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A small microring array that performs large complex-valued matrix-vector multiplication

Junwei Cheng, Yuhe Zhao, Wenkai Zhang, Hailong Zhou, Dongmei Huang, Qing Zhu, Yuhao Guo, Bo Xu, Jianji Dong, Xinliang Zhang

2022Frontiers of Optoelectronics66 citationsDOIOpen Access PDF

Abstract

As an important computing operation, photonic matrix-vector multiplication is widely used in photonic neutral networks and signal processing. However, conventional incoherent matrix-vector multiplication focuses on real-valued operations, which cannot work well in complex-valued neural networks and discrete Fourier transform. In this paper, we propose a systematic solution to extend the matrix computation of microring arrays from the real-valued field to the complex-valued field, and from small-scale (i.e., 4 × 4) to large-scale matrix computation (i.e., 16 × 16). Combining matrix decomposition and matrix partition, our photonic complex matrix-vector multiplier chip can support arbitrary large-scale and complex-valued matrix computation. We further demonstrate Walsh-Hardmard transform, discrete cosine transform, discrete Fourier transform, and image convolutional processing. Our scheme provides a path towards breaking the limits of complex-valued computing accelerator in conventional incoherent optical architecture. More importantly, our results reveal that an integrated photonic platform is of huge potential for large-scale, complex-valued, artificial intelligence computing and signal processing.

Topics & Concepts

Matrix multiplicationComputer scienceComputationMultiplier (economics)Multiplication (music)Matrix (chemical analysis)Fast Fourier transformSignal processingAlgorithmFourier transformDiscrete Fourier transform (general)Computational scienceFractional Fourier transformDigital signal processingMathematicsPhysicsFourier analysisComposite materialEconomicsMathematical analysisQuantum mechanicsComputer hardwareMaterials scienceCombinatoricsQuantumMacroeconomicsNeural Networks and Reservoir ComputingOptical Network TechnologiesPhotonic and Optical Devices