36 min listen
Episode 15: Bringing Secure Multiparty Computation to the Real World!
FromCryptography FM
ratings:
Length:
47 minutes
Released:
Apr 26, 2021
Format:
Podcast episode
Description
Secure multi-party computation is a fascinating field in cryptography, researching how to allow multiple parties to compute secure operations over inputs while keeping those inputs private. This makes multi-party computation a super relevant technology in areas such as code signing, hospital records and more.
But what does it take to bring secure multi-party computation from the blank slate of academia and into the messiness of the real world? Today on Cryptography FM, we’re joined by Dr. Yehuda Lindell and Dr. Nigel Smart, from Unbound Security, to tell us about their research, their experiences with real world secure multiparty computation, and more.
Music composed by Toby Fox and performed by Sean Schafianski (https://seanschafianski.bandcamp.com/). Special Guests: Nigel Smart and Yehuda Lindell.
But what does it take to bring secure multi-party computation from the blank slate of academia and into the messiness of the real world? Today on Cryptography FM, we’re joined by Dr. Yehuda Lindell and Dr. Nigel Smart, from Unbound Security, to tell us about their research, their experiences with real world secure multiparty computation, and more.
Music composed by Toby Fox and performed by Sean Schafianski (https://seanschafianski.bandcamp.com/). Special Guests: Nigel Smart and Yehuda Lindell.
Released:
Apr 26, 2021
Format:
Podcast episode
Titles in the series (24)
Episode 1: Post-Quantum TLS With KEMs Instead of Signatures!: KEMTLS is a modified version of TLS 1.3 that uses Key Encapsulation Mechanisms, or KEMs, instead of signatures for server authentication, thereby providing a sort of “post-quantum TLS”. But what even are KEMs? Are quantum computers even a thing that we should be worried about? On the first ever episode of Cryptography FM, we’ll be hosting Dr. Douglas Stebila and PhD Candidate Thom Wiggers to discuss these questions and more. by Cryptography FM