May 16, 2020

JML founder receives lifetime achievement award

JML
John Mills
retail industry
EMMA awards
Nell Walker
2 min
JML founder receives lifetime achievement award
JML Founder and Chairman, John Mills, has been awarded the Electronic Retailing Association's Lifetime Achievement Award in Barcelona, at the inaugu...

JML Founder and Chairman, John Mills, has been awarded the Electronic Retailing Association's Lifetime Achievement Award in Barcelona, at the inaugural EMMA awards.

The awards, held as part of a gala evening at the Electronic Home Shopping Conference, honoured companies and individuals who have contributed and continue to develop the home shopping industry. 

John Mills started his company, JML, in the basement of his house in London’s Camden Town in 1986. Today, the company employs nearly 300 people and sees £100 million sales annually. This year also marks the brand’s 30th anniversary.

Mills has played a key role within ERA’s leadership, having sat on the European Board between 2007 and 2011, and serving as Chairman for the last two of those years.

Isabelle Fournier, Chairwoman of ERA Europe, commented of the award: We are delighted to announce that our Lifetime Achievement Award is being presented to retail & TV Home Shopping veteran John Mills. John was one of the first to recognise the power of video marketing and he has built an incredibly successful company with JML. His passion and keen business acumen is widely respected within our organisation and we are immensely proud to have had him work alongside us as part of the ERA family.”

Mills added: “I am extremely honoured to have been recognised by the ERA for this award. I have always valued the ERA and have been proud to have been a part of their board for a number of years and so this does truly mean a lot to me.”

 

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Jun 23, 2021

Hexagon Revolutionises Manufacturing Design Process

Hexagon
Fugaku
fujitsu
Manufacturing
Elise Leise
3 min
Fugaku’s supercomputer allows Hexagon’s clients can use complex CFD simulation to drive innovation in next-gen aircraft and electric vehicle manufacturing

A global leader in sensor, software and autonomous solutions, Hexagon recently announced that complex CFD (computational fluid dynamics) simulations can now be completed with the help of the world’s fastest supercomputer, Fugaku. Before this breakthrough, CFD simulations were far too expensive and time-consuming to run. Now, however, engineers can use these high-detail simulations to explore new ideas, iterate their designs, and optimise next-gen aircraft and electric vehicle manufacturing. 

 

Thanks to Hexagon, manufacturers can now analyse what they’re up against before starting their build process—with one-third the energy use of traditional simulations and a fraction of the cost. This is only the latest step in Hexagon’s mission to use design and engineering data to speed up smart manufacturing. As the company wrote: ‘The idea of putting data to work is part of Hexagon’s DNA’. 

 

What Are CFD Simulations?

Simply put, they’re simulations so complex and powerful that engineers usually have to spend hours upon hours simplifying their designs. 90% of an engineer’s time can centre around this task—but not with Fugaku-powered simulations. Now, original designs can be fed into the simulation software, reaching a much closer approximation of reality. 

 

With the ARM-powered Fugaku supercomputer, Hexagon’s Cradle CFD clients can now reduce simulation cost, conserve valuable energy, and integrate high-detail simulations into their daily operations. At a time when the automotive and aerospace industries are racing to bring safe and sustainable transport options to market, in fact, CFD simulations could be the key to success. 

 

How Does CFD Change the Game? 

As auto manufacturers transition to electric vehicles, they must understand how design adjustments will affect the vehicle in real-time. Instead of physically iterating their blueprints, they’d rather work it out in theory. With CFD, engineers can now pre-test critical safety, performance, and longevity features—for example, how aerodynamics will interact with energy efficiency, or how thermal management will operate under a range of parameters. Essentially, CFD simulations speed up the design process and cut down on costly mistakes. 

 

Said Roger Assaker, President of Design & Engineering in Hexagon’s Manufacturing Intelligence division: ‘Simulation holds the key to innovations in aerospace and eMobility. Advances such as the low-power Fugaku supercomputing architecture are one of the ways we can tap into these insights without costing the Earth, and I am delighted by what our Cradle CFD team and our partners have achieved’. 

 

 

How Did Testing Unfold? 

Hexagon collaborated with Fujitsu Limited to create and complete several test situations. Here’s a quick look at two of their trials: 

  • Prototyped a typical family car. This is only possible with enhanced computing power. The car model consisted of 70 million elements using 960 cores and was simulated until it reached a  steady-state using the RANS equation over 1000 cycles. 
  • Simulated transonic compressible fluid around an aeroplane. Made up of approximately 230 million elements, the simulation used 4,000 nodes using 192,000 computing cores and relied on 48,000 processes via Message Passing Interface (MPI). 

Tomohiro Irie, Hexagon’s Director of R&D for Cradle CFD, commented on the recent progress: ‘I expect that these technical developments will contribute to making the power of Fugaku more accessible for general use, bringing huge freedom and improved insights to engineering teams solving tomorrow’s problems today’. 

Overall, Hexagon intends to continue driving product innovation forward, with smart manufacturing that adapts to conditions in real-time, pursues perfect quality, and optimises designs for zero waste. And there’s little doubt about it. With 20,000 employees in 50 countries, coupled with Fugaku’s supercomputing capabilities, Hexagon is uniquely poised to succeed.

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