The Reliability Issue in ReRam-based CIM Architecture for SNN: A Survey (2412.10389v1)

Abstract: The increasing complexity and energy demands of deep learning models have highlighted the limitations of traditional computing architectures, especially for edge devices with constrained resources. Spiking Neural Networks (SNNs) offer a promising alternative by mimicking biological neural networks, enabling energy-efficient computation through event-driven processing and temporal encoding. Concurrently, emerging hardware technologies like Resistive Random Access Memory (ReRAM) and Compute-in-Memory (CIM) architectures aim to overcome the Von Neumann bottleneck by integrating storage and computation. This survey explores the intersection of SNNs and ReRAM-based CIM architectures, focusing on the reliability challenges that arise from device-level variations and operational errors. We review the fundamental principles of SNNs and ReRAM crossbar arrays, discuss the inherent reliability issues in both technologies, and summarize existing solutions to mitigate these challenges.