Title :
Distributed Arithmetic on a Quantum Multicomputer
Author :
Van Meter, Rodney ; Nemoto, Kae ; Munro, W.J. ; Itoh, Kohei M.
Author_Institution :
Keio Univ., Kanagawa
Abstract :
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 "tele-ported gates" on entangled pairs of qubits (telegate), versus exchanging the relevant qubits via quantum teleportation, then executing the algorithm using local gates (tele-data), 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\´s algorithm for factoring large numbers efficiently
Keywords :
distributed arithmetic; performance evaluation; quantum communication; quantum computing; telecommunication network topology; teleportation; I/O capability; carry-ripple adders; distributed arithmetic; distributed quantum computer; high-I/O bandwidth nodes; linear network topology; node capacity; quantum arithmetic algorithms; quantum multicomputer; quantum teleportation; teleportation block; transceiver qubits; Adders; Arithmetic; Bandwidth; Circuits; Computer architecture; Distributed computing; Network topology; Performance analysis; Quantum computing; Teleportation;
Conference_Titel :
Computer Architecture, 2006. ISCA '06. 33rd International Symposium on
Conference_Location :
Boston, MA
Print_ISBN :
0-7695-2608-X
DOI :
10.1109/ISCA.2006.19
