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PODC
2010
ACM
2010
ACM
Hybrid-secure MPC: trading information-theoretic robustness for computational privacy
Most protocols for distributed, fault-tolerant computation, or multi-party computation (MPC), provide security guarantees in an all-or-nothing fashion: If the number of corrupted parties is below a certain threshold, these protocols provide all specified security guarantees. Beyond this threshold, they provide no security guarantees at all. Furthermore, most previous protocols achieve either information-theoretic (IT) security, in which case this threshold is low, or they achieve only computational security, in which case this threshold is high. In contrast, a hybrid-secure protocol provides different security guarantees depending on the set of corrupted parties and the computational power of the adversary, without being aware of the actual adversarial setting. Thus, hybrid-secure MPC protocols allow for graceful degradation of security. We present a hybrid-secure MPC protocol that provides an optimal trade-off between IT robustness and computational privacy: For any robustness para...
Real-time TrafficCorrupted Parties | Distributed And Parallel Computing | Mpc Protocol | PODC 2010 | Security Guarantees |
| Added | 16 Aug 2010 |
| Updated | 16 Aug 2010 |
| Type | Conference |
| Year | 2010 |
| Where | PODC |
| Authors | Christoph Lucas, Dominik Raub, Ueli M. Maurer |
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