Add to ORKGAbstract—Dipole-coupled nanomagnetic logic (NML), where nanomagnets with bistable magnetization states act as binary switches and information is transferred between them via dipole-coupling and Bennett clocking, is a potential replacement for con-ventional transistor logic since magnets dissipate less energy than transistors when they switch in response to the clock. However, dipole-coupled NML is much more error-prone than transistor logic because thermal noise can easily disrupt magnetization dynamics. Here, we study a particularly energy-efficient version of dipole-coupled NML known as straintronic multiferroic logic (SML) where magnets are clocked/switched with electrically generated mechanical strain. By appropriately ‘shaping ’ the vo...
Nanomagnetic logic (NML) employs dipole-coupled nanomagnets, in order to implement nonvolatile logi...
The speed and efficiency of information processing in conventional charge based field effect transis...
Controlling magnetism on the nanoscale has attracted considerable research interest for the high pot...
Nanomagnetic logic (NML) has attracted attention during the last two decades due to its promise of h...
Among all “beyond CMOS” solutions currently under investigation, nanomagnetic logic (NML...
Nanomagnetic implementations of Boolean logic have attracted attention because of their nonvolatilit...
Straintronic logic is a promising platform for beyond Moore\u27s law computing. Using Bennett clocki...
In recent years, magnetic-based technologies, like nanomagnet logic (NML), are gaining increasing in...
The exponential improvements in speed, energy efficiency, and cost that the computer industry has re...
In recent years, magnetic-based technologies, like nanomagnet logic (NML), are gaining increasing in...
Switching the magnetization of a shape-anisotropic 2-phase multiferroic nanomagnet with voltage-gene...
PhD Thesis,“Multiferroic Nanomagnetic Logic: A Hybrid Spintronic-Straintronic paradigm for ultra-low...
The authors show that it is possible to rotate the magnetization of a multiferroic (strain-coupled t...
We studied the evolution of the magnetic state of a majority logic gate consisting of a cluster of f...
Among Field-Coupled technologies, NanoMagnet Logic (NML) is one of the most promising. Low dynamic ...
Nanomagnetic logic (NML) employs dipole-coupled nanomagnets, in order to implement nonvolatile logi...
The speed and efficiency of information processing in conventional charge based field effect transis...
Controlling magnetism on the nanoscale has attracted considerable research interest for the high pot...
Nanomagnetic logic (NML) has attracted attention during the last two decades due to its promise of h...
Among all “beyond CMOS” solutions currently under investigation, nanomagnetic logic (NML...
Nanomagnetic implementations of Boolean logic have attracted attention because of their nonvolatilit...
Straintronic logic is a promising platform for beyond Moore\u27s law computing. Using Bennett clocki...
In recent years, magnetic-based technologies, like nanomagnet logic (NML), are gaining increasing in...
The exponential improvements in speed, energy efficiency, and cost that the computer industry has re...
In recent years, magnetic-based technologies, like nanomagnet logic (NML), are gaining increasing in...
Switching the magnetization of a shape-anisotropic 2-phase multiferroic nanomagnet with voltage-gene...
PhD Thesis,“Multiferroic Nanomagnetic Logic: A Hybrid Spintronic-Straintronic paradigm for ultra-low...
The authors show that it is possible to rotate the magnetization of a multiferroic (strain-coupled t...
We studied the evolution of the magnetic state of a majority logic gate consisting of a cluster of f...
Among Field-Coupled technologies, NanoMagnet Logic (NML) is one of the most promising. Low dynamic ...
Nanomagnetic logic (NML) employs dipole-coupled nanomagnets, in order to implement nonvolatile logi...
The speed and efficiency of information processing in conventional charge based field effect transis...
Controlling magnetism on the nanoscale has attracted considerable research interest for the high pot...