Print Email Facebook Twitter Quantum Control Architecture Title Quantum Control Architecture: Bridging the Gap between Quantum Software and Hardware Author Fu, X. (TU Delft FTQC/Bertels Lab; TU Delft Computer Engineering) Contributor Bertels, K.L.M. (promotor) DiCarlo, L. (promotor) Degree granting institution Delft University of Technology Date 2018-12-11 Abstract Quantum computers can accelerate solving some problems which are inefficiently solved by classical computers, such as quantum chemistry simulation. To date, quantum computer engineering has focused primarily at opposite ends of the required system stack: devising high-level programming languages and compilers to describe and optimize quantum algorithms, and building reliable low-level quantum hardware. Relatively little attention has been given to using the compiler output to fully control the operations on current experimental quantum processors.Bridging this gap, we propose and build a prototype of flexible control microarchitecture, named QuMA, supporting quantum-classical mixed code fora superconducting quantum processor. The microarchitecture is based on three core elements: (i) a codeword-based event control scheme, (ii) queue-based precise event timing control, and (iii) a flexible multilevel instruction decoding mechanism for control. Subject Quantum Instruction Set ArchitectureQuantum Control MicroarchitectureQuantum Architecture Simulator To reference this document use: https://doi.org/10.4233/uuid:8205cc34-30df-45f0-b6eb-8081bdb765b8 ISBN 978-94-028-1305-0 Part of collection Institutional Repository Document type doctoral thesis Rights © 2018 X. Fu Files PDF Quantum_Control_Architect ... ang_Fu.pdf 9.33 MB Close viewer /islandora/object/uuid:8205cc34-30df-45f0-b6eb-8081bdb765b8/datastream/OBJ/view