Simr (formerly UberCloud)’s Post

The future of electrical design is AI currently transforming the industry, offering groundbreaking solutions that save time and money. From automated design generation to advanced simulations, AI is streamlining workflows and driving innovation.

This article resonates because it describes how ubiquitous computing will democratise simulation and AI, making them a standard element of design for everyone. This is a key message from our AMRC SMART design research.

Digital tools have transformed product development. Multiphysics simulation tools, in particular, allow engineers to evaluate options faster and improve product performance while reducing development time and costs. And now, machine learning and AI technologies are moving the needle again and promise greater automation, improved toolchain integration, and acceleration. To help end users and technology providers understand the current state of the simulation sector, NAFEMS and McKinsey & Company have conducted a deep-dive analysis of the automotive industry. The result is a highly granular view of the current state and progress of advanced engineering simulation in real-world applications. We've uncovered dramatic differences in the dimensions of adoption, growth, and business impact. Join our free webinar on Thursday, November 7, to learn more. https://lnkd.in/eGij5uSr

Join us for an exciting leadership webinar on July 25! 🚀 Duann Scott, founder of CDFAM - Computational Design Symposium, Matthias Bauer, CEO at NAVASTO , and SimScale CEO David Heiny will discuss critical advances in computational design that are accelerating innovation and advanced manufacturing. Discover how the world’s first engineering simulation software platform, featuring both physics solvers and AI predictions accessible from a web browser, is driving transformational value in AI and CAE. Join this webinar to learn: • Advances in computational design across industries such as automotive manufacturing. • Common challenges faced by engineering firms in adopting AI. • How to get started and begin training AI using your own data. • How to deploy cloud-native simulation to globally distributed engineering teams. Secure your spot now: https://hubs.la/Q02GkJDH0 #webinar #engineering #AI #automotive #simulation #innovation

🚀 Join us on July 25th for an insightful leadership webinar! Duann Scott, David Heiny, and I will discuss the newest developments in computational design and AI, address common challenges, and explain how to leverage AI with your own data. Don't miss this chance to stay ahead in engineering! #Leadership #AI #ComputationalDesign #Webinar

Discover how #AI is revolutionizing 5G antenna design - just one of 100 groundbreaking AI-powered engineering use cases from Altair. Learn how machine learning models enhance antenna performance across various frequency bands, reduce simulation time, and speed up development cycles. Explore all 100 real-world applications that are revolutionizing engineering across different industries: https://bit.ly/4ft39Sz #OnlyForward

Explore how AI is transforming 5G antenna design with Altair's innovative use cases. Discover how machine learning models used with Altair Feko optimize antenna performance across frequency bands, minimize simulation time, and accelerate development cycles. https://lnkd.in/dWz4HEEV #AI #ML #5G #Altair #onlyforward #Feko #IEEE #technology #smartdevices #smartcity #smartfactory #industry4 #manufacturing

Artificial intelligence, as the next generation driving force of a new round of industrial transformation and the strategic technology, leads the future development by integrating intelligent algorithms, computer vision, robotic systems, and other state-of-the-art technologies with the construction industry, to realize not only the transformation of the construction industry to Cyber-Physical System, but also the transformation of construction philosophy and paradigm, and to promote industrial upgrading and leapfrog development.

Our collaborative, simultaneous and high-fidelity simulation capabilities can be used to accelerate the concept design for complex robotics and autonomous systems. Elements such as proprietary algorithms, robotics frameworks and design tools are required to develop these systems in a visually representative validation environment. These capabilities can be exploited and deployed on our HPC and private cloud environments to enable large scale developments including concept trade offs at scale and the generation of synthetic data for AI such as deep learning. https://lnkd.in/eDcqx62N

Seismic activity encompasses a variety of categories, not only just the sudden collapse of a structure's base. Different soil conditions can also influence it and occur across various frequencies. It's important to note that research on seismic zones in various countries has significantly decreased. Many scientists tend to believe that seismic events are solely caused by sudden base collapse, overlooking other potential causes. While sudden collapse is one type of seismic activity, there are other factors at play. In countries classified as seismic-free, there is a noticeable absence of research articles on this subject. Due to the influence of seismic codes such as IS, IBC, IRC, IEBC, NBC, ASCE, and UBC, we often rely on outdated versions to ensure design safety. Research on building structures, equipment, and other types of construction is continuously evolving. Concepts that were standard a century ago are no longer applicable today; however, updates incorporating new building designs or innovative construction methods are often lacking in some country's seismic codes. Only a few countries regularly update their seismic codes, which can be a drawback for designers who must base their work on outdated structural patterns or regulations. The absence of updated references complicates the design process. To address this gap, it is crucial to conduct structural analyses based on current codes and design conditions. Utilizing finite element analysis for innovative structures can enhance construction practices and bridge the divide between outdated codes and modern construction techniques.