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Protocols for Checking Compromised Credentials.

, , , , , and . ACM Conference on Computer and Communications Security, page 1387-1403. ACM, (2019)

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In Search of CurveSwap: Measuring Elliptic Curve Implementations in the Wild., , , and . EuroS&P, page 384-398. IEEE, (2018)A Dual Genetic Algorithm for Multi-Robot Routing with Network Connectivity and Energy Efficiency., , and . ICARCV, page 1647-1652. IEEE, (2018)Protocols for Checking Compromised Credentials., , , , , and . ACM Conference on Computer and Communications Security, page 1387-1403. ACM, (2019)Might I Get Pwned: A Second Generation Compromised Credential Checking Service., , , , , , , , and . USENIX Security Symposium, page 1831-1848. USENIX Association, (2022)RPKI is Coming of Age: A Longitudinal Study of RPKI Deployment and Invalid Route Origins., , , , , , , , , and 1 other author(s). Internet Measurement Conference, page 406-419. ACM, (2019)The ties that un-bind: decoupling IP from web services and sockets for robust addressing agility at CDN-scale., , , , , , , , , and 2 other author(s). SIGCOMM, page 433-446. ACM, (2021)Portunus: Re-imagining Access Control in Distributed Systems., , , , , , and . USENIX ATC, page 35-52. USENIX Association, (2023)Understanding the Mirai Botnet., , , , , , , , , and 9 other author(s). USENIX Security Symposium, page 1093-1110. USENIX Association, (2017)Respect the ORIGIN!: a best-case evaluation of connection coalescing in the wild., , , , , , , , , and 2 other author(s). IMC, page 664-678. ACM, (2022)Global, Passive Detection of Connection Tampering., , , , , , and . SIGCOMM, page 622-636. ACM, (2023)