Variability-tolerant memristor-based ratioed logic in crossbar array

Inicio | ¿Qué es? | Contacto

English | Català

Consultar RECERCAT

Por comunidades y
colecciones Por fecha Por autores Por títulos Por temas (CDU)

Consultar departamento

Por fecha Por autores Por títulos Por temas (CDU)

Estadisticas

Del documento Todo RECERCAT

Mi RECERCAT

Entrar Alertas por correo-e

Directorio de otros repositorios

RECERCAT Principal > Universitat Politècnica de Catalunya > Documents de recerca > Visualizar documento

Para acceder a los documentos con el texto completo, por favor, siga el siguiente enlace: http://hdl.handle.net/2117/130146

Título:	Variability-tolerant memristor-based ratioed logic in crossbar array
Autor/a:	Escudero López, Manuel; Rubio Sola, Jose Antonio; Moll Echeto, Francisco de Borja; Vourkas, Ioannis
Otros autores:	Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica; Universitat Politècnica de Catalunya. HIPICS - Grup de Circuits i Sistemes Integrats d'Altes Prestacions
Abstract:	The final publication is available at ACM via http://dx.doi.org/10.1145/3232195.3232213
Abstract:	The advent of the first TiO2-based memristor in 2008 revived the scientific interest both from academia and industry for this de- vice technology, with several emerging applications including that of logic circuits. Several memristive logic families have been pro- posed, each with different attributes, in the current quest for energy- efficient computing systems of the future. However, limited en- durance of memristor devices and variations (both cycle-to-cycle and device-to-device) are important parameters to be considered in the evaluation of such logic families. In this work we build upon an accurate physics-based model of a bipolar metal-oxide resistive RAM device (supporting parasitics of the device structure and va- riability of switching voltages and resistance states) and use it to show how performance of memristor-based logic circuits can de degraded owing to both variability and state-drift impact. Based on previous work on CMOS-like memristive logic circuits, we propose a memristive ratioed logic scheme, which is crossbar-compatible, i.e. suitable for in-/near-memory computing, and tolerant to device variability, while also it does not affect the device endurance since computations do not involve switching the memristor states. As a figure of merit, we compare such new logic scheme with MAGIC, focusing on the universal NOR logic gate.
Abstract:	Peer Reviewed
Materia(s):	-Àrees temàtiques de la UPC::Informàtica::Arquitectura de computadors -Àrees temàtiques de la UPC::Enginyeria elèctrica -Computer architecture -Ratioed logic gates -crossbar -memristor -logic design -variability- aware design. -Arquitectura d'ordinadors
Derechos:
Tipo de documento:	Artículo - Versión presentada Objeto de conferencia
Editor:	Institute of Electrical and Electronics Engineers (IEEE)
Compartir:

Mostrar el registro completo del ítem

Documentos relacionados

Otros documentos del mismo autor/a

On the variability-aware design of memristor-based logic circuits

Escudero López, Manuel; Vourkas, Ioannis; Rubio Sola, Jose Antonio; Moll Echeto, Francisco de Borja

Memristive logic in crossbar memory arrays: Variability-aware design for higher reliability

Escudero López, Manuel; Vourkas, Ioannis; Rubio Sola, Jose Antonio; Moll Echeto, Francisco de Borja

Experience on material implication computing with an electromechanical memristor emulator

Rubio Sola, Jose Antonio; Moll Echeto, Francisco de Borja; Escudero López, Manuel; Zuin, Stefano; Vourkas, Ioannis; Sirakoulis, Georgios

An on-line test strategy and analysis for a 1T1R crossbar memory

Escudero, Manel; Moll Echeto, Francisco de Borja; Rubio Sola, Jose Antonio; Vourkas, Ioannis

Experimental verification of memristor-based material implication NAND operation

Maestro Izquierdo, Marcos; Martin Martínez, Javier; Crespo Yepes, Albert; Escudero López, Manuel; Rodríguez Martínez, Rosana; Nafría Maqueda, Montserrat; Aymerich Humet, Xavier; Rubio Sola, Jose Antonio

Accesibilidad | Aviso legal | Política de Cookies | Documentos de uso interno

Coordinación

Patrocinio