High performance VLSI designs require strict control over clock skew since skew directly impacts the cycle time calculation. For nano-meter CMOS designs, clock-skew and signal integrity are tremendously affected by process and temperature variations. A successful high performance VLSI design should not only aim to minimize the clock skew, but also control it while the chip is running. The issues rising out of temperature variations are particularly tough to tackle because of its dynamic, run-time nature. Although techniques for clock skew management/tuning due to temperature do exist in literature, they have mainly focused on how to solve skew issues, and have usually regarded the implementation of the thermal management scheme as a seconda...
In this paper we analyze the effect of the Bias Temperature Instability (BTI) aging phenomenon on th...
NBTI (Negative Bias Temperature Instability) has emerged as the dominant PMOS device failure mechani...
In this paper, we analyze the impact of process variations on the clock skew of VLSI circuits design...
Power densities and temperatures in today's high performance circuits have reached alarmingly high l...
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...
Clock distribution network is sensitive to large thermal gradients on the die as the performance of ...
The thermal gradients existing in high-performance circuits may significantly affect their timing be...
Synchronous clock distribution continues to be the dominant timing methodology for very large scale ...
The existence of non-uniform thermal gradients on the substrate in high performance IC's can signifi...
Chip heating and nonuniform distribution of hot and cool zones on the die negatively affect reliabil...
Temperature has traditionally been a key parameter to take into account during the many stages of IC...
Higher die temperature due to increasing power density pose a major reliability concern in present-d...
Negative bias temperature instability (NBTI) has emerged as a major concern not only to the function...
The aggressive scaling of CMOS technology toward nanometer lengths contributed to the surfacing of m...
In this paper we analyze the effect of the Bias Temperature Instability (BTI) aging phenomenon on th...
NBTI (Negative Bias Temperature Instability) has emerged as the dominant PMOS device failure mechani...
In this paper, we analyze the impact of process variations on the clock skew of VLSI circuits design...
Power densities and temperatures in today's high performance circuits have reached alarmingly high l...
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...
Clock distribution network is sensitive to large thermal gradients on the die as the performance of ...
The thermal gradients existing in high-performance circuits may significantly affect their timing be...
Synchronous clock distribution continues to be the dominant timing methodology for very large scale ...
The existence of non-uniform thermal gradients on the substrate in high performance IC's can signifi...
Chip heating and nonuniform distribution of hot and cool zones on the die negatively affect reliabil...
Temperature has traditionally been a key parameter to take into account during the many stages of IC...
Higher die temperature due to increasing power density pose a major reliability concern in present-d...
Negative bias temperature instability (NBTI) has emerged as a major concern not only to the function...
The aggressive scaling of CMOS technology toward nanometer lengths contributed to the surfacing of m...
In this paper we analyze the effect of the Bias Temperature Instability (BTI) aging phenomenon on th...
NBTI (Negative Bias Temperature Instability) has emerged as the dominant PMOS device failure mechani...
In this paper, we analyze the impact of process variations on the clock skew of VLSI circuits design...