IBM-Q-One
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Taking a quantum leap

Taking a quantum leap

More and more vehicle functions are based on artificial intelligence. However, conventional processors and even graphics chips are increasingly reaching their limits when it comes to calculations required for neural networks.  Porsche Engineering reports on new technologies that will speed up AI calculations in the future.

 

Artificial intelligence (AI) is a key technology for the automotive industry—and fast hardware is correspondingly important for the complex back-end calculations involved. After all, it will only be possible to bring new functions into series production in the future with high-performance computers. “Autonomous driving is one of the most demanding AI applications of all,” explains Dr. Joachim Schaper, Senior Manager AI and Big Data at Porsche Engineering. “The algorithms learn from a multitude of examples collected by test vehicles using cameras, radar, or other sensors in real traffic.”

Dr. Joachim Schaper, Senior Manager AI and Big Data at Porsche Engineering

Dr. Joachim Schaper, Senior Manager AI and Big Data at Porsche Engineerin

Conventional data centers are increasingly unable to cope with the growing demands. “It now takes days to train a single variant of a neural network,” explains Schaper. So in his view, one thing is clear: Car manufacturers need new technologies for AI calculations that can help the algorithms learn much faster. To achieve this, as many vector-matrix multiplications as possible must be executed in parallel in the complex deep neural networks (DNNs)—a task in which graphics processing units (GPUs) specialize. Without them, the amazing advances in AI in recent years would not have been possible.

50 times the size of a GPU

Graphics cards were not originally designed for AI use, however, but to process image data as efficiently as possible. They are increasingly stretched to the limit when it comes to training algorithms for autonomous driving. Hardware specialized in AI is therefore required for even faster calculations. The Californian company Cerebras has presented a possible solution. Their Wafer Scale Engine (WSE) is optimally tailored to the requirements of neural networks by combining as much computing power as possible on one giant computer chip. It is more than 50 times the size of a normal graphics processor and offers space for 850,000 computing cores—over 100 times as many as on a current top GPU.

In addition, Cerebras engineers have networked the computational cores together with high-bandwidth data lines. According to the manufacturer, the network on the Wafer Scale Engine transports 220 petabits per second. Cerebras has also widened the bottleneck within the GPUs: Data travels between memory and computing unit nearly 10,000 times faster than in high-performance GPUs—at 20 petabytes per second.

 

Giant chip: Cerebras’ Wafer Scale Engine combines enormous computing power on a single integrated circuit with a side length of more than 20 centimeters.

Giant chip: Cerebras’ Wafer Scale Engine combines enormous computing power on a single integrated circuit with a side length of more than 20 centimeters.

To save even more time, Cerebras mimics a trick of the brain. There, neurons work only when they get signals from other neurons. The many connections that are currently inactive do not need any resources. In DNNs, on the other hand, vector-matrix multiplication often involves multiplying by the number zero. This costs time unnecessarily. The Wafer Scale Engine therefore refrains from doing so. “All zeros are filtered out,” Cerebras writes in its white paper on the WSE. So the chip only performs operations that produce a non-zero result.

One drawback of the chip is its high electrical power requirement of 23 kW and requires water cooling. Cerebras has therefore developed its own server housing for use in data centers. The Wafer Scale Engine is already being tested in the data centers of some research institutes. AI expert Joachim Schaper believes the giant chip from California could also accelerate automotive development. “By using this chip, a week’s training could theoretically be reduced to just a few hours,” he estimates. “However, the technology has yet to prove that in practical tests.”

Light instead of electrons

As unusual as the new chip is, like its conventional predecessors it also works with conventional transistors. Companies like Boston-based Lightelligence and Lightmatter want to use the much faster medium of light for AI calculations instead of comparatively slow electronics, and are building optical chips to do so. DNNs could thus work “at least several hundred times faster than electronic ones,” write developers at Lightelligence.

“With the Wafer Scale Engine, a week of training could theoretically be reduced to just a few hours.”Dr. Joachim Schaper, Senior Manager AI and Big Data at Porsche Engineering

To do this, Lightelligence and Lightmatter use the phenomenon of interference. When light waves amplify or cancel each other, they form a light-dark pattern. If you direct the interference in a certain way, the new pattern corresponds to the vector-matrix multiplication of the old pattern. So the light waves can “do math.” To make this practical, the Boston developers etched tiny light guides into a silicon chip. Like in a textile fabric, they cross each other several times. Interference takes place at the crossings. In between, tiny heating elements regulate the refractive index of the light guide, allowing the light waves to be shifted against each other. This makes it possible to control their interference and perform vector-matrix multiplications.

However, the Boston companies do not dispense with electronics altogether. They combine their light computers with conventional electronic components that store data and perform all calculations except vector-matrix multiplications. These include, for example, the nonlinear activation functions that modify the output values of each neuron before they move on to the next layer.

Computing with light: Lightmatter’s Envise chip uses photons instead of electrons to calculate neural networks. The input and output data is supplied and received by conventional electronics.

Computing with light: Lightmatter’s Envise chip uses photons instead of electrons to calculate neural networks. The input and output data is supplied and received by conventional electronics.

With the combination of optical and digital computing, DNNs can be computed extremely quickly. “Their main advantage is low latency,” explains Lindsey Hunt, a spokesperson for Lightelligence. For example, this allows the DNN to detect objects in images faster, such as pedestrians and e-scooter riders. In autonomous driving, this could lead to faster reactions in critical situations. “In addition, the optical system makes more decisions per watt of electrical energy,” Hunt said. That’s especially important as increasing computing power in vehicles increasingly comes at the expense of fuel economy and range.

The solutions from Lightmatter and Lightelligence can be inserted as modules into conventional computers to speed up AI computations—much like graphics cards. In principle, they could also be integrated into  vehicles, for example to implement autonomous driving functions. “Our technology is very well suited to serve as an inference engine for an autonomous car,” explains Lindsey Hunt. AI expert Schaper has a similar view: “If Lightelligence succeeds in building components suitable for automobiles, this could greatly accelerate the introduction of complex AI functions in vehicles.” The technology is now ready for the market: The company is planning its first pilot tests with customers in the year 2022.

The quantum computer as an AI turbo

Quantum computers are somewhat further away from practical application. They, too, will accelerate AI calculations because they can process vast amounts of data in parallel. To do this, they work with so-called “qubits.” Unlike the classical unit of information, the bit, a qubit can represent the two binary values 0 and 1 simultaneously. The two numbers coexist in a superposition state that is only possible in quantum mechanics.

“The more complicated the patterns, the more difficulty conventional computers have distinguishing classes.”Heike Riel, Lead IBM Research Quantum Europe/Africa

Quantum computers could turbocharge artificial intelligence when if comes to classifying things, for example in traffic. There are many different categories of objects there, including bicycles, cars, pedestrians, signs, wet and dry roads. They differ in terms of many properties, which is why experts talk about “pattern recognition in higher-dimensional spaces.”

“The more complicated the patterns, the harder it is for conventional computers to distinguish classes,” explains Heike Riel, who heads IBM’s quantum research in Europe and Africa. That’s because with each dimension, it becomes more costly to calculate the similarity of two objects: How similar are an e-scooter rider and a rollator user trying to cross the street? Quantum computers can work efficiently in high-dimensional spaces compared to conventional computers. For certain problems, this property could be useful and result in some problems being solved faster with the help of quantum computers than with conventional high-performance computers.

Heike Riel, Lead IBM Research Quantum Europe/Africa

Heike Riel, Lead IBM Research Quantum Europe/Africa

IBM researchers have analyzed statistical models that can be trained for data classification. Initial results suggest that cleverly chosen quantum models work better than conventional methods for certain datasets. The quantum models are easier to train and appear to have greater capacity—allowing them to learn more complicated relationships.

Riel admits that while today’s quantum computers can be used to test these algorithms, they do not yet have an advantage over conventional computers. However, the development of quantum computers is progressing rapidly. Both the number of qubits and their quality are steadily increasing. Another important factor is speed, measured in Circuit Layer Operations per Second (CLOPS). This number denotes how many quantum circuits can run on the quantum computer per time. It is one of the three important performance criteria of a quantum computer: scalability, quality, and speed.

In the foreseeable future, it should be possible to demonstrate the superiority of quantum computers for certain applications—that is, that they solve problems faster, more efficiently, and more precisely than a conventional computer. But building a powerful, error-corrected, general-purpose quantum computer will still take some time. Experts estimate that it will take at least another ten years. But the wait could be worth it. Like optical chips or new architectures for electronic computers, quantum computers could be the key to the mobility of the future.

In brief

When it comes to AI calculations, not only conventional microprocessors, but also graphics chips, are now reaching their limits. Companies and researchers worldwide are therefore working on new solutions. Chips in wafer format and light computers are close to becoming reality. In a few years, these could be supplemented by quantum computers for particularly demanding calculations.

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Garmin announces availability of TXi EIS for select Beechcraft King Air 200 aircraft
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Garmin announces availability of TXi EIS for select Beechcraft King Air 200 aircraft

Garmin announces availability of TXi EIS for select Beechcraft King Air 200 aircraft

State-of-the-art TXi EIS upgrade can further modernize King Air 200 series cockpits

OLATHE, Kan./April 14, 2022 – Garmin® International, Inc., a unit of Garmin Ltd., today announced that expanded engine monitoring capability is now available for select Beechcraft King Air 2001 aircraft with the addition of the TXi Engine Indication System (EIS) display. King Air 200 owners and operators will benefit from TXi EIS with features like engine timers, exceedance recordings, dynamic engine indications, as well as wireless data logging, which combine to reduce pilot workload, improve engine efficiency and reduce maintenance costs. The King Air 200 certification builds on Garmin’s full portfolio of EIS solutions, which span from standalone options like the GI 275 EIS for piston single engines to the latest TXi EIS solution for twin turboprops.

Garmin announces availability of TXi EIS for select Beechcraft King Air 200 aircraft

Garmin announces availability of TXi EIS for select Beechcraft King Air 200 aircraft

Enhancements and capabilities with TXi EIS

King Air 200 series owners and operators can now replace aging and costly-to-replace EIS gauges with a modernized display and view EIS information on a dedicated 7-inch TXi flight display in portrait mode. This upgrade simplifies the cockpit and allows pilots to read and analyze critical engine and fuel parameters more clearly. When using multiple TXi displays, pilots can also benefit from display backup capability to help prevent the loss of PFD or EIS information during a single-display failure.

Clearer engine indications for easier operation

All TXi EIS gauge indications display real-time turbine engine information using distinct colors, bands and radials to clearly depict normal operating ranges as well as limitations so pilots can more easily interpret engine data at a glance. Additional standard gauges include oil pressure and temperature as well as fuel flow and electrical system status.

Limit timers and exceedance recordings

Utilizing gauge limit timers, TXi EIS helps pilots maintain the engine within its allowed limits to avoid engine exceedances and as a result, costly maintenance procedures. For example, once a preconfigured limit is exceeded, a countdown timer is displayed alongside the engine gauge. This timer is an indication to the pilot that they need to mitigate the exceedance. If the time-based limit is exceeded, the timer and gauge limits begin flashing and the pilot receives a notification that an exceedance has been recorded. Simultaneously, the TXi EIS system automatically logs a variety of information, including the parameter that was exceeded, duration, highest value that was recorded, time, date and more. The pilot can then review the logged data and share it with maintenance professionals for post-flight analysis.

Add precision to fuel planning

Pilots can more precisely monitor fuel calculations with TXi EIS, which includes an integrated fuel computer. After making a fuel stop, pilots can enter the fuel data within TXi EIS by selecting “full fuel” or by adding a specified amount in pounds, gallons, liters or kilograms. When airborne, the system monitors fuel flow and GPS information to estimate fuel range, endurance and how much fuel is expected to be available at the destination airport.

Wireless flight data logging

To assist with tracking maintenance activities, controlling operating costs and analyzing overall engine health, built-in engine data logging is included with TXi EIS. Aircraft performance, engine data and any exceedances that are recorded during a flight are automatically stored on an SD card (sold separately) in the display. When the TXi EIS display is paired with the Flight Stream 510 wireless gateway, information is wirelessly transferred and stored within the Garmin Pilot™ app and automatically uploaded to the flyGarmin® website. Engine and flight cycles are also recorded to help identify aircraft systems that depend on those limits, such as pressurization systems and other life-limited parts.

The Beechcraft King Air 200 is the latest addition to the growing list of approved turbine aircraft for    TXi EIS, which includes: the Cessna 208/208B, Cessna 425, Cheyenne I & II, Daher TBM 700/850, King Air 90, Pilatus PC-12/47, and the Piper PA-46-310SP/350P JetPROP single-engine turbo aircraft. For additional information, visit garmin.com/TXi or contact a local Garmin authorized dealer.

Garmin products and services have revolutionized flight and become essential to the lives of pilots, aircraft owners and operators around the world. A leading provider of solutions to general aviation, business aviation, rotorcraft, advanced air mobility, government and defense, and commercial air carrier customers, Garmin believes every day is an opportunity to innovate. Garmin was the 2020 recipient of the prestigious Robert J. Collier Trophy for Garmin Autoland, the world’s first certified autonomous system that activates during an emergency to control and land an aircraft without human intervention. For more information, visit Garmin’s virtual Newsroomemail our press team, connect with @garminaviation on social media, or follow our adventures at garmin.com/blog.

1Models include PT6A-41 and -42 engines and retrofitted PT6A-42, -52 and -61 STCs; dedicated GDU 700P required

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About Garmin International, Inc.

Garmin International Inc. is a subsidiary of Garmin Ltd. (NYSE: GRMN). Garmin Ltd. is incorporated in Switzerland, and its principal subsidiaries are located in the United States, Taiwan and the United Kingdom. Garmin and flyGarmin are registered trademarks and TXi and Garmin Pilot are trademarks of Garmin Ltd. or its subsidiaries. All other brands, product names, company names, trademarks and service marks are the properties of their respective owners. All rights reserved.

All other brands, product names, company names, trademarks and service marks are the properties of their respective owners. All rights reserved.

Notice on Forward-Looking Statements

This release includes forward-looking statements regarding Garmin Ltd. and its business. Such statements are based on management’s current expectations. The forward-looking events and circumstances discussed in this release may not occur and actual results could differ materially as a result of known and unknown risk factors and uncertainties affecting Garmin, including, but not limited to, the risk factors listed in the Annual Report on Form 10-K for the year ended December 25, 2021, filed by Garmin with the Securities and Exchange Commission (Commission file number 0001-411180). A copy of such Form 10-K is available at http://www.garmin.com/aboutGarmin/invRelations/finReports.html. No forward-looking statement can be guaranteed. Forward-looking statements speak only as of the date on which they are made and Garmin undertakes no obligation to publicly update or revise any forward-looking statement, whether as a result of new information, future events, or otherwise.

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high-end
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Focal & Naim celebrate 10 years together!

Focal & Naim celebrate 10 years together!

FOCAL & NAIM CELEBRATE 10 YEARS TOGETHER!

United under the umbrella of the VerVent Audio Group since 2011, Focal and Naim are celebrating 10 years together. To commemorate their “tin anniversary”, the brands are releasing a “vintage”, limited edition, high-fidelity system.

FOCAL NAIM 10TH ANNIVERSARY EDITION

To celebrate their “tin” anniversary, Focal and Naim have developed a “vintage” high-fidelity system: Focal Naim 10th Anniversary Edition.

AN EXCEPTIONAL SYSTEM

Popular for its compact yet high-performance design, the Sopra N°2 loudspeaker was chosen to don a unique finish, with concrete on the side panels and “tin” colour on the front, inspired by the finest architecture. These sculpted finishes, giving a metallic effect previously unseen in the audio sector, embody all the artisanal and industrial know-how Focal has accumulated over more than 40 years.

A range of Naim Audio electronics powers the loudspeakers: the NDX 2 music streaming device, combined with the NAC 282 and NAP 250 DR pre-amplifiers, all complemented by HiCap DR and NAPSC power supplies. These high-end products are also finished with a “tin” colour for a perfect harmony. Finally, the system includes all the connectivity you’ll need, including a pair of Super Lumina cables.

FOCAL & NAIM

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Quantum Technologies resonate at MWC2022
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Quantum Technologies resonate at MWC2022

Quantum Technologies resonate at MWC2022

From February 28th to March 3rd, the Mobile World Congress 2022 (MWC) hosted The European Quantum Space, a zone dedicated to showcasing the innovation and development in Quantum Technologies that Europe is driving forward. The 70m2 space exhibited the latest achievements and advances in the field of quantum technologies for three main areas: The Quantum FlagshipRegional Initiatives and Start-ups/Companies, all mainly focusing on quantum communication and computing, two of the areas of major interest within the field.

Quantum Technologies resonate at MWC2022

Quantum Technologies resonate at MWC2022

Throughout four intense days and with an overall estimated attendance of almost 70.000 people to the entire event, the stand received, in addition to the general audience, a variety of institutional visits: representatives of the Ministry of Transport and Communications of Finland, representatives of the Delegation of Alberta, Canada, representatives of the American Consulate in Barcelona, as well as Commercial Advisors of the Denmark Delegation of the European Commission, among others.

Quantum Technologies resonate at MWC2022

Quantum Technologies resonate at MWC2022

Surprisingly enough, many attendees were aware of the emergence of quantum techs and how they are driving a new wave of technologies that are going to shape, somehow, the future of our society, by changing the way we see things, interact and communicate. Some were really interested in learning about the flagship and the underlying projects’ achievements, the emergence of European regional initiatives, such the Quantum Valley Lower Saxony, from Germany, and QuantumCAT, from Catalonia, and others were interested in real gadgets and tangible products and thus wanting to see what the five quantum communication and computing companies, IQM, LuxQuanta, Qblox, Qilimanjaro, Quside, were bringing to the event, of interest to the telecommunication audience, core to the mobile ecosystem that the MWC brings together.

In addition to those with more know-how, those that came to the stand to hear for the first time about quantum technologies were eager and enthusiastic to understand what these actually were, how they could help further develop the mobile ecosystem and technologies in general, what was being exhibited in the stand by the companies, and how the technologies they were developing could be found already on the market to improve existing ones.

For the mobile industry, the greatest impact
will be related to a new secure foundational
internet connectivity that will be brought to us
by quantum communications technologies.

JAYA BALOO / CHIEF INFORMATION SECURITY OFFICER (CISO) AT AVAST SOFTWARE AND VICE-CHAIR OF THE QUANTUM FLAGSHIP STRATEGIC ADVISORY BOARD

All in all, over 200 professionals stopped by and engaged in insightful conversations with the flagship representatives present at the event. On behalf of the Quantum Flagship, Jaya Baloo, Chief Information Security Officer (CISO) at Avast Software and Vice-Chair of the Quantum Flagship Strategic Advisory Board, participated in the MWC discussion panel “5G Security: A New Threat Landscape”, and emphasized during her visit to the stand that “quantum technologies will have a deep and profound impact on the way that we conduct our daily lives, both in the digital and physical realm. For the mobile industry, the greatest impact will be related to a new secure foundational internet connectivity that will be brought to us by quantum communications technologies. This aspect, which is a dream for any security professional as myself, will allow us to accomplish what is called defense in-depth, a hybrid network where we will be able to fuse quantum communications, quantum key distribution and even post quantum cryptographic techniques to give a much more solid layer defense against any potential attack.

Quantum technologies are slowly unfolding and showing the potential to become a game-changer in the future of our society. With the results seen this year, the flagship aims to be present next year, at MWC23, and broaden the frontiers of quantum techs by aiming to showcase a larger variety of technologies already on the market and that can benefit the telecom arena, as well as other trailblazing technological companies that seem very eager to become end-users of this technology.

source: Quantum Technology | The future is Quantum

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Kristian Tear CEO at Bang & Olufsen
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Kristian Tear CEO at Bang & Olufsen

Kristian Tear CEO at Bang & Olufsen

Broad and proven global experience in building, transforming and scaling businesses to significant results, in telecommunication, enterprise and consumer electronic sectors. Expertise in strategy, sales & marketing, digital, product development, operations, security and services, including go to market execution directly, via distribution partners, or direct retail and on line.

Kristian Tear CEO at Bang & Olufsen

Kristian Tear CEO at Bang & Olufsen

Extroverted, inspiring and trusted leader with strong interpersonal and communication skills.  Achieved success through building strong teams and lasting relationships with a diverse network of stakeholders, customers, partners and employees. Have lived in seven countries and acquired extensive knowledge and experience with leading and working in multi-cultural environments. Comfortable leading small and very large organizations of 30 to over 10,000 people, through good and challenging times to success.

Have been responsible for P&Ls in the thousands to several billion dollars, driving profitable growth, cost efficiencies, and value creation for owners, investors, and shareholders.  Adept in working in large and mid-sized publicly listed, private equity owned and start-up companies.
Several years of board experience as chairman and director, including remuneration and audit committee work.

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GSMA’s GLOMO Awards 2022
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GSMA Announces 2022 GLOMO Awards Winners

GSMA Announces 2022 GLOMO Awards Winners

 

March 2022, Barcelona: The GSMA has announced the winners of the 2022 Global Mobile (GLOMO) Awards at MWC Barcelona. The Awards celebrate the companies, individuals and governments who have driven the most innovation in the mobile industry.

“Congratulations to all of our winners and the nominees of the GSMA’s GLOMO Awards 2022. You personify this year’s theme of Connectivity Unleashed,” said John Hoffman, CEO of GSMA Ltd. “This year’s event is more important than ever. Celebrating the innovation and brilliance shaping the mobile ecosystem is crucial. It’s incredible to see the meaningful impact the mobile ecosystem is having in this ever-changing digital world.”

Co-hosted by Justin Springham of Mobile World Live and Sasha Twining, the winners were announced virtually on Wednesday, 2 March, and streamed to audiences around the globe on LinkedIn.

The GLOMO Awards are the most prestigious accolade in the mobile industry. The awards are judged by more than 200 independent industry experts, analysts, journalists, academics, and mobile operator representatives.

This year’s Government Leadership Award was judged by Sigve Brekke, President and CEO of Telenor; Ambassador David Gross, Partner at Wiley; and John Giusti, Chief Regulatory Officer at the GSMA.

The winners of the 2022 GLOMO Awards are:

Mobile Technology category:

  • CTO’s Choice Award

Samsung Networks for fully virtualised 5G RAN solution

  • Best Mobile Network Infrastructure

Huawei for New FDD Gigaband MIMO Modules

  • Best Mobile Technology Breakthrough

Samsung Networks for fully virtualised 5G RAN solution

  • Best Network Software Breakthrough

Rakuten Mobile for 5G Open RAN

  • Best Digital Tech Breakthrough (Companies under $10M Annual Global Revenue)

AccelerComm for 5G physical layer IP for Open RAN that Maximises Spectral Efficiency

  • Best Mobile Authentication & Security Solution

AdaptiveMobile Security, an Enea Company, for the World’s First Unified 5G Network Security Solution

  • 5G Industry Partnership Award

China Unicom Beijing and Huawei for 5G Capital’s Meta Life on Gigabit Society

Industry X category:

  • Best Mobile Operator Service for Connected Consumers

Veon Group for MobileID

  • Best Mobile Innovation for the Connected Economy

Tianjin Port, Huawei and China Mobile for Port Renaissance, Intelligent Twin empowers a Smart, Green Tianjin Port

  • Best Mobile Innovation for the Connected Human

Huawei for 5G Smart Healthcare Lights up Hainan Healthy Island

  • Best Mobile Innovation for Connected Living

Safaricom for M-PESA App

Device category:

  • Best Smartphone

Apple iPhone 13 Pro Max

  • Disruptive Device Innovation Award

Oppo for its Hinge & Display Integration on the FIND N

  • Best Connected Consumer Device

ZTE for Next-Gen Cloud AI Home Security Camera Pro

Tech 4 Good category:

  • Best Mobile Innovation for Emerging Markets

Starlogik IP LLC for StarZRO

  • Best Mobile Innovation supporting Emergency or Humanitarian Situations

Hormuud Telecoms for The WAAFI APP

  • Best Mobile Innovation for Accessibility & Inclusion

SK Telecom and Tuat for AI-based Visual Assistant Service ‘Sullivan Plus X NUGU’

  • Best Mobile Innovation for Climate Action

China Mobile and Huawei for Green 5G Project

  • Outstanding Mobile Contribution to the UN SDGs

Safaricom, Close the Gap and Huawei for DigiTruck Project

Government Leadership category:

  • Government leadership Award

Government of Spain

Outstanding Achievement category:

  • Outstanding Contribution to the Mobile Industry

Mr. Houlin Zhao, Secretary-General, ITU

  • Diversity in Tech Award:

Vodafone for #ChangeTheFace Leadership Alliance

  • Best Innovation for COVID-19 Response & Recovery:

Telit and Controlant for Cellular IoT rollout for COVID-19 vaccine distribution

4YFN category:

  • 4YFN Award:

HumanITcare, using Artificial Intelligence to improve access to healthcare

For further information on GLOMO Awards winners please visit www.globalmobileawards.com.

– ENDS –

About GSMA

The GSMA is a global organization unifying the mobile ecosystem to discover, develop and deliver innovation foundational to positive business environments and societal change. Our vision is to unlock the full power of connectivity so that people, industry, and society thrive. Representing mobile operators and organizations across the mobile ecosystem and adjacent industries, the GSMA delivers for its members across three broad pillars: Connectivity for Good, Industry Services and Solutions, and Outreach. This activity includes advancing policy, tackling today’s biggest societal challenges, underpinning the technology and interoperability that make mobile work, and providing the world’s largest platform to convene the mobile ecosystem at the MWC and M360 series of events.

We invite you to find out more at gsma.com.

Media Contacts:

 

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GSMA Celebrates a Vibrant MWC22 Barcelona
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GSMA Celebrates a Vibrant MWC22 Barcelona

GSMA Celebrates a Vibrant MWC22 Barcelona

 

More than 61,000 attendees convened in-person from around the world to discuss the convergence of mobile, the potential of the metaverse and transforming vertical industries

3 March 2022, Barcelona: The GSMA is celebrating a vibrant and dynamic edition of MWC Barcelona and there was no doubt it was the place to do business. The world’s largest and most influential connectivity event hosted over 61,000 attendees from almost 200 countries. It was the centre of discussion and debate, the place where leaders in the mobile ecosystem continued charting the future to achieve the full potential of technology.

GSMA Celebrates a Vibrant MWC22 Barcelona

GSMA Celebrates a Vibrant MWC22 Barcelona

“Nothing beats MWC in person, and it was exciting to bring our community – which is so passionate about connectivity – back together to discuss the opportunities that lie ahead.” John Hoffman, CEO GSMA Ltd. said. “On behalf of the GSMA, I would like to thank all of our attendees, exhibitors, sponsors, and partners who came together to make MWC22 so productive, safe, and successful. I also want to thank Barcelona City Council, Generalitat de Catalunya, the Ministry of Economy and Digital Transformation, Fira de Barcelona, Tourism de Barcelona (the Host City Parties), the L’Hospitalet de Llobregat, Mobile World Capital, and the people of Catalonia and Spain. Your support is unwavering, and your creativity, hospitality, and perseverance continually inspire us.”

Connectivity Unleashed

Over four days, more than 1,900 companies joined MWC22 Barcelona to showcase the role of mobile technology in unleashing connectivity, exploring https://www.mwcbarcelona.com sponsored by Salesforce, https://www.mwcbarcelona.comhttps://www.mwcbarcelona.com, CloudNet by Kyndryl, FinTech, and the Tech Horizon.

Thought leadership from entrepreneurs, government ministers, and extraordinary people pushing the boundaries of our imaginations spoke from stages across the event. From traditional industries to award-winning filmmakers speakers challenged and inspired attendees to think about new ways of leveraging technology.

Vertical collaboration, startup innovation, and much more at MWC22

Again this year, the Ministerial Programme at MWC was the centre of global digital policy debate. With more than 160 delegations from countries and international institutions around the world, policymakers, regulators, industry leaders, and the international development community exchanged experiences and views on how to build policies for a digital world, maximise the potential of 5G, close the digital gap, and meet global climate targets. As the world becomes increasingly digital, there was broad agreement that we need more collaboration and cooperation amongst all stakeholders to expand digital inclusion for all. This year, leaders like Jessica Rosenworcel, Chairwoman of the U.S. FCC, and Minister Paula Ingabire of Rwanda not only contributed to the conversation in the Ministerial Programme, but brought their policy priorities to the MWC keynote stage.

All-new for this year’s edition, Industry City, co-delivered with Knowledge Partner Accenture showcased demos from the FinTech, Manufacturing, and Automotive sectors. With a buzz of activity, Industry City was a must-see space at the event. Visitors had the opportunity to experience a range of Summits covering robotics and smart mobility topics through interactive metaverse tours and demonstrations from partners and the GSMA Foundry programme.

Focus on the local entrepreneurial startup community returned with the 4YFN (Four Years from Now) programme – supported by platinum sponsor BStartup Banco Sabadell – as it welcomed over 500 international startups and over 300 speakers to share insights on how to drive the ecosystem forward. Competing for more than €24 billion of investment, 200 startups pitched to leading funds, VCs, and CVCs during the event.

MWC22 by the numbers

  • Over 61,000 unique people attended in person
  • Around 500,000 unique virtual and daily viewers on MWC22 and partner platforms
  • Representation from almost 200 countries and territories
  • Over 1,900 exhibitors, sponsors, and partners
  • Over 1,000 speakers, 97% in person and 36% women
  • More than 50% of attendees were Directors and C-Suite executives, 20% were CEOs and founders, 25% were women
  • Millions tuned into MWC22 Barcelona content via Mobile World Live global syndication and official national and international broadcasters.
  • More than 1,600 international journalists were onsite

Our gratitude

“The momentum leading into MWC22 was palpable, and it delivered,” said Mats Granryd, Director General, GSMA. “In the spirit of our theme ‘Connectivity Unleashed’, we saw how industries were going beyond simple connectivity to deliver meaningful connectivity, deploying technology in ground-breaking ways that will shape industry and society. I thank every person who helped make MWC Barcelona 2022 an unmissable event – and as we move to a ‘digital everything’ world, I look forward to seeing what we achieve next year!”

MWC22 was covered by Mobile World Live, CNBC, Euronews, Financial Times, TIME, The Wall Street Journal Barron’s Group, and more than 1,600 international journalists. Featured Media Partners include C114, Insider Intelligence, Radio + Television Business Report, Technology Record, and TeleSemana. A huge thank you to all our MWC22 partners and sponsors. Your collaboration and support contributed significantly to the buzz and excitement of being together at this time.

Local initiatives like, Meet and Eat and Beat Barcelona showcased the best of the city. A preliminary economic analysis indicated that MWC will have contributed more than €240 million to Barcelona’s economy and created more than 6,700 part-time jobs in 2022. And once again, MWC was a carbon-neutral event.

Looking to the future

Following a successful MWC22 Barcelona, the GSMA is working hard to deliver the full MWC series in 2022. The next event, MWC Shanghai, will take place from 29th June – 1st July, followed by the inaugural MWC Las Vegas from 28th-30th September and rounded off by MWC Africa from 25-27th October – which will return in person to Kigali for the first time since 2019.

As the mobile industry gathered this week at MWC22, our thoughts have been with those suffering hardship and loss. Businesses, governments, and individuals alike are wrestling with meaningful ways to help, even as the conflict continues to escalate. Many of our members are responding by facilitating communication with loved ones and by addressing humanitarian needs.

Find out more about MWC Barcelona: www.mwcbarcelona.com.

About GSMA

The GSMA is a global organisation unifying the mobile ecosystem to discover, develop and deliver innovation foundational to positive business environments and societal change. Our vision is to unlock the full power of connectivity so that people, industry, and society thrive. Representing mobile operators and organisations across the mobile ecosystem and adjacent industries, the GSMA delivers for its members across three broad pillars: Connectivity for Good, Industry Services and Solutions, and Outreach. This activity includes advancing policy, tackling today’s biggest societal challenges, underpinning the technology and interoperability that make mobile work, and providing the world’s largest platform to convene the mobile ecosystem at the MWC and M360 series of events.

We invite you to find out more at gsma.com.

 

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Rimac Nevera Completes Final Crash
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Rimac Nevera Completes Final Crash Test

Rimac Nevera Completes Final Crash Test

The intense crash test program for the global homologation of Rimac Nevera is finally complete after four years, thousands of digital simulations and nine complete vehicles destroyed. In total, Rimac Nevera prototypes were subject to 45 separate physical crash tests, and many more static passive safety tests – all necessary to ensure customers throughout the world can safely experience Rimac’s next-generation all-electric hypercar on the road.

The final test, which took place end of January, was the demanding side pole test, conducted at 32km/h and simulating a side impact with a lamppost. With very little of the car’s body and chassis between the pole and the occupants, and very little energy absorbed by the pole, it’s one of the most difficult tests a car can be subjected to. The structure of the Nevera proved to be so effective at distributing the crash energy that the door on the impact side could still be opened after the test. This test was the last passive safety US-homologation test, while European homologation tests were completed in 2021.

Passive safety for the Nevera has been developed by the in-house team at Rimac, initially using High Performance Cluster computers, capable of digitally simulating in near-perfect detail the effects of a crash test impact on every single component of the Nevera. Despite a physical crash test impact taking just 80 milliseconds – less than a blink of an eye – to simulate a test takes the computers 20 hours of processing time. Only once engineers have achieved the desired results digitally do they make adjustments to the physical cars and subject them to ‘the wall’.

The Nevera was designed from the very beginning to be extremely safe, built around an advanced carbon fibre monocoque extending between the front and rear suspension attachments. As a result, the Nevera is the stiffest production car ever created, with a torsional rigidity of 70,000 Nm/degree – a regular supercar will be around 40,000 Nm/degree. The monocoque also forms part of a very stiff survival cell that helps to dissipate energy around the occupants in the case of a crash. The roof of Nevera can resist more than three times the weight of the car.

Throughout the crash test program since 2019, Nevera prototypes were subjected to the most extreme of conditions. During this latest side pole test, the occupant – a 200,000 eur crash test dummy – experienced up to 25 g of lateral acceleration, but have been subjected to 41g during the frontal wall crash test at 56km/h. The highest impact speed Nevera experienced during the process was in the US-market rear crash test, completed at 80km/h. Furthermore, the last crash test resulted with the dummy’s load results being all green with high margin.

Rimac has been transparent with the crash test process, publicly sharing everything from the early materials tests, the prototype developments and these final crash tests. Members of the media have been actively welcomed in throughout the entire journey of creation for the Nevera, too, offering unrivaled insight into the development of a transformational all-electric hypercar from the ground up.

The Nevera was designed to excel in every area, with each component scrutinized and carefully engineered to deliver the best possible performance. For four years now we have been applying that same painstaking attention to detail to the safety of Nevera, with engineers working tirelessly on thousands of digital simulations and modifications to prototype vehicles, just to see their work destroyed during the crash testing process. All of their efforts has been absolutely crucial to the development of Nevera, and as this latest test concludes the Nevera crash-testing program, which brings us close to finally being able to hand over our next-generation all-electric hypercar to its first owners throughout the world.”

Mate Rimac, Rimac Group founder and CEO

Designed, engineered, and built in-house at Rimac Automobili, the Nevera is limited to just 150 units. Made possible by its 120kWh, 6960-cell battery producing 1914hp and 2360Nm of torque, Nevera achieves a top speed of 258 mph (412 km/h), a 0-62mph (100km/h) time of 1.85 seconds, and a 0-100 mph (161 km/h) time of 4.3 seconds. It has been indep

www.rimac-automobili.com
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The new BAC Mono sports the stunning new generation of the single-seater’s design DNA

The new BAC Mono sports the stunning new generation of the single-seater’s design DNA

DESIGN

first seen on the ground-breaking BAC Mono R. A comprehensive redesign of every single panel successfully reduces visual mass across the body and achieves a more organic, lighter aesthetic.

“Following the well-worn recipe of more power, less weight and more extreme design and technology in the pursuit of ultimate thrills, the new BAC Mono is a slice of single-seater mayhem.”

— TIM POLLARD, CAR MAGAZINE

POWER

“The new Mono is powered by a 2.3-litre 332bhp turbocharged engine, meeting EU6 emissions regulations but maintaining Mono’s phenomenal performance DNA.”

INNOVATION

“BAC is forever innovating and pushing automotive boundaries with a perpetual focus on lightweight technology. The new Mono features a number of technological feats that keep its weight at just 570kg and subsequently enhance performance.”

ULTIMATE DRIVING EXPERIENCE

“Lighter weight, more power and more efficient aerodynamics provide a driving experience in the new Mono that pushes the boundaries ever closer to perfection.”

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Introducing Our Next-Generation Nuro

Introducing Our Next-Generation Nuro

We’ve always known that solving last-mile delivery through robotics would better everyday life for millions of people. Designing the right autonomous vehicle to do that — and taking a zero-occupant approach to that design — has been a monumental task involving years of work and iterations built on real-world learning.

We wanted to get it right. We needed to make it safe, fully electric, and easy to operate. And we needed it to scale quickly so it could get to work. Finding the right balance between something we wanted in our own neighborhoods and something that could be produced at scale was no easy feat. But it was worth it.

Now, we’re thrilled to announce Nuro’s third-generation autonomous delivery vehicle. This new vehicle improves on our previous design and is ready to be produced at scale. Every detail is intentional, and now we’re ready to share some of the most impactful innovations of our new model.

Safety

Size

Our new vehicle is approximately 20% smaller in width than average passenger cars. That significantly smaller footprint gives bicyclists and pedestrians more room to maneuver alongside the bot.

Airbag

A custom external pedestrian airbag across the front of the bot is optimized to reduce the force of impact and number of injuries in the event of collision.

Weather

Our next-generation vehicle is designed to safely operate in the same environment as all motor vehicles. That allows us to serve a wide variety of geographies that experience various weather conditions throughout the year.

Experience

Compartments

Taking people out of our vehicles means we have more room for the good stuff. Our 27 ft3 compartments combined can fit about 24 bags of groceries and handle almost 500 lbs. Modular inserts that fit inside the compartments allow for heating and cooling, with a range of temps from 22ºF or hot to 116ºF, which means pizza stays warm and soda stays cool.

Speed

Our new model will be able to reach a top operating speed of 45mph, allowing the vehicle to reach more customers and serve more businesses on a wider variety of roads.

Emissions

Our vehicles are already completely battery-electric and emission-free, but we’ve decided to take our commitment to sustainability even further: in this new vehicle, we’re using 100% renewable electricity from wind farms in Texas to power our fleet and to reduce our overall carbon footprint. And all materials adhere to strict sourcing and supply chain standards meant to protect the natural environment.

Sensors

In addition to being able to sense everything from the difference between a bundle of leaves and a pet to how many pedestrians are standing at a crosswalk in dense fog, the new model also has the ability to clean its own sensors. This self-cleaning is important to maintain operations and retain sensitivity throughout the day.

Security

That commitment to security extends to our customer data, which we prioritize even above our own intellectual data protections. Our privacy policy dictates everything from how we collect data to how we safeguard it, so that our customers have full transparency into the handling of their private data.

Manufacturing

Jobs

BYD will be able to leverage the manufacturing capacity of its Lancaster facility to support Nuro and bring more jobs to California. And we’ll be bringing more jobs to southern Nevada. In fact, our southern Nevada facilities are expected to create an initial 250 highly skilled career opportunities with long-term growth potential in the autonomous vehicle industry.

Why it matters

This is the vehicle we’ll be producing at scale to better everyday life for millions, and we can’t wait for it to be on the road right outside your front door. Because, along with delivering nearly anything from local stores, it’s also delivering greater equity, safer communities, less pollution

www.nuro.ai

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