Discover Awesome MCP Servers

MCP Aggregator Server

Provides a unified MCP interface that proxies requests to multiple backend servers including memory/knowledge graph and vector database services. Enables seamless access to distributed MCP tools through a single endpoint with automatic routing, health monitoring, and retry logic.

Elasticsearch/OpenSearch MCP Server

An MCP server that enables interaction with Elasticsearch and OpenSearch clusters for searching documents and managing indices. It provides tools for cluster health monitoring, index configuration, and general API requests.

AWS AgentCore MCP Server

Provides comprehensive documentation about AWS AgentCore framework to GenAI tools, enabling users to build production-ready AI agents with enterprise-grade security, observability, and scalability. Offers guidance on identity management, API integration, monitoring, code execution, memory storage, and tool integration for AI agents.

Weaviate MCP Server

O Servidor MCP para Weaviate facilita a integração com o Weaviate usando um servidor personalizável baseado em Python, permitindo a interação com bancos de dados Weaviate e APIs OpenAI por meio de URL e chaves de API configuráveis.

CISA M365

Este servidor MCP implementa várias políticas de acordo com os requisitos CSA BOD 25-01 para serviços de nuvem Microsoft 365.

mcp-prompts-rs

Servidor baseado em Rust para gerenciar prompts de IA usando o Protocolo de Contexto de Modelo (MCP).

MCP Java Testing Agent

Automates Java/Maven test generation, JaCoCo coverage analysis, and Checkstyle checking through MCP tools. Enables iterative improvement of test coverage and code style until quality goals are met.

You Need A Budget (YNAB) MCP

An MCP to give AI agents extensive knowledge of your personal finances and control of your budgeting.

Giphy MCP Server

An MCP (Multi-Agent Conversation Protocol) Server that enables interaction with the Giphy API, allowing agents to search, retrieve, and manage GIF animations through natural language commands.

Intervals.icu MCP Server

Conecta o Claude com a API do Intervals.icu para recuperar dados de fitness, incluindo atividades, treinos, métricas de bem-estar e eventos de treinamento.

MCP Server Demo

A monorepo containing three Model Context Protocol (MCP) servers that enable natural language interaction with databases, GitHub repositories, and time/timezone services.

Semantic Cache MCP

Reduces token consumption by over 80% through intelligent file caching, returning only diffs for modified files and suppressing unchanged content. It features a suite of 12 tools for semantic search, batch reading, and efficient file editing to optimize LLM interactions with large codebases.

Senior Developer Job Description MCP Server

Provides hiring guides and discovery checklists to help users craft compelling job descriptions for senior developer roles. It includes tools to analyze existing descriptions against best practices and generate clarifying questions to fill information gaps.

Lucide Icons MCP

lucide-icons-mcp

MCP Veo 3 Video Generation Server

Enables video generation from text prompts or images using Google's Veo 3 API. Supports multiple models, audio generation, and various aspect ratios for creating high-quality videos.

Supavec MCP Server

Permite buscar conteúdo relevante e embeddings do Supavec através do Protocolo de Contexto do Modelo, permitindo que assistentes de IA como o Claude acessem recursos de busca vetorial.

mcp-stargazing

Calculating the altitude, rise, and set times of celestial objects is a complex task that requires astronomical calculations and knowledge of the observer's location and time. I can't perform these calculations directly within this text-based interface. However, I can guide you on how to do it using available tools and resources: **1. Online Calculators and Websites:** * **Time and Date AS:** This is a very popular and reliable website. You can enter your location and the object you're interested in, and it will provide rise, set, transit, and altitude information. (timeanddate.com) * **US Naval Observatory (USNO):** The USNO provides accurate astronomical data. They have online tools for calculating rise/set times. (aa.usno.navy.mil) * **In-The-Sky.org:** This website offers a customizable sky chart and rise/set information for various celestial objects. (in-the-sky.org) * **Stellarium Web:** A web-based planetarium that shows the sky at any time and location. It can display rise/set times and altitudes. (stellarium-web.org) **2. Astronomy Software (Planetarium Software):** * **Stellarium (Desktop):** A free, open-source planetarium software for Windows, macOS, and Linux. It's highly accurate and customizable. You can set your location, time, and date, and it will show you the sky, including rise/set times and altitudes. * **Cartes du Ciel (Sky Charts):** Another free planetarium software with advanced features. * **Celestia:** A 3D space simulator that allows you to explore the solar system and beyond. **3. Mobile Apps:** * **SkyView Lite (Free):** A simple augmented reality app that identifies stars, planets, and constellations. * **Star Walk 2:** A popular stargazing app with detailed information about celestial objects. * **Stellarium Mobile:** The mobile version of the popular desktop software. * **SkySafari:** A powerful astronomy app with advanced features. **How to Use These Tools:** 1. **Choose a Tool:** Select an online calculator, software, or app from the list above. 2. **Set Your Location:** Enter your latitude and longitude. You can find these using Google Maps or a similar service. Many tools allow you to search for your city or town. 3. **Set the Date and Time:** Specify the date and time for which you want to calculate the rise/set times. 4. **Select the Celestial Object:** Choose the Sun, Moon, a specific planet, star, or deep-sky object. You may need to know the object's name or catalog number (e.g., M42 for the Orion Nebula). 5. **View the Results:** The tool will display the rise time, set time, transit time (when the object is at its highest altitude), and altitude information. **Understanding the Calculations (Simplified Explanation):** The calculations involve several factors: * **Earth's Rotation:** The primary reason celestial objects appear to rise and set is the Earth's rotation on its axis. * **Earth's Orbit:** The Earth's orbit around the Sun causes the Sun's apparent position to change throughout the year, affecting sunrise and sunset times. * **Object's Right Ascension and Declination:** These are celestial coordinates (similar to longitude and latitude on Earth) that define the object's position in the sky. * **Observer's Latitude and Longitude:** Your location on Earth determines which part of the sky you can see and at what angle. * **Time Zone and Daylight Saving Time:** These adjustments are necessary to convert from Universal Time (UT) to your local time. * **Atmospheric Refraction:** The Earth's atmosphere bends light, causing objects to appear slightly higher in the sky than they actually are. This effect is more pronounced near the horizon. * **Parallax:** For nearby objects like the Moon, the observer's position on Earth relative to the Earth's center can affect the apparent position of the object. **Example using Time and Date AS:** 1. Go to timeanddate.com. 2. Enter your city in the "Location" field. 3. Select "Sun" or "Moon" or "Planets" from the menu. 4. The website will display the rise, set, and transit times for the selected object on the current date. You can change the date to see future or past events. **Important Considerations:** * **Accuracy:** The accuracy of the calculations depends on the tool used and the precision of the input data (location, time). * **Horizon Obstructions:** The calculated rise and set times assume a clear horizon. Buildings, trees, or mountains can block your view and cause the actual rise/set to occur later/earlier. * **Twilight:** Even after sunset, there is still some light in the sky (twilight). The duration of twilight depends on your latitude and the time of year. By using the tools and resources mentioned above, you can easily calculate the altitude, rise, and set times of celestial objects for any location on Earth. Remember to consider the limitations and factors that can affect the accuracy of the results.

MCP Todo Server

A distributed task management server that provides todo list operations with AI-powered task prioritization using OpenAI, built on Redis for shared state across multiple nodes.

Secure MCP Server

Provides an enterprise-grade Model Context Protocol implementation with advanced security features including multi-factor authentication, encryption, and RBAC. Enables secure tool management and context handling for production deployments with comprehensive monitoring and high availability.

Memory MCP

A Rust-based MCP server that provides long-term memory capabilities for AI agents using keyword-based storage and retrieval. It supports isolated namespaces for different users or projects, allowing LLMs to remember and recall information across sessions.

Primp MCP Server

An MCP server that provides HTTP client capabilities with browser impersonation for Chrome, Firefox, Safari, and Edge across multiple operating systems. It enables tools for making authenticated web requests, handling multipart file uploads, and retrieving responses in various formats.

GitHub Code Review Assistant

Enables AI assistants to perform comprehensive GitHub pull request code reviews, including analysis of code patterns, complexity, and security issues, while managing review comments and ensuring compliance with team coding standards.

BlenderMCP

An MCP server that enables AI models to directly control Blender for 3D modeling, scene manipulation, and material management through natural language. It supports advanced workflows including Python code execution, viewport visualization, and integration with external asset libraries like Poly Haven and Hyper3D.

Arduino MCP Server

Enables AI assistants like Claude to control Arduino boards in real-time, allowing users to turn LEDs on and off through natural language commands using the Model Context Protocol and Firmata.

SiYuan Note MCP Server

Enables AI assistants to interact with SiYuan Note for comprehensive notebook management, document editing, and block-level content operations. It supports advanced features like full-text search and SQL queries via secure API integration.

GeoIP MCP Server

An MCP server that provides IP geolocation services using MaxMind's GeoIP2 databases, allowing users to retrieve geographical information for single or multiple IP addresses including country, city, coordinates, and ASN details.

LinkedIn MCP Server

Permite postar texto e conteúdo de mídia diretamente no LinkedIn a partir do Claude Desktop, com suporte para autenticação e controles de visibilidade.

Traffic Director MCP Server

An MCP server that enables interaction with Google's Traffic Director API, allowing users to manage global load balancing services through natural language.

Google OAuth2 API Server

An MCP server that enables authentication and authorization with Google's OAuth2 API, allowing users to securely authenticate and access Google services through natural language interactions.