Instructions to use InternScience/Agents-A1-4B-Q8_0-GGUF with libraries, inference providers, notebooks, and local apps. Follow these links to get started.
- Libraries
- Transformers
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with Transformers:
# Use a pipeline as a high-level helper from transformers import pipeline pipe = pipeline("text-generation", model="InternScience/Agents-A1-4B-Q8_0-GGUF") messages = [ {"role": "user", "content": "Who are you?"}, ] pipe(messages)# Load model directly from transformers import AutoModel model = AutoModel.from_pretrained("InternScience/Agents-A1-4B-Q8_0-GGUF", dtype="auto") - llama-cpp-python
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with llama-cpp-python:
# !pip install llama-cpp-python from llama_cpp import Llama llm = Llama.from_pretrained( repo_id="InternScience/Agents-A1-4B-Q8_0-GGUF", filename="Agents-A1-4B-Q8_0.gguf", )
llm.create_chat_completion( messages = [ { "role": "user", "content": "What is the capital of France?" } ] ) - Notebooks
- Google Colab
- Kaggle
- Local Apps Settings
- llama.cpp
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with llama.cpp:
Install (macOS, Linux)
curl -LsSf https://llama.app/install.sh | sh # Start a local OpenAI-compatible server with a web UI: llama serve -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0 # Run inference directly in the terminal: llama cli -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
Install from WinGet (Windows)
winget install llama.cpp # Start a local OpenAI-compatible server with a web UI: llama serve -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0 # Run inference directly in the terminal: llama cli -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
Use pre-built binary
# Download pre-built binary from: # https://github.com/ggerganov/llama.cpp/releases # Start a local OpenAI-compatible server with a web UI: ./llama-server -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0 # Run inference directly in the terminal: ./llama-cli -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
Build from source code
git clone https://github.com/ggerganov/llama.cpp.git cd llama.cpp cmake -B build cmake --build build -j --target llama-server llama-cli # Start a local OpenAI-compatible server with a web UI: ./build/bin/llama-server -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0 # Run inference directly in the terminal: ./build/bin/llama-cli -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
Use Docker
docker model run hf.co/InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
- LM Studio
- Jan
- vLLM
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with vLLM:
Install from pip and serve model
# Install vLLM from pip: pip install vllm # Start the vLLM server: vllm serve "InternScience/Agents-A1-4B-Q8_0-GGUF" # Call the server using curl (OpenAI-compatible API): curl -X POST "http://localhost:8000/v1/chat/completions" \ -H "Content-Type: application/json" \ --data '{ "model": "InternScience/Agents-A1-4B-Q8_0-GGUF", "messages": [ { "role": "user", "content": "What is the capital of France?" } ] }'Use Docker
docker model run hf.co/InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
- SGLang
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with SGLang:
Install from pip and serve model
# Install SGLang from pip: pip install sglang # Start the SGLang server: python3 -m sglang.launch_server \ --model-path "InternScience/Agents-A1-4B-Q8_0-GGUF" \ --host 0.0.0.0 \ --port 30000 # Call the server using curl (OpenAI-compatible API): curl -X POST "http://localhost:30000/v1/chat/completions" \ -H "Content-Type: application/json" \ --data '{ "model": "InternScience/Agents-A1-4B-Q8_0-GGUF", "messages": [ { "role": "user", "content": "What is the capital of France?" } ] }'Use Docker images
docker run --gpus all \ --shm-size 32g \ -p 30000:30000 \ -v ~/.cache/huggingface:/root/.cache/huggingface \ --env "HF_TOKEN=<secret>" \ --ipc=host \ lmsysorg/sglang:latest \ python3 -m sglang.launch_server \ --model-path "InternScience/Agents-A1-4B-Q8_0-GGUF" \ --host 0.0.0.0 \ --port 30000 # Call the server using curl (OpenAI-compatible API): curl -X POST "http://localhost:30000/v1/chat/completions" \ -H "Content-Type: application/json" \ --data '{ "model": "InternScience/Agents-A1-4B-Q8_0-GGUF", "messages": [ { "role": "user", "content": "What is the capital of France?" } ] }' - Ollama
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with Ollama:
ollama run hf.co/InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
- Unsloth Studio
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with Unsloth Studio:
Install Unsloth Studio (macOS, Linux, WSL)
curl -fsSL https://unsloth.ai/install.sh | sh # Run unsloth studio unsloth studio -H 0.0.0.0 -p 8888 # Then open http://localhost:8888 in your browser # Search for InternScience/Agents-A1-4B-Q8_0-GGUF to start chatting
Install Unsloth Studio (Windows)
irm https://unsloth.ai/install.ps1 | iex # Run unsloth studio unsloth studio -H 0.0.0.0 -p 8888 # Then open http://localhost:8888 in your browser # Search for InternScience/Agents-A1-4B-Q8_0-GGUF to start chatting
Using HuggingFace Spaces for Unsloth
# No setup required # Open https://huggingface.co/spaces/unsloth/studio in your browser # Search for InternScience/Agents-A1-4B-Q8_0-GGUF to start chatting
- Pi
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with Pi:
Start the llama.cpp server
# Install llama.cpp: brew install llama.cpp # Start a local OpenAI-compatible server: llama serve -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
Configure the model in Pi
# Install Pi: npm install -g @mariozechner/pi-coding-agent # Add to ~/.pi/agent/models.json: { "providers": { "llama-cpp": { "baseUrl": "http://localhost:8080/v1", "api": "openai-completions", "apiKey": "none", "models": [ { "id": "InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0" } ] } } }Run Pi
# Start Pi in your project directory: pi
- Hermes Agent new
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with Hermes Agent:
Start the llama.cpp server
# Install llama.cpp: brew install llama.cpp # Start a local OpenAI-compatible server: llama serve -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
Configure Hermes
# Install Hermes: curl -fsSL https://hermes-agent.nousresearch.com/install.sh | bash hermes setup # Point Hermes at the local server: hermes config set model.provider custom hermes config set model.base_url http://127.0.0.1:8080/v1 hermes config set model.default InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
Run Hermes
hermes
- Atomic Chat new
- OpenClaw new
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with OpenClaw:
Start the llama.cpp server
# Install llama.cpp: brew install llama.cpp # Start a local OpenAI-compatible server: llama serve -hf InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
Configure OpenClaw
# Install OpenClaw: npm install -g openclaw@latest # Register the local server and set it as the default model: openclaw onboard --non-interactive --mode local \ --auth-choice custom-api-key \ --custom-base-url http://127.0.0.1:8080/v1 \ --custom-model-id "InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0" \ --custom-provider-id llama-cpp \ --custom-compatibility openai \ --custom-text-input \ --accept-risk \ --skip-health
Run OpenClaw
openclaw agent --local --agent main --message "Hello from Hugging Face"
- Docker Model Runner
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with Docker Model Runner:
docker model run hf.co/InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
- Lemonade
How to use InternScience/Agents-A1-4B-Q8_0-GGUF with Lemonade:
Pull the model
# Download Lemonade from https://lemonade-server.ai/ lemonade pull InternScience/Agents-A1-4B-Q8_0-GGUF:Q8_0
Run and chat with the model
lemonade run user.Agents-A1-4B-Q8_0-GGUF-Q8_0
List all available models
lemonade list
Agents-A1: Scaling the Horizon, Not the Parameters: Reaching Trillion-Parameter Performance with a 35B Agent
This repository contains model weights and configuration files for Agents-A1 in the Hugging Face Transformers format.
These artifacts are compatible with Hugging Face Transformers, vLLM, SGLang, etc.
🔥 News
2026.7.14: 🔥🔥 The 4B model has been released.
2026.7.8: 🔥🔥 By popular demand from the community, our 4B model is coming in the next few days — making it faster and easier to build your own local AI assistant.
2026.7.2: 🔥🔥 Based on Agents-A1, we have released a series of quantized model variants. Please refer to the Agents-A1 collection. Besides, we’d like to thank the mlx-community for providing quantized versions at multiple scales. Try running Agents-A1 on your Mac!
2026.6.26: 🔥🔥 We have open-sourced the Agents-A1 35B-A3B model, along with the evaluation code for selected domains and the technical report.
Agents‑A1 is a long-horizon agentic model from InternScience, built to scale heterogeneous agentic abilities across multiple domains including Long‑horizon Search, Engineering, Scientific Research, Instruction Following, and Tool-calling. We investigate agent-horizon scaling from two perspectives: scaling long-horizon trajectories and scaling heterogeneous agent abilities.
From the scaling of long-horizon trajectories, Agents‑A1 is trained with the assistance of a domain-grounded knowledge-action infrastructure that jointly constructs actions, observations, and verifier outcomes, turning the agent's process into a trainable target. From the scaling of heterogeneous agent abilities, Agents‑A1 presents a three-stage training paradigm for building scalable general-purpose agentic model. First, we perform full-domain supervised fine-tuning to align the base model with broad agentic behaviors. Second, we train domain-level teacher models to capture specialized expertise in each domain. Third, we propose multi-teacher multi-domain on-policy distillation with heterogeneity-aware optimization to improve knowledge transfer efficiency across different domains.
Highlights
- Agentic Reasoning: Agents-A1 excels at decomposing complex tasks into executable sub-steps, planning ahead, and adapting its strategy based on intermediate results.
- Tool Use: Natively supports function calling and tool integration, enabling seamless interaction with APIs, code interpreters, search engines, and other external tools.
- Scientific and Professional Reasoning: Handles tool-integrated scientific reasoning and professional knowledge question answering.
- Instruction Following: Precisely follows detailed, multi-constraint instructions across diverse domains.
We welcome developers and enterprises to integrate and try Agents-A1 and share their feedback.
Performance
We release the dense model Agents-A1-4B with only 4B parameters, yet it delivers impressive performance across long-horizon search, engineering & research, instruction following, and general/scientific agentic tasks. It significantly outperforms similarly-sized models on BrowseComp (66.8), XBench-DS-2510 (90.0), GAIA (95.1), FrontierScience-Research (33.3), and IFEval (94.8), with some scores approaching or even surpassing larger MoE models like Nex-N2-mini and Qwen3.6. Compared to the flagship 35B Agents-A1, the 4B variant achieves strong competitiveness with a fraction of the parameters, demonstrating the series' excellent balance between efficiency and performance, and continuously narrowing the gap between small models and frontier systems.
🥇 Overall Best Performance Among Models in the Table
| Benchmark | 🧠 Dense Models (~4B) | 🔀 MoE Models (35B-A3B) | ||||
|---|---|---|---|---|---|---|
| Qwen3.5-4B | Agents-A1-4B | Qwen3.5 | Qwen3.6 | Nex-N2-mini | Agents-A1 | |
| 🔍 Long-horizon Search | ||||||
| BrowseComp | 47.2 | 66.8 | 61.0 | 67.9 | 74.1 | 🥇 75.5 |
| XBench-DS-2510 | 73.0 | 🥇 90.0 | 77.0 | 71.0 | 82.0 | 86.0 |
| Seal0 | 31.5 | 45.8 | 41.4 | 38.7 | 49.6 | 🥇 56.4 |
| GAIA | 58.3 | 95.1 | 59.8 | 78.6 | 82.5 | 🥇 96.0 |
| ⚙️ Engineering & Research Tasks | ||||||
| SciCode | 16.1 | 29.6 | 37.7 | 35.8 | 29.9 | 🥇 44.3 |
| MLE-Lite | 7.6 | 22.7 | 24.2 | 34.9 | 34.9 | 🥇 43.9 |
| LiveCodeBench-V6 | 55.8 | 59.6 | 76.2 | 🥇 78.1 | 59.1 | 76.2 |
| FrontierScience-Research | 1.7 | 33.3 | 2.5 | 2.9 | 5.0 | 🥇 40.0 |
| 📋 Instruction Following | ||||||
| IFBench | 59.2 | 69.1 | 70.2 | 64.4 | 54.1 | 🥇 80.6 |
| LongBench-v2 | 50.0 | 52.1 | 59.0 | 57.7 | 59.6 | 🥇 60.2 |
| IFEval | 89.8 | 🥇 94.8 | 91.9 | 91.3 | 88.4 | 🥇 94.8 |
| 🤖 General & Scientific Agentic Tasks | ||||||
| τ2-Bench | 79.9 | 78.2 | 🥇 81.2 | 79.0 | 74.5 | 79.8 |
| VitaBench | 22.0 | 🥇 40.3 | 31.9 | 35.6 | 23.0 | 38.8 |
| MatTools | 10.9 | 🥇 49.3 | 21.0 | 15.9 | 34.1 | 47.1 |
Usage
SGLang
SGLang is a fast serving framework for large language models and vision language models.
Install SGLang with uv:
uv venv --python 3.12 --seed --managed-python
source .venv/bin/activate
uv pip install sglang
See its documentation for more details.
The following commands create API endpoints at http://localhost:8000/v1:
Standard Version (1 GPUs, 262K context):
python -m sglang.launch_server \ --model-path InternScience/Agents-A1-4B \ --port 8000 \ --tp-size 1 \ --mem-fraction-static 0.8 \ --context-length 262144 \ --reasoning-parser qwen3Tool Use:
python -m sglang.launch_server \ --model-path InternScience/Agents-A1-4B \ --port 8000 \ --tp-size 1 \ --mem-fraction-static 0.8 \ --context-length 262144 \ --reasoning-parser qwen3 \ --tool-call-parser qwen3_coder
vLLM
vLLM is a high-throughput and memory-efficient inference and serving engine for LLMs.
Install vLLM from the main branch via uv:
uv venv --python 3.12 --seed --managed-python
source .venv/bin/activate
uv pip install vllm --torch-backend=auto
See its documentation for more details.
The following commands create API endpoints at http://localhost:8000/v1:
Standard Version (1 GPUs, 262K context):
vllm serve InternScience/Agents-A1-4B \ --port 8000 \ --tensor-parallel-size 1 \ --max-model-len 262144 \ --reasoning-parser qwen3Tool Call:
vllm serve InternScience/Agents-A1-4B \ --port 8000 \ --tensor-parallel-size 1 \ --max-model-len 262144 \ --reasoning-parser qwen3 \ --enable-auto-tool-choice \ --tool-call-parser qwen3_coderText-Only (skips vision encoder to free KV cache memory):
vllm serve InternScience/Agents-A1-4B \ --port 8000 \ --tensor-parallel-size 1 \ --max-model-len 262144 \ --reasoning-parser qwen3 \ --language-model-only
Recommended Sampling Parameters & System Prompt
For the best generation quality and more stable multi-turn behavior, we recommend using the following sampling parameters:
temperature: 0.85top_p: 0.95top_k: 20min_p: 0.0presence_penalty: 1.1repetition_penalty: 1.0
We also recommend using the following system prompt:
You are Intern-A1, a deep research assistant developed by InternAgent Team, Shanghai Artificial Intelligence Laboratory. 你是Intern-A1, 一个由上海人工智能实验室的InternAgent团队开发的深度研究人工智能助手。 You can have natural multi-turn conversations with users on any topic.
## Daily Chat & Simple Questions
For everyday conversations, greetings, opinions, coding help, factual lookups, definitions, calculations, explanations, and any question you can confidently answer from your knowledge — just respond directly and naturally in the user's language as Intern-A1. Do NOT use any tools for these.
## Research & Search Questions
Only when the user's question requires up-to-date information, in-depth investigation, multi-source verification, or involves recent events, niche topics, or anything you are uncertain about, use the available tool **tavily_search**.
Research strategy:
- Start with a focused search query to get an overview.
- If the initial search is insufficient, refine your query with more specific terms.
- Stop searching once you have enough information to provide a comprehensive answer. Do not over-research.
Current date: 2026-07-13
The current date should be updated dynamically when possible.
Agent Capability Evaluation
To provide the community with a unified agent evaluation codebase for fair comparison, we have also open-sourced an evaluation framework for assessing agentic models across core capabilities, including tool use and multi-step reasoning. The evaluation code is included in the Agents-A1/evaluation of this repository.
We use this framework to evaluate the released model under a standardized and reproducible setting. Specifically, the model is tested on a set of agent-oriented tasks that require it to understand user goals, decompose complex instructions, interact with tools or environments when necessary, and produce final results. The evaluation results reported in Model Card are generated using the open-source framework above, so that users can reproduce the experiments, compare other models under the same protocol, and further extend the benchmark for new agent scenarios. (Note that: To ensure a fair comparison, we report the benchmark results from their original technical reports. If a model does not report the corresponding benchmark results, we evaluate it using the same evaluation protocol as our model.)
For detailed evaluation scripts, task definitions, metrics, and reproduction instructions, please refer to the evaluation codebase.
Citation
If you find our work helpful, feel free to give us a cite.
@misc{bai2026scalinghorizonparametersreaching,
title={Scaling the Horizon, Not the Parameters: Reaching Trillion-Parameter Performance with a 35B Agent},
author={Lei Bai and Zongsheng Cao and Yang Chen and Zhiyao Cui and Shangheng Du and Yue Fan and Shiyang Feng and Zijie Guo and Haonan He and Liang He and Xiaohan He and Shuyue Hu and Yusong Hu and Songtao Huang and Yichen Jiang and Hao Li and Xin Li and Dahua Lin and Weihao Lin and Fenghua Ling and Dongrui Liu and Zhuo Liu and Runmin Ma and Chunjiang Mu and Haoyang Peng and Tianshuo Peng and Jinxin Shi and Luohe Shi and Boyuan Sun and Zelin Tan and Shengji Tang and Qianyi Wang and Yiming Wu and Yi Xie and Xiangchao Yan and Jingqi Ye and Peng Ye and Fangchen Yu and Jiakang Yuan and Bihao Zhan and Bo Zhang and Chen Zhang and Shufei Zhang and Shuaiyu Zhang and Wenlong Zhang and Yiqun Zhang and Junpeng Zhao and Zhijie Zhong and Bowen Zhou and Yuhao Zhou},
year={2026},
eprint={2606.30616},
archivePrefix={arXiv},
primaryClass={cs.CL},
url={https://arxiv.org/abs/2606.30616},
}
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