Design Exploration of Sensing Techniques in 2T-2R Resistive Ternary CAMs
Loading...
Files
Date
Journal Title
Journal ISSN
Volume Title
Publisher
Institute of Electrical and Electronics Engineers Inc.
Abstract
In-Memory Computing (IMC) is considered a great candidate to replace von-Neumann computing architecture to overcome the memory wall. Ternary content-addressable memories are the main building blocks in IMC-based architectures, such as the associative processors. In this brief, we present a juxtaposition between the capacitive and resistive sensing in 2T-2R TCAMs. A Figure of Merit, function of the dynamic range, latency, and energy, is defined to have a fair comparison between the two sensing techniques. A mathematical model for the transient behavior of both sensing schemes has been derived and verified through SPICE simulations. We studied the performance with an in-memory addition application. Results from various scenarios show that the resistive sensing outperforms the capacitive one in both theoretical and application-based contexts. © 2004-2012 IEEE.
Description
Keywords
2t-2r tcam, Analysis, Associative processors, In-memory computing, Mathematical model, Associative storage, Memory architecture, Building blockes, Design exploration, Figure of merits, Neumann computing, Sensing techniques, Spice simulations, Ternary content addressable memory, Transient behavior, Ternary content adressable memory