# SaTC 2.0: RES: Classical and quantum algorithms for problems in cryptography > **NSF 01002627DB NSF RESEARCH & RELATED ACTIVIT** · Pennsylvania State Univ University Park (PA) · $600,000 ## Abstract This project focuses on the security and efficiency of certain cryptosystems. Since currently used systems are vulnerable to attacks by quantum computers, it is essential to develop and analyze alternatives that are resistant to quantum computers, so that they remain secure in a post-quantum world. This project investigates both the classical and post-quantum security of cryptosystems based on supersingular isogenies, as well as lattice-based schemes proposed as replacements for currently used systems. The need for such work is increasingly urgent: advances in building quantum computers continue, while designing, implementing, and deploying quantum-resistant infrastructure requires substantial time. Another part of the project examines methods for improving the efficiency of cryptosystems. These are important practical questions. As part of its educational component, the investigator will engage middle and high school students in learning about cryptography and its mathematical foundations, helping to train the next generation of the cybersecurity workforce. One part of the project focuses on the classical and post-quantum security of cryptosystems based on supersingular isogenies. A variety of such schemes have been proposed, employing different techniques and frameworks. The investigator will study systems introduced in the last few years, in particular the ones which exploit the framework of higher-dimensional isogenies. In addition, the project examines the efficiency and security of recently developed protocols that conceal torsion point information, a vulnerability that compromised one of the original schemes. Another part studies the hardness of the endomorphism ring problem for supersingular elliptic curves, which underlies the security of many of these schemes. This is a fundamental problem in arithmetic geometry. The investigator will work to improve her existing algorithm for computing endomorphism rings and extend it to certain classes of abelian ## Key facts - **NSF award ID:** 2521084 - **Awardee organization:** Pennsylvania State Univ University Park (PA) - **SAM.gov UEI:** NPM2J7MSCF61 - **PI:** Kirsten Eisentraeger - **Primary program:** 01002627DB NSF RESEARCH & RELATED ACTIVIT - **All programs:** SaTC: Secure and Trustworthy Cyberspace, (QL) Quantum Leap, Nat Security, Secure Border & Pub Safety - **Estimated total:** $600,000 - **Funds obligated:** $600,000 - **Transaction type:** Standard Grant - **Period:** 05/15/2026 → 04/30/2029 ## Primary source NSF Award Search: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2521084 ## Citation > US National Science Foundation, Award 2521084, SaTC 2.0: RES: Classical and quantum algorithms for problems in cryptography. Retrieved via AI Analytics 2026-06-26 from https://api.ai-analytics.org/grant/nsf/2521084. Licensed CC0. --- *[NSF Awards dataset](/datasets/nsf-awards) · CC0 1.0*