AbstractThe simulation of electronic circuits involves the numerical solution of very large-scale, sparse, in general nonlinear, systems of differential-algebraic equations. Often, the size of these systems can be reduced considerably by replacing the equations corresponding to linear subcircuits by approximate models of much smaller state-space dimension. In this paper, we describe the use of Krylov-subspace methods for generating such reduced-order models of linear subcircuits. Particular emphasis is on reduced-order modeling techniques that preserve the passivity of linear RLC subcircuits
AbstractWe discuss Krylov-subspace based model reduction techniques for nonlin-ear control systems. ...
In this paper, we propose a new method which makes transient simulation faster for the circuit inclu...
This chapter offers an introduction to Model Order Reduction (MOR). It gives an overview on the meth...
AbstractThe simulation of electronic circuits involves the numerical solution of very large-scale, s...
Due to the decreasing sizes of electrical devices used nowadays and the increasing frequency, the in...
This thesis focuses on the model reduction of linear systems and the solution of large scale linear ...
New variants of Krylov subspace methods for numerical solution of linear systems, eigenvalue, and mo...
For efficient simulation of state-of-the-art dynamical systems as arise in all aspects of engineerin...
We present a theory for reduced order modeling of linear time-varying system, together with techniqu...
This paper describes the use of Krylov subspace methods in the model reduction of power systems. Add...
A large variety of physical phenomena can be described by large-scale systems of linear ordinary dif...
The demands for miniature sized circuits with higher operating speeds have increased the complexity ...
Model order reduction (MOR) is an important step in the design process of integrated circuits. Speci...
Model order reduction (MOR) is an efficient technique to reduce the complexity of dynamical systems ...
Numerical solution of dynamical systems have been a successful means for studying complex physical p...
AbstractWe discuss Krylov-subspace based model reduction techniques for nonlin-ear control systems. ...
In this paper, we propose a new method which makes transient simulation faster for the circuit inclu...
This chapter offers an introduction to Model Order Reduction (MOR). It gives an overview on the meth...
AbstractThe simulation of electronic circuits involves the numerical solution of very large-scale, s...
Due to the decreasing sizes of electrical devices used nowadays and the increasing frequency, the in...
This thesis focuses on the model reduction of linear systems and the solution of large scale linear ...
New variants of Krylov subspace methods for numerical solution of linear systems, eigenvalue, and mo...
For efficient simulation of state-of-the-art dynamical systems as arise in all aspects of engineerin...
We present a theory for reduced order modeling of linear time-varying system, together with techniqu...
This paper describes the use of Krylov subspace methods in the model reduction of power systems. Add...
A large variety of physical phenomena can be described by large-scale systems of linear ordinary dif...
The demands for miniature sized circuits with higher operating speeds have increased the complexity ...
Model order reduction (MOR) is an important step in the design process of integrated circuits. Speci...
Model order reduction (MOR) is an efficient technique to reduce the complexity of dynamical systems ...
Numerical solution of dynamical systems have been a successful means for studying complex physical p...
AbstractWe discuss Krylov-subspace based model reduction techniques for nonlin-ear control systems. ...
In this paper, we propose a new method which makes transient simulation faster for the circuit inclu...
This chapter offers an introduction to Model Order Reduction (MOR). It gives an overview on the meth...