Unsloth MCP Server
Mirror of
MCP-Mirror
README
Unsloth MCP Server
An MCP server for Unsloth - a library that makes LLM fine-tuning 2x faster with 80% less memory.
What is Unsloth?
Unsloth is a library that dramatically improves the efficiency of fine-tuning large language models:
- Speed: 2x faster fine-tuning compared to standard methods
- Memory: 80% less VRAM usage, allowing fine-tuning of larger models on consumer GPUs
- Context Length: Up to 13x longer context lengths (e.g., 89K tokens for Llama 3.3 on 80GB GPUs)
- Accuracy: No loss in model quality or performance
Unsloth achieves these improvements through custom CUDA kernels written in OpenAI's Triton language, optimized backpropagation, and dynamic 4-bit quantization.
Features
- Optimize fine-tuning for Llama, Mistral, Phi, Gemma, and other models
- 4-bit quantization for efficient training
- Extended context length support
- Simple API for model loading, fine-tuning, and inference
- Export to various formats (GGUF, Hugging Face, etc.)
Quick Start
- Install Unsloth:
pip install unsloth - Install and build the server:
cd unsloth-server npm install npm run build - Add to MCP settings:
{ "mcpServers": { "unsloth-server": { "command": "node", "args": ["/path/to/unsloth-server/build/index.js"], "env": { "HUGGINGFACE_TOKEN": "your_token_here" // Optional }, "disabled": false, "autoApprove": [] } } }
Available Tools
check_installation
Verify if Unsloth is properly installed on your system.
Parameters: None
Example:
const result = await use_mcp_tool({
server_name: "unsloth-server",
tool_name: "check_installation",
arguments: {}
});
list_supported_models
Get a list of all models supported by Unsloth, including Llama, Mistral, Phi, and Gemma variants.
Parameters: None
Example:
const result = await use_mcp_tool({
server_name: "unsloth-server",
tool_name: "list_supported_models",
arguments: {}
});
load_model
Load a pretrained model with Unsloth optimizations for faster inference and fine-tuning.
Parameters:
model_name(required): Name of the model to load (e.g., "unsloth/Llama-3.2-1B")max_seq_length(optional): Maximum sequence length for the model (default: 2048)load_in_4bit(optional): Whether to load the model in 4-bit quantization (default: true)use_gradient_checkpointing(optional): Whether to use gradient checkpointing to save memory (default: true)
Example:
const result = await use_mcp_tool({
server_name: "unsloth-server",
tool_name: "load_model",
arguments: {
model_name: "unsloth/Llama-3.2-1B",
max_seq_length: 4096,
load_in_4bit: true
}
});
finetune_model
Fine-tune a model with Unsloth optimizations using LoRA/QLoRA techniques.
Parameters:
model_name(required): Name of the model to fine-tunedataset_name(required): Name of the dataset to use for fine-tuningoutput_dir(required): Directory to save the fine-tuned modelmax_seq_length(optional): Maximum sequence length for training (default: 2048)lora_rank(optional): Rank for LoRA fine-tuning (default: 16)lora_alpha(optional): Alpha for LoRA fine-tuning (default: 16)batch_size(optional): Batch size for training (default: 2)gradient_accumulation_steps(optional): Number of gradient accumulation steps (default: 4)learning_rate(optional): Learning rate for training (default: 2e-4)max_steps(optional): Maximum number of training steps (default: 100)dataset_text_field(optional): Field in the dataset containing the text (default: 'text')load_in_4bit(optional): Whether to use 4-bit quantization (default: true)
Example:
const result = await use_mcp_tool({
server_name: "unsloth-server",
tool_name: "finetune_model",
arguments: {
model_name: "unsloth/Llama-3.2-1B",
dataset_name: "tatsu-lab/alpaca",
output_dir: "./fine-tuned-model",
max_steps: 100,
batch_size: 2,
learning_rate: 2e-4
}
});
generate_text
Generate text using a fine-tuned Unsloth model.
Parameters:
model_path(required): Path to the fine-tuned modelprompt(required): Prompt for text generationmax_new_tokens(optional): Maximum number of tokens to generate (default: 256)temperature(optional): Temperature for text generation (default: 0.7)top_p(optional): Top-p for text generation (default: 0.9)
Example:
const result = await use_mcp_tool({
server_name: "unsloth-server",
tool_name: "generate_text",
arguments: {
model_path: "./fine-tuned-model",
prompt: "Write a short story about a robot learning to paint:",
max_new_tokens: 512,
temperature: 0.8
}
});
export_model
Export a fine-tuned Unsloth model to various formats for deployment.
Parameters:
model_path(required): Path to the fine-tuned modelexport_format(required): Format to export to (gguf, ollama, vllm, huggingface)output_path(required): Path to save the exported modelquantization_bits(optional): Bits for quantization (for GGUF export) (default: 4)
Example:
const result = await use_mcp_tool({
server_name: "unsloth-server",
tool_name: "export_model",
arguments: {
model_path: "./fine-tuned-model",
export_format: "gguf",
output_path: "./exported-model.gguf",
quantization_bits: 4
}
});
Advanced Usage
Custom Datasets
You can use custom datasets by formatting them properly and hosting them on Hugging Face or providing a local path:
const result = await use_mcp_tool({
server_name: "unsloth-server",
tool_name: "finetune_model",
arguments: {
model_name: "unsloth/Llama-3.2-1B",
dataset_name: "json",
data_files: {"train": "path/to/your/data.json"},
output_dir: "./fine-tuned-model"
}
});
Memory Optimization
For large models on limited hardware:
- Reduce batch size and increase gradient accumulation steps
- Use 4-bit quantization
- Enable gradient checkpointing
- Reduce sequence length if possible
Troubleshooting
Common Issues
- CUDA Out of Memory: Reduce batch size, use 4-bit quantization, or try a smaller model
- Import Errors: Ensure you have the correct versions of torch, transformers, and unsloth installed
- Model Not Found: Check that you're using a supported model name or have access to private models
Version Compatibility
- Python: 3.10, 3.11, or 3.12 (not 3.13)
- CUDA: 11.8 or 12.1+ recommended
- PyTorch: 2.0+ recommended
Performance Benchmarks
| Model | VRAM | Unsloth Speed | VRAM Reduction | Context Length |
|---|---|---|---|---|
| Llama 3.3 (70B) | 80GB | 2x faster | >75% | 13x longer |
| Llama 3.1 (8B) | 80GB | 2x faster | >70% | 12x longer |
| Mistral v0.3 (7B) | 80GB | 2.2x faster | 75% less | - |
Requirements
- Python 3.10-3.12
- NVIDIA GPU with CUDA support (recommended)
- Node.js and npm
License
Apache-2.0
Recommended Servers
playwright-mcp
A Model Context Protocol server that enables LLMs to interact with web pages through structured accessibility snapshots without requiring vision models or screenshots.
Magic Component Platform (MCP)
An AI-powered tool that generates modern UI components from natural language descriptions, integrating with popular IDEs to streamline UI development workflow.
MCP Package Docs Server
Facilitates LLMs to efficiently access and fetch structured documentation for packages in Go, Python, and NPM, enhancing software development with multi-language support and performance optimization.
Claude Code MCP
An implementation of Claude Code as a Model Context Protocol server that enables using Claude's software engineering capabilities (code generation, editing, reviewing, and file operations) through the standardized MCP interface.
@kazuph/mcp-taskmanager
Model Context Protocol server for Task Management. This allows Claude Desktop (or any MCP client) to manage and execute tasks in a queue-based system.
Linear MCP Server
Enables interaction with Linear's API for managing issues, teams, and projects programmatically through the Model Context Protocol.
mermaid-mcp-server
A Model Context Protocol (MCP) server that converts Mermaid diagrams to PNG images.
Jira-Context-MCP
MCP server to provide Jira Tickets information to AI coding agents like Cursor
Linear MCP Server
A Model Context Protocol server that integrates with Linear's issue tracking system, allowing LLMs to create, update, search, and comment on Linear issues through natural language interactions.
Sequential Thinking MCP Server
This server facilitates structured problem-solving by breaking down complex issues into sequential steps, supporting revisions, and enabling multiple solution paths through full MCP integration.