A1 Journal article – refereed
A cellular computing architecture for parallel memristive stateful logic




List of Authors: Eero Lehtonen, Jari Tissari, Jussi Poikonen, Mika Laiho, Lauri Koskinen
Publisher: Elsevier
Publication year: 2014
Journal: Microelectronics Journal
Volume number: 45
Issue number: 11

Abstract

We present a cellular memristive stateful logic computing architecture and demonstrate its operation with computational examples such as vectorized XOR, circular shift, and content-addressable memory. The considered architecture can perform parallel elementary memristor programming and stateful logic operations, namely implication and converse nonimplication. The topology of the crossbar structure used for computing can be dynamically reconfigured, enabling combinations of local and global operations with varying granularity. In the CMOS cells used for controlling the memristors, we apply a new type of capacitive keeper circuit, which allows for energy efficient implementation of logic operations. The correct operation of this architecture is verified by detailed HSPICE simulations for a structure containing eight memristive crossbars. This work presents a hardware platform which enables future work on parallel stateful computing.


Last updated on 2019-29-01 at 23:17