Paper Info
Title
On the variable step size gear integration method: Sudden time step variations induce inaccuracy
Abstract
We deal with the well known and largely adopted Gear integration method that belongs to the class of linear multi-step integration algorithms. We consider its application in circuit simulations and highlight a drawback: the computation of its coefficients, even when the order 2 is selected, is affected by round-off errors in case that current integration time step is largely increased or decreased with respect to the previously used ones. As a consequence, inaccuracy is introduced in the solution that in turn may cause the rejection of the solution itself. If the time step had been decreased too rapidly, failure in the computation of the solution leads to further shortening of the time step and this can trigger an avalanche mechanism that can lead the simulation to fail or, in the best case, to a drop of simulation efficiency. On the contrary, if the time step had increased too rapidly, once more the computation of the solution may fail leading to shortening of the time step; this case is less problematic than the former but still reduces simulation efficiency.
Year
DOI
Venue
2017
10.1109/ECCTD.2017.8093295
2017 European Conference on Circuit Theory and Design (ECCTD)
Keywords
Field
DocType
linear multistep integration algorithms,simulation efficiency,variable step size gear integration method,sudden time step variations,integration time step
Drawback,MATLAB,Computer science,Control theory,Electronic engineering,Time delay and integration,Computation,Newton's method
Conference
ISBN
Citations 
PageRank 
978-1-5386-3975-7
0
0.34
References 
Authors
0
2
Name
Order
Citations
PageRank
Federico Bizzarri113131.78
Angelo Brambilla217231.44