A Codesigned Integrated Photonic Electronic Neuron

Abstract: In the modern era of artificial intelligence, increasingly sophisticated artificial neural networks (ANNs) are implemented, which pose challenges in terms of execution speed and power consumption. To tackle this problem, recent research on reduced-precision ANNs opened the possibility to exploit analog hardware for neuromorphic acceleration. In this scenario, photonic-electronic engines are emerging as a short-medium term solution to exploit the high speed and inherent parallelism of optics for linear computat… Show more

“…Lower propagation losses have been reported exploiting specific process steps, with a notable 0.4 dB/cm [47]. Additionally, SOAs make this platform able to recover losses and, in neuromorphic chips, to implement diagonal matrices with gain [16]. Moreover, the non-linear behavior of SOAs can be exploited to both recover power and apply an activation function in all-optical neural networks, as demonstrated in [48].…”

“…However, the shot noise doubles as well, due to the contribution of both detectors. The total SFDR becomes [16]:…”

“…As this technology is still at an early stage of development, improvements are expected in terms of SFDR, bandwidth, ER, and V π [36]. This does not hold for the modulator length, which is likely to prevent the implementation of very complex all-optical neuromorphic circuits in this platform [16].…”

“…Among all analog approaches, photonics-based ones have the potential to meet the power consumption, bandwidth, and latency requirements for DNN deployment, being a versatile technology able to develop a notable variety of neural architectures comprising convolutional DNN, spiking neural networks, and reservoir computing [13], [14]. Leveraging the growing maturity of integration platforms, photonic integrated circuits (PICs) are widely used for analog information processing [15] with a growing number of PICs proposed for neuromorphic computing [16].…”

Analysis of Integration Technologies for High-Speed Analog Neuromorphic Photonics

“…Lower propagation losses have been reported exploiting specific process steps, with a notable 0.4 dB/cm [47]. Additionally, SOAs make this platform able to recover losses and, in neuromorphic chips, to implement diagonal matrices with gain [16]. Moreover, the non-linear behavior of SOAs can be exploited to both recover power and apply an activation function in all-optical neural networks, as demonstrated in [48].…”

“…However, the shot noise doubles as well, due to the contribution of both detectors. The total SFDR becomes [16]:…”

“…As this technology is still at an early stage of development, improvements are expected in terms of SFDR, bandwidth, ER, and V π [36]. This does not hold for the modulator length, which is likely to prevent the implementation of very complex all-optical neuromorphic circuits in this platform [16].…”

“…Among all analog approaches, photonics-based ones have the potential to meet the power consumption, bandwidth, and latency requirements for DNN deployment, being a versatile technology able to develop a notable variety of neural architectures comprising convolutional DNN, spiking neural networks, and reservoir computing [13], [14]. Leveraging the growing maturity of integration platforms, photonic integrated circuits (PICs) are widely used for analog information processing [15] with a growing number of PICs proposed for neuromorphic computing [16].…”

Analysis of Integration Technologies for High-Speed Analog Neuromorphic Photonics