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CRYPTO
2001
Springer
2001
Springer
Secure Distributed Linear Algebra in a Constant Number of Rounds
Consider a network of processors among which elements in a finite field K can be verifiably shared in a constant number of rounds. Assume furthermore constant-round protocols are available for generating random shared values, for secure multiplication and for addition of shared values. These requirements can be met by known techniques in all standard models of communication. In this model we construct protocols allowing the network to securely solve standard computational problems in linear algebra. In particular, we show how the network can securely, efficiently and in constant-round compute determinant, characteristic polynomial, rank, and the solution space of linear systems of equations. Constant round solutions follow for all problems which can be solved by direct application of such linear algebraic methods, such as deciding whether a graph contains a perfect match. If the basic protocols (for shared random values, addition and multiplication) we start from are unconditionally...
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| Added | 28 Jul 2010 |
| Updated | 28 Jul 2010 |
| Type | Conference |
| Year | 2001 |
| Where | CRYPTO |
| Authors | Ronald Cramer, Ivan Damgård |
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