为光通信高效实现基于 SNN 的优化 DFE

arXiv - EE - Signal Processing Pub Date : 2024-09-13 DOI:arxiv-2409.08698

Mohamed Moursi, Jonas Ney, Bilal Hammoud, Norbert Wehn

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摘要

通信系统对更高的数据传输速率的需求与日俱增，这就更加需要能够提供更高性能的高级非线性均衡器。最近，人工神经网络（ANN）被认为是高级非线性均衡器的可行候选方案，因为它们的性能优于传统方法。然而，人工神经网络计算复杂，因此耗电量大。尖峰神经网络（SNN）作为 ANN 的节能替代品开始受到关注。最近的研究证明，SNN 在这项任务中的表现优于 ANN。在这项工作中，我们探索了基于 SNN 的决策反馈均衡器（DFE）的设计空间，以降低其计算复杂性，从而在现场可编程门阵列（FPGA）上高效实现。我们的研究结果证明，在吞吐量大致相同的情况下，它比基于 ANN 的 DFE 通信性能更高，能效也高出 25 倍。

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Efficient FPGA Implementation of an Optimized SNN-based DFE for Optical Communications

The ever-increasing demand for higher data rates in communication systems intensifies the need for advanced non-linear equalizers capable of higher performance. Recently artificial neural networks (ANNs) were introduced as a viable candidate for advanced non-linear equalizers, as they outperform traditional methods. However, they are computationally complex and therefore power hungry. Spiking neural networks (SNNs) started to gain attention as an energy-efficient alternative to ANNs. Recent works proved that they can outperform ANNs at this task. In this work, we explore the design space of an SNN-based decision-feedback equalizer (DFE) to reduce its computational complexity for an efficient implementation on field programmable gate array (FPGA). Our Results prove that it achieves higher communication performance than ANN-based DFE at roughly the same throughput and at 25X higher energy efficiency.

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arXiv - EE - Signal Processing

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