CAREER: Towards Secure and Reliable Cloud-Based Quantum Computers — NSF Award to CUNY City College (NY, $337,566)
Applications such as chemical simulations and optimization problems demand intensive computation, which will benefit from near-term quantum computers. With the growth of the quantum computing industry, quantum computing vendors provide cloud-based access to meet the increasing demand of quantum computers. However, exec
| Award title | CAREER: Towards Secure and Reliable Cloud-Based Quantum Computers |
|---|---|
| Award ID | 2542385 |
| Awardee | CUNY City College |
| City | NEW YORK |
| State | NY |
| Amount obligated | $337,566 |
| Principal investigator | Samah Saeed |
| Program | Secure &Trustworthy Cyberspace |
| Start date | 06/01/2026 |
| Abstract | Applications such as chemical simulations and optimization problems demand intensive computation, which will benefit from near-term quantum computers. With the growth of the quantum computing industry, quantum computing vendors provide cloud-based access to meet the increasing demand of quantum computers. However, executing quantum circuits on cloud-based quantum computers introduces new security risks. Malicious quantum developers, adversarial users, or insiders at the quantum computing vendors |
| Source | NSF Awards |
$799/mo
Try NSFGrants →