Add to ORKGThe paper describes a semianalytic slope delay model for CMOS switch-level timing verification. It is characterised by classification of the effects of the input slope, internal size and load capacitance of a logic gate on delay time, and then the use of a series of carefully chosen analytic functions to estimate delay times under different circumstances. In the field of VLSI analysis, this model achieves improvements in speed and accuracy compared with conventional approaches to transistor-level and switch-level simulation
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
In automated design of Very Large Scale of Integration (VLSI) digital circuits with a standard cell ...
In automated design of Very Large Scale of Integration (VLSI) digital circuits with a standard cell ...
A novel slope delay model for CMOS switch-level timing verification is presented. It differs from co...
Design closure in today\u27s advanced chip construction requires a delicate balance among various co...
Symbolic switch-level simulation has been extensively applied to the functional verification of comp...
Abstract—Despite an increasing interest in digital sub-threshold circuits little research has been d...
This paper presents a new model for CMOS structures delays estimation based on a deep analysis of co...
Delay evaluation is always a crucial concern in the VLSI de-sign and it becomes increasingly more cr...
A macromodeling and timing simulation technique is presented that allows fast, accurate delay calcul...
Existing static timing analyzers make several assumptions about circuits, implicitly trading off acc...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
In automated design of Very Large Scale of Integration (VLSI) digital circuits with a standard cell ...
Existing static timing analyzers make several assumptions about circuits, implicitly trading off acc...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
In automated design of Very Large Scale of Integration (VLSI) digital circuits with a standard cell ...
In automated design of Very Large Scale of Integration (VLSI) digital circuits with a standard cell ...
A novel slope delay model for CMOS switch-level timing verification is presented. It differs from co...
Design closure in today\u27s advanced chip construction requires a delicate balance among various co...
Symbolic switch-level simulation has been extensively applied to the functional verification of comp...
Abstract—Despite an increasing interest in digital sub-threshold circuits little research has been d...
This paper presents a new model for CMOS structures delays estimation based on a deep analysis of co...
Delay evaluation is always a crucial concern in the VLSI de-sign and it becomes increasingly more cr...
A macromodeling and timing simulation technique is presented that allows fast, accurate delay calcul...
Existing static timing analyzers make several assumptions about circuits, implicitly trading off acc...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
In automated design of Very Large Scale of Integration (VLSI) digital circuits with a standard cell ...
Existing static timing analyzers make several assumptions about circuits, implicitly trading off acc...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
In automated design of Very Large Scale of Integration (VLSI) digital circuits with a standard cell ...
In automated design of Very Large Scale of Integration (VLSI) digital circuits with a standard cell ...