Perspectives on Emerging Computation-in-Memory Paradigms

Rai, Shubham; Liu, Mengyun; Gebregiorgis, A.B.; Bhattacharjee, Debjyoti; Chakrabarty, Krishnendu; Hamdioui, S.; Chattopadhyay, Anupam; Trommer, Jens; Kumar, Akash

Perspectives on Emerging Computation-in-Memory Paradigms

Conference paper (2021)

Authors

Shubham Rai Technische Universität Dresden

Mengyun Liu Duke University

A.B. Gebregiorgis Computer Engineering -

Debjyoti Bhattacharjee IMEC

Krishnendu Chakrabarty Duke University

S. Hamdioui Quantum & Computer Engineering

Anupam Chattopadhyay Nanyang Technological University

Jens Trommer Namlab gGmbH

Akash Kumar Technische Universität Dresden

Research Group

Computer Engineering () (TU Delft)

Memory management Fault tolerance Memristors Fault tolerant systems Computational efficiency Neuromorphics Integrated circuit reliability

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Published Date

2021

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Quantum & Computer Engineering

Research Group

Computer Engineering

Abstract

The traditional Von-Neumann architecture is reaching its limits and finding it difficult to cope up with the ever-increasing demands of modern workloads like artificial intelligence. This demand has fueled the search of technologies that can mimic human brain to efficiently combine both memory and computation within a single device. In this work, we present the state-of-the-art research in the domain of computation-in-memory. In particular, we take a look at memristors and its widespread application in neuromorphic computation. We introduce ReRAMs in terms of their novel computing paradigms and present ReRAM-specific design flows. We address the various circuit opportunities and challenges related to reliability and fault tolerance associated with them. Another high-potential candidate to leverage memory and computation from a single device is Ferroelectric Field-effect Transistor (FeFET). Here we present a co-integration of such FeFETs with another emerging nanotechnology concept, called Reconfigurable Field Effect Transistor (RFET) and discuss the impact of the higher amount of states provided by this combination.

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