Best of Both Worlds in Secure Computation, with Low Communication Overhead

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Date: 2018-08-09 16:19:58 Cryptography Mathematics Theoretical computer science Computational complexity theory Secret sharing Quantum complexity theory Secure multi-party computation IP PP Polynomial Communication complexity Lagrange polynomial		Best of Both Worlds in Secure Computation, with Low Communication Overhead Add to Reading List Source URL: web.eecs.umich.edu Download Document from Source Website File Size: 1,86 MB Share Document on Facebook

	Guidelines for Authors Manuscripts: 1) QIC publishes papers in all areas of quantum information processing, including quantum algorithms, quantum information theory, quantum complexity theory, quantum cryptology, quantum DocID: 1rFsf - View Document
	Secure Multiparty Computation of Approximations∗ Joan Feigenbaum† Yuval Ishai‡ Martin J. Straussk DocID: 1rgTf - View Document
	The Complexity of Counting and Randomised Approximation Magnus Bordewich New College University of Oxford DocID: 1r1Rx - View Document
	Unconditional lower bounds April 12, L´ aszl´ o Babai, Noam Nisan, and Mario Szegedy. Multiparty protocols and Logspace-hard pseudorandom sequences. In Proc. 21st STOC, pages 1–11. DocID: 1r02x - View Document
	Networks embedded in Lorentzian spaces James Clough, Tim Evans Centre for Complexity Science, Imperial College London, London, SW7 2AZ, U.K. {james.clough09,t.evans}@imperial.ac.uk Embedding the nodes of a network in a s DocID: 1qZhx - View Document