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The U.S. National Science Foundation announced a partnership with NVIDIA to develop a set of artificial intelligence models that will transform the ability of America’s scientists to leverage AI, advancing scientific discovery and ensuring U.S. leadership in AI-powered research and innovation. NSF will contribute $75 million, with NVIDIA providing an additional $77 million, to support the Open Multimodal AI Infrastructure to Accelerate Science (OMAI) project, led by the Allen Institute for AI (Ai2). The collaboration will create a fully open suite of advanced AI models specifically designed to support the U.S. scientific community.

This public-private investment advances priorities set forth in the White House AI Action Plan to accelerate AI-enabled science and ensure the United States is producing the leading open models that enhance America’s global AI dominance.

“Bringing AI into scientific research has been a game changer,” said Brian Stone, performing the duties of the NSF director. “NSF is proud to partner with NVIDIA to equip America’s scientists with the tools to accelerate breakthroughs. These investments are not just about enabling innovation; they are about securing U.S. global leadership in science and technology and tackling challenges once thought impossible.”

The development of AI technologies is advancing rapidly, but the cost of creating and researching powerful AI models has grown beyond the budgets of university labs and federally funded researchers. This growing divide limits the

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A workforce fluent in AI techniques will be essential to ensure U.S. leadership in artificial intelligence continues. Jeremy Waisome, an assistant professor at the University of Florida, discusses the Shark AI project, which has introduced artificial intelligence and machine learning techniques to thousands of middle school students.

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The U.S. National Science Foundation (NSF) has announced six major awards through its EPSCoR Research Infrastructure Improvement Program: Focused EPSCoR Collaborations (FEC), investing $29.2 million across 11 jurisdictions to strengthen research capacity and drive translational research across the nation.

These four-year awards aim to catalyze transformative research and infrastructure enhancement in states historically underfunded in federal research. The selected projects span critical areas, including use-inspired research in the study of Earth systems, wildfire management, water resource management, ecosystem and human health risks, functionality of electronic devices, biotechnology and artificial intelligence-driven health care.

“These EPSCoR FEC awards are an example of NSF’s commitment to ensuring that all states and jurisdictions across the United States have the opportunity to be part of our research enterprise and benefit from the jobs and economic prosperity that result from American innovation,” said Brian Stone, performing the duties of the NSF director. “These multi-state collaborative teams are tackling real-world research challenges that matter to the citizens of their regions while also building competitive research environments for the entire nation.”

This year’s FEC awards include:

Optical properties of mineral dust aerosols: Building capacity for use-inspired applications through experimental and theoretical investigations (Nevada System of Higher Education – Desert Research Institute, University of Oklahoma Norman Campus and University of Wyoming) — Mineral dust aerosols are significant in the atmosphere, affecting radiative forcing, ecosystem fertilization,

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The U.S. National Science Foundation Directorate for Technology, Innovation and Partnerships (NSF TIP) announced an inaugural investment of nearly $32 million to five teams across the U.S. through the NSF Use-Inspired Acceleration of Protein Design (NSF USPRD) initiative. This effort aims to accelerate the translation of artificial intelligence-based approaches to protein design and enable new applications of importance to the U.S. bioeconomy.

“NSF is pleased to bring together experts from both industry and academia to confront and overcome barriers to the widespread adoption of AI-enabled protein design,” said Erwin Gianchandani, NSF assistant director for TIP. “Each of the five awardees will focus on developing novel approaches to translate protein design techniques into practical, market-ready solutions. These efforts aim to unlock new uses for this technology in biomanufacturing, advanced materials, and other critical industries. Simply put, NSF USPRD represents a strategic investment in maintaining American leadership in biotechnology at a time of intense global competition.”

Researchers have made significant progress in predicting the 3D structures of proteins and are now leveraging this knowledge to design proteins with specific, desirable characteristics. These advances have been driven by macromolecular modeling, access to training data, applications of AI and machine learning, and high-throughput methods for protein characterization. The NSF USPRD investment seeks to build on this foundation by bringing together cross-disciplinary and cross-sector experts nationwide. The goal is to

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