MAYSVILLE, KY, USA, Apr 8, 2020 – Carlson Software has announced a new option to help ease the transition to working remotely. The COVID-19 situation has necessitated remote working for many across the world, and in response, Carlson is now offering 90-day software licenses on our most popular software. This 90-day subscription option for Carlson’s office software includes Survey, Civil, GIS, CADnet, Point Cloud Basic, and Hydrology, as well as Survey OEM 2020 and Takeoff R11. Prices are as follows:

More information is available in this PDF.

Alternatively, Carlson is now offering a 90-day deferred payment plan. Learn more about this option here.

For more information on this new offer, please contact your Carlson dealer, visit www.carlsonsw.com/where-to-purchase to find a dealer near you or call Carlson at 606-564-5028.

Invitation

HELSINKI, Finland, Apr 8, 2020 – NAPA, the leading maritime software, services, and data analysis provider, has announced the appointment of Mikko Kuosa as Chief Executive Officer of NAPA. Kuosa assumes the position from Ilmo Kuutti, who successfully served as CEO of NAPA Group for three years. Kuutti continues as an Advisor and a member of the NAPA Board of Directors.

Mikko Kuosa, CEO, NAPA Group

Mikko Kuosa (43), who joined NAPA in 1999, holds a master’s degree in Naval Architecture from Helsinki University of Technology, Finland. Since joining, Mikko has taken on various leadership positions at NAPA. In his most recent role, Kuosa held a position of an Executive Vice President for NAPA Design Solutions, and before that, he was heading NAPA Technology as a Vice President, Technology.

Mitsuhiko Kidogawa, Chairman of NAPA’s Board of Directors and ClassNK’s Regional Manager of Europe and Africa, commented, “We have been extremely satisfied with NAPA’s recent development and performance. Ilmo Kuutti has led NAPA through a very successful transformation in the past three years. NAPA’s growth has been a testament to focus, quality, and expertise. After conducting a systematic search for NAPA’s new CEO, we have great faith in Mikko’s ability to lead NAPA to new heights of success.”

Mikko Kuosa, CEO, NAPA, commented, “Three years ago, we re-structured NAPA and became a self-managed organization. Removal of hierarchical organization meant that the teams and individuals became more autonomous in their working practices, free to utilize their capability in full, and make decisions. It wasn’t always a simple or straightforward process – but the results speak for themselves. The year 2019 resulted in record-high revenue and customer satisfaction. Also, employee satisfaction and engagement improved significantly. The results highlight the talent and professionalism of our staff. By creating three business units that better reflected our specific domain expertise and increased customer focus, we are now making the marine industry’s technology-enabled future a reality. NAPA is in a prime position to enable the digitalization of the maritime industry, ensuring its efficiency, safety, and sustainability for years to come. We have a strong foundation, and I am enthusiastic about continuing my NAPA journey in a new role with our excellent, committed people.”

Ilmo Kuutti, Member of NAPA Board of Directors, commented, “When NAPA was established over 30 years ago, the world was a very different place. However, one thing that hasn’t changed is our values; professionalism, reliability, and commitment remain NAPA’s watchwords, and our success is directly attributable to those strengths. The world needs safer, greener, and more intelligent solutions if the maritime industry is to thrive in the coming decades, and I know that NAPA will be a critical part of that process with Mikko Kuosa at the helm.”

About NAPA

In its over 30 years of operation, NAPA has become a global leader in developing and scaling software, services and data analysis for a safer, smarter, and more sustainable maritime industry.

NAPA operates globally, with over 180 employees in eleven countries in Europe, Asia and the Americas, and has a turnover of more than €25.6m. To date, NAPA has 420 user organizations for its design solutions and nearly 3,000 installations onboard vessels.

For more information, visit www.napa.fi

TROY, MI, USA, Apr 7, 2020 – Altair (Nasdaq: ALTR) a global technology company providing solutions in product development, high-performance computing (HPC), and data analytics, announced that Elias Hatem, a PhD student studying Electronics and Communications Engineering, is the winner of the 2019 Altair Electromagnetic Student Competition.

Elias Hatem, winner of the 2019 Altair Student Competition

Mr. Hatem is a PhD Student of Electronics and Communications at Paris-Est Universiy and the Lebanese University in collaboration with AlliansTIC laboratory at EFREI (École d’Ingénieurs Généraliste du Numérique) in Paris, France.

The 17th Annual Altair Electromagnetic Student Competition is an annual international contest established by Altair to acknowledge engineering students interested in antennas, electromagnetic compatibility, wave propagation modeling, wireless connectivity, and other electromagnetic-related fields. Open to undergraduate and graduate students from any location, the contest is designed to give students the opportunity to showcase their work using Altair Feko or Altair WinProp, both of which are part of the Altair HyperWorksTM suite.

“We are proud of all the students who participated in this competition and want to especially congratulate our first-place winner, Elias Hatem, whose work focused on RFID transmissions,” said Dr. Ulrich Jacobus, senior vice president, electromagnetics at Altair. “This competition is one of many initiatives that illustrate how Altair’s global academic program is focused on enabling young engineers and data analysts to explore numerous design ideas in less time through their use of our industrial-strength modeling and simulation software – in this case, Altair Feko and Altair WinProp. We believe that the students’ ability to leverage tools like ours to innovate faster, through realistic project-based learning, will prepare them for the premier jobs in industry.”

Hatem received the award for his 3D model for propagation of UHF-RFID tags’ signals in an indoor environment. The competition jury was especially impressed by the creation of his entire workflow, from the computer-aided design (CAD) model of the indoor scenario to the simulation with WinProp. Hatem’s project created an excellent match, of 97 percent correlation, between simulation results and measurements, and the complex post-processing process. He is pursuing his PhD degree at Paris-Est University and the Lebanese University in collaboration with AlliansTIC laboratory at EFREI (École d’Ingénieurs Généraliste du Numérique) in Paris, France.

“I have never thought I’d be the winner of this competition and feel very grateful to have this opportunity to present my PhD work. Special thanks go to my two supervisors who always encourage me to exceed in what I do,” said Hatem.

The project was guided by the two advisors Elizabeth Colin, associate professor and head of Robotics Systems and Drones at EFREI, and Sarah Abou Chakra, associate professor at the Lebanese University.

“Congratulations to Elias, he worked tirelessly to get very promising results. We have used Altair WinProp to simulate indoor environments in our research work and the results obtained encourage us to use it for future student projects at EFREI Paris,” said Colin.

“There is nothing more fulfilling than reaping the fruits of our labor. I’m very happy for Elias’ achievement, which I consider a success for him and the institutions he works with. Teamwork makes the dream work,” said Abou Chakra.

The winning project titled, “3D Modeling for Propagation of UHF-RFID Tags’ Signals in an Indoor Environment,” is available for download here.

Details about future student competitions and more information about the Altair University Program for students can be found on the Altair University website.

LEUVEN, Belgium, Apr 7, 2020 – In the fight against the corona virus crisis, hospitals are in dire need of mechanical ventilators to treat COVID-19 patients. In response to this shortage, Materialise, a Belgium-based pioneer in 3D printing, has developed the Materialise NIP Connector, a device to convert standard equipment available in most hospitals, into a mask to facilitate breathing for patients by creating positive pressure in the lungs. These assembled masks allow clinicians to reduce the time patients need access to mechanical ventilators, which helps to reduce the strain on ventilator supplies. Materialise has decades of experience in certified medical 3D printing and is now fast-tracking the regulatory registrations that are crucial to ensure the safety of patients and caregivers. The company expects to have the device broadly available for hospitals by mid-April.

Around the world, hospitals are looking for medical equipment capable of delivering air with added oxygen to treat critically ill corona virus patients. Currently this treatment is carried out using mechanical ventilators, which are critically under-supplied. As a result, clinicians today are exploring different methods to apply positive end expiratory pressure (PEEP) to the lungs of COVID-19 patients without the use of a ventilator.

Materialise has developed a solution to deliver oxygen and create high positive pressure without the use of a ventilator. A 3D printed connector converts standard equipment already available in most hospitals into a  non-invasive PEEP mask (NIP) that can be connected to the oxygen supply (to facilitate breathing for corona virus patients). This solution gives patients an extended period of time before mechanical ventilators are required for treatment, and helps transition them off ventilators earlier, freeing up these devices for patients in critical need. By using standard medical equipment, including a non-invasive ventilation (NIV) mask, a filter and a PEEP valve, the solution is simple and familiar to use for medical professionals.

Certified medical manufacturing

While 3D printing allows for fast and local manufacturing of medical devices, making it possible to bring solutions to hospitals quickly, it is critical to comply with regulations to ensure the safety of patients and caregivers. Materialise is now fast-tracking the regulatory registration (in Europe and the U.S.). In parallel, Materialise is supporting a clinical trial to test the clinical impact of its use on COVID-19 patients and expects first results to be available within the next two weeks.

“3D printing is playing a crucial role in fighting the global corona virus pandemic by making it possible to develop innovative solutions and have them available worldwide very quickly,” said Brigitte De Vet, Vice President of Materialise Medical. “At the same time, it is crucial that the medical products we put on the market are safe and effective. Materialise has decades of experience in certified medical 3D printing which allows us to bring 3D printed devices to the market quickly and safely.”

Meanwhile, the 3D printing company is upscaling its production capability to make the solution available broadly and quickly to hospitals that are looking for an emergency solution. The Materialise NIP Connectors will be manufactured at the company’s ISO 13485 certified facilities in Belgium and Plymouth, Michigan and on-site 3D printing facilities of qualified partners. Materialise is looking for partners to get this solution to as many patients as possible.

3D printing is a digital manufacturing technology that makes it possible to create products quickly and locally. As travel and transport become more difficult and speed is of the essence, the ability to manufacture locally becomes more important. In this case, the product was designed in Belgium and can be printed at a Materialise certified facility, or at a hospital that has the capability to do so in a reliable manner.

In addition to the NIP solution, Materialise engineers have developed several innovations to support treatment and containment of the corona virus, including:

1. A 3D printed door handle attachment, which allows users to open doors using covered forearms rather than bare hands in an effort to reduce direct contact with potentially contaminated shared door handles
2. A 3D printed shopping cart handle to allow users to steer carts with their arms rather than touching handles with bare hands
3. A 3D printed connector to adapt Scuba masks to allow for air filtration and oxygen supply

Photos and a video of the 3D printed conversion kit and complete masks are available, as well as a blogpost with more background information. People who have question or want to collaborate with Materialise can get in contact through FightCovid@Materialise.be.

About Materialise

Materialise incorporates three decades of 3D printing experience into a range of software solutions and 3D printing services, which together form the backbone of the 3D printing industry. Materialise’s open and flexible solutions enable players in a wide variety of industries, including healthcare, automotive, aerospace, art and design, and consumer goods, to build innovative 3D printing applications that aim to make the world a better and healthier place. Headquartered in Belgium, with branches worldwide, Materialise combines the largest group of software developers in the industry with one of the largest 3D printing facilities in the world. For additional information, visit www.materialise.com.

GLOUCESTERSHIRE, UK, Apr 7, 2020 – Global engineering company, Renishaw, has started mass-producing critical components for medical ventilators, as part of a nationwide effort to support the NHS in the fight against COVID-19. The company has dedicated a significant part of its manufacturing sites in Gloucestershire and South Wales to produce precision-machined components for two different ventilators manufactured by the VentilatorChallengeUK consortium, with production at the sites now running seven days a week. This follows a huge effort from the project, manufacturing engineering and production teams over the last two weeks.

Like many companies across the UK, Renishaw reacted to the UK government’s call to radically increase ventilator production to treat corona virus patients suffering with respiratory complications. Tens of thousands of these complex machines are needed in just a few weeks.

Marc Saunders, Director of Group Strategic Development, who is leading Renishaw’s response, explains, “When the government called, we scrambled to respond, and immediately realized the daunting scale of the challenge. Ventilators are sophisticated medical devices and we felt that our capabilities would be best applied to helping scale up the production of designs with existing technologies. We soon realized that many other industrial companies were thinking the same way and that we would need our combined capacity and capabilities to achieve this enormous endeavor.”

Within a few days, Renishaw joined with leading companies in the aerospace, automotive, medical devices and motorsport sectors to form the VentilatorChallengeUK consortium, under the leadership of Dick Elsy, CEO of the High Value Manufacturing Catapult. This diverse team is working non-stop to boost production of two proven ventilators, selected by the NHS and manufactured in the UK by Penlon and Smiths Medical.

Dick Elsy explains, “Penlon and Smiths ordinarily have combined capacity of between 50 and 60 ventilators per week. However, thanks to the scale and resources of the wider consortium, we are targeting production of at least 1,500 units a week of the Penlon and Smiths models combined within a matter of weeks. Ventilators are intricate and highly complex pieces of medical equipment and it is vital that we balance the twin imperatives of speed of delivery with the absolute adherence to regulatory standards that is needed to ensure patient safety.”

Within this context, Renishaw’s manufacturing activities form part of a complex network of suppliers that the consortium is coordinating, many of whom, like Renishaw, are making ventilator components for the first time. Mass-production of ventilators, each of which comprises hundreds of diverse components, requires millions of parts to come together for assembly, a huge logistical operation.

“To prepare for the important work that we are undertaking, both for the ventilator project and our global customers in critical supply chains, we temporarily closed our UK manufacturing facilities last week to introduce additional measures to protect the welfare of our employees”, explains Gareth Hankins, Director of Group Manufacturing Services at Renishaw.

He continues, “We have reorganized our factories to increase spacing, as well as zoning areas to restrict movement around the sites. Hygiene regimes have also been enhanced to minimize the potential risk of the spread of infection. Our staff have responded magnificently to this challenging situation and it is wonderful to see the factories back up and running and for us to be playing our part in the national Ventilator Challenge.”

Marc Saunders reflects, “It has been an extraordinary few weeks, with so many companies from different fields aligning on a single goal and pulling together so effectively and so quickly. The VentilatorChallengeUK consortium is working together with incredible determination and energy to scale up production of much-needed ventilators and combat a virus that is affecting people around the world.”

He concludes, “The consortium’s key message is that ‘Every ventilator produced is a life saved’ and Renishaw is proud to be playing its part in this vital endeavor.”

For more information, visit https://www.renishaw.com.

BOSTON, MA, USA, Apr 7, 2020 – In response to the suspended FIRST season caused by COVID-19, PTC (NASDAQ: PTC) is inviting FIRST teams around the world to compete virtually in its design competition, “Robots to the Rescue”, in which teams will be challenged to design a robot that can solve a current real-world problem.

FIRST is a robotics community that prepares young people for the future. Each year, the global non-profit organization offers a suite of robotics competitions for students in grades PreK-12. These competitions provide participants with a sense of accomplishment and the understanding that they can do anything with their collective skills, leadership, and confidence. The experience they gain can positively impact their future and take them further than any other sport can. In mid-March, amid school closures and expanded travel restrictions due to the COVID-19 outbreak, FIRST announced the suspension of its current FIRST season.

Students are invited to design and compete virtually in Robots to the Rescue using Onshape – the world’s only pure Software-as-a-Service (SaaS) product development platform. Because Onshape is web-based, FIRST students can collaborate remotely while continuing to hone their engineering skills. As part of the six-week competition, FIRST teams, specifically FIRST Tech Challenge and FIRST Robotics Competition teams, will design a robot that can help solve a real-world problem such as providing food and supplies to people in remote places, or removing pollution from the atmosphere.

“This competition is an opportunity for FIRST students around the world to engage their interest in STEM and collaborate with one another virtually,” said Jim Heppelmann, president and CEO, PTC. “With Onshape, students will use a robust CAD design solution that’s powerful, easy to get started, and fun to use.”

Onshape is used worldwide by thousands of professional and aspiring designers and engineers and is accessible from a wide range of devices, including Chromebooks, MacBooks, smartphones, and tablets. As a pure SaaS platform, there is no software installation required and no IT infrastructure to administer and maintain, allowing students to get started quickly and to collaborate remotely, innovate, and have fun.

“We’re thrilled that PTC has made the Robots to the Rescue competition exclusively available to FIRST Tech Challenge and FIRST Robotics Competition students,” said Ken Johnson, Director, FIRST Tech Challenge. “We know our participants will gain valuable knowledge through this experience, and it’s a chance for them to virtually connect and problem-solve together during this time of social distancing. We’re grateful to PTC for helping to make the competition possible this year, as well as for its continued support of FIRST over a long-standing relationship.”

The competition launched on Friday, April 3. Students from around the world can register for the competition online here. For a complete list of rules and guidelines, please visit here. Both the competition and the use of Onshape are free to students.

Rockwell Automation, also a proud sponsor of FIRST, and with which PTC has a robust strategic alliance, is also supporting the competition.

About PTC

PTC (NASDAQ: PTC) enables global manufacturers to realize double-digit impact with software solutions that enable them to accelerate product and service innovation, improve operational efficiency, and increase workforce productivity. In combination with an extensive partner network, PTC provides customers flexibility in how its technology can be deployed to drive digital transformation – on premises, in the cloud, or via its pure SaaS platform. At PTC, we don’t just imagine a better world, we enable it.  For more information, visit https://www.ptc.com.

MCKINNEY, TX, USA, Apr 7, 2020 – Sigmetrix, a company focused on enabling clients to design better products through mechanical variation management, announced the availability of their academic program for their Computer-Based Fundamentals of GD&T Training Course (ASME).

Many institutes of higher education have struggled with a way to effectively include GD&T training into their curricula where it would add significant value for their students. Sigmetrix is offering a computer-based tool to help educators augment their existing curriculum with a flexible, self-paced course covering the fundamentals of the language. The ability to author and understand GD&T is becoming more important than ever as industries shift to improve the way their part requirements are defined and communicated throughout the companies and their supply chains.

Educators will be able to enrich their curriculum with this new computer-based course that will allow students to access our Level 1 training course that includes a combination of videos and slides along with quizzes and tests. This course is designed to engage students and help them learn faster and more deeply by enabling them to focus on new concepts at their own pace. Interactive quizzes that give immediate results will support understanding of the material and will help develop the student’s intuition.

1. There are 21 units including an introduction that covers the major concepts in GD&T. Each unit is 10 to 60 minutes in length depending on the concepts covered and the student’s pace.
2. Intuitive user portal contains all the content in one window.
3. Mobile app for iOS and Android allows users to download course to take it offline.
4. Quizzes at the end of modules allow students to ascertain their grasp of the concepts and revisit material when needed.
5. Reference materials included: The Journeyman’s Guide to GD&T, GD&T Update Guide: ASME Y14.5-2009, and GD&T Visual Glossary.

“We receive many inquiries for computer-based GD&T Training.  It’s a complex topic, and while some of the advanced concepts are more clearly conveyed with an instructor leading the dialog, we wanted to develop a course covering the fundamentals of the language to meet the demands of the market,” stated Stephen Werst, Director of Customer Success & Product at Sigmetrix.

Sigmetrix provides a complete portfolio enabling customers to build better products through mechanical variation management.  They offer many solutions that can:

1. Maximize the return on your MBD investment
2. Improve profitability by balancing quality with manufacturing cost
3. Achieve faster time to market by reducing design and prototype cycles
4. Bring more innovative products to market through better understanding of mechanical variation
5. Capture and communicate critical product and process knowledge within your organization

Contact Sigmetrix for the academic program detail at sales@sigmetrix.com, or visit https://www.sigmetrix.com/services/academic-program/.

About Sigmetrix

Sigmetrix is a global provider of comprehensive, easy-to-use software solutions that help users achieve robust designs through tolerance analysis and the correct application of GD&T. With over 25 years of research and development, Sigmetrix products eliminate the error between as-designed assemblies and as-produced products. For more information, visit www.sigmetrix.com.

PASADENA, CA, USA, Apr 7, 2020 – Bluebeam, Inc., leading developer of innovative technology solutions for the global architectural, engineering and construction (AEC) industries, and part of the Nemetschek Group, announced the formation of a Australian subsidiary, Bluebeam Australia Pty Ltd., to better serve customers in a region experiencing rapid growth in civil and commercial construction.

Headquartered in Brisbane, Bluebeam Australia officially launched in January 2020. Regional Director Kelly Furtado will oversee the launch of a regional sales, marketing and services organization that will serve the ANZ market with the continued assistance of its network of resellers.

Bluebeam, Inc., founded in 2002 and headquartered in Pasadena, CA, develops innovative technology solutions that set the standard for project efficiency and collaboration for more than 1.7 million design and construction professionals worldwide. Bluebeam Australia Pty Ltd. Joins Bluebeam, Inc. in the United States, Bluebeam Limited UK Ltd. in London, England, Bluebeam AB in Stockholm, Sweden, Bluebeam Denmark in Copenhagen, Denmark and Bluebeam GmbH in Munich, Germany, to provide localized services to a rapidly evolving global construction industry.

“Expanding into Australia marks a milestone in Bluebeam’s growth as we continue to develop solutions that transform the way our industry builds, globally” said Bluebeam CEO Jon Elliott. “We are especially excited about the opportunity to forge new partnerships in one of the fastest growing and most important global AEC industry segments and work directly with customers who are advancing construction every day.”

“The construction industry in Australia is rapidly evolving as companies turn to digital solutions to increase productivity and efficiency,” said Kelly Furtado. “Recent reports project a 6.3% increase in commercial construction in 2020 and a 11.1% increase in civil construction by 2022 mainly due to government-led infrastructure spending. With projects growing more complex and schedules remaining tight, teams need simple, scalable, easy-to-use digital solutions that help them do their jobs better, faster, and more accurately. Bluebeam’s solutions are specifically designed to solve the real problems construction professionals face every day so they can finish their projects on time and under budget.”

For more information, visit https://www.bluebeam.com.

LONDON, UK, Apr 6, 2020 – ENGYS is pleased to announce the new release of ELEMENTS 3.2.1, an open-source based CFD software suite for vehicle design applications produced by Streamline Solutions LLC.

The product combines two simulation environments in one package: a dedicated virtual wind tunnel wizard for modelling external vehicle aerodynamics, and a general purpose CFD interface for solving other vehicle design applications (e.g. UHMT, HVAC, in-cabin flows, aeroacoustics, etc). The default methodology and best practices for external vehicle aerodynamics provided with this version of ELEMENTS have been widely tested and validated to conform to the latest regulations on alternative drag prediction methods proposed as part of the Worldwide harmonized Light vehicles Test Procedure (WLTP).

The new version of ELEMENTS 3.2.1 offers a wide range of extended capabilities and several refinements to remove known issues found in the previous release 3.2.0. Some of the new exciting features added in this version include:

1. Enhanced display rendering for remote client-server connections to HPC systems with multiple computational nodes.
2. Faster I/O thanks to added support for solution fields in binary format.
3. Extended support for the python-based macro journaling system in ELEMENTS-GUI.
4. New mapped boundary conditions to map fields from either a boundary patch or a volumetric distance-based source.
5. New TAITherm coupling thermal boundary condition.
6. Added support for porous media in cylindrical coordinate system.
7. New vectors visualisation object.
8. Added support for box and sphere types for slice and clip visualisation objects.
9. Added support for nested hierarchy of visualisation objects.
10. Added support for fields visualisation inside volumetric cell zones.
11. New options for colour legends and backface/frontface visualisation.
12. New block-coupled density-based compressible flow solver for subsonic, transonic and supersonic regimes in ELEMENTS-Coupled add-on module.

To learn more about ELEMENTS, please visit our website or contact ENGYS to schedule a demonstration of the software and discover several success stories from automotive OEMs, tier-1 suppliers and motorsport teams who are already benefiting from using ELEMENTS.

About Streamline Solutions:

Streamline Solutions LLC, a joint venture formed between ENGYS and Auto Research Center, was founded in the USA in early 2012 to serve the vehicle design software market, covering automotive, motorsports, commercial and military applications. The company develops and promotes the software ELEMENTS, a CFD analysis and vehicle design optimization suite powered by open-source technologies developed by ENGYS. Streamline Solutions combines ENGYS’ leading-edge software development and support, a long and reputable participation in the open-source software business, with ARC’s proven vehicle design expertise and world leading wind tunnel and experimental facilities for validation purposes. For more information, visit https://engys.com.

LONDON, UK, Apr 6, 2020 – ENGYS is delighted to announce the release v3.2.1 of HELYX, a general-purpose Computational Fluid Dynamics (CFD) software solution for engineering design and optimisation based on ENGYS’ own open-source simulation engine (HELYX-Core). The new release also includes updates for all of HELYX’s add-on solver modules, namely: Adjoint, Coupled, Marine and Hydro.

HELYX 3.2.1 offers a wide range of extended capabilities and several refinements to remove known issues found in the previous release 3.2.0. Some of the new exciting features added in this version include:

1. General: Added support for solution fields in binary format.
2. General: Added support for Centralized Boundary Conditions system to read/write boundary fields from a single unified file rather than decomposed files.
3. General: Extended support of GUI action for the python-based macro journaling system.
4. General: Enhanced software rendering engine optimised for HPC systems with multiple computational nodes.
5. Setup: New Joule heating electrical modelling for CHT cases.
6. Setup: New mapped boundary conditions to map fields from either a boundary patch or a volumetric distance-based source.
7. Setup: New TAITherm coupling thermal boundary condition.
8. Setup: Added support for porous media in cylindrical coordinate system.
9. View: New vectors visualisation object.
10. View: Added support for box and sphere types for slice and clip objects.
11. View: Added support for nested hierarchy of visualisation objects.
12. View: Added support for fields visualisation inside volumetric cell zones.
13. View: New options for colour legends and backface/frontface visualisation.
14. HELYX-Coupled: New block-coupled density-based compressible flow solver for subsonic, transonic and supersonic regimes.

For a complete list of additions and changes, users can refer to the Release Notes provided with the software.

If you are not a user of HELYX already, check out the HELYX product page to learn more about this CFD package or contact ENGYS for further information or scheduling a demonstration of the software.

About ENGYS

ENGYS develops, supports and delivers best-in-class CFD software solutions based around open-source technologies, offering a variety of expert products and services focused on CFD and MDO. The company’s main software products include HELYX, ELEMENTS, HELYX-OS and several specialised add-on modules for adjoint based optimisation and advanced flow simulations. ENGYS operates globally through a network of offices in the UK, Germany, Italy, USA, Australia and South Africa, in addition to local distributors in Japan, South Korea, China, USA and Benelux. For more information, visit https://engys.com.