MicroCloud Hologram Inc. (NASDAQ: HOLO) announced the development of a hierarchical IP core generator for implementing quantum Fourier transform operations on FPGA hardware. The technology creates digital qubits that express quantum wave function properties through digital logic structures rather than physical quantum properties.

The company's system generates VHDL modules for quantum gate operations and measurement processes, creating what it describes as a repeatable quantum computing execution environment on FPGA chips. The technology focuses on the quantum Fourier transform, which serves as a foundational operator in quantum computing algorithms including Shor's factorization algorithm.

The generator operates through three layers: an algorithm abstraction layer that processes quantum algorithm descriptions, an intermediate layer that maps quantum gates to logic modules, and a hardware implementation layer. The system includes automated test circuit generation to verify quantum state evolution results against theoretical quantum Fourier transform outcomes.

MicroCloud's approach uses complexity estimation to determine FPGA resource consumption across different qubit scales, including lookup tables, flip-flops, DSP units, and memory resources. The company states this enables controlled trade-offs between performance, precision, and resource usage.

The technology generates parameterized VHDL code that can support different scales and precision requirements within a single framework. MicroCloud indicates this reduces development time compared to manual VHDL modifications for each quantum circuit scale change.

The Shenzhen-based company provides holographic technology services including LiDAR solutions and digital twin technology. MicroCloud reports cash reserves exceeding 3 billion RMB and plans to invest more than $400 million in quantum computing, blockchain development, and artificial intelligence technologies.