Blender MCP Animation

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Transform your 3D workflow with natural language instructions

Blender MCP connects Claude AI to Blender, allowing you to create, modify, and enhance 3D models through simple text prompts.

Blender MCP also supports built-in Blender plugins, viewport screenshots, and Sketchfab integration, enhancing your 3D modeling capabilities with native tools and seamless sharing options.

Get Started Watch Demo
Blender MCP Claude MCprep addon
Enhance Blender MCP's advanced 3D modeling features with MCprep addon
Blender MCP Cursor Interface
Configure Blender MCP in Cursor Mode for precise 3D modeling control
Blender MCP Windsurf Model Example
Configure Blender MCP in Windsurf Mode for professional modeling results
Blender MCP VSCode Roo Plugin Installation
Blender MCP VSCode Roo Cline Install
Blender MCP VSCode Roo Plugin Key Setting
Blender MCP VSCode Roo Cline Set Key
Blender MCP VSCode Roo Plugin MCP Configuration
Blender MCP VSCode Roo Cline MCP

Key Features

AI-Powered Modeling

Create and modify 3D objects in Blender using natural language instructions with Claude AI.

Python Code Execution

Run arbitrary Python code in Blender through simple text prompts for advanced customization.

Material Management

Apply and modify materials with AI assistance for stunning visual results.

Scene Control

Adjust camera positions, lighting, and scene properties with natural language commands.

Polyhaven Integration

Access and use Polyhaven assets directly through AI commands for enhanced 3D scenes.

Easy Integration

Seamless installation process and compatibility with Blender across multiple platforms.

Viewport Screenshots

Capture high-quality screenshots of your 3D viewport directly through AI commands for documentation and sharing.

Sketchfab Integration

Seamlessly upload and share your 3D models to Sketchfab platform directly from Blender through natural language instructions.

Getting Started with Blender MCP

Blender MCP Setup Tutorial Thumbnail

Installation Guide

Prerequisites

  • Blender 3.0 or later
  • Python 3.10 or later
  • uv package manager

Install uv on Windows:

pip install uv

Install uv on Mac:

brew install uv

⚠️ Please install UV before proceeding

Claude for Desktop Integration

Go to Claude > Settings > Developer > Edit Config > claude_desktop_config.json and add the following:

{ "mcpServers": { "blender": { "command": "uvx", "args": [ "blender-mcp" ] } } }

MCP Integration in Different Environments

Cursor Integration
Blender MCP Cursor Integration

Go to Cursor Settings > MCP and paste the following command:

uvx blender-mcp
Windsurf Integration
Blender MCP Windsurf Integration

In Windsurf, the MCP server is pre-configured. Just enable the plugin in Blender and connect.

VSCode Integration (using Roo Cline)
VSCode Roo Cline Installation

1. Install the Roo Cline extension in VSCode

VSCode Roo Cline Set API Key

2. Set your API key

VSCode Roo Cline MCP Configuration

3. Configure the MCP server with the command uvx blender-mcp

⚠️ Important: Only run one MCP server instance (in Cursor, Windsurf, VSCode, or Claude Desktop), not multiple instances simultaneously

Installing the Blender Plugin

Important: Upgrading from Previous Version

If you have previously installed Blender MCP, you need to uninstall it first:

  1. Open Blender and go to Edit > Preferences > Add-ons
  2. Find and disable "Interface: Blender MCP" by unchecking the box
  3. Click the downward arrow next to it, then click "Remove"
  4. Restart Blender before installing the new version
  1. Download the latest version of Blender MCP
  2. Open Blender
  3. Go to Edit > Preferences > Add-ons
  4. Click "Install..." and select the addon.py file
  5. Enable the plugin by checking the box next to "Interface: Blender MCP"
Blender MCP Plugin Installation

Installing the Blender MCP addon

Blender MCP Plugin Configuration

Configuring the Blender MCP addon

Usage Instructions

Starting the Connection

  1. In Blender, go to the 3D View sidebar (press N if not visible)
  2. Find the "BlenderMCP" tab
  3. Check the Poly Haven checkbox if you want to use Poly Haven assets (optional)
  4. Click "start mcp server"
  5. Make sure the MCP server is running in your terminal

Using with Claude

Once the config file is set up in Claude and the plugin is running in Blender, you'll see a hammer icon with Blender MCP tools.

Example Commands

  • "Create a low poly scene in a dungeon, with a dragon guarding a pot of gold"
  • "Create a beach vibe using HDRIs, textures, and models like rocks and vegetation from Poly Haven"
  • "Get information about the current scene, and make a threejs sketch from it"
  • "Make this car red and metallic"
  • "Create a sphere and place it above the cube"
  • "Make the lighting like a studio"
  • "Point the camera at the scene, and make it isometric"
  • "Take a screenshot of the current viewport and save it"
  • "Upload my model to Sketchfab with the title 'My Amazing Creation'"
Watch Full Setup Tutorial

See Blender MCP in Action

Blender MCP Demo Video Thumbnail

Transform 2D references into 3D models with AI

In this demonstration, you'll see how Blender MCP allows you to provide a 2D reference image and have Claude AI generate a 3D model in Blender — all through natural language conversation.

No manual modeling required
Iterate rapidly through prompts
Fine-tune with precise instructions
Watch on YouTube See more demos

Use Cases

Concept Artist using Blender MCP

Concept Artists

Rapidly prototype 3D concepts from sketches or descriptions, accelerating the conceptualization process.

Learn more
Game Developer using Blender MCP

Game Developers

Create game assets quickly with natural language descriptions, streamlining the development pipeline.

Learn more
Educator using Blender MCP

Educators

Teach 3D modeling concepts with an accessible interface that lowers the technical barrier for students.

Learn more
Architectural Visualizer using Blender MCP

Architectural Visualizers

Generate 3D architectural elements and environments from textual descriptions or reference images.

Learn more
Trae Editor Integration with Blender MCP

Trae Editor Integration

Enhance your 3D workflow by integrating Blender MCP with Trae Editor for powerful AI-assisted coding and modeling capabilities.

Learn more
Minecraft Scene created with Blender MCP

Minecraft Modeling

Create stunning Minecraft-style 3D scenes in just 10 minutes using natural language prompts, even with no prior Blender experience.

What You'll Learn:

  • Create natural terrain with Perlin noise
  • Design Minecraft-style buildings
  • Add trees, rivers, and weather effects
  • Use the MCPrep plugin for authentic Minecraft assets
  • Model Minecraft characters like Alex

Requirements:

  • Blender with MCPrep plugin
  • Blender MCP setup
  • No prior experience needed!
Start Tutorial

Latest Blog Posts & Tutorials

Explore our collection of tutorials, guides, and articles to help you master Blender MCP

Bionumerics Software Free Better Download |top| Crack 13 Link

Check with your university or laboratory IT department. Many academic and government institutions already maintain site licenses for specialized bioinformatics tools.

If the high cost of a BioNumerics license is a barrier, there are legitimate ways to access the software without resorting to illegal cracks:

Many scientific grants explicitly allow budget allocations for software licenses, data management tools, and specialized computing infrastructure. Free and Open-Source Alternatives to BioNumerics

Data analysis is a critical component of research across various fields, including science, medicine, social sciences, and more. Proper data analysis ensures that research findings are reliable, valid, and generalizable. Here are some best practices for data analysis in research:

Scientific research relies on the premise of reproducibility. When a researcher uses a cracked version of software, they cannot guarantee the integrity of the algorithms. Bionumerics Software Free BETTER Download Crack 13

Carefully follow the installation instructions provided with the cracked software, and be aware of any additional software requirements.

Fake "crack" sites commonly:

The best path forward is to:

While the allure of free software is understandable, you should weigh the risks and benefits. The integrity of your data and the security of your systems are paramount. Exploring legitimate avenues for accessing software, even if it means budgeting for it, is usually the safest and most reliable approach. Bionumerics is a powerful tool for microbial typing and epidemiology, and using it in a legal and secure manner will ensure the best outcomes for your work. Check with your university or laboratory IT department

Given the specialized nature of Bionumerics and its applications, accessing the software through official channels is recommended. Here's how one can legally obtain or access Bionumerics:

By doing so, users can ensure access to reliable, secure, and supported software, while also promoting a culture of responsible software usage and intellectual property rights.

Science relies on the principles of reproducibility and transparency. Using a cracked version of BioNumerics undermines both. A "cracked" executable is modified code; it has been altered to bypass licensing checks, and there is no guarantee that the underlying algorithms remain untouched. If the mathematical engines responsible for clustering analysis or pattern matching are inadvertently or maliciously altered, the resulting data will be flawed. Publishing research based on compromised software risks scientific misconduct and retraction. Furthermore, without a valid license, the user has no access to technical support or updates. If a bug is discovered in version 13, legitimate users receive a patch; cracked users remain vulnerable, potentially working with software that produces erroneous results.

BioNumerics is developed by Applied Maths (a bioMérieux company). They offer legitimate avenues for users who need to evaluate or use the software for academic purposes: When a researcher uses a cracked version of

If you do not have the budget for a BioNumerics license, you do not need to risk your system with malware. The open-source bioinformatics community offers several highly capable, completely free alternatives that can perform the same core functions as BioNumerics: 1. R and Bioconductor

Tools for whole-genome sequencing (WGS) analysis, metagenomics, and sequence alignment.

Your work is too important to jeopardize with pirated tools. Legitimate options exist, and many are completely free.

Blender Basics Part 2
Blender Basics

Part 2: Interface Logic — Cursor & Origin

Master the 3D Cursor, Origin points, and coordinate systems — the invisible logic that makes Blender behave predictably.

Jan 8, 2026 18 min read
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Girl with Pearl Earring Tutorial
Case Practice

Girl with a Pearl Earring — Complete Workflow

A complete 3D modeling workflow from primitives to final render — recreate Vermeer's masterpiece using basic shapes and smart techniques.

Jan 8, 2026 45 min read
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Setup Guide

Configure Blender MCP Using Gemini CLI

Complete step-by-step guide covering Node.js setup, Gemini CLI installation, and MCP service configuration.

Nov 3, 2025 12 min read
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Minecraft Scene Tutorial
Tutorial

Create a Minecraft Scene in 10 Minutes

Learn how to create stunning Minecraft-style 3D scenes using natural language prompts with Blender MCP.

Mar 19, 2025 10 min read
Read Article
View All Blog Posts

How Blender MCP Works

1

Install the Plugin

Download the Blender MCP plugin from GitHub and install it in your Blender application.

Download Plugin
2

Configure MCP Server

Set up the MCP server to establish communication between Claude AI and Blender.

View Setup Guide
3

Start Creating with AI

Use natural language instructions to create and modify 3D models in Blender through Claude.

See Examples

DeepSeek Integration

Using DeepSeek R1 and Claude Sonnet 4.5 Models

Blender MCP not only supports Claude but also other large language models like DeepSeek R1. Through OpenRouter.ai, you can easily switch between different models for 3D modeling.

Setup Steps

  1. Register for an OpenRouter.ai Account

    Visit OpenRouter.ai and create an account.

  2. Get an API Key

    Generate an API key in your OpenRouter account, which you'll need to configure different models.

  3. Configure VSCode to Use Different Models

    Follow these steps to configure DeepSeek R1 and Claude Sonnet 4.5 models in VSCode:

VSCode DeepSeek Profile Configuration

Create DeepSeek Profile

VSCode DeepSeek Model Configuration

Configure DeepSeek Model Parameters

VSCode Model Switching

Switch Between DeepSeek R1 and Claude Sonnet 4.5

Steps to Use Different Models

  1. Open the Roo Cline extension settings in VSCode
  2. Create two different profiles: one for DeepSeek R1 and one for Claude Sonnet 4.5
  3. Set the corresponding model ID in each profile:
    • DeepSeek R1: deepseek-ai/deepseek-coder-v2
    • Claude Sonnet 4.5: anthropic/claude-3-7-sonnet
  4. Add your OpenRouter API key
  5. Configure the MCP server command: uvx blender-mcp
  6. Save the configuration and use the dropdown menu to switch between models

Model Comparison

Feature DeepSeek R1 Claude Sonnet 4.5
Strengths Code generation, technical understanding Creative design, natural language understanding
Response Speed Faster Moderate
3D Modeling Capability Good geometric understanding Excellent creative expression

Usage Tips

  • For precise geometric shapes and technical modeling, try DeepSeek R1
  • For creative scenes and artistic effects, try Claude Sonnet 4.5
  • Both models can use the same set of Blender MCP commands
  • Reconnect the Blender MCP server after switching models
  • Save your work, as different models may produce different results for the same prompt

Other MCP Integrations

Combining Blender MCP with Server-Sequential-Thinking

Enhance your 3D modeling workflow by combining Blender MCP with other MCP tools like server-sequential-thinking. This powerful combination allows for complex modeling tasks with step-by-step planning and execution.

Integration Benefits

  • Break down complex modeling tasks into sequential steps
  • Improve planning and execution of detailed 3D models
  • Monitor and modify each step for optimal results
  • Create more sophisticated structures with better organization

Example Workflow: Creating a High-Rise Building

Here's an example of how to use server-sequential-thinking with Blender MCP to create a complex high-rise building model:

Prompt: "I want to use Blender to create a high-rise building. Please use server-sequential-thinking tool to help me generate all the operation steps, then use blender-mcp to execute the generation. Remember to monitor each modification, and if there's anything unreasonable, make timely adjustments. Please also add a larger pavilion next to the existing one."
How It Works:
  1. Planning Phase (server-sequential-thinking): The sequential thinking server breaks down the complex task into logical steps:
    • Step 1: Create the base structure of the high-rise building
    • Step 2: Add floors and windows to the building
    • Step 3: Design the roof structure
    • Step 4: Create the existing pavilion
    • Step 5: Add a larger pavilion next to the existing one
    • Step 6: Add environmental details and finishing touches
  2. Execution Phase (blender-mcp): Blender MCP executes each step with appropriate Python code
  3. Monitoring Phase: The system checks each modification for quality and makes adjustments as needed

Tool Comparison

Feature Blender MCP Server-Sequential-Thinking
Primary Function 3D model execution in Blender Step-by-step planning and reasoning
Strengths Direct model manipulation Complex task breakdown
Best Used For Creating and modifying 3D objects Planning complex modeling workflows

Integration Tips

  • Start with server-sequential-thinking to plan your complex modeling task
  • Use the generated steps as a guide for Blender MCP execution
  • Monitor each step and make adjustments as needed
  • For architectural models, break down structures into logical components
  • Save intermediate results to track progress and allow for revisions

Getting Started with Server-Sequential-Thinking

To use server-sequential-thinking with Blender MCP:

  1. Install the server-sequential-thinking tool from GitHub
  2. Configure it to work with your existing Blender MCP setup
  3. Use prompts that specifically request sequential planning
  4. Review and approve the generated plan before execution

For more information, visit the Sequential Thinking GitHub repository.

Check with your university or laboratory IT department. Many academic and government institutions already maintain site licenses for specialized bioinformatics tools.

If the high cost of a BioNumerics license is a barrier, there are legitimate ways to access the software without resorting to illegal cracks:

Many scientific grants explicitly allow budget allocations for software licenses, data management tools, and specialized computing infrastructure. Free and Open-Source Alternatives to BioNumerics

Data analysis is a critical component of research across various fields, including science, medicine, social sciences, and more. Proper data analysis ensures that research findings are reliable, valid, and generalizable. Here are some best practices for data analysis in research:

Scientific research relies on the premise of reproducibility. When a researcher uses a cracked version of software, they cannot guarantee the integrity of the algorithms.

Carefully follow the installation instructions provided with the cracked software, and be aware of any additional software requirements.

Fake "crack" sites commonly:

The best path forward is to:

While the allure of free software is understandable, you should weigh the risks and benefits. The integrity of your data and the security of your systems are paramount. Exploring legitimate avenues for accessing software, even if it means budgeting for it, is usually the safest and most reliable approach. Bionumerics is a powerful tool for microbial typing and epidemiology, and using it in a legal and secure manner will ensure the best outcomes for your work.

Given the specialized nature of Bionumerics and its applications, accessing the software through official channels is recommended. Here's how one can legally obtain or access Bionumerics:

By doing so, users can ensure access to reliable, secure, and supported software, while also promoting a culture of responsible software usage and intellectual property rights.

Science relies on the principles of reproducibility and transparency. Using a cracked version of BioNumerics undermines both. A "cracked" executable is modified code; it has been altered to bypass licensing checks, and there is no guarantee that the underlying algorithms remain untouched. If the mathematical engines responsible for clustering analysis or pattern matching are inadvertently or maliciously altered, the resulting data will be flawed. Publishing research based on compromised software risks scientific misconduct and retraction. Furthermore, without a valid license, the user has no access to technical support or updates. If a bug is discovered in version 13, legitimate users receive a patch; cracked users remain vulnerable, potentially working with software that produces erroneous results.

BioNumerics is developed by Applied Maths (a bioMérieux company). They offer legitimate avenues for users who need to evaluate or use the software for academic purposes:

If you do not have the budget for a BioNumerics license, you do not need to risk your system with malware. The open-source bioinformatics community offers several highly capable, completely free alternatives that can perform the same core functions as BioNumerics: 1. R and Bioconductor

Tools for whole-genome sequencing (WGS) analysis, metagenomics, and sequence alignment.

Your work is too important to jeopardize with pirated tools. Legitimate options exist, and many are completely free.

Ready to Transform Your 3D Workflow?

Start creating with Blender MCP today and experience the power of AI-assisted 3D modeling.

Download Now See Demos