Quantum computation is on the verge of delivering extraordinary advancements, yet current systems are early in development. Research is focusing on simulating quantum behavior using classical hardware, specifically through FPGA-based digital quantum coprocessors that approximate quantum operations. This approach aligns with the evolution of computing architectures, moving from Von Neumann systems to multi-core processors and heterogeneous computing. The push for hybrid systems integrates classical CPUs with quantum accelerators, reflecting a similar evolution in quantum computing, emphasizing capabilities offered by digital quantum coprocessors in enhancing research.
A digital quantum coprocessor is a specialized chip engineered to execute quantum-inspired algorithms on FPGA, simulating quantum behavior without actual quantum hardware.
Quantum computing follows a similar trajectory as prior computing architectures, evolving towards heterogeneous systems that integrate classical and quantum processing capabilities.
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