Multi-context architectures like NATURE enable low-power applications to leverage fast context switching for improved energy efficiency and lower area footprint. The NATURE architecture incorporates 16-bit reconfigurable DSP blocks for accelerating arithmetic computations, however, their fixed precision prevents efficient re-use in mixed-width arithmetic circuits. This paper presents an improved DSP block architecture for NATURE, with native support for temporal folding and run-time fracturability. The proposed DSP block can compute multiple sub-width operations in the same clock cycle and can dynamically switch between sub-width and full-width operations in different cycles. The NanoMap tool for mapping circuits onto NATURE is extended to ...
We propose a new DSP block for use in modern high-performance FPGAs. Current DSP blocks contain fixe...
CS representation continues to be broadly accustomed to design fast arithmetic circuits because of i...
In Part I of this work, a hybrid nano/CMOS reconfigurable architecture, called NATURE, was described...
Field Programmable Gate Arrays (FPGAs) are now widely adopted as hardware accelerators due to their ...
Resource sharing in the mapping of an algorithm to an architecture allows the same resource to be sc...
Resource sharing in the mapping of an algorithm to an architecture allows the same resource to be sc...
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...
For complex datapaths, resource sharing can help reduce area consumption. Traditionally, resource sh...
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...
: A multiplier is one of the key hardware blocks in most digital signal processing (DSP) systems. Ty...
This paper shows how temporal parallelism has an important role in the power dissipation reduction i...
We propose a new DSP block for use in modern high-performance FPGAs. Current DSP blocks contain fixe...
CS representation continues to be broadly accustomed to design fast arithmetic circuits because of i...
In Part I of this work, a hybrid nano/CMOS reconfigurable architecture, called NATURE, was described...
Field Programmable Gate Arrays (FPGAs) are now widely adopted as hardware accelerators due to their ...
Resource sharing in the mapping of an algorithm to an architecture allows the same resource to be sc...
Resource sharing in the mapping of an algorithm to an architecture allows the same resource to be sc...
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...
For complex datapaths, resource sharing can help reduce area consumption. Traditionally, resource sh...
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...
: A multiplier is one of the key hardware blocks in most digital signal processing (DSP) systems. Ty...
This paper shows how temporal parallelism has an important role in the power dissipation reduction i...
We propose a new DSP block for use in modern high-performance FPGAs. Current DSP blocks contain fixe...
CS representation continues to be broadly accustomed to design fast arithmetic circuits because of i...
In Part I of this work, a hybrid nano/CMOS reconfigurable architecture, called NATURE, was described...