The rise of data-intensive computational loads has exposed the processor-memory bottleneck in Von Neumann architectures and has reinforced the need for in-memory computing using devices such as memristors. Existing literature on computing Boolean formula using sneak-paths in nanoscale memristor crossbars has only focussed on short Boolean formula. There are two open questions: (i) Can one synthesize sneak-path based crossbars for computing large Boolean formula? (ii) What is the size of a memristor crossbar that can compute a given Boolean formula using sneak paths? In this paper, we make progress on both these problems. First, we show that the number of rows and columns required to compute a Boolean formula is at most linear in the size of...
International audienceIn the literature, there are few studies describing how to implement Boolean l...
There has been a surge of interest in the effective storage and computation of data using nanoscale ...
Nonvolatile stateful logic computing in memristors is a promising paradigm with which to realize the...
Since the fabrication of nanoscale memristors by HP Labs in 2008, there has been a sustained interes...
With Moore\u27s law approaching physical limitations of transistor size, researchers have started ex...
Memristor-based nano-crossbar computing is a revolutionary computing paradigm that does away with th...
Crossbars of nanoscale memristors are being fabricated to serve as high-density non-volatile memory ...
The demise of Moore\u27s law, breakdown of Dennard Scaling, dark silicon phenomenon, process variati...
We are quickly reaching an impasse to the number of transistors that can be squeezed onto a single c...
The advancement of semiconductor device technology over the past decades has enabled the design of i...
Alternatives to CMOS logic circuit implementations are under research for future scaled electronics....
Boolean matrix multiplication (BMM) is a fundamental problem with applications in graph theory, grou...
The continued scaling of the CMOS device has been largely responsible for the increase in computatio...
The Memristor is a newly synthesized circuit element correlating differences in electrical charge an...
The realization of logic operations within passive crossbar memory arrays is a promising approach to...
International audienceIn the literature, there are few studies describing how to implement Boolean l...
There has been a surge of interest in the effective storage and computation of data using nanoscale ...
Nonvolatile stateful logic computing in memristors is a promising paradigm with which to realize the...
Since the fabrication of nanoscale memristors by HP Labs in 2008, there has been a sustained interes...
With Moore\u27s law approaching physical limitations of transistor size, researchers have started ex...
Memristor-based nano-crossbar computing is a revolutionary computing paradigm that does away with th...
Crossbars of nanoscale memristors are being fabricated to serve as high-density non-volatile memory ...
The demise of Moore\u27s law, breakdown of Dennard Scaling, dark silicon phenomenon, process variati...
We are quickly reaching an impasse to the number of transistors that can be squeezed onto a single c...
The advancement of semiconductor device technology over the past decades has enabled the design of i...
Alternatives to CMOS logic circuit implementations are under research for future scaled electronics....
Boolean matrix multiplication (BMM) is a fundamental problem with applications in graph theory, grou...
The continued scaling of the CMOS device has been largely responsible for the increase in computatio...
The Memristor is a newly synthesized circuit element correlating differences in electrical charge an...
The realization of logic operations within passive crossbar memory arrays is a promising approach to...
International audienceIn the literature, there are few studies describing how to implement Boolean l...
There has been a surge of interest in the effective storage and computation of data using nanoscale ...
Nonvolatile stateful logic computing in memristors is a promising paradigm with which to realize the...