DeepBrainz-R1-4B / README.md

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metadata

license: apache-2.0
language:
  - en
pipeline_tag: text-generation
tags:
  - deepbrainz
  - reasoning
  - mathematics
  - code
  - enterprise
  - 4b
  - long-context
  - 32k
library_name: transformers

🚀 Introducing DeepBrainz-R1 — Reasoning-First Small Language Models for Agentic Systems

Today we’re releasing DeepBrainz-R1, a family of reasoning-first Small Language Models (SLMs) designed for agentic AI systems in real-world production.

Agentic systems don’t ask once — they reason repeatedly. Tool calls, verification loops, schema-constrained outputs, retries, and long-context planning fundamentally change the economics and reliability requirements of language models. LLM-only stacks struggle under this load.

DeepBrainz-R1 is built from the opposite premise:

Reasoning is a trained behavior, not an emergent side-effect of scale.

What DeepBrainz-R1 is designed for

Repeatable multi-step reasoning, not one-shot chat
Agent-compatible behavior: tool use, structured outputs, low-variance reasoning
Production economics: lower latency, predictable cost, deployability
Inference-time scalability: compute where needed, not everywhere

The R1 lineup

DeepBrainz-R1-4B — Flagship production model Best starting point for reliable agentic systems.
DeepBrainz-R1-2B — Balanced production model Strong reasoning with lower cost and latency.
DeepBrainz-R1-0.6B-v2 — Canonical small model Cost-efficient baseline for small-model agent workloads.
Long-context variants (16K / 40K) — early and experimental
Research checkpoints — raw artifacts for ablation and evaluation
Community quantizations (GGUF, low-bit) — community-maintained, not officially supported

We publish supported releases, experimental variants, and research checkpoints separately to keep expectations clear for builders, enterprises, and researchers.

Why now

2026 is the year agentic AI stops being a demo and starts becoming infrastructure. Infrastructure cannot rely on LLM-only economics or LLM-only reliability. Reasoning-first SLMs are the only viable path to scaling agents sustainably.

— DeepBrainz AI & Labs

DeepBrainz-R1-4B

DeepBrainz-R1-4B is a compact, high-performance reasoning model engineered by DeepBrainz AI & Labs. It is part of the DeepBrainz-R1 Series, designed to deliver frontier-class reasoning capabilities in cost-effective parameter sizes.

This variant offers an extended context window (up to 32,768 tokens), making it suitable for medium-length document and code analysis.

🚀 Model Highlights

Parameter Count: ~4B
Context Window: 32,768 tokens
Context Type: Extended (RoPE)
Specialization: STEM Reasoning, Logic, Code Analysis
Architecture: Optimized Dense Transformer
Deployment: Ready for vLLM, SGLang, and local inference

🎯 Intended Use Cases

Agentic Workflows: Reliability in multi-step planning tasks.
Math & Science: Solving complex word problems and equations.
Code Generation: Writing and debugging algorithms.
Structured Data Extraction: Parsing and reasoning over unstructured text.

Note: This model has undergone post-training to enhance reasoning quality and agentic reliability.
It is not optimized for open-ended conversational chat without additional instruction tuning.

💻 Usage

from transformers import AutoModelForCausalLM, AutoTokenizer

model_id = "DeepBrainz/DeepBrainz-R1-4B"

tokenizer = AutoTokenizer.from_pretrained(model_id)
model = AutoModelForCausalLM.from_pretrained(
    model_id,
    torch_dtype="bfloat16",
    device_map="auto"
)

prompt = "Analyze the time complexity of the following algorithm:"
inputs = tokenizer(prompt, return_tensors="pt").to(model.device)

outputs = model.generate(**inputs, max_new_tokens=256)
print(tokenizer.decode(outputs[0], skip_special_tokens=True))

🏗️ Technical Summary

The model has undergone post-training to improve reasoning quality, output stability, and robustness under agentic workloads.

Detailed post-training recipes and dataset compositions are not fully disclosed.

🛡️ Limitations & Safety

While this model demonstrates strong reasoning capabilities, it may still produce inaccurate information ("hallucinations"). Users should implement appropriate guardrails for production deployments.

📜 License

This model is released under the Apache 2.0 license, allowing for academic and commercial use.

DeepBrainz AI & Labs
Advancing General Intelligence through Scalable Reasoning