#4341 FPGA-Based Pseudo-Qubit Architecture
#4341 FPGA-Based Pseudo-Qubit Architecture #4341 Consider implementing pseudo-qubits as individual FPGAs Using individual FPGAs to implement pseudo-qubits (or "Digital Qubits") is a fascinating systems engineering challenge that moves quantum emulation from the realm of software bottlenecks into high-speed, deterministic hardware. Given your focus on hardware-native solutions and NASA-grade reliability, here is a breakdown of how this architecture could be structured. 1. The Architectural Concept In this model, each FPGA acts as a dedicated processor for the state vector of a single qubit (or a small cluster). Instead of a probabilistic wave function, you are using high-speed digital logic to simulate the superposition and entanglement through complex-valued math and high-bandwidth interconnects. Hardware Mapping The State Engine: Each FPGA maintains two registers representing the complex coefficients alpha and beta where |alpha|^2 + |beta|^2 = 1 . The Interconnect...