The exponential growth of global data traffic, driven by AI, Digital Twins, and Swarm Robotics, has exposed the fundamental limitations of current storage-based communication protocols. This paper proposes a novel paradigm, Hyper-Spatial Teleportation (HST), which replaces the transmission of physical data bits with mathematical coordinates in a high-dimensional lattice space defined by Large Primes (e. g. , Mersenne Primes). By transmitting only coordinate vectors and reconstructing the original data in real-time at the edge using the HSKG (Hyper-Spatial Kernel Generator) engine, we achieve a theoretical compression ratio of 10⁶: 1 and near-zero latency. This stateless architecture fundamentally resolves data sovereignty issues, provides quantum-resistant security, and offers a breakthrough solution to the "Memory Wall" bottleneck in next-generation AI semiconductors. Keywords: Storage-less Computing, Large Prime Cryptography, Digital Twin, Swarm Robotics, Zero-Latency Streaming, Memory Wall Solution. Related Patents: KR 10-2026-0026001 (Core Technology) KR 10-2026-0025997 (Service Application) Priority: KR 10-2026-0009964 (2026. 01. 19)
Min Ho Jung (Mon,) studied this question.