We presented a hybrid CMOS/nanotechnology reconfigurable architecture (NATURE), earlier. It was based on CMOS logic and nano RAMs. It used the concept of temporal logic folding and fine-grain (e.g., cycle-level) dynamic reconfiguration to increase logic density by an order of magnitude. This dynamic reconfiguration is done intra-circuit rather than inter-circuit. However, the previous design of NATURE required fine-grained distribution of nano RAMs throughout the field-programmable gate array (FPGA) architecture. Since the fabrication process of nano RAMs is not mature yet, this prevents immediate exploitation of NATURE. In this paper, we present a NATURE architecture that is based on CMOS logic and CMOS SRAMs that are used for on-chip dyna...
Cell stability and area are among the major concerns in SRAM cell designs. This paper compares the p...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
As the CMOS technology continues to scale down, power dissipation and robustness to leakage and proc...
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...
Abstract — We presented a hybrid CMOS/nanotechnology reconfigurable architecture, earlier. It was ba...
In order to continue technology scaling beyond CMOS, diverse nanoarchitectures have been proposed in...
Prior work has shown that due to the overhead incurred in enabling reconfigurability, field-programm...
In Part I of this work, a hybrid nano/CMOS reconfigurable architecture, called NATURE, was described...
NATURE is a recently developed hybrid nano/CMOS reconfigurable architecture. It consists of compleme...
This report describes a preliminary evaluation of perfor-mance of a cell-FPGA-like architecture for ...
Yang, ChengmoField Programmable Gate Arrays (FPGAs) are programmable logic blocks based circuit dev...
Field Programmable Gate Arrays (FPGAs) are now widely adopted as hardware accelerators due to their ...
During the last three decades, reconfigurable logic has been growing steadily and can now be found i...
With rising demands for high-performance computing and design flexibility of post-fabrication system...
Cell stability and area are among the major concerns in SRAM cell designs. This paper compares the p...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
As the CMOS technology continues to scale down, power dissipation and robustness to leakage and proc...
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...
Abstract — We presented a hybrid CMOS/nanotechnology reconfigurable architecture, earlier. It was ba...
In order to continue technology scaling beyond CMOS, diverse nanoarchitectures have been proposed in...
Prior work has shown that due to the overhead incurred in enabling reconfigurability, field-programm...
In Part I of this work, a hybrid nano/CMOS reconfigurable architecture, called NATURE, was described...
NATURE is a recently developed hybrid nano/CMOS reconfigurable architecture. It consists of compleme...
This report describes a preliminary evaluation of perfor-mance of a cell-FPGA-like architecture for ...
Yang, ChengmoField Programmable Gate Arrays (FPGAs) are programmable logic blocks based circuit dev...
Field Programmable Gate Arrays (FPGAs) are now widely adopted as hardware accelerators due to their ...
During the last three decades, reconfigurable logic has been growing steadily and can now be found i...
With rising demands for high-performance computing and design flexibility of post-fabrication system...
Cell stability and area are among the major concerns in SRAM cell designs. This paper compares the p...
An early evaluation in terms of circuit design is essential in order to assess the feasibility and p...
As the CMOS technology continues to scale down, power dissipation and robustness to leakage and proc...