Title :
Microcoded Architectures for Ion-Tap Quantum Computers
Author :
Kreger-Stickles, Lucas ; Oskin, Mark
Author_Institution :
Dept. of Comput. Sci. & Eng., Univ. of Washington, Seattle, WA
Abstract :
In this paper we present the first ever systematic design space exploration of microcoded software fault tolerant ion-trap quantum computers. This exploration reveals the critical importance of a well-tuned microcode for providing high performance and ensuring system reliability. In addition, we find that, despite recent advances in the reliability of quantum memory, the impact of errors due to stored quantum data is now, and will continue to be, a major source of systemic error. Finally, our exploration reveals a single design which out performs all others we considered in run time, fidelity and area. For completeness our design space exploration includes designs from prior work [13] and we find a novel design that is 1/2 the size, 3 times as fast, and an order of magnitude more reliable.
Keywords :
microprogramming; particle traps; quantum computing; software fault tolerance; ion-trap quantum computers; microcoded architectures; software fault tolerant; space exploration; system reliability; Computer architecture; Computer errors; Error correction; Fault tolerance; Large-scale systems; Microarchitecture; Quantum computing; Space exploration; Space technology; Timing; Architecture; Ion-Trap; Microcoded; Quantum;
Conference_Titel :
Computer Architecture, 2008. ISCA '08. 35th International Symposium on
Conference_Location :
Beijing
Print_ISBN :
978-0-7695-3174-8
DOI :
10.1109/ISCA.2008.28
