Practical fully secure three-party computation via sublinear distributed zero-knowledge proofs
Secure multiparty computation enables a set of parties to securely carry out a joint
computation on their private inputs without revealing anything but the output. A particularly …
computation on their private inputs without revealing anything but the output. A particularly …
Practical Fully Secure Three-Party Computation via Sublinear Distributed Zero-Knowledge Proofs
E Boyle, N Gilboa, Y Ishai, A Nof - Cryptology ePrint Archive, 2019 - eprint.iacr.org
Secure multiparty computation enables a set of parties to securely carry out a joint
computation on their private inputs without revealing anything but the output. A particularly …
computation on their private inputs without revealing anything but the output. A particularly …
[PDF][PDF] Practical Fully Secure Three-Party Computation via Sublinear Distributed Zero-Knowledge Proofs
E Boyle, N Gilboa, Y Ishai, A Nof - 2019 - ntt-research.com
Secure multiparty computation enables a set of parties to securely carry out a joint
computation on their private inputs without revealing anything but the output. A particularly …
computation on their private inputs without revealing anything but the output. A particularly …
Practical fully secure three-party computation via sublinear distributed zero-knowledge proofs
E Boyle, Y Ishai, N Gilboa, A Nof - 26th ACM SIGSAC Conference on …, 2019 - cris.bgu.ac.il
Secure multiparty computation enables a set of parties to securely carry out a joint
computation on their private inputs without revealing anything but the output. A particularly …
computation on their private inputs without revealing anything but the output. A particularly …