Simple Quantum Computing with Quantum Bits Decoupled in Time and Space Implemented in Silicon and Coupled Back as Analog Signals and Waves Processed by Analog Computer

Abstract

We propose using available silicon technology for simple implementation of quantum computing by decoupling its quantum bits in time and space then coupled back as analog signals and waves to present all possible superposition values of Q-Bits. Broadcasting waves allows Q-Bits to be available in space at different points at the same time creating an additional dimension for Q-Bits. The complexity of decoupling Q-Bits in space and time is evaluated and an optimized decoupling in both time and space is presented. We suggest using an analog computer to process the Q-bits implemented as analog signals or waves. The analog computer needs to be reconfigurable by a digital computer for initialization and reconfiguration to run quantum applications.