NATURE is a recently developed hybrid nano/CMOS reconfigurable architecture. It consists of complementary metaloxide semiconductor (CMOS) reconfigurable logic and interconnect fabric, and carbon nanotube-based non-volatile onchip configuration memory. Compared to existing CMOSbased field-programmable gate arrays (FPGAs), NATURE increases logic density by more than an order of magnitude and offers cycle-by-cycle run-time reconfiguration capability. As opposed to some other recently proposed hybrid nano/CMOS designs, which mostly rely on the not-yet-mature self-assemblyfabrication process, NATURE is compatible with mainstream photolithography fabrication techniques. Thus, NATURE offers a commercially feasible technology with high performance,...
In recent years, several alternative devices have been proposed to deal with inherent limitation of ...
The ITRS (International Technology Roadmap for Semiconductors) has recommended that carbon-based tra...
In contrast to general-purpose programmable fabrics, such as PLAs, we develop nano-fabrics that, whi...
In Part I of this work, a hybrid nano/CMOS reconfigurable architecture, called NATURE, was described...
In order to continue technology scaling beyond CMOS, diverse nanoarchitectures have been proposed in...
Abstract — We presented a hybrid CMOS/nanotechnology reconfigurable architecture, earlier. It was ba...
We presented a hybrid CMOS/nanotechnology reconfigurable architecture (NATURE), earlier. It was base...
We presented a hybrid CMOS/nanotechnology reconfigurable architecture (NATURE), earlier. It was base...
We presented a hybrid CMOS/nanotechnology reconfigurable architecture (NATURE), earlier. It was base...
Prior work has shown that due to the overhead incurred in enabling reconfigurability, field-programm...
This report describes a preliminary evaluation of perfor-mance of a cell-FPGA-like architecture for ...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
Advances in fabrication technology of nanoscale devices such as nanowires, carbon nanotubes and mole...
Field Programmable Gate Arrays (FPGAs) are now widely adopted as hardware accelerators due to their ...
FPGAs (field programmable gate arrays) are attractive alternatives compared to ASICs (application-s...
In recent years, several alternative devices have been proposed to deal with inherent limitation of ...
The ITRS (International Technology Roadmap for Semiconductors) has recommended that carbon-based tra...
In contrast to general-purpose programmable fabrics, such as PLAs, we develop nano-fabrics that, whi...
In Part I of this work, a hybrid nano/CMOS reconfigurable architecture, called NATURE, was described...
In order to continue technology scaling beyond CMOS, diverse nanoarchitectures have been proposed in...
Abstract — We presented a hybrid CMOS/nanotechnology reconfigurable architecture, earlier. It was ba...
We presented a hybrid CMOS/nanotechnology reconfigurable architecture (NATURE), earlier. It was base...
We presented a hybrid CMOS/nanotechnology reconfigurable architecture (NATURE), earlier. It was base...
We presented a hybrid CMOS/nanotechnology reconfigurable architecture (NATURE), earlier. It was base...
Prior work has shown that due to the overhead incurred in enabling reconfigurability, field-programm...
This report describes a preliminary evaluation of perfor-mance of a cell-FPGA-like architecture for ...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
Advances in fabrication technology of nanoscale devices such as nanowires, carbon nanotubes and mole...
Field Programmable Gate Arrays (FPGAs) are now widely adopted as hardware accelerators due to their ...
FPGAs (field programmable gate arrays) are attractive alternatives compared to ASICs (application-s...
In recent years, several alternative devices have been proposed to deal with inherent limitation of ...
The ITRS (International Technology Roadmap for Semiconductors) has recommended that carbon-based tra...
In contrast to general-purpose programmable fabrics, such as PLAs, we develop nano-fabrics that, whi...