SoftFEM: revisiting the spectral finite element approximation of second-order elliptic operators

Abstract: We propose, analyze mathematically, and study numerically a novel approach for the finite element approximation of the spectrum of second-order elliptic operators. The main idea is to reduce the stiffness of the problem by subtracting to the standard stiffness bilinear form a least-squares penalty on the gradient jumps across the mesh interfaces. This penalty bilinear form is similar to the known technique used to stabilize finite element approximations in various contexts, but it brings here a negative contri… Show more

“…The condition number characterizes the stiffness of the system. We follow the recent work of soft-finite element method (SoftFEM) [23] and define the condition number reduction ratio of the method with respect to IGA as…”

Outlier removal for isogeometric spectral approximation with the optimally-blended quadratures

“…The condition number characterizes the stiffness of the system. We follow the recent work of soft-finite element method (SoftFEM) [23] and define the condition number reduction ratio of the method with respect to IGA as…”

Outlier removal for isogeometric spectral approximation with the optimally-blended quadratures