We study the logic synthesis of emerging nanotechnologies whose elementary devices abstraction is a majority voter. We argue that synthesis tools, natively supporting the majority logic abstraction, are the technology enablers. This is because they allow designers to validate majority-based nanotechnologies on large-scale benchmarks. We describe models and data-structures for logic design with majority-based nanotechnologies and we show results of applying new synthesis algorithms and tools. We conclude that new logic synthesis methods are required to achieve a fair assessment on emerging nanotechnologies
As a new paradigm for nanoscale technologies, approximate computing deals with error tolerance in th...
In this paper we propose a novel and efficient method for majority gate-based design. The basic Bool...
Complementary symmetry (CS) Boolean logic utilizes both p- and n-type field-effect transistors (FETs...
The goal of this work is to motivate our students and enhance their ability to address newer logic b...
Since its inception, Moore\u27s Law has been a reliable predictor of computational power. This stead...
Traditional logic synthesis faces challenges of meeting the requirements demanded by the many emergi...
The recently proposed NanoMagnet based Logic (NML) represents an innovative way to assemble electron...
International audienceThe majority function ⟨xyz⟩ evaluates to true, if at least two of its Boolean ...
This work in progress reports an effort of introducing knowledge module regarding novel nano-devices...
Abstract — Spin Wave Devices (SWDs) are promising beyond-CMOS candidates. Unlike traditional charge-...
The complementary metal-oxide-semiconductor (CMOS) has been used as the main technology to design in...
Due to weaknesses in circuit synthesis methods used in today's CAD tools, the opportunities created ...
Complementary metal-oxide semiconductor (CMOS) technology has driven the electronic scenario for the...
Emerging reconfigurable nanotechnologies allow the implementation of self-dual functions with a fewe...
Concerned by the wall that Moore’s Law is expected to hit in the next decade, the integrated circuit...
As a new paradigm for nanoscale technologies, approximate computing deals with error tolerance in th...
In this paper we propose a novel and efficient method for majority gate-based design. The basic Bool...
Complementary symmetry (CS) Boolean logic utilizes both p- and n-type field-effect transistors (FETs...
The goal of this work is to motivate our students and enhance their ability to address newer logic b...
Since its inception, Moore\u27s Law has been a reliable predictor of computational power. This stead...
Traditional logic synthesis faces challenges of meeting the requirements demanded by the many emergi...
The recently proposed NanoMagnet based Logic (NML) represents an innovative way to assemble electron...
International audienceThe majority function ⟨xyz⟩ evaluates to true, if at least two of its Boolean ...
This work in progress reports an effort of introducing knowledge module regarding novel nano-devices...
Abstract — Spin Wave Devices (SWDs) are promising beyond-CMOS candidates. Unlike traditional charge-...
The complementary metal-oxide-semiconductor (CMOS) has been used as the main technology to design in...
Due to weaknesses in circuit synthesis methods used in today's CAD tools, the opportunities created ...
Complementary metal-oxide semiconductor (CMOS) technology has driven the electronic scenario for the...
Emerging reconfigurable nanotechnologies allow the implementation of self-dual functions with a fewe...
Concerned by the wall that Moore’s Law is expected to hit in the next decade, the integrated circuit...
As a new paradigm for nanoscale technologies, approximate computing deals with error tolerance in th...
In this paper we propose a novel and efficient method for majority gate-based design. The basic Bool...
Complementary symmetry (CS) Boolean logic utilizes both p- and n-type field-effect transistors (FETs...