| Section 4.1 | Acoustic contribution factors |
| Section 4.2 | Using the AMS eigensolver to compute participation factors |
| Section 4.3 | Controlling damping of low frequency eigenmodes |
| Section 4.4 | Performance improvements for frequency extraction analyses using the AMS eigensolver |
| Section 5.8 | Defining substructure damping and substructure modal damping |
| Section 6.3 | Enhancements to the parallel rheological framework |
| Section 6.4 | Import for Johnson-Cook plasticity model |
| Section 6.5 | Strain rate dependence of the yield stress for the nonlinear isotropic/kinematic hardening plasticity model |
| Section 6.6 | Enhancements to the critical state (clay) plasticity model |
| Section 7.1 | New solid elements for coupled analyses |
| Section 7.2 | New solid elements with improved stress visualization |
| Section 7.3 | Linear pyramid element |
| Section 7.4 | Pore pressure cohesive elements |
| Section 7.5 | Fluid pipe and fluid pipe connector elements |
| Section 8.1 | Mechanical pore pressure loads on pore pressure elements |
| Section 9.1 | Enhancement to surface-based tie constraint |
| Section 9.3 | Memory usage reduction for large distributing coupling constraints |
| Section 10.1 | CAD-enhanced general contact in Abaqus/Standard for simulations submitted from the 3DEXPERIENCE platform |
| Section 10.2 | Supplementary vertex-to-surface contact formulation within general contact |
| Section 10.3 | Modeling exterior acoustic problems using perfectly matched layers |
| Section 12.1 | Hardware system verification process |
| Section 12.2 | Translating an Abaqus substructure to a flexible body |
| Section 12.3 | Translating ODB output database files to SIM format |
| Section 12.4 | Using FMUs in co-simulation analyses |
| Section 12.5 | Parallel enhancements for element operations in Abaqus/Standard |
| Section 13.2 | Contact output enhancements |
| Section 13.3 | Calculation of extrapolated element integration point output directly from Abaqus/Standard |
| Section 13.4 | New surface output variables for enriched elements |
| Section 13.5 | Integrated output over a surface in Abaqus/Standard |
| Section 13.6 | Network stress output for parallel rheological framework |
| Section 13.7 | Matrix output into Nastran DMIG format |
| Section 13.10 | Sensor definition enhancements |
| Section 14.1 | User subroutine UINTER available in mode-based procedures |
| Section 14.3 | User-defined fluid pipe friction available for fluid pipe elements |
| Section 14.4 | User-defined fluid pipe connector loss available for fluid pipe elements |
| Section 14.5 | User-defined valve behavior available for fluid pipe elements |
| Section 14.8 | Allocatable arrays of user-defined types |