With the continued scaling of chip manufacturing technologies, the significance of process variation in performance of the systems is increasing. Specifically, process variation results in growing voltage and frequency overhead margins required to ensure error free operation of circuits. However, the traditional practice of over-designing the systems to cover process variation is no longer an efficient design methodology in an age with high demands for processing power and limited energy supplies. In this dissertation, a novel analytical model is proposed to predict the required margin accurately in the early stages of design space exploration. The model can be used to optimize the system overhead in error free calculations or to release th...
This thesis focuses on random local delay variability measurement and its modeling. It explains a ci...
Driven by the need for faster devices and higher transistor densities, technology trends have pushed...
Technology scaling improves the energy, performance, and area of the digital circuits. With further ...
In this paper, a novel framework is introduced to estimate the max-delay variability in logic paths ...
Digital VLSI IC design and manufacturing margins continue to increase in light of process variabilit...
This paper presents a novel statistical state-dependent timing model for voltage over scaled (VoS) l...
Efficient power management is becoming increasingly important with the rapid growth of portable, wir...
Power consumption and delivery have emerged as one of the major challenges facing modern SoC design....
The demand of extremely long battery life for electronic devices is the driving force for modern sem...
The continued scaling of digital integrated circuits has led to an increasingly larger impact of pro...
Future low voltage noise dominated designs render probabilistic behavior of CMOS. This is acceptable...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
One of the challenges faced today in the design of microprocessors is to obtain power, performance s...
2011-11-22In today’s IC design, one of the key challenges is the increase in power consumption of th...
In this paper, a novel modeling framework is proposed to quickly estimate the delay variability of l...
This thesis focuses on random local delay variability measurement and its modeling. It explains a ci...
Driven by the need for faster devices and higher transistor densities, technology trends have pushed...
Technology scaling improves the energy, performance, and area of the digital circuits. With further ...
In this paper, a novel framework is introduced to estimate the max-delay variability in logic paths ...
Digital VLSI IC design and manufacturing margins continue to increase in light of process variabilit...
This paper presents a novel statistical state-dependent timing model for voltage over scaled (VoS) l...
Efficient power management is becoming increasingly important with the rapid growth of portable, wir...
Power consumption and delivery have emerged as one of the major challenges facing modern SoC design....
The demand of extremely long battery life for electronic devices is the driving force for modern sem...
The continued scaling of digital integrated circuits has led to an increasingly larger impact of pro...
Future low voltage noise dominated designs render probabilistic behavior of CMOS. This is acceptable...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
One of the challenges faced today in the design of microprocessors is to obtain power, performance s...
2011-11-22In today’s IC design, one of the key challenges is the increase in power consumption of th...
In this paper, a novel modeling framework is proposed to quickly estimate the delay variability of l...
This thesis focuses on random local delay variability measurement and its modeling. It explains a ci...
Driven by the need for faster devices and higher transistor densities, technology trends have pushed...
Technology scaling improves the energy, performance, and area of the digital circuits. With further ...