Core Viewpoint - MicroCloud Hologram Inc. has proposed an advanced quantum Grover algorithm that enhances dynamic multi-mode search capabilities on reconfigurable hardware, achieving significant theoretical and practical advancements in quantum computing [1][14]. Technical Innovations - The new dynamic multi-mode Grover search algorithm allows for flexible switching between multiple target modes, overcoming the limitations of traditional single-target searches [2][14]. - The introduction of dynamically variable phase control logic at the orchestration level of the quantum circuit enhances application flexibility and search efficiency [3][14]. - The redesigned circuit architecture simplifies the traditional Grover algorithm's four stages, reducing resource waste and execution delays associated with multi-target searches [4][14]. - A configurable lookup table (CLUT) enables dynamic phase modulation in the oracle design, allowing for runtime target modifications without circuit recompilation [5][14]. - The diffusion operator design employs a hierarchical control method for qubits, ensuring efficient searches under multi-mode conditions by reducing circuit redundancy [6][14]. - Hardware-level entanglement optimization strategies balance entanglement operations and wiring overhead, effectively reducing circuit latency and power consumption [7][14]. Hardware Implementation - High-performance Field Programmable Gate Arrays (FPGAs) are utilized for their reconfigurable characteristics, supporting the simulation and verification of quantum algorithms [8][14]. - The quantum state register array supports parallel storage and updates for up to 22 qubits, enhancing concurrency in quantum gate operations [9][14]. - The quantum gate control logic allows for dynamic rearrangement of quantum gate operations, facilitating multi-mode adjustments at the hardware level [10][14]. - The oracle-diffusion joint execution module merges oracle and diffusion operations, improving throughput and simulation speed through pipelinable characteristics [11][14]. - Monitoring and optimization of FPGA resource utilization have led to stable operation of 22-qubit circuits, surpassing previous simulation records [12][14]. Industry Implications - The dynamic multi-mode Grover search algorithm presents a new acceleration path for high-performance search tasks, applicable in fields such as cryptanalysis, pattern recognition, and quantum database retrieval [14]. - This technology marks a significant milestone in transitioning quantum computing from theoretical algorithms to practical systems, with potential for broader applications as research progresses [14].