Fault-Tolerant Quantum Error Correction Beyond Foliation — NSF Award to Duke University (NC, $450,000)
Quantum computing promises to accelerate scientific progress by solving computational problems faster and more accurately. Scientific computing with standard computers is presently used to improve drug design, develop new electronic materials, and understand the dynamics of subatomic particles. Future quantum computers
| Award title | Fault-Tolerant Quantum Error Correction Beyond Foliation |
|---|---|
| Award ID | 2514847 |
| Awardee | Duke University |
| City | DURHAM |
| State | NC |
| Amount obligated | $450,000 |
| Principal investigator | Kenneth Brown |
| Program | QISET-Quan Info Sci Eng & Tech, QIS - Quantum Information Scie |
| Start date | 09/01/2025 |
| Abstract | Quantum computing promises to accelerate scientific progress by solving computational problems faster and more accurately. Scientific computing with standard computers is presently used to improve drug design, develop new electronic materials, and understand the dynamics of subatomic particles. Future quantum computers will enhance scientific computing, but current quantum computers have limited use cases due to noise in quantum systems. The noise leads to unwanted errors in the computational ou |
| Source | NSF Awards |
$799/mo
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