Quantum Computing Architectures for Future Reconfigurable Systems

Abstract

At the forefront of technological innovation, quantum computing holds the 
potential to bring computational power to cryptography, materials science 
and beyond. In this new frontier we are moving to, the architectures support
ing quantum systems are changing rapidly with an eye towards these goals 
of scalability, error correction and reconfigurability. Turning the pages of this 
article we explore the penetration of cutting edge quantum computing archi
tectures in the future of reconfigurable systems and practical quantum appli
cations. With researchers and engineers working to surmount the byzantine 
issues of quantum systems, it is very much a time of great change, a time 
when the landscape of quantum computing is in transformative phase. They 
are huge hurdles including noise mitigation and qubit stability. But new archi
tectural approaches are evolving which promise to glimpse what computing 
on a quantum computer might look like in the future, as reconfigurable and 
self made fashion quantum computers dynamically reconfigure to attack a 
wide spectrum of difficult problems.