Quantized at Romarchive
Introduction
LocoOperator-4B is a 4B-parameter tool-calling agent model trained via knowledge distillation from Qwen3-Coder-Next inference traces. It specializes in multi-turn codebase exploration โ reading files, searching code, and navigating project structures within a Claude Code-style agent loop. Designed as a local sub agent, it runs via llama.cpp at zero API cost.
| LocoOperator-4B | |
|---|---|
| Base Model | Qwen3-4B-Instruct-2507 |
| Teacher Model | Qwen3-Coder-Next |
| Training Method | Full-parameter SFT (distillation) |
| Training Data | 170,356 multi-turn conversation samples |
| Max Sequence Length | 16,384 tokens |
| Training Hardware | 4x NVIDIA H200 141GB SXM5 |
| Training Time | ~25 hours |
| Framework | MS-SWIFT |
Key Features
- Tool-Calling Agent: Generates structured
<tool_call>JSON for Read, Grep, Glob, Bash, Write, Edit, and Task (subagent delegation) - 100% JSON Validity: Every tool call is valid JSON with all required arguments โ outperforming the teacher model (87.6%)
- Local Deployment: GGUF quantized, runs on Mac Studio via llama.cpp at zero API cost
- Lightweight Explorer: 4B parameters, optimized for fast codebase search and navigation
- Multi-Turn: Handles conversation depths of 3โ33 messages with consistent tool-calling behavior
Performance
Evaluated on 65 multi-turn conversation samples from diverse open-source projects (scipy, fastapi, arrow, attrs, gevent, gunicorn, etc.), with labels generated by Qwen3-Coder-Next.
Core Metrics
| Metric | Score |
|---|---|
| Tool Call Presence Alignment | 100% (65/65) |
| First Tool Type Match | 65.6% (40/61) |
| JSON Validity | 100% (76/76) |
| Argument Syntax Correctness | 100% (76/76) |
The model perfectly learned when to use tools vs. when to respond with text (100% presence alignment). Tool type mismatches are between semantically similar tools (e.g. Grep vs Read) โ different but often valid strategies.
Tool Distribution Comparison
JSON & Argument Syntax Correctness
| Model | JSON Valid | Argument Syntax Valid |
|---|---|---|
| LocoOperator-4B | 76/76 (100%) | 76/76 (100%) |
| Qwen3-Coder-Next (teacher) | 89/89 (100%) | 78/89 (87.6%) |
LocoOperator-4B achieves perfect structured output. The teacher model has 11 tool calls with missing required arguments (empty
arguments: {}).
Quick Start
from transformers import AutoModelForCausalLM, AutoTokenizer
model_name = "LocoreMind/LocoOperator-4B"
# load the tokenizer and the model
tokenizer = AutoTokenizer.from_pretrained(model_name)
model = AutoModelForCausalLM.from_pretrained(
model_name,
torch_dtype="auto",
device_map="auto"
)
# prepare the messages
messages = [
{
"role": "system",
"content": "You are a read-only codebase search specialist.\n\nCRITICAL CONSTRAINTS:\n1. STRICTLY READ-ONLY: You cannot create, edit, delete, move files, or run any state-changing commands. Use tools/bash ONLY for reading (e.g., ls, find, cat, grep).\n2. EFFICIENCY: Spawn multiple parallel tool calls for faster searching.\n3. OUTPUT RULES: \n - ALWAYS use absolute file paths.\n - STRICTLY NO EMOJIS in your response.\n - Output your final report directly. Do not use colons before tool calls.\n\nENV: Working directory is /Users/developer/workspace/code-analyzer (macOS, zsh)."
},
{
"role": "user",
"content": "Analyze the Black codebase at `/Users/developer/workspace/code-analyzer/projects/black`.\nFind and explain:\n1. How Black discovers config files.\n2. The exact search order for config files.\n3. Supported config file formats.\n4. Where this configuration discovery logic lives in the codebase.\n\nReturn a comprehensive answer with relevant code snippets and absolute file paths."
}
]
# prepare the model input
text = tokenizer.apply_chat_template(
messages,
tokenize=False,
add_generation_prompt=True,
)
model_inputs = tokenizer([text], return_tensors="pt").to(model.device)
# conduct text completion
generated_ids = model.generate(
**model_inputs,
max_new_tokens=512,
)
output_ids = generated_ids[0][len(model_inputs.input_ids[0]):].tolist()
content = tokenizer.decode(output_ids, skip_special_tokens=True)
print(content)
Local Deployment
For GGUF quantized deployment with llama.cpp, hybrid proxy routing, and batch analysis pipelines, refer to our GitHub repository.
Training Details
| Parameter | Value |
|---|---|
| Base model | Qwen3-4B-Instruct-2507 |
| Teacher model | Qwen3-Coder-Next |
| Method | Full-parameter SFT |
| Training data | 170,356 samples |
| Hardware | 4x NVIDIA H200 141GB SXM5 |
| Parallelism | DDP (no DeepSpeed) |
| Precision | BF16 |
| Epochs | 1 |
| Batch size | 2/GPU, gradient accumulation 4 (effective batch 32) |
| Learning rate | 2e-5, warmup ratio 0.03 |
| Max sequence length | 16,384 tokens |
| Template | qwen3_nothinking |
| Framework | MS-SWIFT |
| Training time | ~25 hours |
| Checkpoint | Step 2524 |
Known Limitations
- First-tool-type match is 65.6% โ the model sometimes picks a different (but not necessarily wrong) tool than the teacher
- Tends to under-generate parallel tool calls compared to the teacher (76 vs 89 total calls across 65 samples)
- Preference for Bash over Read may indicate the model defaults to shell commands where file reads would be more appropriate
- Evaluated on 65 samples only; larger-scale evaluation needed
License
MIT
Acknowledgments
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Model tree for Romarchive/LocoOperator-4B-GGUF
Base model
Qwen/Qwen3-4B-Instruct-2507
docker model run hf.co/Romarchive/LocoOperator-4B-GGUF: