Copyright © 2021 ValleyMedia, Inc. All rights reserved. Reproduction in whole or part of any text, photography or illustrations without written permission from the publisher is prohibited. The publisher assumes no responsibility for unsolicited manuscripts, photographs or illustrations. Views and opinions expressed in this publication are not necessarily those of the magazine and accordingly, no liability is assumed by the publisher thereof.JULY - 05 - 2021, Volume 07 - Issue 16 (ISSN 2644-240X) Published by ValleyMedia, Inc. To subscribe to CIO ApplicationsVisit www.cioapplications.com *Some of the Insights are based on the interviews with respective CIOs and CXOs to our editorial staffEditorialThe Technology of the FutureThe overall simulation software market today is comprised of a broad and diverse set of technologies and applications. The traditional core of the simulation software market is computer-aided engineering (CAE), which was developed primarily for product design testing.The solutions that drive today's comprehensive simulation platforms represent leading-edge technologies across multiple engineering and scientific disciplines. These simulation platforms are typically components of a complete design/test/validate/build product lifecycle solution set provided by PLM suppliers. These PLM providers are leading the way with technologies and solutions that enable their customers to evolve new business models based on the digital twin, generative design for additive manufacturing and material science, and Industrial IoT edge platforms that drive next-generation analytics. Virtual simulation science and technology is involved in all these technologies.Changing work practices and the evolution of more complex interventions in cardiovascular medicine are forcing a paradigm shift in the way doctors are trained. Implantable cardioverter defibrillator (ICD), transcatheter aortic valve implantation (TAVI), carotid artery stenting (CAS), and acute stroke intervention procedures are forcing these changes at a faster pace than in other disciplines. As a consequence, cardiovascular medicine has had to develop a sophisticated understanding of precisely what is meant by `training' and `skill'. An evolving conclusion is that procedure training on a virtual reality (VR) simulator presents a viable current solution.Simulation software can be both costly (and confusing) to implement. Manufacturers of these tools know this and have spurred arguably the most sizable trend in simulation because of it: inclusivity and customization. For manufacturers, this means their shop doesn't have to rely on a one-size-fits-all simulation software. They can customize the tool to meet their specific project's needs and goals. Additionally, these tools help to build a sense of community in the manufacturing industry, with several of the apps leading to YouTube demonstrations and other forms of social media sharing. Simulation technologies are sure to evolve in the coming years. The key challenge for manufacturers will be to determine which type of tool will best suit the needs and challenges of their customers and shop.Simulation is rapidly becoming a mainstay of cardiovascular education, training, certification, and the safe adoption of new technology. If cardiovascular medicine is to continue to lead in the adoption and integration of simulation, then, it must take a proactive position in the development of metric-based simulation curriculum, adoption of proficiency benchmarking definitions, and then resolve to commit resources so as to continue to lead this revolution in physician training.Joe PhillipManaging Editoreditor@cioapplications.comJoe PhillipManaging EditorJoe PhillipSalesSebastian Jacobsebastian@cioapplications.comEmailsales@cioapplications.comeditor@cioapplications.commarketing@cioapplications.comGraphics & ArtVictor CruzEditorial StaffBen JacksonDaniel HolmesEzra BenjaminJune MichaelRose DcruzSenior WritersClara MathewLeah JaneRoyce D'Souza
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