Add to ORKGThe super node algorithm performs model order reduction based on physical principles. Although the algorithm provides us with compact models, its stability and passivity have not thoroughly been studied yet. The loss of passivity is a serious problem because simulations of the reduced network may encounter artificial behavior which render the simulations useless. In this paper we explain why the algorithm delivers not passive reduced order models and present a way in order to overcome this problem
This paper addresses issues related to the minimization of the computational burden in terms of both...
CAD tools and research in the area of reduced-order modeling of large linear interconnect networks h...
In this paper, we discuss the present and future needs of the electronics industry with regard to mo...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
In order to avoid many expensive design iterations, in the electronics industry it is crucial to be ...
This paper addresses issues related to the minimization of the computational burden in terms of both...
This paper addresses issues related to the minimization of the computational burden in terms of both...
This paper addresses issues related to the minimization of the computational burden in terms of both...
CAD tools and research in the area of reduced-order modeling of large linear interconnect networks h...
In this paper, we discuss the present and future needs of the electronics industry with regard to mo...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
The super node algorithm performs model order reduction based on physical principles. Although the a...
In order to avoid many expensive design iterations, in the electronics industry it is crucial to be ...
This paper addresses issues related to the minimization of the computational burden in terms of both...
This paper addresses issues related to the minimization of the computational burden in terms of both...
This paper addresses issues related to the minimization of the computational burden in terms of both...
CAD tools and research in the area of reduced-order modeling of large linear interconnect networks h...
In this paper, we discuss the present and future needs of the electronics industry with regard to mo...