Estimating the Resources for Quantum Computation with the QuRE Toolbox
Abstract
This report describes the methodology employed by the Quantum Resource Estimator (QuRE) toolbox to quantify the resources needed to run quantum algorithms on quan- tum computers with realistic properties. The QuRE toolbox estimates a number of quantities including the number of physical qubits required to run a specified quantum algorithm, the execution time on each of the specified physical technologies, the probability of success of the computation, as well as physical gate counts with a breakdown by gate type. Estimates are performed for error-correcting codes representing codes from both the concatenated and topological code families. Our work, which provides these resource estimates for a cross product of seven quantum algorithms, six physical machine descriptions, several quantum control protocols, and four error-correcting codes, represents the most comprehensive resource estimation effort in the field of quantum computation to date.
Document Details
- Document Type
- Technical Report
- Publication Date
- May 31, 2013
- Accession Number
- ADA586604
Entities
People
- Arvin Faruque
- Ching-Yi Lai
- Frederic Chong
- Gerardo Paz
- John D. Kubiatowicz
- Martin Suchara
Organizations
- University of California, Berkeley