The modern computing paradigm is experiencing many revolutions from almost every aspects:the introduction of emerging memories like spintronic memory and resistive memory dramatically as well as quantum computing chan...The modern computing paradigm is experiencing many revolutions from almost every aspects:the introduction of emerging memories like spintronic memory and resistive memory dramatically as well as quantum computing change the design of memory hierarchy and interface;new applications such as artificial intelligence and deep learning trigger wide adaptation of deep neural network accelerators and neuromorphic computing circuits;new computing models induced by these applications such as in-memory computing also inspires the corresponding circuit-and architecturelevel practices.展开更多
文摘The modern computing paradigm is experiencing many revolutions from almost every aspects:the introduction of emerging memories like spintronic memory and resistive memory dramatically as well as quantum computing change the design of memory hierarchy and interface;new applications such as artificial intelligence and deep learning trigger wide adaptation of deep neural network accelerators and neuromorphic computing circuits;new computing models induced by these applications such as in-memory computing also inspires the corresponding circuit-and architecturelevel practices.
