Zero-stability, also known as D-stability in honor of Germund Dahlquist, [1] refers to the stability of a numerical scheme applied to the simple initial value problem .
A linear multistep method is zero-stable if all roots of the characteristic equation that arises on applying the method to have magnitude less than or equal to unity, and that all roots with unit magnitude are simple. [2] This is called the root condition [3] and means that the parasitic solutions of the recurrence relation will not grow exponentially.
The following third-order method has the highest order possible for any explicit two-step method [2] for solving :
Zero-stability, also known as D-stability in honor of Germund Dahlquist, [1] refers to the stability of a numerical scheme applied to the simple initial value problem .
A linear multistep method is zero-stable if all roots of the characteristic equation that arises on applying the method to have magnitude less than or equal to unity, and that all roots with unit magnitude are simple. [2] This is called the root condition [3] and means that the parasitic solutions of the recurrence relation will not grow exponentially.
The following third-order method has the highest order possible for any explicit two-step method [2] for solving :