CICI:TCR:Software Supply Chain Security in High-Performance Computing: Understanding, Eval — NSF Award to University of Utah (UT,
Computational infrastructures have become a foundational enabler of scientific discovery across a range of critical domains, including seismic imaging, air quality monitoring, epidemiology, drug discovery, and nuclear engineering. As a result, ensuring the security of these infrastructures is paramount. Scientific comp
| Award title | CICI:TCR:Software Supply Chain Security in High-Performance Computing: Understanding, Eval |
|---|---|
| Award ID | 2530911 |
| Awardee | University of Utah |
| City | SALT LAKE CITY |
| State | UT |
| Amount obligated | $1,199,875 |
| Principal investigator | Mu Zhang |
| Program | Cybersecurity Innovation |
| Start date | 01/01/2026 |
| Abstract | Computational infrastructures have become a foundational enabler of scientific discovery across a range of critical domains, including seismic imaging, air quality monitoring, epidemiology, drug discovery, and nuclear engineering. As a result, ensuring the security of these infrastructures is paramount. Scientific computing ecosystems rely heavily on open-source software to develop, port, deploy, schedule, and manage computational codes. However, the open-source model inherently exposes projects |
| Source | NSF Awards |
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