mcp-internet-speed-test MCP Server

MCP Internet Speed Test

An implementation of a Model Context Protocol (MCP) for internet speed testing. It allows AI models and agents to measure, analyze, and report network performance metrics through a standardized interface.

📦 Available on PyPI: https://pypi.org/project/mcp-internet-speed-test/

🚀 Quick Start:

pip install mcp-internet-speed-test
mcp-internet-speed-test

What is MCP?

The Model Context Protocol (MCP) provides a standardized way for Large Language Models (LLMs) to interact with external tools and data sources. Think of it as the "USB-C for AI applications" - a common interface that allows AI systems to access real-world capabilities and information.

Features

Smart Incremental Testing: Uses SpeedOf.Me methodology with 8-second threshold for optimal accuracy
Download Speed Testing: Measures bandwidth using files from 128KB to 128MB from GitHub repository (Git LFS)
Upload Speed Testing: Tests upload bandwidth using streaming data from 128KB to 128MB
Latency Testing: Measures network latency using multiple samples, reports minimum value
Jitter Analysis: Calculates network stability using multiple latency samples (default: 5)
Multi-CDN Support: Detects and provides info for Fastly, Cloudflare, and AWS CloudFront
Geographic Location: Maps POP codes to physical locations (50+ locations worldwide)
Cache Analysis: Detects HIT/MISS status and cache headers
Server Metadata: Extracts detailed CDN headers including x-served-by, via, x-cache
Comprehensive Testing: Single function to run all tests with complete metrics

Installation

Prerequisites

Python 3.12 or higher (required for async support)
pip or uv package manager

Option 1: Install from PyPI with pip (Recommended)

# Install the package globally
pip install mcp-internet-speed-test

# Run the MCP server
mcp-internet-speed-test

Option 2: Install from PyPI with uv

# Install the package globally
uv add mcp-internet-speed-test

# Or run directly without installing
uvx mcp-internet-speed-test

Option 3: Using docker

# Build the Docker image
docker build -t mcp-internet-speed-test .

# Run the MCP server in a Docker container
docker run -it --rm -v $(pwd):/app -w /app mcp-internet-speed-test

Option 4: Development/Local Installation

If you want to contribute or modify the code:

# Clone the repository
git clone https://github.com/inventer-dev/mcp-internet-speed-test.git
cd mcp-internet-speed-test

# Install in development mode
pip install -e .

# Or using uv
uv sync
uv run python -m mcp_internet_speed_test.main

Dependencies

The package automatically installs these dependencies:

mcp[cli]>=1.25.0: MCP server framework with CLI integration
httpx>=0.27.0: Async HTTP client for speed tests

Configuration

To use this MCP server with Claude Desktop or other MCP clients, add it to your MCP configuration file.

Claude Desktop Configuration

Edit your Claude Desktop MCP configuration file:

Option 1: Using pip installed package (Recommended)

{
    "mcpServers": {
        "mcp-internet-speed-test": {
            "command": "mcp-internet-speed-test"
        }
    }
}

Option 2: Using uvx

{
    "mcpServers": {
        "mcp-internet-speed-test": {
            "command": "uvx",
            "args": ["mcp-internet-speed-test"]
        }
    }
}

API Tools

The MCP Internet Speed Test provides the following tools:

Testing Functions

measure_download_speed: Measures download bandwidth (in Mbps) with server location info
measure_upload_speed: Measures upload bandwidth (in Mbps) with server location info
measure_latency: Measures network latency (in ms) using samples, reports minimum value
measure_jitter: Measures network jitter by analyzing latency variations with server info
get_server_info: Get detailed CDN server information for any URL without running speed tests
run_complete_test: Comprehensive test with all metrics and server metadata

CDN Server Detection

This speed test now provides detailed information about the CDN servers serving your tests:

What You Get

CDN Provider: Identifies if you're connecting to Fastly, Cloudflare, or Amazon CloudFront
Geographic Location: Shows the physical location of the server (e.g., "Mexico City, Mexico")
POP Code: Three-letter code identifying the Point of Presence (e.g., "MEX", "QRO", "DFW")
Cache Status: Whether content is served from cache (HIT) or fetched from origin (MISS)
Server Headers: Full HTTP headers including x-served-by, via, and x-cache

Technical Implementation

Smart Testing Methodology

Incremental Approach: Starts with small files (128KB) and progressively increases (powers of 2)
Time-Based Threshold: Uses configurable sustain_time (1-8 seconds, default: 8). Stops when a sample exceeds the threshold
Accuracy Focus: The speed from the last sample that took ≥ 8 seconds is used as the final measurement
Multi-Provider Support: Tests against geographically distributed endpoints
Full methodology: See SpeedOf.Me Testing Methodology

CDN Detection Capabilities

Fastly: Detects POP codes and maps to 50+ global locations
Cloudflare: Identifies data centers and geographic regions
AWS CloudFront: Recognizes edge locations across continents
Header Analysis: Parses x-served-by, via, x-cache, and custom CDN headers

Why This Matters

Network Diagnostics: Understand which server is actually serving your tests
Performance Analysis: Correlate speed results with server proximity
CDN Optimization: Identify if your ISP's routing is optimal
Geographic Awareness: Know if tests are running from your expected region
Troubleshooting: Identify routing issues and CDN misconfigurations

Example Server Info Output

{
  "cdn_provider": "Fastly",
  "pop_code": "MEX",
  "pop_location": "Mexico City, Mexico",
  "served_by": "cache-mex4329-MEX",
  "cache_status": "HIT",
  "x_cache": "HIT, HIT"
}

Technical Configuration

Default Test Files Repository

GitHub Repository: inventer-dev/speed-test-files
Branch: main
URL: https://media.githubusercontent.com/media/inventer-dev/speed-test-files/main/
File Sizes: 128KB, 256KB, 512KB, 1MB, 2MB, 4MB, 8MB, 16MB, 32MB, 64MB, 128MB
Storage: Git LFS

Upload Endpoints Priority

Cloudflare Workers (httpi.dev) - Global distribution, highest priority
HTTPBin (httpbin.org) - AWS-based, secondary endpoint

Supported CDN Locations (150+ POPs)

Fastly POPs: MEX, QRO, DFW, LAX, NYC, MIA, LHR, FRA, AMS, CDG, NRT, SIN, SYD, GRU, SCL, BOG, MAD, MIL...

Cloudflare Centers: DFW, LAX, SJC, SEA, ORD, MCI, IAD, ATL, MIA, YYZ, LHR, FRA, AMS, CDG, ARN, STO...

AWS CloudFront: ATL, BOS, ORD, CMH, DFW, DEN, IAD, LAX, MIA, MSP, JFK, SEA, SJC, AMS, ATH, TXL...

Performance Thresholds

Test Duration Threshold: 8.0 seconds (stops when a sample exceeds this)
Maximum File Size: Configurable (default: 128MB)
Latency Samples: 10 measurements, reports minimum (configurable)
Jitter Samples: 5 measurements (configurable)
Sustain Time: 1-8 seconds (configurable, default: 8)

Troubleshooting

Common Issues

MCP Server Connection

Path Configuration: Ensure absolute path is used in MCP configuration
Directory Permissions: Verify read/execute permissions for the project directory
Python Version: Requires Python 3.12+ with async support
Dependencies: Install mcp[cli] and httpx packages

Speed Test Issues

GitHub Repository Access: Ensure inventer-dev/speed-test-files is accessible
Firewall/Proxy: Check if corporate firewalls block test endpoints
CDN Routing: Some ISPs may route differently to CDNs
Network Stability: Jitter tests require stable connections

Performance Considerations

File Size Limits: Large files (>50MB) may timeout on slow connections
Upload Endpoints: If primary endpoint fails, fallback is automatic
Geographic Accuracy: POP detection depends on CDN header consistency

Development

Project Structure

mcp-internet-speed-test/
├── mcp_internet_speed_test/  # Main package directory
│   ├── __init__.py      # Package initialization
│   └── main.py          # MCP server implementation
├── README.md           # This documentation (includes methodology reference)
├── Dockerfile          # Container configuration
└── pyproject.toml      # Python project configuration

Key Components

Configuration Constants

GITHUB_MEDIA_URL: Base URL for test files repository (Git LFS media endpoint)
UPLOAD_ENDPOINTS: Prioritized list of upload test endpoints
SIZE_PROGRESSION: Ordered list of file sizes for incremental testing (powers of 2)
*_POP_LOCATIONS: Mappings of CDN codes to geographic locations

Core Functions

extract_server_info(): Parses HTTP headers to identify CDN providers
measure_*(): Individual test functions for different metrics
run_complete_test(): Orchestrates comprehensive testing suite

Configuration Customization

You can customize the following in mcp_internet_speed_test/main.py if you clone the repository:

# GitHub repository settings
GITHUB_USERNAME = "your-username"
GITHUB_REPO = "your-speed-test-files"
GITHUB_BRANCH = "main"

# Test duration threshold
DEFAULT_TEST_DURATION = 8.0  # seconds

# Default endpoints
DEFAULT_UPLOAD_URL = "your-upload-endpoint"
DEFAULT_LATENCY_URL = "your-latency-endpoint"

Contributing

This is an experimental project and contributions are welcome:

Issues: Report bugs or request features
Pull Requests: Submit code improvements
Documentation: Help improve this README
Testing: Test with different network conditions and CDNs

License

This project is licensed under the MIT License - see the LICENSE file for details.

Acknowledgments

MCP Framework maintainers for standardizing AI tool interactions
The Model Context Protocol community for documentation and examples
SpeedOf.Me team for their incremental testing methodology (How It Works). See methodology reference below
For the official SpeedOf.Me MCP server, see @speedofme/mcp

SpeedOf.Me Testing Methodology

Source: SpeedOf.Me — How It Works

This section preserves the SpeedOf.Me testing methodology as referenced by this project. Retrieved on March 8, 2026.

Click to expand full methodology

Overview

SpeedOf.Me tests an internet connection by downloading and uploading sample files. It reflects actual browsing and download performance by using a single HTTP connection and large continuous files — the same way real web content is delivered.

Download Test

Begin by downloading the smallest sample size (128 KB).
Measure the download duration in real time.
If the download takes less than 8 seconds, move to the next larger sample size.
If the download takes 8 seconds or more, stop the progression.
The final speed measurement is based on that last sample — the one that took 8 seconds or more.

Upload Test

When the download test is complete, a similar incremental process is used to send data back to the test server:

Start with a small sample and gradually increase in size.
Continue until uploading a sample takes more than 8 seconds.
The upload speed is based on that final sample.

Latency & Jitter

Latency (ping): The time it takes for data to travel to the server and back. Measured over 10 samples with the lowest value reported.
Jitter: The variation between latency samples. Lower jitter means a more stable connection, which is important for video calls and gaming.

Adaptive Testing Method

To ensure the internet connection is thoroughly tested, bandwidth is measured in several passes. Sample file sizes gradually increase until one takes longer than 8 seconds to download.

This approach automatically measures connection speeds ranging from very slow mobile networks (10 Kbps GPRS / 2G) to gigabit fiber connections (1 Gbps or more).

Sample File Sizes

#	Size
1	128 KB
2	256 KB
3	512 KB
4	1 MB
5	2 MB
6	4 MB
7	8 MB
8	16 MB
9	32 MB
10	64 MB
11	128 MB

Test Servers

SpeedOf.Me hosts its sample files on a CDN. It uses servers called PoPs (Points of Presence) in 106+ cities. Each PoP may consist of multiple servers and is located in key regions around the world, near major internet exchange points.

When the test begins, SpeedOf.Me automatically selects the most reliable and responsive server. This may not be the closest one — several factors are taken into account to determine the best option. CDN technology handles this process to provide the most accurate and consistent test results.

Accuracy

Key differences that make this methodology accurate:

Single continuous download — Downloads large, continuous sample files, similar to how web pages or media files are typically delivered. Other speed tests use small chunks transferred in parallel and apply adjustments to estimate speed.
Multiple global servers — Uses PoPs in different regions, producing more realistic results. Other services often choose the nearest physical server (sometimes inside the ISP network), which can give inflated results.
No plugins required — Tests run directly from the client with no extra software.

How This Project Implements the Methodology

SpeedOf.Me Concept	Implementation in this project
Incremental download	`measure_download_speed()` iterates `SIZE_PROGRESSION`, breaks when elapsed ≥ `sustain_time` (default 8 s)
Incremental upload	`measure_upload_speed()` streams chunks and breaks when elapsed ≥ `sustain_time`
8-second threshold	Configurable via `sustain_time` parameter (1–8 s, default 8)
Latency — 10 samples, min	`measure_latency(samples=10)` reports `min_latency`
Jitter — variation	`measure_jitter(samples=5)` reports average deviation from mean
CDN with PoPs	Download files served from GitHub via Fastly CDN; upload via Cloudflare Workers
Sample file sizes (powers of 2)	128 KB → 128 MB stored in `inventer-dev/speed-test-files` (Git LFS)
Automatic server selection	CDN handles geographic routing; PoP detected from response headers

MCP Internet Speed Test

📦 Available on PyPI: https://pypi.org/project/mcp-internet-speed-test/

🚀 Quick Start:

pip install mcp-internet-speed-test
mcp-internet-speed-test

What is MCP?

Features

Smart Incremental Testing: Uses SpeedOf.Me methodology with 8-second threshold for optimal accuracy
Download Speed Testing: Measures bandwidth using files from 128KB to 128MB from GitHub repository (Git LFS)
Upload Speed Testing: Tests upload bandwidth using streaming data from 128KB to 128MB
Latency Testing: Measures network latency using multiple samples, reports minimum value
Jitter Analysis: Calculates network stability using multiple latency samples (default: 5)
Multi-CDN Support: Detects and provides info for Fastly, Cloudflare, and AWS CloudFront
Geographic Location: Maps POP codes to physical locations (50+ locations worldwide)
Cache Analysis: Detects HIT/MISS status and cache headers
Server Metadata: Extracts detailed CDN headers including x-served-by, via, x-cache
Comprehensive Testing: Single function to run all tests with complete metrics

Installation

Prerequisites

Python 3.12 or higher (required for async support)
pip or uv package manager

Option 1: Install from PyPI with pip (Recommended)

# Install the package globally
pip install mcp-internet-speed-test

# Run the MCP server
mcp-internet-speed-test

Option 2: Install from PyPI with uv

# Install the package globally
uv add mcp-internet-speed-test

# Or run directly without installing
uvx mcp-internet-speed-test

Option 3: Using docker

# Build the Docker image
docker build -t mcp-internet-speed-test .

# Run the MCP server in a Docker container
docker run -it --rm -v $(pwd):/app -w /app mcp-internet-speed-test

Option 4: Development/Local Installation

If you want to contribute or modify the code:

# Clone the repository
git clone https://github.com/inventer-dev/mcp-internet-speed-test.git
cd mcp-internet-speed-test

# Install in development mode
pip install -e .

# Or using uv
uv sync
uv run python -m mcp_internet_speed_test.main

Dependencies

The package automatically installs these dependencies:

mcp[cli]>=1.25.0: MCP server framework with CLI integration
httpx>=0.27.0: Async HTTP client for speed tests

Configuration

To use this MCP server with Claude Desktop or other MCP clients, add it to your MCP configuration file.

Claude Desktop Configuration

Edit your Claude Desktop MCP configuration file:

Option 1: Using pip installed package (Recommended)

{
    "mcpServers": {
        "mcp-internet-speed-test": {
            "command": "mcp-internet-speed-test"
        }
    }
}

Option 2: Using uvx

{
    "mcpServers": {
        "mcp-internet-speed-test": {
            "command": "uvx",
            "args": ["mcp-internet-speed-test"]
        }
    }
}

API Tools

The MCP Internet Speed Test provides the following tools:

Testing Functions

measure_download_speed: Measures download bandwidth (in Mbps) with server location info
measure_upload_speed: Measures upload bandwidth (in Mbps) with server location info
measure_latency: Measures network latency (in ms) using samples, reports minimum value
measure_jitter: Measures network jitter by analyzing latency variations with server info
get_server_info: Get detailed CDN server information for any URL without running speed tests
run_complete_test: Comprehensive test with all metrics and server metadata

CDN Server Detection

This speed test now provides detailed information about the CDN servers serving your tests:

What You Get

CDN Provider: Identifies if you're connecting to Fastly, Cloudflare, or Amazon CloudFront
Geographic Location: Shows the physical location of the server (e.g., "Mexico City, Mexico")
POP Code: Three-letter code identifying the Point of Presence (e.g., "MEX", "QRO", "DFW")
Cache Status: Whether content is served from cache (HIT) or fetched from origin (MISS)
Server Headers: Full HTTP headers including x-served-by, via, and x-cache

Technical Implementation

Smart Testing Methodology

Incremental Approach: Starts with small files (128KB) and progressively increases (powers of 2)
Time-Based Threshold: Uses configurable sustain_time (1-8 seconds, default: 8). Stops when a sample exceeds the threshold
Accuracy Focus: The speed from the last sample that took ≥ 8 seconds is used as the final measurement
Multi-Provider Support: Tests against geographically distributed endpoints
Full methodology: See SpeedOf.Me Testing Methodology

CDN Detection Capabilities

Fastly: Detects POP codes and maps to 50+ global locations
Cloudflare: Identifies data centers and geographic regions
AWS CloudFront: Recognizes edge locations across continents
Header Analysis: Parses x-served-by, via, x-cache, and custom CDN headers

Why This Matters

Network Diagnostics: Understand which server is actually serving your tests
Performance Analysis: Correlate speed results with server proximity
CDN Optimization: Identify if your ISP's routing is optimal
Geographic Awareness: Know if tests are running from your expected region
Troubleshooting: Identify routing issues and CDN misconfigurations

Example Server Info Output

{
  "cdn_provider": "Fastly",
  "pop_code": "MEX",
  "pop_location": "Mexico City, Mexico",
  "served_by": "cache-mex4329-MEX",
  "cache_status": "HIT",
  "x_cache": "HIT, HIT"
}

Technical Configuration

Default Test Files Repository

GitHub Repository: inventer-dev/speed-test-files
Branch: main
URL: https://media.githubusercontent.com/media/inventer-dev/speed-test-files/main/
File Sizes: 128KB, 256KB, 512KB, 1MB, 2MB, 4MB, 8MB, 16MB, 32MB, 64MB, 128MB
Storage: Git LFS

Upload Endpoints Priority

Cloudflare Workers (httpi.dev) - Global distribution, highest priority
HTTPBin (httpbin.org) - AWS-based, secondary endpoint

Supported CDN Locations (150+ POPs)

Fastly POPs: MEX, QRO, DFW, LAX, NYC, MIA, LHR, FRA, AMS, CDG, NRT, SIN, SYD, GRU, SCL, BOG, MAD, MIL...

Cloudflare Centers: DFW, LAX, SJC, SEA, ORD, MCI, IAD, ATL, MIA, YYZ, LHR, FRA, AMS, CDG, ARN, STO...

AWS CloudFront: ATL, BOS, ORD, CMH, DFW, DEN, IAD, LAX, MIA, MSP, JFK, SEA, SJC, AMS, ATH, TXL...

Performance Thresholds

Test Duration Threshold: 8.0 seconds (stops when a sample exceeds this)
Maximum File Size: Configurable (default: 128MB)
Latency Samples: 10 measurements, reports minimum (configurable)
Jitter Samples: 5 measurements (configurable)
Sustain Time: 1-8 seconds (configurable, default: 8)

Troubleshooting

Common Issues

MCP Server Connection

Path Configuration: Ensure absolute path is used in MCP configuration
Directory Permissions: Verify read/execute permissions for the project directory
Python Version: Requires Python 3.12+ with async support
Dependencies: Install mcp[cli] and httpx packages

Speed Test Issues

GitHub Repository Access: Ensure inventer-dev/speed-test-files is accessible
Firewall/Proxy: Check if corporate firewalls block test endpoints
CDN Routing: Some ISPs may route differently to CDNs
Network Stability: Jitter tests require stable connections

Performance Considerations

File Size Limits: Large files (>50MB) may timeout on slow connections
Upload Endpoints: If primary endpoint fails, fallback is automatic
Geographic Accuracy: POP detection depends on CDN header consistency

Development

Project Structure

mcp-internet-speed-test/
├── mcp_internet_speed_test/  # Main package directory
│   ├── __init__.py      # Package initialization
│   └── main.py          # MCP server implementation
├── README.md           # This documentation (includes methodology reference)
├── Dockerfile          # Container configuration
└── pyproject.toml      # Python project configuration

Key Components

Configuration Constants

GITHUB_MEDIA_URL: Base URL for test files repository (Git LFS media endpoint)
UPLOAD_ENDPOINTS: Prioritized list of upload test endpoints
SIZE_PROGRESSION: Ordered list of file sizes for incremental testing (powers of 2)
*_POP_LOCATIONS: Mappings of CDN codes to geographic locations

Core Functions

extract_server_info(): Parses HTTP headers to identify CDN providers
measure_*(): Individual test functions for different metrics
run_complete_test(): Orchestrates comprehensive testing suite

Configuration Customization

You can customize the following in mcp_internet_speed_test/main.py if you clone the repository:

# GitHub repository settings
GITHUB_USERNAME = "your-username"
GITHUB_REPO = "your-speed-test-files"
GITHUB_BRANCH = "main"

# Test duration threshold
DEFAULT_TEST_DURATION = 8.0  # seconds

# Default endpoints
DEFAULT_UPLOAD_URL = "your-upload-endpoint"
DEFAULT_LATENCY_URL = "your-latency-endpoint"

Contributing

This is an experimental project and contributions are welcome:

Issues: Report bugs or request features
Pull Requests: Submit code improvements
Documentation: Help improve this README
Testing: Test with different network conditions and CDNs

License

This project is licensed under the MIT License - see the LICENSE file for details.

Acknowledgments

MCP Framework maintainers for standardizing AI tool interactions
The Model Context Protocol community for documentation and examples
SpeedOf.Me team for their incremental testing methodology (How It Works). See methodology reference below
For the official SpeedOf.Me MCP server, see @speedofme/mcp

SpeedOf.Me Testing Methodology

Source: SpeedOf.Me — How It Works

This section preserves the SpeedOf.Me testing methodology as referenced by this project. Retrieved on March 8, 2026.

Click to expand full methodology

Overview

Download Test

Begin by downloading the smallest sample size (128 KB).
Measure the download duration in real time.
If the download takes less than 8 seconds, move to the next larger sample size.
If the download takes 8 seconds or more, stop the progression.
The final speed measurement is based on that last sample — the one that took 8 seconds or more.

Upload Test

When the download test is complete, a similar incremental process is used to send data back to the test server:

Start with a small sample and gradually increase in size.
Continue until uploading a sample takes more than 8 seconds.
The upload speed is based on that final sample.

Latency & Jitter

Latency (ping): The time it takes for data to travel to the server and back. Measured over 10 samples with the lowest value reported.
Jitter: The variation between latency samples. Lower jitter means a more stable connection, which is important for video calls and gaming.

Adaptive Testing Method

To ensure the internet connection is thoroughly tested, bandwidth is measured in several passes. Sample file sizes gradually increase until one takes longer than 8 seconds to download.

This approach automatically measures connection speeds ranging from very slow mobile networks (10 Kbps GPRS / 2G) to gigabit fiber connections (1 Gbps or more).

Sample File Sizes

#	Size
1	128 KB
2	256 KB
3	512 KB
4	1 MB
5	2 MB
6	4 MB
7	8 MB
8	16 MB
9	32 MB
10	64 MB
11	128 MB

Test Servers

Accuracy

Key differences that make this methodology accurate:

Single continuous download — Downloads large, continuous sample files, similar to how web pages or media files are typically delivered. Other speed tests use small chunks transferred in parallel and apply adjustments to estimate speed.
Multiple global servers — Uses PoPs in different regions, producing more realistic results. Other services often choose the nearest physical server (sometimes inside the ISP network), which can give inflated results.
No plugins required — Tests run directly from the client with no extra software.

How This Project Implements the Methodology

SpeedOf.Me Concept	Implementation in this project
Incremental download	`measure_download_speed()` iterates `SIZE_PROGRESSION`, breaks when elapsed ≥ `sustain_time` (default 8 s)
Incremental upload	`measure_upload_speed()` streams chunks and breaks when elapsed ≥ `sustain_time`
8-second threshold	Configurable via `sustain_time` parameter (1–8 s, default 8)
Latency — 10 samples, min	`measure_latency(samples=10)` reports `min_latency`
Jitter — variation	`measure_jitter(samples=5)` reports average deviation from mean
CDN with PoPs	Download files served from GitHub via Fastly CDN; upload via Cloudflare Workers
Sample file sizes (powers of 2)	128 KB → 128 MB stored in `inventer-dev/speed-test-files` (Git LFS)
Automatic server selection	CDN handles geographic routing; PoP detected from response headers

mcp-internet-speed-test

README Documentation

MCP Internet Speed Test

What is MCP?

Features

Installation

Prerequisites

Option 1: Install from PyPI with pip (Recommended)

Option 2: Install from PyPI with uv

Option 3: Using docker

Option 4: Development/Local Installation

Dependencies

Configuration

Claude Desktop Configuration

Option 1: Using pip installed package (Recommended)

Option 2: Using uvx

API Tools

Testing Functions

CDN Server Detection

What You Get

Technical Implementation

Smart Testing Methodology

CDN Detection Capabilities

Why This Matters

Example Server Info Output

Technical Configuration

Default Test Files Repository

Upload Endpoints Priority

Supported CDN Locations (150+ POPs)

Performance Thresholds

Troubleshooting

Common Issues

MCP Server Connection

Speed Test Issues

Performance Considerations

Development

Project Structure

Key Components

Configuration Constants

Core Functions

Configuration Customization

Contributing

License

Acknowledgments

SpeedOf.Me Testing Methodology

Overview

Download Test

Upload Test

Latency & Jitter

Adaptive Testing Method

Sample File Sizes

Test Servers

Accuracy

How This Project Implements the Methodology

Quick Install

Quick Actions

Key Features

mcp-internet-speed-test

README Documentation

MCP Internet Speed Test

What is MCP?

Features

Installation

Prerequisites

Option 1: Install from PyPI with pip (Recommended)

Option 2: Install from PyPI with uv

Option 3: Using docker

Option 4: Development/Local Installation

Dependencies

Configuration

Claude Desktop Configuration

Option 1: Using pip installed package (Recommended)

Option 2: Using uvx

API Tools

Testing Functions

CDN Server Detection

What You Get

Technical Implementation

Smart Testing Methodology

CDN Detection Capabilities