Method for determining the steady state behavior of a circuit using an iterative technique

Assignee

• Cadence Design Systems, Inc. · US

Inventors

• Ricardo Telichevesky · Cambridge, US
• Kenneth S. Kundert · Los Altos, US
• Jacob K. White · Belmont, US

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG06F30/367
• WIPO fieldComputer technology
• WIPO sectorElectrical engineering

Abstract

An efficient method for determining the periodic steady state response of a circuit driven by a periodic signal, the method including the steps of 1) using a shooting method to form a non-linear system of equations for initial conditions of the circuit that directly result in the periodic steady state response; 2) solving the non-linear system via a Newton iterative method, where each iteration of the Newton method involves solution of a respective linear system of equations; and 3) for each iteration of the Newton method, solving the respective linear system of equations associated with the iteration of the Newton method via an iterative technique. The iterative technique may be a matrix-implicit application of a Krylov subspace technique, resulting in a computational cost that grows approximately in a linear fashion with the number of nodes in the circuit.