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Full-stack, real-system quantum computer studies

Authors :
Cinthia Huerta Alderete
Prakash Murali
Ali Javadi Abhari
Margaret Martonosi
Norbert M. Linke
Nhung H. Nguyen
Source :
ISCA
Publication Year :
2019
Publisher :
ACM, 2019.

Abstract

In recent years, Quantum Computing (QC) has progressed to the point where small working prototypes are available for use. Termed Noisy Intermediate-Scale Quantum (NISQ) computers, these prototypes are too small for large benchmarks or even for Quantum Error Correction, but they do have sufficient resources to run small benchmarks, particularly if compiled with optimizations to make use of scarce qubits and limited operation counts and coherence times. QC has not yet, however, settled on a particular preferred device implementation technology, and indeed different NISQ prototypes implement qubits with very different physical approaches and therefore widely-varying device and machine characteristics. Our work performs a full-stack, benchmark-driven hardware-software analysis of QC systems. We evaluate QC architectural possibilities, software-visible gates, and software optimizations to tackle fundamental design questions about gate set choices, communication topology, the factors affecting benchmark performance and compiler optimizations. In order to answer key cross-technology and cross-platform design questions, our work has built the first top-to-bottom toolflow to target different qubit device technologies, including superconducting and trapped ion qubits which are the current QC front-runners. We use our toolflow, TriQ, to conduct {\em real-system} measurements on 7 running QC prototypes from 3 different groups, IBM, Rigetti, and University of Maryland. From these real-system experiences at QC's hardware-software interface, we make observations about native and software-visible gates for different QC technologies, communication topologies, and the value of noise-aware compilation even on lower-noise platforms. This is the largest cross-platform real-system QC study performed thus far; its results have the potential to inform both QC device and compiler design going forward.<br />Comment: Preprint of a publication in ISCA 2019

Details

Database :
OpenAIRE
Journal :
Proceedings of the 46th International Symposium on Computer Architecture
Accession number :
edsair.doi.dedup.....c00c291a4fa72e6cce9d0418e3185ec4
Full Text :
https://doi.org/10.1145/3307650.3322273