Application specific hardware implementations are an increasingly popular way of reducing execution time and power consumption in embedded systems. This application specific hardware typically consumes a small fraction of the execution time and power consumption that the equivalent software code would require. Modern electronic design automation (EDA) tools can be used to apply a variety of transformations to hardware blocks in an effort to achieve additional performance and power savings. A number of such transformations require a tool with knowledge of the designs' timing characteristics. This thesis describes a static timing analyzer and two timing analysis based design automation tools. The static timing analyzer estimates the worst-cas...
The field of modern control theory and the systems used to implement these controllers have develope...
Adaptive circuit design is a power-efficient approach to handle variations. Compared to conventional...
Timing guardbands act as a barrier protecting conventional processors from circuit-level phenomena l...
Application specific hardware implementations are an increasingly popular way of reducing execution ...
With the advances in very large scale integration (VLSI) technology, hardware is going parallel. Sof...
Field Programmable Gate Arrays (FPGAs) are a widely used platform for hardware acceleration and digi...
Static timing analysis provides the basis for setting the clock period of a microprocessor core, bas...
As semiconductor technology is scaled and voltage level is reduced, the impact of the variation in p...
Timing analysis is a key step in the digital design process. By modeling device delay variations sta...
Software in real time systems underlies strict timing constraints. These are among others hard deadl...
CMOS technology has continuously scaled into deep sub-micron regime. With CMOS scaling, many complex...
Timing and power are two metrics that have become increasingly important to system level designers e...
As CMOS technology scales down, process variation introduces significant uncertainty in power and pe...
The increasing complexity of digital designs and the requirement of timing measurements in various d...
The increasing complexity in digital design has spurred demand for faster design closure. As a prima...
The field of modern control theory and the systems used to implement these controllers have develope...
Adaptive circuit design is a power-efficient approach to handle variations. Compared to conventional...
Timing guardbands act as a barrier protecting conventional processors from circuit-level phenomena l...
Application specific hardware implementations are an increasingly popular way of reducing execution ...
With the advances in very large scale integration (VLSI) technology, hardware is going parallel. Sof...
Field Programmable Gate Arrays (FPGAs) are a widely used platform for hardware acceleration and digi...
Static timing analysis provides the basis for setting the clock period of a microprocessor core, bas...
As semiconductor technology is scaled and voltage level is reduced, the impact of the variation in p...
Timing analysis is a key step in the digital design process. By modeling device delay variations sta...
Software in real time systems underlies strict timing constraints. These are among others hard deadl...
CMOS technology has continuously scaled into deep sub-micron regime. With CMOS scaling, many complex...
Timing and power are two metrics that have become increasingly important to system level designers e...
As CMOS technology scales down, process variation introduces significant uncertainty in power and pe...
The increasing complexity of digital designs and the requirement of timing measurements in various d...
The increasing complexity in digital design has spurred demand for faster design closure. As a prima...
The field of modern control theory and the systems used to implement these controllers have develope...
Adaptive circuit design is a power-efficient approach to handle variations. Compared to conventional...
Timing guardbands act as a barrier protecting conventional processors from circuit-level phenomena l...