Re-scan local Claude Code and Codex JSONL logs to capture new activity and ensure token counts are current before using other tools.
MIT
209,547 tools. Last updated 2026-06-18 14:44
"Meteor" matching MCP tools:
- Check the current status of the Eco via Sirens game server to view online players, meteor countdown, world statistics, economy data, and version information.MIT
- Convert place names or postal codes into geographic coordinates (latitude/longitude) for use with weather data tools. Search locations worldwide to obtain precise location information required by meteorological APIs.MIT
- Break down per-session MCP tool usage: call counts, response sizes, and average latency. Identify and debug slow or expensive sessions.MIT
- Summarizes token usage and costs from Claude Code and Codex sessions, showing spending by model and day with advisory narrative and optional insights for optimization.MIT
- Retrieve recently-active Claude Code/Codex sessions with resume commands for quick continuation.MIT
Matching MCP Servers
- Flicense-qualityDmaintenanceProvides complete Meteor.js v3.4.0 API documentation, code examples, and architectural guides to AI coding assistants.Last updated7
- Alicense-qualityCmaintenanceProvides NASA fireball, near-Earth asteroid, and close approach data via MCP, enabling users to query space object information using natural language.Last updated8MIT
Matching MCP Connectors
Meteors MCP — NASA fireball, near-Earth asteroid, and close approach data
Global weather via Open-Meteo: forecast, ERA5 archive, marine, air quality, geocoding, elevation.
- Get marine weather forecasts including wave height, wave period, wave direction, and sea surface temperature for specific coordinates to plan maritime activities.MIT
- Retrieve air quality forecasts for specific locations, including pollutants like PM2.5, ozone, and nitrogen dioxide, to monitor environmental conditions.MIT
- Retrieve high-resolution weather forecasts for Canada and North America using the GEM model from the Canadian weather service.MIT
- Retrieve weather forecasts using the NOAA GFS model with global coverage and high-resolution North American data. Specify location coordinates to access hourly and daily weather variables for planning and analysis.MIT
- Retrieve elevation data for specific coordinates using digital elevation models to support terrain analysis and location-based applications.MIT
- Retrieve climate change projections from CMIP6 models for specific locations and timeframes to analyze future temperature, precipitation, and other meteorological variables under different warming scenarios.MIT
- Access ensemble weather forecasts to analyze forecast uncertainty using multiple model runs for specific locations and variables.MIT
- Retrieve weather forecasts for France and Europe using Météo-France's high-resolution AROME and ARPEGE models. Specify location coordinates to get hourly or daily data including temperature, precipitation, wind, and more.MIT
- Retrieve high-resolution weather forecasts for Europe and global locations using the German DWD ICON model. Specify coordinates to get hourly and daily variables like temperature, precipitation, wind, and visibility.MIT
- Retrieve weather forecasts for Japan and Asia using Japan Meteorological Agency data. Specify location coordinates to get hourly and daily predictions including temperature, precipitation, wind, and other meteorological variables.MIT
- Predict river discharge and flood risks using GloFAS data to monitor water levels and prepare for potential flooding events.MIT
- Retrieve high-quality global weather forecasts from the European Centre for Medium-Range Weather Forecasts (ECMWF) for specific locations, including hourly and daily variables like temperature, precipitation, and wind conditions.MIT
- Retrieve weather forecasts for Nordic countries using high-resolution data from the Norwegian weather service. Specify location coordinates to get hourly and daily weather variables for planning and analysis.MIT
- Get long-range seasonal forecasts for temperature and precipitation up to 9 months ahead to plan agricultural activities, energy usage, or outdoor events.MIT