Are you considering moving to a cloud solution for your engineering simulation needs? The chances are that it’s your hunger for high-performance computing (HPC) that’s making you consider the cloud. While the cloud can deliver computing infrastructure on an unprecedented scale, but by focusing exclusively on CPU cycles, you might be failing to consider some other significant benefits. An engineered cloud solution like ANSYS Enterprise Cloud can put your organization on the fast track to using a mature, enterprise-grade engineering simulation environment that rivals those used on premise by industry leaders who have worked closely with technology providers and pioneered the use of simulation to deliver world-leading products. Continue reading
Years ago, vocational training centered on teaching students to manually operate machines for shops or factory applications. Today, apprentices at training centers like the Remscheid Vocational Training Center in Germany learn complete processes for successful production — from CAD via CAM to machining (CNC) to finished component. To prepare apprentices for successful careers in the mechanical and electrical industries, the vocational center requires them to learn a number of software programs. For the past five years, ANSYS SpaceClaim has been their CAD software of choice. Continue reading
Last year marked the 200th anniversary of the battle of Waterloo. I recently read an excellent account of the battle by Tim Clayton. What a tremendous difference between the technology available to the soldiers and generals in those days compared with today’s connected soldier. Continue reading
Every day we hear about a new internet-enabled product — or two, or three, or a dozen. Consumer products are increasingly more connected including appliances, automobiles and traditional electronics like smartphones and tablets. In the industrial world, factories, aircraft, distribution facilities, power plants and many other things are being monitored by sensors and communications networks to provide feedback on production, maintenance and efficiency. Importantly, these devices collect data that allow manufacturers to understand how products are used so that they can develop better things that more closely fit our needs. Engineers designing smart, connected products need to address competing and complex challenges, including size, weight, power, performance, reliability, durability. For example, engineers may need to design reliable sensors, high-speed communication and networking equipment, or supercomputers that process vast amounts of data. How can designers ensure that their products will work flawlessly in the real world? Continue reading
The former Belgian top cyclist Johan Museeuw once stated: “Crashing is part of cycling as crying is part of love.” Indeed, probably every elite cyclist has experienced in-race crashes that put him or her in the hospital. But recently, things seem to have become much worse. In the past two years, many prestigious elite races have been stained by serious crashes between riders and in-race motorcycles. The tragic culmination so far of these crashes was reached on 27 March 2016, when Belgian rider Antoine Demoitié got hit by a motorcycle in the race Gent-Wevelgem and died later in hospital due to his injuries. Later, on 28 May 2016, 19 cyclists were involved in a major crash with two motorcycles, which put Belgian rider Stig Broeckx in hospital in a coma. Continue reading
Wireless power transfer (WPT) is much researched and discussed in the context of IoT, electric vehicles and mobile electronic devices. The methodology of powering a device without a physical connection is well known. However, designing the coil shapes and their placement, maximizing efficiency and validating behavior at the system level still represent challenges that cannot be achieved without simulation. The next frontier to be explored is extending and applying wireless power transfer systems to more applications, such as continuous charging of multiple devices, increasing the range of efficient power transfer and ensuring the WPT system design meets regulatory guidelines. Continue reading
While it only seems like yesterday, it is actually three years ago that I wrote a blog about the important role the Aircraft Environment Control System (ECS) plays in passenger comfort and safety as well as our (ANSYS) participation in Cabin Air Reformative Environment (CARE) consortium.
Those of you who subscribe to the ANSYS Advantage magazine may have read the article on this topic that was published in the most recent edition, but I thought it was about time I provided an update. Continue reading
Air travelers can’t help but notice the ever-increasing presence of ‘winglets’ of different sizes and shapes at the tips of airplane wings. And anyone interested in fluid dynamics will no doubt have pondered what these airplane winglets do, how they improve aerodynamics, and why they are becoming almost ubiquitous on aircraft of all commercial manufacturers. Continue reading
Digital health technology is taking the healthcare industry by storm and is expected to reach $233.3 billion by 2020, driven particularly by the mobile health market. Connected medical devices and associated services offer safer and more effective healthcare through real-time monitoring of patient adherence, disease state, and procedure recovery. Examples include pill bottles that remind patients when it’s time to take a medication, watches that monitor heart rate and automated insulin pumps that monitor and respond to blood glucose levels. Each of these rely on the premise that early detection of an emerging problem enables a preemptive treatment response, maximizing the chances of successful treatment in the most cost-effective way. Continue reading
Last year we announced ANSYS Enterprise Cloud, a complete end-to-end solution for medium-large enterprises, that is currently available on Amazon Web Services (AWS) with plans to support other public cloud providers, such as Microsoft Azure & Google Cloud, in the near future. While our ANSYS Open Cloud Strategy™ is hardware agnostic, giving our customers the option to use their hardware of choice (e.g. private/on premise cloud, public cloud, cloud hosting partners), this is not the only characteristic that makes our offering unique.
We designed our cloud offering to address a complete spectrum of pain points and needs, without forgetting our small-to-medium-sized business customers or the young students that embrace computer-driven engineering simulation for the first time. Continue reading