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Silicon Photonics Codesign for Deep Learning

Qixiang Cheng, Jihye Kwon, Madeleine Glick, Meisam Bahadori, Luca P. Carloni, Keren Bergman

2020Proceedings of the IEEE91 citationsDOI

Abstract

Deep learning is revolutionizing many aspects of our society, addressing a wide variety of decision-making tasks, from image classification to autonomous vehicle control. Matrix multiplication is an essential and computationally intensive step of deep-learning calculations. The computational complexity of deep neural networks requires dedicated hardware accelerators for additional processing throughput and improved energy efficiency in order to enable scaling to larger networks in the upcoming applications. Silicon photonics is a promising platform for hardware acceleration due to recent advances in CMOS-compatible manufacturing capabilities, which enable efficient exploitation of the inherent parallelism of optics. This article provides a detailed description of recent implementations in the relatively new and promising platform of silicon photonics for deep learning. Opportunities for multiwavelength microring silicon photonic architectures codesigned with field-programmable gate array (FPGA) for pre- and postprocessing are presented. The detailed analysis of a silicon photonic integrated circuit shows that a codesigned implementation based on the decomposition of large matrix-vector multiplication into smaller instances and the use of nonnegative weights could significantly simplify the photonic implementation of the matrix multiplier and allow increased scalability. We conclude this article by presenting an overview and a detailed analysis of design parameters. Insights for ways forward are explored.

Topics & Concepts

PhotonicsComputer scienceDeep learningComputer architectureMatrix multiplicationScalabilitySilicon photonicsField-programmable gate arrayEfficient energy useArtificial neural networkElectronic engineeringComputer engineeringArtificial intelligenceComputational scienceEmbedded systemEngineeringElectrical engineeringMaterials sciencePhysicsOptoelectronicsQuantum mechanicsQuantumDatabaseNeural Networks and Reservoir ComputingOptical Network TechnologiesPhotonic and Optical Devices
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