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ISCA
2006
IEEE

Distributed Arithmetic on a Quantum Multicomputer

14 years 5 months ago
Distributed Arithmetic on a Quantum Multicomputer
We evaluate the performance of quantum arithmetic algorithms run on a distributed quantum computer (a quantum multicomputer). We vary the node capacity and I/O capabilities, and the network topology. The tradeoff of choosing between gates executed remotely, through “teleported gates” on entangled pairs of qubits (telegate), versus exchanging the relevant qubits via quantum teleportation, then executing the algorithm using local gates (teledata), is examined. We show that the teledata approach performs better, and that carry-ripple adders perform well when the teleportation block is decomposed so that the key quantum operations can be parallelized. A node size of only a few logical qubits performs adequately provided that the nodes have two transceiver qubits. A linear network topology performs acceptably for a broad range of system sizes and performance parameters. We therefore recommend pursuing small, high-I/O bandwidth nodes and a simple network. Such a machine will run Shor’...
Rodney Van Meter, Kae Nemoto, W. J. Munro, Kohei M
Added 12 Jun 2010
Updated 12 Jun 2010
Type Conference
Year 2006
Where ISCA
Authors Rodney Van Meter, Kae Nemoto, W. J. Munro, Kohei M. Itoh
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