Due to shrinking technology, increasing functional frequency and density, and reduced noise margins with supply voltage scaling, the sensitivity of designs to supply voltage noise is increasing. The supply noise is much larger during at-speed delay test compared to normal circuit operation since large number of transitions occur within a short time frame. Existing commercial ATPG tools do not consider the excessive supply noise that might occur in the design during test pattern generation. In this paper, we first present a case study of a SOC design and show detailed IR-drop analysis, measurement and its effects on design performance during at-speed test. We then propose a novel method to measure the average power of at-speed test patterns,...
Given the rapid increase in the clock frequency of integrated circuits, the quality requirements of ...
With the continued down-scaling of IC technology and increase in manufacturing process variations, i...
Noise effects such as power supply and crosstalk can significantly affect the performance of deep su...
The sensitivity of very deep submicron designs to supply volt-age noise is increasing due to higher ...
The semiconductor industry has widely accepted transition delay fault (TDF) and path delay fault (PD...
Today's very deep sub-micron technologies enable highly complex chip designs that operate at very hi...
Abstract — As technology scales, gate sensitivity to noise in-creases due to supply voltage scaling ...
International audienceHigh-quality at-speed scan testing, characterized by high small-delay-defect d...
Abstract — Market and customer demands have continued to push the limits of CMOS performance. At-spe...
Advancing nanometer technology scaling enables higher integration on a single chip with minimal feat...
As technology scales into the Deep Sub-Micron (DSM) regime, circuit designs have become more and mor...
The scaling of fabrication technology not only provides us higher integration and enhanced performan...
To meet the market demand, next generation of technology appears with increasing speed and performan...
[[abstract]]The performance of deep submicron designs can be affected by various parametric variatio...
As manufacturing technology scales down to 65nm and below, fabricated chips are becoming increasingl...
Given the rapid increase in the clock frequency of integrated circuits, the quality requirements of ...
With the continued down-scaling of IC technology and increase in manufacturing process variations, i...
Noise effects such as power supply and crosstalk can significantly affect the performance of deep su...
The sensitivity of very deep submicron designs to supply volt-age noise is increasing due to higher ...
The semiconductor industry has widely accepted transition delay fault (TDF) and path delay fault (PD...
Today's very deep sub-micron technologies enable highly complex chip designs that operate at very hi...
Abstract — As technology scales, gate sensitivity to noise in-creases due to supply voltage scaling ...
International audienceHigh-quality at-speed scan testing, characterized by high small-delay-defect d...
Abstract — Market and customer demands have continued to push the limits of CMOS performance. At-spe...
Advancing nanometer technology scaling enables higher integration on a single chip with minimal feat...
As technology scales into the Deep Sub-Micron (DSM) regime, circuit designs have become more and mor...
The scaling of fabrication technology not only provides us higher integration and enhanced performan...
To meet the market demand, next generation of technology appears with increasing speed and performan...
[[abstract]]The performance of deep submicron designs can be affected by various parametric variatio...
As manufacturing technology scales down to 65nm and below, fabricated chips are becoming increasingl...
Given the rapid increase in the clock frequency of integrated circuits, the quality requirements of ...
With the continued down-scaling of IC technology and increase in manufacturing process variations, i...
Noise effects such as power supply and crosstalk can significantly affect the performance of deep su...