Linearly Implicit Quantization-Based Integration Methods for Stiff Ordinary Differential Equations.

TL;DR: This paper proposes a concrete extension to the FMI standard for supporting hybrid co-simulation that includes integer time, automatic choice of time resolution, and the use of absent signals, and explains how these extensions can be implemented modularly within the frameworks of existing simulation environments.

TL;DR: The Virtual Grid Integration Laboratory (VirGIL) as discussed by the authors is a modular cosimulation platform designed to study interactions between demand-response (DR) strategies, building comfort, communication networks, and power system operation.

TL;DR: This article introduces a stand-alone implementation of the quantized state system (QSS) integration methods for continuous and hybrid system simulation, and analyzes four different models and compares the performance of the new solver with that of the discrete event implementation, andwith that of different classic solvers.

TL;DR: An open-source simulator for cyberphysical systems called CyPhySim that is based on Ptolemy II is described, which includes an innovation called "smooth tokens," which allow for a blend of numerical and symbolic computation, and for certain kinds of system models, dramatically reducing the computation required for simulation.

TL;DR: In this paper, the authors present the solution of stiff differential equations and differential-algebraic systems (differential equations with constraints) and discuss their application in physics, chemistry, biology, control engineering, electrical network analysis, and computer programs.

TL;DR: This paper describes mathematical and software developments for a suite of programs for solving ordinary differential equations in MATLAB.

TL;DR: In this paper, the authors present a rigorous mathematical foundation for modeling and simulation and provide a comprehensive framework for integrating the various simulation approaches employed in practice, including cellular automata, chaotic systems, hierarchical block diagrams, and Petri nets.