|Future Computing Platform Design: A Cross-Layer Design Approach
|Computing platform;Cross-layer design;Data movements;Data persistence;Neuromorphic computing;Non-idealities;Paradigm shifts;Resistive memory;Digital storage
|Proceedings -Design, Automation and Test in Europe, DATE
Future computing platforms are facing a paradigm shift with the emerging resistive memory technologies. First, they offer fast memory accesses and data persistence in a single large-capacity device deployed on the memory bus, blurring the boundary between memory and storage. Second, they enable computing-in-memory for neuromorphic computing to mitigate costly data movements. Due to the non-ideality of these resistive memory devices at the moment, we envision that cross-layer design is essential to bring such a system into practice. In this paper, we showcase a few examples to demonstrate how cross-layer design can be developed to fully exploit the potential of resistive memories and accelerate its adoption for future computing platforms. ? 2021 EDAA.
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