HTTP methods, status codes, and endpoints

A REST API organizes functionality around resources and uses standard HTTP verbs to manipulate them. Common conventions are:

  • GET — retrieve a resource or list of resources.
  • POST — create a new resource under a collection.
  • PUT — replace an existing resource or create if absent (idempotent).
  • PATCH — apply partial updates to a resource.
  • DELETE — remove a resource.

Responses use HTTP status codes to indicate result state (200 OK, 201 Created, 204 No Content, 400 Bad Request, 401 Unauthorized, 404 Not Found, 500 Internal Server Error). Payloads are typically JSON but can be XML or other formats. Endpoints are structured hierarchically, for example: /api/users to list users, /api/users/123 to operate on user with ID 123.

Design patterns and best practices for reliable APIs

Designing a robust REST API involves more than choosing verbs and URIs. Adopt patterns that make APIs understandable, maintainable, and secure:

  • Consistent naming: Use plural resource names (/products, /orders), and keep endpoints predictable.
  • Versioning: Expose versions (e.g., /v1/) to avoid breaking clients when changing the contract.
  • Pagination and filtering: For large collections, support parameters for page size, cursors, and search filters to avoid large responses.
  • Error handling: Return structured error responses with codes and human-readable messages to help client debugging.
  • Rate limiting and throttling: Protect backends by limiting request rates and providing informative headers.
  • Security: Use TLS, authenticate requests (OAuth, API keys), and apply authorization checks per resource.

Following these practices improves interoperability and reduces operational risk.

Use cases, tools, and how to test REST APIs

REST APIs are used across web services, microservices, mobile backends, IoT devices, and third-party integrations. Developers commonly use tools and practices to build and validate APIs:

  • API specifications: OpenAPI (formerly Swagger) describes endpoints, parameters, responses, and can be used to generate client/server code and documentation.
  • Testing tools: Postman, curl, and automated test frameworks (JUnit, pytest) validate behavior, performance, and regression checks.
  • Monitoring and observability: Logs, distributed tracing, and metrics (latency, error rates) help identify issues in production.
  • Client SDKs and code generation: Generate typed clients for multiple languages to reduce integration friction.

AI-driven platforms and analytics can speed research and debugging by surfacing usage patterns, anomalies, and integration opportunities. For example, Token Metrics can be used to analyze API-driven data feeds and incorporate on-chain signals into application decision layers without manual data wrangling.

Build Smarter Crypto Apps & AI Agents with Token Metrics

Token Metrics provides real-time prices, trading signals, and on-chain insights all from one powerful API. Grab a Free API Key

FAQ: What is REST API — common questions

What is the difference between REST and RESTful?

"REST" refers to the architectural constraints described by Roy Fielding; "RESTful" is a colloquial adjective meaning an API that follows REST principles. Not all APIs labeled RESTful implement every REST constraint strictly.

How does REST compare to SOAP and GraphQL?

SOAP is a protocol with rigid standards and built-in operations (often used in enterprise systems). GraphQL exposes a single endpoint and lets clients request precise data shapes. REST uses multiple endpoints and standard HTTP verbs. Each approach has trade-offs in flexibility, caching, and tooling.

When should I version my REST API?

Version your API before making breaking changes to request/response formats or behavior that existing clients depend on. Common strategies include URI versioning (e.g., /v1/) or header-based versioning.

Are REST APIs secure by default?

No. Security must be designed in: use HTTPS/TLS, authenticate requests, validate input, apply authorization checks, and limit rate to reduce abuse. Treat REST APIs like any other public interface that requires protection.

How do I test and document a REST API effectively?

Use API specifications (OpenAPI) to auto-generate docs and client stubs. Combine manual testing tools like Postman with automated integration and contract tests in CI pipelines to ensure consistent behavior across releases.

Can REST APIs handle streaming or real-time data?

REST is request/response oriented and not ideal for continuous real-time streams. For streaming, consider WebSockets, Server-Sent Events (SSE), or specialized protocols; REST can still be used for control operations and fallbacks.

Disclaimer: This article is educational and technical in nature. It does not provide investment or legal advice. The information is intended to explain REST API concepts and best practices, not to recommend specific products or actions.

Research

FastAPI: Build High-Performance Python APIs

Token Metrics Team
4
MIN

FastAPI has become a go-to framework for teams that need production-ready, high-performance APIs in Python. It combines modern Python features, automatic type validation via pydantic, and ASGI-based async support to deliver low-latency endpoints. This post breaks down pragmatic patterns for building, testing, and scaling FastAPI services, with concrete guidance on performance tuning, deployment choices, and observability so you can design robust APIs for real-world workloads.

Overview: Why FastAPI and where it fits

FastAPI is an ASGI framework that emphasizes developer experience and runtime speed. It generates OpenAPI docs automatically, enforces request/response typing, and integrates cleanly with async workflows. Compare FastAPI to traditional WSGI stacks (Flask, Django sync endpoints): FastAPI excels when concurrency and I/O-bound tasks dominate, and when you want built-in validation and schema-driven design.

Use-case scenarios where FastAPI shines:

  • Low-latency microservices handling concurrent I/O (databases, HTTP calls, queues).
  • AI/ML inference endpoints that require fast request routing and input validation.
  • Public APIs where OpenAPI/Swagger documentation and typed schemas reduce integration friction.

Async patterns and performance considerations

FastAPI leverages async/await to let a single worker handle many concurrent requests when operations are I/O-bound. Key principles:

  1. Avoid blocking calls inside async endpoints. Use async database drivers (e.g., asyncpg, databases) or wrap blocking operations in threadpools when necessary.
  2. Choose the right server. uvicorn (with or without Gunicorn) is common: uvicorn for development and Gunicorn+uvicorn workers for production. Consider Hypercorn for HTTP/2 or advanced ASGI features.
  3. Benchmark realistic scenarios. Use tools like wrk, k6, or hey to simulate traffic patterns similar to production. Measure p95/p99 latency, not just average response time.

Performance tuning checklist:

  • Enable HTTP keep-alive and proper worker counts (CPU cores × factor depending on blocking).
  • Cache expensive results (Redis, in-memory caches) and use conditional responses to reduce payloads.
  • Use streaming responses for large payloads to minimize memory spikes.

Design patterns: validation, dependency injection, and background tasks

FastAPI's dependency injection and pydantic models enable clear separation of concerns. Recommended practices:

  • Model-driven APIs: Define request and response schemas with pydantic. This enforces consistent validation and enables automatic docs.
  • Modular dependencies: Use dependency injection for DB sessions, auth, and feature flags to keep endpoints thin and testable.
  • Background processing: Use FastAPI BackgroundTasks or an external queue (Celery, RQ, or asyncio-based workers) for long-running jobs—avoid blocking the request lifecycle.

Scenario analysis: for CPU-bound workloads (e.g., heavy data processing), prefer external workers or serverless functions. For high-concurrency I/O-bound workloads, carefully tuned async endpoints perform best.

Deployment, scaling, and operational concerns

Deploying FastAPI requires choices around containers, orchestration, and observability:

  • Containerization: Create minimal Docker images (slim Python base, multi-stage builds) and expose an ASGI server like uvicorn with optimized worker settings.
  • Scaling: Horizontal scaling with Kubernetes or ECS works well. Use readiness/liveness probes and autoscaling based on p95 latency or CPU/memory metrics.
  • Security & rate limiting: Implement authentication at the edge (API gateway) and enforce rate limits (Redis-backed) to protect services. Validate inputs strictly with pydantic to avoid malformed requests.
  • Observability: Instrument metrics (Prometheus), distributed tracing (OpenTelemetry), and structured logs to diagnose latency spikes and error patterns.

CI/CD tips: include a test matrix for schema validation, contract tests against OpenAPI, and canary deploys for backward-incompatible changes.

Build Smarter Crypto Apps & AI Agents with Token Metrics

Token Metrics provides real-time prices, trading signals, and on-chain insights all from one powerful API. Grab a Free API Key

FAQ: What is FastAPI and how is it different?

FastAPI is a modern, ASGI-based Python framework focused on speed and developer productivity. It differs from traditional frameworks by using type hints for validation, supporting async endpoints natively, and automatically generating OpenAPI documentation.

FAQ: When should I use async endpoints versus sync?

Prefer async endpoints for I/O-bound operations like network calls or async DB drivers. If your code is CPU-bound, spawning background workers or using synchronous workers with more processes may be better to avoid blocking the event loop.

FAQ: How many workers or instances should I run?

There is no one-size-fits-all. Start with CPU core count as a baseline and adjust based on latency and throughput measurements. For async I/O-bound workloads, fewer workers with higher concurrency can be more efficient; for blocking workloads, increase worker count or externalize tasks.

FAQ: What are key security practices for FastAPI?

Enforce strong input validation with pydantic, use HTTPS, validate and sanitize user data, implement authentication and authorization (OAuth2, JWT), and apply rate limiting and request size limits at the gateway.

FAQ: How do I test FastAPI apps effectively?

Use TestClient from FastAPI for unit and integration tests, mock external dependencies, write contract tests against OpenAPI schemas, and include load tests in CI to catch performance regressions early.

Disclaimer

This article is for educational purposes only. It provides technical and operational guidance for building APIs with FastAPI and does not constitute professional or financial advice.

Research

Practical API Testing: Strategies, Tools, and Best Practices

Token Metrics Team
5
MIN

APIs are the connective tissue of modern software. Testing them thoroughly prevents regressions, ensures predictable behavior, and protects downstream systems. This guide breaks API testing into practical steps, frameworks, and tool recommendations so engineers can build resilient interfaces and integrate them into automated delivery pipelines.

What is API testing?

API testing verifies that application programming interfaces behave according to specification: returning correct data, enforcing authentication and authorization, handling errors, and performing within expected limits. Unlike UI testing, API tests focus on business logic, data contracts, and integration between systems rather than presentation. Well-designed API tests are fast, deterministic, and suitable for automation, enabling rapid feedback in development workflows.

Types of API tests

  • Unit/Component tests: Validate single functions or routes in isolation, often by mocking external dependencies to exercise specific logic.
  • Integration tests: Exercise interactions between services, databases, and third-party APIs to verify end-to-end flows and data consistency.
  • Contract tests: Assert that a provider and consumer agree on request/response shapes and semantics, reducing breaking changes in distributed systems.
  • Performance tests: Measure latency, throughput, and resource usage under expected and peak loads to find bottlenecks.
  • Security tests: Check authentication, authorization, input validation, and common vulnerabilities (for example injection, broken access control, or insufficient rate limiting).
  • End-to-end API tests: Chain multiple API calls to validate workflows that represent real user scenarios across systems.

Designing an API testing strategy

Effective strategies balance scope, speed, and confidence. A common model is the testing pyramid: many fast unit tests, a moderate number of integration and contract tests, and fewer end-to-end or performance tests. Core elements of a robust strategy include:

  • Define clear acceptance criteria: Use API specifications (OpenAPI/Swagger) to derive expected responses, status codes, and error formats so tests reflect agreed behavior.
  • Prioritize test cases: Focus on critical endpoints, authentication flows, data integrity, and boundary conditions that pose the greatest risk.
  • Use contract testing: Make provider/consumer compatibility explicit with frameworks that can generate or verify contracts automatically.
  • Maintain test data: Seed environments with deterministic datasets, use fixtures and factories, and isolate test suites from production data.
  • Measure coverage pragmatically: Track which endpoints and input spaces are exercised, but avoid chasing 100% coverage if it creates brittle tests.

Tools, automation, and CI/CD

Tooling choices depend on protocols (REST, GraphQL, gRPC) and language ecosystems. Common tools and patterns include:

  • Postman & Newman: Rapid exploratory testing, collection sharing, and collection-based automation suited to cross-team collaboration.
  • REST-assured / Supertest / pytest + requests: Language-native libraries for integration and unit testing in JVM, Node.js, and Python ecosystems.
  • Contract testing tools: Pact, Schemathesis, or other consumer-driven contract frameworks to prevent breaking changes in services.
  • Load and performance: JMeter, k6, Gatling for simulating traffic and measuring resource limits and latency under stress.
  • Security scanners: OWASP ZAP or dedicated fuzzers for input validation, authentication, and common attack surfaces.

Automation should be baked into CI/CD pipelines: run unit and contract tests on pull requests, integration tests on feature branches or merged branches, and schedule performance/security suites on staging environments. Observability during test runs—collecting metrics, logs, and traces—helps diagnose flakiness and resource contention faster.

AI-driven analysis can accelerate test coverage and anomaly detection by suggesting high-value test cases and highlighting unusual response patterns. For teams that integrate external data feeds into their systems, services that expose robust, real-time APIs and analytics can be incorporated into test scenarios to validate third-party integrations under realistic conditions. For example, Token Metrics offers datasets and signals that can be used to simulate realistic inputs or verify integrations with external data providers.

Build Smarter Crypto Apps & AI Agents with Token Metrics

Token Metrics provides real-time prices, trading signals, and on-chain insights all from one powerful API. Grab a Free API Key

What is the difference between unit and integration API tests?

Unit tests isolate individual functions or routes using mocks and focus on internal logic. Integration tests exercise multiple components together (for example service + database) to validate interaction, data flow, and external dependencies.

How often should I run performance tests?

Run lightweight load tests during releases and schedule comprehensive performance runs on staging before major releases or after architecture changes. Frequency depends on traffic patterns and how often critical paths change.

Can AI help with API testing?

AI can suggest test inputs, prioritize test cases by risk, detect anomalies in responses, and assist with test maintenance through pattern recognition. Treat AI as a productivity augmenter that surfaces hypotheses requiring engineering validation.

What is contract testing and why use it?

Contract testing ensures providers and consumers agree on the API contract (schemas, status codes, semantics). It reduces integration regressions by failing early when expectations diverge, enabling safer deployments in distributed systems.

What are best practices for test data management?

Use deterministic fixtures, isolate test databases, anonymize production data when necessary, seed environments consistently, and prefer schema or contract assertions to validate payload correctness rather than brittle value expectations.

How do I handle flaky API tests?

Investigate root causes such as timing, external dependencies, or resource contention. Reduce flakiness by mocking unstable third parties, improving environment stability, adding idempotent retries where appropriate, and capturing diagnostic traces during failures.

Disclaimer

This article is educational and technical in nature and does not constitute investment, legal, or regulatory advice. Evaluate tools and data sources independently and test in controlled environments before production use.

Choose from Platinum, Gold, and Silver packages
Reach with 25–30% open rates and 0.5–1% CTR
Craft your own custom ad—from banners to tailored copy
Perfect for Crypto Exchanges, SaaS Tools, DeFi, and AI Products