In sub-nanometer complementary metal oxide emiconductor (CMOS) technologies, process variability strongly affects the fabrication yield. To face this problem, post-silicon adaptive approaches have been proposed as a promising solution. However, their actual implementation requires the availability of effective monitoring architectures that can sense and sample process variation across the die. In this study, the authors present a sensor circuit for capturing on-chip variations owing to the fabrication process. The proposed solution is based on the concept of ‘variation amplification’ and uses the propagation delay measurement through a pass-transistor chain. Our monitor architecture, which consists of a self-contained cell containing N- and...
Both random and systematic within-die process variations (PV) are growing more severe with shrinking...
Variation in process, voltage and temperature is a major obstacle in achieving energy-efficient oper...
We report the design and characterization of a circuit technique to measure the on-chip delay of a...
This paper presents an on-chip all-digital sensor architecture to capture process variation informat...
With the scaling of CMOS technology, critical paths in digital circuits have become largely sensitiv...
Abstract—Increased variation in CMOS processes due to scaling results in greater reliance on accurat...
A process corner monitoring circuit (PCMC) is presented in this work. The circuit generates a signal...
Integrated Circuit (IC) designers have always faced the problem of small deviations in parameters of...
In this proposed some back end and front end process monitoring sensors are made, which will give th...
The need for efficient and accurate detection schemes to assess the impact of process variations on ...
As technology node continues to shrink to achieve higher performance at high density, it has become ...
Abstract- New characterizing system for within-die delay variations of individual standard cells is ...
Increased variation in CMOS processes due to scaling results in greater reliance on accurate variati...
This thesis focuses on random local delay variability measurement and its modeling. It explains a ci...
Increasing performance demands in integrated circuits, together with limited energy budgets, force I...
Both random and systematic within-die process variations (PV) are growing more severe with shrinking...
Variation in process, voltage and temperature is a major obstacle in achieving energy-efficient oper...
We report the design and characterization of a circuit technique to measure the on-chip delay of a...
This paper presents an on-chip all-digital sensor architecture to capture process variation informat...
With the scaling of CMOS technology, critical paths in digital circuits have become largely sensitiv...
Abstract—Increased variation in CMOS processes due to scaling results in greater reliance on accurat...
A process corner monitoring circuit (PCMC) is presented in this work. The circuit generates a signal...
Integrated Circuit (IC) designers have always faced the problem of small deviations in parameters of...
In this proposed some back end and front end process monitoring sensors are made, which will give th...
The need for efficient and accurate detection schemes to assess the impact of process variations on ...
As technology node continues to shrink to achieve higher performance at high density, it has become ...
Abstract- New characterizing system for within-die delay variations of individual standard cells is ...
Increased variation in CMOS processes due to scaling results in greater reliance on accurate variati...
This thesis focuses on random local delay variability measurement and its modeling. It explains a ci...
Increasing performance demands in integrated circuits, together with limited energy budgets, force I...
Both random and systematic within-die process variations (PV) are growing more severe with shrinking...
Variation in process, voltage and temperature is a major obstacle in achieving energy-efficient oper...
We report the design and characterization of a circuit technique to measure the on-chip delay of a...