Crossbars of nanoscale memristors are being fabricated to serve as high-density non-volatile memory devices. The flow of current through memristor crossbars has been recently used to perform in-memory computations. However, existing approaches based on decision procedures only scale to the simplest circuits such as one-bit adders and other approaches employing decision diagrams produce large crossbar designs. In this paper, we present a new method for synthesizing compact combinational circuits using nanoscale crossbars. Our synthesis procedure exploits a symbolic representation of Boolean functions and employs model counting to guide a simulated annealing based search procedure. The proposed method creates crossbars that are up to about 6....
Beyond CMOS, new technologies are emerging to extend electronic systems with features unavailable to...
Nanoscale memristor crossbars provide a natural fabric for in-memory computing and have recently bee...
This book considers the design and development of nanoelectronic computing circuits, systems and arc...
With Moore\u27s law approaching physical limitations of transistor size, researchers have started ex...
The rise of data-intensive computational loads has exposed the processor-memory bottleneck in Von Ne...
The demise of Moore\u27s law, breakdown of Dennard Scaling, dark silicon phenomenon, process variati...
Since the fabrication of nanoscale memristors by HP Labs in 2008, there has been a sustained interes...
The advancement of semiconductor device technology over the past decades has enabled the design of i...
We are quickly reaching an impasse to the number of transistors that can be squeezed onto a single c...
We introduce a new compact in-memory computing design for implementing 8-bit addition using eight ve...
The memristor is a novel nano-scale device discovered in 2008. Memristors are basically nonvolatile ...
It's been quite a while since scientists are seeking for the ancestor of von Neumann computing archi...
We present the design and implementation of a full adder circuit that exploits the natural flow of c...
The Memristor is a newly synthesized circuit element correlating differences in electrical charge an...
International audienceIn the literature, there are few studies describing how to implement Boolean l...
Beyond CMOS, new technologies are emerging to extend electronic systems with features unavailable to...
Nanoscale memristor crossbars provide a natural fabric for in-memory computing and have recently bee...
This book considers the design and development of nanoelectronic computing circuits, systems and arc...
With Moore\u27s law approaching physical limitations of transistor size, researchers have started ex...
The rise of data-intensive computational loads has exposed the processor-memory bottleneck in Von Ne...
The demise of Moore\u27s law, breakdown of Dennard Scaling, dark silicon phenomenon, process variati...
Since the fabrication of nanoscale memristors by HP Labs in 2008, there has been a sustained interes...
The advancement of semiconductor device technology over the past decades has enabled the design of i...
We are quickly reaching an impasse to the number of transistors that can be squeezed onto a single c...
We introduce a new compact in-memory computing design for implementing 8-bit addition using eight ve...
The memristor is a novel nano-scale device discovered in 2008. Memristors are basically nonvolatile ...
It's been quite a while since scientists are seeking for the ancestor of von Neumann computing archi...
We present the design and implementation of a full adder circuit that exploits the natural flow of c...
The Memristor is a newly synthesized circuit element correlating differences in electrical charge an...
International audienceIn the literature, there are few studies describing how to implement Boolean l...
Beyond CMOS, new technologies are emerging to extend electronic systems with features unavailable to...
Nanoscale memristor crossbars provide a natural fabric for in-memory computing and have recently bee...
This book considers the design and development of nanoelectronic computing circuits, systems and arc...