The thermal gradients existing in high-performance circuits may significantly affect their timing behavior, in particular by increasing the skew of the clock net and/or altering hold/setup constraints, possibly causing the circuit to operate incorrectly. The knowledge of the spatial distribution of temperature can be used to properly design a clock network that is able to compensate such thermal non-uniformities. However, re-design of the clock network is effective only if temperature distribution is stationary, i.e., does not change over time. In this work, we specifically address the problem of dynamically modifying the clock tree in such a way that it can compensate for temporal variations of temperature. This is achieved by exploiting t...
[[abstract]]In synchronous circuit designs, clock skew is difficult to minimize because a single phy...
Temperature variation in microprocessors is a workload dependent problem. In such a design, the cloc...
Over the last few years, considerable variability in deep submicron integrated circuits has become a...
The thermal gradients existing in high-performance circuits may significantly affect their timing be...
The thermal gradients existing in high-performance circuits may significantly affect their timing be...
The thermal gradients existing in high-performance circuits may significantly affect their timing be...
Power densities and temperatures in today's high performance circuits have reached alarmingly high l...
The existence of non-uniform thermal gradients on the substrate in high performance IC's can signifi...
Clock distribution network is sensitive to large thermal gradients on the die as the performance of ...
High performance VLSI designs require strict control over clock skew since skew directly impacts the...
The trend of growing density on chips has increases not only the temperature in chips but also the g...
Synchronous clock distribution continues to be the dominant timing methodology for very large scale ...
Chip heating and nonuniform distribution of hot and cool zones on the die negatively affect reliabil...
Clock skew constraint satisfaction is one of the most important tasks in the clock network design, e...
[[abstract]]In synchronous circuit designs, clock skew is difficult to minimize because a single phy...
[[abstract]]In synchronous circuit designs, clock skew is difficult to minimize because a single phy...
Temperature variation in microprocessors is a workload dependent problem. In such a design, the cloc...
Over the last few years, considerable variability in deep submicron integrated circuits has become a...
The thermal gradients existing in high-performance circuits may significantly affect their timing be...
The thermal gradients existing in high-performance circuits may significantly affect their timing be...
The thermal gradients existing in high-performance circuits may significantly affect their timing be...
Power densities and temperatures in today's high performance circuits have reached alarmingly high l...
The existence of non-uniform thermal gradients on the substrate in high performance IC's can signifi...
Clock distribution network is sensitive to large thermal gradients on the die as the performance of ...
High performance VLSI designs require strict control over clock skew since skew directly impacts the...
The trend of growing density on chips has increases not only the temperature in chips but also the g...
Synchronous clock distribution continues to be the dominant timing methodology for very large scale ...
Chip heating and nonuniform distribution of hot and cool zones on the die negatively affect reliabil...
Clock skew constraint satisfaction is one of the most important tasks in the clock network design, e...
[[abstract]]In synchronous circuit designs, clock skew is difficult to minimize because a single phy...
[[abstract]]In synchronous circuit designs, clock skew is difficult to minimize because a single phy...
Temperature variation in microprocessors is a workload dependent problem. In such a design, the cloc...
Over the last few years, considerable variability in deep submicron integrated circuits has become a...