CAREER: Co-Designing Compilers and Architectures For High-Performance And Scalable Fault-T — NSF Award to University of Texas at A
Quantum computers have the potential to accelerate important applications across critical domains, such as chemistry, physics, cryptanalysis, machine learning, drug discovery. By enabling us to solve these complex problems, quantum computers promise a transformative impact on our society. Today, quantum computers with
| Award title | CAREER: Co-Designing Compilers and Architectures For High-Performance And Scalable Fault-T |
|---|---|
| Award ID | 2544323 |
| Awardee | University of Texas at Austin |
| City | AUSTIN |
| State | TX |
| Amount obligated | $412,008 |
| Principal investigator | Poulami Das |
| Program | FET-Fndtns of Emerging Tech |
| Start date | 09/15/2026 |
| Abstract | Quantum computers have the potential to accelerate important applications across critical domains, such as chemistry, physics, cryptanalysis, machine learning, drug discovery. By enabling us to solve these complex problems, quantum computers promise a transformative impact on our society. Today, quantum computers with hundreds to thousands of qubit devices are already available. However, despite remarkable progress in recent years, our ability to enter an era of quantum utility and advantage is |
| Source | NSF Awards |
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