Abstract
In-memory computing (IMC)-based hardware reduces latency and energy consumption for compute-intensive machine learning (ML) applications. Several SRAM/RRAM-based IMC hardware architectures to accelerate ML applications have been proposed in the literature. However, crossbar-based IMC hardware poses several design challenges. We first discuss the different ML algorithms recently adopted in the literature. We then discuss the hardware implications of ML algorithms. Next, we elucidate the need for IMC architecture and the different components within a conventional IMC architecture. After that, we introduce the need for 2.5D or chiplet-based architectures. We then discuss the different benchmarking simulators proposed for monolithic IMC architectures. Finally, we describe an end-to-end chiplet-based IMC benchmarking simulator, SIAM.
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