Domain Magnet Logic (DML): A new approach to magnetic circuits

In the post CMOS scenario NanoMagnets Logic (NML) has attracted a considerable attention due to its characteristic features. The ability to combine logic and memory in the same device, and a possible low power consumption, allows NML to overcome some of the CMOS intrinsic limitations. However, consi...

Full description

Bibliographic Details
Published in:14th IEEE International Conference on Nanotechnology
Main Authors: CAIRO, FABRIZIO, VACCA, MARCO, GRAZIANO, MARIAGRAZIA, ZAMBONI, Maurizio
Other Authors: Cairo, Fabrizio, Vacca, Marco, Graziano, Mariagrazia, Zamboni, Maurizio
Format: Conference Object
Language:English
Published: IEEE - INST ELECTRICAL ELECTRONICS ENGINEERS INC 2014
Subjects:
CMOS logic circuit
adder
magnetic logic
magnetoelectronic
nanomagnetic
DML
NML circuit
Pentium-4 tree-adder
baptized domain magnet logic
circuit latency
interconnection wire
low power consumption
magnetic circuit
physical level simulation
post CMOS scenario nanomagnet logic
power dissipation
word length 32 bit
Clock
Integrated circuit interconnection
Magnetic domain wall
Magnetic domain
Magnetostatics
Online Access:http://hdl.handle.net/11583/2588523
https://doi.org/10.1109/NANO.2014.6968053
Description
Summary:In the post CMOS scenario NanoMagnets Logic (NML) has attracted a considerable attention due to its characteristic features. The ability to combine logic and memory in the same device, and a possible low power consumption, allows NML to overcome some of the CMOS intrinsic limitations. However, considering realistic circuit implementations where both theoretical and technological constraints are kept into account, performance could not be reduced with respect to the expectations. The reason lies in the fact that a huge area is wasted with interconnection wires. In this paper we propose a new approach to the conception of magnetic circuits, that we have baptized Domain Magnet Logic (DML). We embed domain walls in NML circuits in a technologically compatible solution, with the aim of improving interconnection performance. We have validated our solution with physical level simulations, and we show the improvements designing as a case study a complex and realistic circuit, a 32 bit Pentium-4 tree-adder. DML logic allows to reduce the circuit area up to 50%, with consequent dramatic improvements on circuit latency and power dissipation. This is a very good result itself, that represents just the tip of the iceberg of the amazing possibilities opened by this innovative approach.

Similar Items