THE ROLE OF QUANTUM COMPUTING IN ADVANCING SCALABLE METAVERSE ARCHITECTURES: CHALLENGES AND OPPORTUNITIES

Abstract

The metaverse technology has gained quite a lot of hype lately on the reports that the big businesses want to create Metaverse settings for various applications including the game, assets, the virtual meetings and so on. Metaverse based apps are critical in guaranteeing fast and secure connection as well as integrated high-end technologies such as; virtual reality (VR), augmented reality (AR) and mixed reality (MR). Current hardware and software constraints in the Metaverse have to be addressed right away to be applied today. Problems with security, privacy, connection and complexity of computing are the major causes that slow down the formation of Metaverse. The exceptionally fast capabilities of quantum technology allow it to produce efficient scalable computing outputs at fast speeds. In the article we analyze quantum implementation methods that will work within the Metaverse environment thoroughly. Our study features a case analysis about implementing performance improvements in Metaverse apps through the combination of hybrid quantum kernel-based processing with optimized statistical methods feeding outputs into traditional supervised vector machines. The analysis presented here establishes fundamental research on Metaverse applications grounded in quantum mechanics principles for future investigations.