HyperWaveCore®
Innovative Architecture (more soon on Foundation Mechanics)
HyperWaveCore®, an optoelectronic nodal framework, is based on Wood’s IEEE design, advancing quantum information self-programmed processing.
Optical Memory & Interconnects
Features counter circulating optical fiber memory with wave division multiplexed adaptive optical quantum information processing for self-programming.
High-Frequency Nodes
10 THz InP/GaAs – each has ten 1 THz diode circuits for uncomputable real number calculations and memory, pushing the limits of computational speed/efficiency.
Parallel Processing
Leverages automata instructions within its OS for simultaneous instruction execution across the network fostering scalable distributed efficient quantum AI processing.
Self-Programming System
The HyperWaveCore® quantum information processing optical network self-programs in realtime, adapting to new computational challenges without central control logic, enhancing resilience and performance.
Holographic
Memory Sensors
Click image to enlarge. The HyperWaveCore® Quantum Processing Node; white area is credit card sized.
HyperWaveCore® is driven by Foundation Mechanics, Wood’s physics theory of natural self-organization.
Click image to enlarge. HyperWaveCore® Quantum Processing Node sensor operation. QPNs learn/optimize to the “Foundation Point” equilibrium.