Artificial Intelligence and Electrical & Electronics Engineering: AIEEE Open Access
Matching Scalar-Based Architectures in Current Superconducting Quantum Computer Chips to Loop Quantum Gravity Theory
Abstract
Chur Chin
This draft explores the alignment between scalar-based architectures in modern superconducting quantum chips, such as Google’s Willow and IBM’s Quantum Heron, and the principles of Loop Quantum Gravity (LQG). Emphasizing modularity as a necessity for scalability, we discuss challenges like wiring bottlenecks, thermal management, and entanglement maintenance. Analogies to LQG’s spin networks and fluctuating links are drawn to illustrate how quantum chips mimic discrete spacetime structures. Through comparisons and technical insights, we argue that these chips represent engineered realizations of LQG-like phenomena, paving the way for fault-tolerant quantum systems.