Future-Proof Supercomputing with RAW: A Wireless Reconfigurable Architecture for Scalability and Performance

Abstract

As computing workloads grow increasingly complex and data-intensive, the need for adaptable, scalable, and high-performance supercomputing architectures becomes paramount. Traditional supercomputing systems, reliant on fixed wired interconnects and rigid hardware designs, are increasingly constrained by communication bottlenecks, energy inefficiencies, and a lack of flexibility. This paper introduces the concept of RAW (Reconfigurable and Wireless Architecture) as a future-proof solution designed to address these limitations. By combining the dynamic capabilities of reconfigurable hardware with the high-bandwidth, low-latency benefits of wireless communication, RAW provides a new architectural paradigm capable of meeting evolving computational demands. This work explores the architectural principles, performance benefits, and forward-looking potential of RAW in modern and future high-performance computing environments. It presents RAW as a robust and sustainable architecture capable of adapting to the fast-changing landscape of supercomputing applications.