all InfoSec news
Asymmetric Quantum Secure Multi-Party Computation With Weak Clients Against Dishonest Majority
March 16, 2023, 7:48 a.m. |
IACR News www.iacr.org
ePrint Report: Asymmetric Quantum Secure Multi-Party Computation With Weak Clients Against Dishonest Majority
Theodoros Kapourniotis, Elham Kashefi, Dominik Leichtle, Luka Music, Harold Ollivier
Secure multi-party computation (SMPC) protocols allow several parties that distrust each other to collectively compute a function on their inputs. In this paper, we introduce a protocol that lifts classical SMPC to quantum SMPC in a composably and statistically secure way, even for a single honest party. Unlike previous quantum SMPC protocols, our proposal only requires very …
clients computation compute eprint report function inputs music party protocol protocols quantum quantum secure report single
More from www.iacr.org / IACR News
Updatable Policy-Compliant Signatures
1 day, 6 hours ago |
www.iacr.org
Guess and Determine Analysis Based on Set Split
1 day, 6 hours ago |
www.iacr.org
Improving Generic Attacks Using Exceptional Functions
1 day, 6 hours ago |
www.iacr.org
Real-Valued Somewhat-Pseudorandom Unitaries
2 days, 10 hours ago |
www.iacr.org
A Variation on Knellwolf and Meier's Attack on the Knapsack Generator
2 days, 10 hours ago |
www.iacr.org
Jobs in InfoSec / Cybersecurity
Information Technology Specialist II: Network Architect
@ Los Angeles County Employees Retirement Association (LACERA) | Pasadena, CA
Cybersecurity Skills Challenge -- Sponsored by DoD
@ Correlation One | United States
Security Operations Center (SOC) Analyst
@ GK Cybersecurity Group | Remote
DevSecOps Engineer
@ SIXGEN | Remote
Senior DevSecOps Engineer
@ nou Systems, Inc. | Huntsville AL, Huntsville, AL, US
Security Engineer (f/m/d)
@ Enpal B.V. | Berlin, Germany