![]() ![]() In this tutorial we will present an approach of how to work with an entirely cloud-based solution for modeling and simulation, with an exemplary implementation of an urban traffic simulation cloud service. This leads to the conclusion of moving the computational demand to the cloud, where the on-demand culture for resources has been expanding. ![]() The vendors have not sufficiently addressed this. The access to HPC resources is not available. Users of such simulations are domain experts with little knowledge in computer science and optimization of such simulations. The move to High Performance Computing clusters is a viable solution. pdfįor large-scale urban system simulations the computing power of traditional workstations is not sufficient. We will discuss how to use this framework to incrementally develop embedded applications, and to seamlessly integrate simulation models with hardware components. This approach combines the advantages of a simulation-based approach with the rigor of a formal methodology. We present a Model-driven framework to develop cyber-physical systems based on the DEVS (Discrete Event systems Specification) formalism. M&S let users experiment with “virtual” systems, allowing them to explore changes, and test dynamic conditions in a risk-free environment. Instead, construction of system models and their analysis through simulation reduces both end costs and risks, while enhancing system capabilities and improving the quality of the final products. Most of the methods used for developing embedded applications are either hard to scale up for large systems, or require a difficult testing effort with no guarantee for bug-free software products. Embedded systems development has interesting challenges due to the complexity of the tasks they execute. ![]()
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