MCP Cursor

Enhance your development workflow with AI-powered MCP tools and extensions for Cursor IDE.

Product

  • MCP Servers
  • Getting Started
  • Documentation
  • Open Source

Resources

  • MCP Specification
  • Cursor IDE
  • MCP GitHub
  • Contributing

Legal

  • Privacy Policy
  • Terms of Service
  • Cookie Policy
Made withfor the developer community
© 2025 MCP Cursor. All rights reserved.
MCP Logo
MCP Cursor
IntroductionMCPs
IntroductionMCPs
3D MCP Cursor Visualization
  1. Home
  2. Servers
  3. Kokoro TTS MCP
Kokoro TTS MCP Logo

Kokoro TTS MCP

Model Context Protocol Integration

Overview

Integrates with the Kokoro TTS engine to provide customizable text-to-speech capabilities, supporting cross-platform audio playback and file output for applications requiring high-quality speech synthesis."

Kokoro TTS

Integrates with the Kokoro TTS engine to provide customizable text-to-speech capabilities, supporting cross-platform audio playback and file output for applications requiring high-quality speech synthesis.

Installation Instructions

README: https://github.com/giannisanni/kokoro-tts-mcp

Kokoro TTS MCP Server

A Model Context Protocol (MCP) server that provides text-to-speech capabilities using the Kokoro TTS engine. This server exposes TTS functionality through MCP tools, making it easy to integrate speech synthesis into your applications.

Prerequisites

  • Python 3.10 or higher
  • uv package manager

Installation

  1. First, install the uv package manager:
curl -LsSf https://astral.sh/uv/install.sh | sh
  1. Clone this repository and install dependencies:
uv venv
source .venv/bin/activate  # On Windows, use: .venv\Scripts\activate
uv pip install .

Features

  • Text-to-speech synthesis with customizable voices
  • Adjustable speech speed
  • Support for saving audio to files or direct playback
  • Cross-platform audio playback support (Windows, macOS, Linux)

Usage

The server provides a single MCP tool generate_speech with the following parameters:

  • text (required): The text to convert to speech
  • voice (optional): Voice to use for synthesis (default: "af_heart")
  • speed (optional): Speech speed multiplier (default: 1.0)
  • save_path (optional): Directory to save audio files
  • play_audio (optional): Whether to play the audio immediately (default: False)

Example Usage

from mcp.client import Client

async with Client() as client:
    await client.connect("kokoro-tts")
    
    # Generate and play speech
    result = await client.call_tool(
        "generate_speech",
        {
            "text": "Hello, world!",
            "voice": "af_heart",
            "speed": 1.0,
            "play_audio": True
        }
    )

Dependencies

  • kokoro >= 0.8.4
  • mcp[cli] >= 1.3.0
  • soundfile >= 0.13.1

Platform Support

Audio playback is supported on:

  • Windows (using start)
  • macOS (using afplay)
  • Linux (using aplay)

MCP Configuration

Add the following configuration to your MCP settings file:

{
  "mcpServers": {
    "kokoro-tts": {
      "command": "/Users/giannisan/pinokio/bin/miniconda/bin/uv",
      "args": [
        "--directory",
        "/Users/giannisan/Documents/Cline/MCP/kokoro-tts-mcp",
        "run",
        "tts-mcp.py"
      ]
    }
  }
}

License

[Add your license information here]

Featured MCPs

Github MCP - Model Context Protocol for Cursor IDE

Github

This server provides integration with Github's issue tracking system through MCP, allowing LLMs to interact with Github issues.

Sequential Thinking MCP - Model Context Protocol for Cursor IDE

Sequential Thinking

An MCP server implementation that provides a tool for dynamic and reflective problem-solving through a structured thinking process. Break down complex problems into manageable steps, revise and refine thoughts as understanding deepens, and branch into alternative paths of reasoning.

Puppeteer MCP - Model Context Protocol for Cursor IDE

Puppeteer

A Model Context Protocol server that provides browser automation capabilities using Puppeteer. This server enables LLMs to interact with web pages, take screenshots, execute JavaScript, and perform various browser-based operations in a real browser environment.