Continued miniaturization of semiconductor technology to nanoscale dimensions has elevated reliability challenges of high density Field-Programmable Gate Arrays (FPGA) devices due to increasing impacts of Process Variation (PV). The issue is addressed herein using a systematic bottom-up analysis by determining the relative influence of PV on alternate design realizations of FPGA logic blocks. Results for conventional design structures are obtained through detailed SPICE simulations and related to structural risk features. Namely, Transmission Gate (TG) and Pass Transistor (PT) based MUX architectures for realizing Look-Up-Tables (LUTs) are compared. At threshold voltage variation σVth = 14%, PT-based designs that meet the 95% yield objectiv...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
For field-programmable gate arrays (FPGAs), fine-grained pre-computed alternative configurations, co...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
Technology scaling improves the energy, performance, and area of the digital circuits. With further ...
iii As feature sizes scale toward atomic limits, parameter variation continues to increase, leading ...
Abstract—Negative bias temperature instability (NBTI) signif-icantly affects nanoscale integrated ci...
Chip design in the nanometer regime is becoming increasingly difficult due to process variations. AS...
ABSTRACT Chip design in the nanometer regime is becoming increasingly difficult due to process varia...
As transistor dimensions are scaled down in accordance with Moore's Law to provide for improved perf...
Current advanced transistor architectures, such as FinFETs and (stacked) nanowires and nanosheets, e...
Efficient power management is becoming increasingly important with the rapid growth of portable, wir...
The mitigation of process variability becomes paramount as chip fabrication advances deeper into the...
Integrated circuit design is limited by manufacturability. As devices scale down, sensitivity to pro...
Parameter variations, which are increasing along with advances in process technologies, affect both...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
For field-programmable gate arrays (FPGAs), fine-grained pre-computed alternative configurations, co...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
Technology scaling improves the energy, performance, and area of the digital circuits. With further ...
iii As feature sizes scale toward atomic limits, parameter variation continues to increase, leading ...
Abstract—Negative bias temperature instability (NBTI) signif-icantly affects nanoscale integrated ci...
Chip design in the nanometer regime is becoming increasingly difficult due to process variations. AS...
ABSTRACT Chip design in the nanometer regime is becoming increasingly difficult due to process varia...
As transistor dimensions are scaled down in accordance with Moore's Law to provide for improved perf...
Current advanced transistor architectures, such as FinFETs and (stacked) nanowires and nanosheets, e...
Efficient power management is becoming increasingly important with the rapid growth of portable, wir...
The mitigation of process variability becomes paramount as chip fabrication advances deeper into the...
Integrated circuit design is limited by manufacturability. As devices scale down, sensitivity to pro...
Parameter variations, which are increasing along with advances in process technologies, affect both...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
For field-programmable gate arrays (FPGAs), fine-grained pre-computed alternative configurations, co...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...