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July 6, 2026
Research

How Open Models Are Driving AI Research

Overview

Every year, the International Conference on Machine Learning (ICML) reveals where thousands of AI researchers have decided to put their work. This year's accepted papers reveal a clear direction: open frontier models and open AI infrastructure have become foundational to how modern AI science gets done. NVIDIA had 74 papers accepted at ICML 2026.

Key Takeaways

  • NVIDIA open models from Nemotron, Cosmos and BioNeMo are fueling the field's biggest research questions at ICML 2026.

    Approximately 2,000 accepted papers cite NVIDIA GPUs, and 145 cite NVIDIA Nemotron - a family of open models, including open datasets - as the foundation for new research.

  • DreamDojo, for example, learns how the physical world behaves from human video and builds on NVIDIA Cosmos open frontier models to predict how a robot would handle objects and operate in environments it was never trained on.

    It lets researchers evaluate policies, plan actions and teleoperate a virtual robot, accelerating development without the costs and risks of physical deployment.

  • Synthetic data generation (SDG) drew particular interest at ICML this year with several Nemotron and physical AI open datasets, reflecting a broader shift in how researchers are thinking about training at scale without relying solely on human-labeled data.

    The Open Research Stack Open infrastructure gives researchers the tools to accelerate breakthroughs.

  • The Cosmos 3 family of open, frontier omnimodels gives researchers and developers a generational leap in the ability to build robots, autonomous vehicles and vision AI that perceive, reason, plan and act in the physical world.

    In addition, the NVIDIA Alpamayo open model family for autonomous vehicle development, NVIDIA Isaac GR00T for robotics and NVIDIA BioNeMo for biomedical help accelerate research and development across industries.

  • Sakana AI - attending ICML this year - built its Fugu and Fugu-Ultra models directly on Nemotron 3 Ultra, using the open foundation to push forward its work on AI research automation.

Stats & Key Facts

  • #] NVIDIA open models from Nemotron, Cosmos and BioNeMo are fueling the field's biggest research questions at ICML 2026.
  • #Approximately 2,000 accepted papers cite NVIDIA GPUs, and 145 cite NVIDIA Nemotron - a family of open models, including open datasets - as the foundation for new research.

NVIDIA open models from Nemotron, Cosmos and BioNeMo are fueling the field's biggest research questions at ICML 2026. Every year, the International Conference on Machine Learning (ICML) reveals where thousands of AI researchers have decided to put their work. This year's accepted papers reveal a clear direction: open frontier models and open AI infrastructure have become foundational to how modern AI science gets done.

NVIDIA had 74 papers accepted at ICML 2026. Approximately 2,000 accepted papers cite NVIDIA GPUs, and 145 cite NVIDIA Nemotron - a family of open models, including open datasets - as the foundation for new research. Hundreds more draw on NVIDIA Cosmos , NVIDIA Isaac GR00T , BioNeMo and other NVIDIA open model families, spanning physical AI, robotics, autonomous vehicles and biomedical research.

The Themes Defining This Year's Research Areas including vision and video generation, reinforcement learning for large language models ( LLMs ) and agent training as well as AI inference remained prominent themes across this year's papers, reflecting sustained investment these fields command - while several new areas also broke through. Robot world models drew significant attention, with papers like DreamDojo pushing the boundary of how AI systems learn to reason about and act in physical environments. DreamDojo, for example, learns how the physical world behaves from human video and builds on NVIDIA Cosmos open frontier models to predict how a robot would handle objects and operate in environments it was never trained on.

It lets researchers evaluate policies, plan actions and teleoperate a virtual robot, accelerating development without the costs and risks of physical deployment. AI for life sciences was fueled by NVIDIA BioNeMo open models and research contributions that help researchers understand protein function, molecular behavior and genetic code. Papers like FLIP2 introduce public benchmarks for testing how well AI predicts the effects of protein mutations.

KERMT is a new BioNeMo open model for predicting molecular properties important to drug discovery. Synthetic data generation (SDG) drew particular interest at ICML this year with several Nemotron and physical AI open datasets, reflecting a broader shift in how researchers are thinking about training at scale without relying solely on human-labeled data. The Open Research Stack Open infrastructure gives researchers the tools to accelerate breakthroughs.

The papers show Nemotron being used less like a single model release and more like a research stack: open weights to evaluate against, open datasets to train and adapt with, and open recipes for reasoning, tool use, safety, data curation and efficient inference. Alongside the models, NeMo Curator and the open datasets it supports gives researchers a reproducible foundation for training data curation . SDG tools enable creating high-quality training sets at a scale and speed that would've been impractical just a few years ago.

The Cosmos 3 family of open, frontier omnimodels gives researchers and developers a generational leap in the ability to build robots, autonomous vehicles and vision AI that perceive, reason, plan and act in the physical world. In addition, the NVIDIA Alpamayo open model family for autonomous vehicle development, NVIDIA Isaac GR00T for robotics and NVIDIA BioNeMo for biomedical help accelerate research and development across industries. The Ecosystem Building on Top The momentum extends beyond NVIDIA's own research labs .

Basecamp Research developed a new DNA foundation model, EDEN , that helps researchers interpret and design genetic sequences. , uses KERMT to predict how potential drug molecules may behave in the body, including whether they are likely to be effective, safe and developable. Sakana AI - attending ICML this year - built its Fugu and Fugu-Ultra models directly on Nemotron 3 Ultra, using the open foundation to push forward its work on AI research automation.

For more details please read the original article at NVIDIA Blog.

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