Add to ORKGFull-chip verification requires one to check if the power grid is safe, i.e., if the voltage drop on the grid does not exceed a certain threshold. The traditional simulation-based solution to this problem is computationally expensive, because of the large variety of possible circuit behaviors that would need to be simulated; it also has the disadvantage that it requires full knowledge of the details of the circuit attached to the grid, thereby precluding early verification of the grid. We propose a power grid verification technique that can be applied before the complete circuit has been designed and without exact knowledge of the circuit currents. We use current constraints, which are upper bound constraints on the currents that can be dra...
To ensure the robustness of an integrated circuit design, its power distribution network (PDN) must ...
Power grid voltage integrity verification requires checking if all the voltage drops on the grid ar...
Modern IC designs contain hundreds of millions of transistors and new implementations of multi core ...
As part of integrated circuit design verification, one should check if the voltage drop on the power...
Design verification must include the power grid. Checking that the voltage on the power grid does no...
Verification of the chip power distribution network is a critical stepin modern IC design. Vectorles...
The verification of power grids in modern integrated circuits must start early in the design process...
Identifying worst-case voltage drop conditions in every module supplied by the power grid is a cruci...
As part of power distribution network verification, one should check if the voltage fluctuations exc...
Abstract—Power grid verification has become an indispensable step to guarantee a functional and robu...
Vectorless power grid verification algorithms, by solving linear programming (LP) problems under cur...
With the current aggressive integrated circuit technology scaling, vectorless power grid voltage int...
Voltage drops are one of the most stringent problems in modern IC implementation, which is exacerbat...
As technology scaling continues, the performance and reliability of integrated circuits become incre...
To deal with the growing phenomenon of electromigration (EM), power grid current integrity verificat...
To ensure the robustness of an integrated circuit design, its power distribution network (PDN) must ...
Power grid voltage integrity verification requires checking if all the voltage drops on the grid ar...
Modern IC designs contain hundreds of millions of transistors and new implementations of multi core ...
As part of integrated circuit design verification, one should check if the voltage drop on the power...
Design verification must include the power grid. Checking that the voltage on the power grid does no...
Verification of the chip power distribution network is a critical stepin modern IC design. Vectorles...
The verification of power grids in modern integrated circuits must start early in the design process...
Identifying worst-case voltage drop conditions in every module supplied by the power grid is a cruci...
As part of power distribution network verification, one should check if the voltage fluctuations exc...
Abstract—Power grid verification has become an indispensable step to guarantee a functional and robu...
Vectorless power grid verification algorithms, by solving linear programming (LP) problems under cur...
With the current aggressive integrated circuit technology scaling, vectorless power grid voltage int...
Voltage drops are one of the most stringent problems in modern IC implementation, which is exacerbat...
As technology scaling continues, the performance and reliability of integrated circuits become incre...
To deal with the growing phenomenon of electromigration (EM), power grid current integrity verificat...
To ensure the robustness of an integrated circuit design, its power distribution network (PDN) must ...
Power grid voltage integrity verification requires checking if all the voltage drops on the grid ar...
Modern IC designs contain hundreds of millions of transistors and new implementations of multi core ...