Advances in fabrication technology of nanoscale devices such as nanowires, carbon nanotubes and molecular switches provide new opportunities for implementing cluster-based FPGAs. Extensive research is needed to evaluate area and performance of FPGAs made from these devices and com-pare with their CMOS counterparts. In this work, we propose a hybrid FPGA that uses nanoscale clusters with a functionality similar to the clusters of traditional CMOS FPGAs. The proposed cluster is constructed by a crossbar of nanowires and can be configured to implement the required LUTs and intracluster MUXes. A CMOS interface is also proposed to provide configuration and memory elements for the nanoscale cluster. In the proposed architecture, inter-cluster rou...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
Abstract — We presented a hybrid CMOS/nanotechnology reconfigurable architecture, earlier. It was ba...
grantor: University of TorontoAs process geometries shrink into the deep-submicron region,...
In this paper we propose a hybrid FPGA using nanoscale clusters with an architecture similar to clus...
This report describes a preliminary evaluation of perfor-mance of a cell-FPGA-like architecture for ...
NATURE is a recently developed hybrid nano/CMOS reconfigurable architecture. It consists of compleme...
In Part I of this work, a hybrid nano/CMOS reconfigurable architecture, called NATURE, was described...
Field Programmable Gate Arrays (FPGAs) are becoming increasingly popular. With their regular structu...
FPGAs (field programmable gate arrays) are attractive alternatives compared to ASICs (application-s...
The dawn of the silicon nanoelectronics was seen when the physical gate length of high-performance o...
FPGAs (field programmable gate arrays) are attractive alternatives compared to ASICs (application-sp...
International audienceThis paper presents an improved interconnect network for Mesh of Clusters (MoC...
This thesis is a study on designing, understanding and performance benchmarking of FPGA (Field Progr...
In order to continue technology scaling beyond CMOS, diverse nanoarchitectures have been proposed in...
Abstract—Emerging nanoscale devices hold tremendous po-tential in terms of integration density, low ...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
Abstract — We presented a hybrid CMOS/nanotechnology reconfigurable architecture, earlier. It was ba...
grantor: University of TorontoAs process geometries shrink into the deep-submicron region,...
In this paper we propose a hybrid FPGA using nanoscale clusters with an architecture similar to clus...
This report describes a preliminary evaluation of perfor-mance of a cell-FPGA-like architecture for ...
NATURE is a recently developed hybrid nano/CMOS reconfigurable architecture. It consists of compleme...
In Part I of this work, a hybrid nano/CMOS reconfigurable architecture, called NATURE, was described...
Field Programmable Gate Arrays (FPGAs) are becoming increasingly popular. With their regular structu...
FPGAs (field programmable gate arrays) are attractive alternatives compared to ASICs (application-s...
The dawn of the silicon nanoelectronics was seen when the physical gate length of high-performance o...
FPGAs (field programmable gate arrays) are attractive alternatives compared to ASICs (application-sp...
International audienceThis paper presents an improved interconnect network for Mesh of Clusters (MoC...
This thesis is a study on designing, understanding and performance benchmarking of FPGA (Field Progr...
In order to continue technology scaling beyond CMOS, diverse nanoarchitectures have been proposed in...
Abstract—Emerging nanoscale devices hold tremendous po-tential in terms of integration density, low ...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
Abstract — We presented a hybrid CMOS/nanotechnology reconfigurable architecture, earlier. It was ba...
grantor: University of TorontoAs process geometries shrink into the deep-submicron region,...