Looma: A Low-Latency PQTLS Authentication Architecture for Cloud Applications

Xinshu Ma (University of Edinburgh), Michio Honda (University of Edinburgh)

Quantum computers threaten to break the cryptographic foundations of classical TLS, prompting a shift to post-quantum cryptography. However, post-quantum authentication imposes significant performance overheads, particularly for mutual TLS in cloud environments with high handshake rates. We present Looma, a fast post-quantum authentication architecture that splits authentication into a fast, on-path sign/verify operation and slow, off-path pre-computations performed asynchronously, reducing handshake latency without sacrificing security. Integrated into TLS 1.3, Looma lowers PQTLS handshake latency by up to 44% compared to a Dilithium-2--based baseline. Our results demonstrate the practicality of Looma for scaling post-quantum secure communications in cloud environments.

Paper

View More Papers

Passive Multi-Target GUTI Identification via Visual-RF Correlation in LTE...

Byeongdo Hong (The Affiliated Institute of ETRI), Gunwoo Yoon (The Affiliated Institute of ETRI)

What Are Brands Telling You About Smishing? A Cross-Industry...

Dev Vikesh Doshi (California State University San Marcos), Mehjabeen Tasnim (California State University San Marcos), Fernando Landeros (California State University San Marcos), Chinthagumpala Muni Venkatesh (California State University San Marcos), Daniel Timko (Emerging Threats Lab / Smishtank.com), Muhammad Lutfor Rahman (California State University San Marcos)

Abuse Resistant Traceability with Minimal Trust for Encrypted Messaging...

Zhongming Wang (Chongqing University), Tao Xiang (Chongqing University), Xiaoguo Li (Chongqing University), Guomin Yang (Singapore Management University), Biwen Chen (Chongqing University), Ze Jiang (Chongqing University), Jiacheng Wang (Nanyang Technological University), Chuan Ma (Chongqing University), Robert H. Deng (Singapore Management University)