14 additional economies detailed in Wi-Fi Alliance^® commissioned report

Austin, TX – September 14, 2021 – The Global Economic Value of Wi-Fi^® (2021-2025) report now details individual forecasts for 14 additional economies in Africa, Middle East, and India. The study, commissioned by Wi-Fi Alliance^® and originally released earlier this year, now focuses on 29 total economies that collectively contribute $3.3 trillion USD to the global economy in 2021, and are projected to reach nearly $5 trillion by 2025.

Key findings from the 14 additional economies include:

• Cameroon: $1 billion in economic value today, $3 billion by 2025
• Democratic Republic of Congo (DRC): $1 billion in economic value today, $2 billion by 2025
• Egypt: $9 billion in economic value today, $17 billion by 2025
• Gabon: $0.6 billion in economic value today, $1.2 billion by 2025
• India: $131 billion in economic value today, $240 billion by 2025
• Jordan: $2 billion in economic value today, $4 billion by 2025
• Kenya: $12 billion in economic value today, $16 billion by 2025
• Morocco: $6 billion in economic value today, $8 billion by 2025
• Nigeria: $16 billion in economic value today, $33 billion by 2025
• Oman: $2.6 billion in economic value today, $3 billion by 2025
• Saudi Arabia: $17 billion in economic value today, $24 billion by 2025
• Senegal: $1 billion in economic value today, $3 billion by 2025
• South Africa: $31 billion in economic value today, $44 billion by 2025
• Uganda: $1 billion in economic value today, $4 billion by 2025

Wi-Fi’s economic value in these 29 economies was assessed based on several key factors and global developments impacting the Wi-Fi industry. Calculations of each factor – including free Wi-Fi access, residential and enterprise savings, Wi-Fi 6 adoption, availability of 6 GHz spectrum, and the coronavirus pandemic – were combined with implications specific to each country to develop the economic value.

Find the Global Economic Value of Wi-Fi report here, view the report highlights sheet, and download a graphics package on our website: www.valueofwifi.org

*Global Wi-Fi economic impact forecasts overall were not impacted by detailed forecasts for 14 additional economies.

About Wi-Fi Alliance^®  |  www.wi-fi.org
Wi-Fi Alliance^® is the worldwide network of companies that brings you Wi-Fi®. Members of our collaboration forum come together from across the Wi-Fi ecosystem with the shared vision to connect everyone and everything, everywhere, while providing the best possible user experience. Since 2000, Wi-Fi Alliance has completed more than 65,000 Wi-Fi certifications. The Wi-Fi CERTIFIED™ seal of approval designates products with proven interoperability, backward compatibility, and the highest industry-standard security protections in place. Today, Wi-Fi carries more than half of the internet’s traffic in an ever-expanding variety of applications. Wi-Fi Alliance continues to drive the adoption and evolution of Wi-Fi, which billions of people rely on every day.

WCI Technologies, in collaboration with Lumen Technologies, is delivering a range of network and IT services to the travel and hospitality industry. Most recently, Texas-based Remington Hotels updated their wireless connectivity services at properties across the nation to provide enhanced performance, reliability, and security.

“Technology plays a role in every aspect of the travel industry and is only becoming more vital. We’re very excited to add value to our customers through a secure foundation of connectivity services,” said Robert Grosz, Executive Vice President and Chief Commercial Officer, WCI. “WCI Technologies, in collaboration with Lumen, is expanding our advanced services portfolio and transforming our great legacy brand into a global technology leader in the industry.”

Offerings include a range of managed network and IT services designed for easy installation, maintenance, monitoring and management, thus simplifying the path to deployment and use.

“As businesses are using tech to fuel change and supercharge the customer experience, our Partners can leverage our solutions and expertise to help accelerate growth, increase efficiencies and exceed customer expectations,” said David Young, senior vice president, strategic sales for Lumen. “Our Channel Partner program is about making connections – not just to our global network and technology solutions, but also to a network of support, resources and training that can help companies deliver new opportunities and experiences.”

Read our press release to learn more about how WCI Technologies is improving digital technology across the board.

Learn more at onewci.com

Partnership with Philippines mobile operator Globe expands to 45 new sites, delivering affordable broadband to remote communities and setting the blueprint for other hard-to-reach populations around the world 

7 September 2021 – Curvalux, the disruptive innovator of new generation wireless broadband solutions, has secured a multi-million dollar order following groundbreaking commercial trials in the Philippines to test technology that will bring affordable, sustainable Internet connectivity to remote, low-income communities around the world.

The company’s partnership with Globe Telecom – one of the Philippines’ biggest mobile operators – is designed to overcome the challenges of implementing large-scale telecoms infrastructure across the archipelagic state, comprising of more than 7,000 islands. Now, following the successful completion of commercial trials across the country, Globe has made a significant order for additional Edge Node systems to expand its network deployment using Curvalux’s pioneering multibeam technology.

Curvalux Edge Nodes can be installed on existing telecoms towers and provides coverage by using 16 separate narrow beams per sector to concentrate radio frequency energy into a tightly focused beam like a laser pointer. The beam isolation means that there is a far lower risk of interference from other sources, leading to vastly improved connectivity at distance in remote areas.

Unlike other solutions, the infrastructure does not need to be connected to the electrical grid and can be powered solely through renewable energy sources including solar panels. This makes the solution not only cheaper to operate but far more sustainable than current 4G and 5G technologies.

Digital connectivity is becoming increasing critical for the economic viability of remote communities around the world. In the Philippines, more than 40 million people still have no access to the Internet, a figure representing 36 percent of the total population.

Gerard Ortines, Globe Telecom’s Head of Network Solution & Capex Management, said: “The delivery of reliable and cost-effective broadband services in the Philippines is hampered by an incredibly diverse geography and demographic. Traditional terrestrial Wi-Fi antennas may work well in some areas but are power-hungry, expensive to deploy and have a small coverage area. Curvalux’s Edge Node can be deployed at scale across difficult terrains while providing high performance connectivity at a cost that is affordable to the low-income families who need it the most.”

Curvalux’s solution holds many benefits over more traditional connectivity solutions. Less than 1,000 watts of electrical power is required to send high-powered signals over long distances, in comparison with LTE/5G systems which require 10,000-15,000 watts.

Initially designed for a 5GHz frequency, the Curvalux standalone antenna system is interoperable with any standard Wi-Fi 5 or Wi-Fi 6 Access Points and off-the-shelf CPEs, enabling the use of inexpensive CPEs and unlicensed bands. The initial investment in the technology delivers substantial savings as it requires fewer installations and less equipment. Low energy usage and reduced maintenance requirements also make total cost of ownership over the lifetime of the system significantly less than with conventional wideband antenna, while bringing effective, low-cost broadband to hundreds more users.

Richard Pak, Curvalux’s CEO, added: “Curvalux is able to transform the lives of families and businesses across the Philippines by improving their Internet connectivity and enabling them to become part of the world’s digitally based economy. There are so many other countries around the world facing similar issues, with millions of people living in remote areas without adequate telecoms infrastructure. These are often areas where those on lower incomes reside – the very people who cannot afford broadband connectivity via more traditional telecoms solutions.”

Curvalux is also working on similar ‘proof of concept’ projects around the world, including remote locations in Indonesia, Malaysia and Mongolia. Other trials are set to be launched over the forthcoming months in the UK, US, Canada, Nepal, South Africa, Brazil, India, Nigeria, Saudi Arabia, New Zealand, Papua New Guinea, Peru and Russia.

For more information about Curvalux visit: curvalux.com/

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About Curvalux

Curvalux designs, manufactures and implements Fixed Wireless Broadband technology, offering solutions that are connecting the unconnected around the world. Curvalux delivers higher cell capacity, lower power consumption, and higher throughputs to consumers with its wireless broadband in both rural and urban areas thanks to its innovative systems and carrier-grade processes. The company has developed advanced multi-beam antenna systems both in the sub-6GHz as well as in the mmWave up to 30GHz. The products, solutions, and services provided by Curvalux will reduce carbon footprint, improve the telecommunications network performance, and reduce operators’ CAPEX and OPEX.   https://curvalux.com

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For more information, please contact:
Cristina Sesma
Marketing Communications Specialist
Curvalux UK Ltd.
Email Address: [email protected]
https://www.linkedin.com/company/curvalux/

Auto-negotiation, or negotiation speed, refers to a signaling mechanism that allows ethernet interfaces of two connected devices to determine the optimal speed and duplex mode of the connection. For instance, wired routers make use of these interfaces to communicate with devices on their local network. Auto-negotiation parameters can be set automatically by the devices themselves or manually, so it’s important to note how to optimize this for the best connections in your smart home. Read on to learn more!

When discussing auto-negotiation, there are some terms to keep in mind:

1. Interface – this describes a physical port on a given network device, such as a router, a switch, server, or a hub, that is capable of transmitting data from one device to another
2. Speed – It is usually displayed in megabits per second (Mbps), and it is the rate of each interface. Interfaces can have ethernet speed rates of 10 Mbps, 100 Mbps, and 1000 Mbps, which is also known as Gigabit Ethernet.
3. Duplex – Refers to how data is transmitted on the interface. Interfaces can be either half-duplex or full-duplex:

• • Half-duplex interfaces can only transmit or receive data at one time. For example, a hub (e.g. printer, speaker, etc) is always a half-duplex, since only one device can communicate with it at once. This is possibly why they are barely used anymore.
  • Full-duplex interfaces, on the other hand, can both transmit and receive data simultaneously. For example, a switch or telephone is a full-duplex interface that allows several devices on your network to communicate at once.

How Auto-Negotiation Works

Auto-negotiation is a protocol, specified in clause 28 of the IEEE 802.3. standard, that has a simple, albeit important objective: to establish the best mode of connection between devices. Here’s a brief rundown of what happens during the auto-negotiation process:

• Each interface shares its parameters via Fast Link Pulses (FLP’s): duplex mode (full-duplex or half-duplex) and ethernet speed (10, 100, 1000 Mbps)
• The interfaces select the highest transmission rate they can both support to achieve the highest performance:

Imagine interface A and interface B. Interface A has the capability of sustaining 10, 100, or 1000 Mbps speed at either half or full-duplex. Interface B, however, can only achieve 10 or 100 Mbps at either half or full-duplex. In this scenario, the best possible option is to transmit at 100 Mbps full-duplex. Naturally, the highest speed is preferred over the lowest, and full-duplex achieves better results than half-duplex.

Further Considerations

For auto-negotiation to occur, both interfaces must be configured to negotiate automatically. While this may come off as obvious, it’s actually one of the main reasons that problems occur when auto-negotiating.

When one of the interfaces is auto-negotiating and the other is not, that means that only one interface is sending FLPs that contain information regarding its capabilities. If this is the case, the other interface has already hard-set a speed rate and a duplex mode, making it impossible to negotiate with its link partner.

Because one of the interfaces has already set at which speed and duplex it will be operating, the device that is negotiating must determine itself what are the appropriate speed and duplex mode to connect to its link partner. At this point, the negotiating interface can determine at which speed its partner is communicating – 10, 100, or 1000 Mbps – because each of these ethernet speeds have different signaling methods. However, what the negotiating interface cannot decipher is its link partners’ duplex mode, which in many cases can lead to a mismatch.

What Should I Do If A Mismatch Occurs?

First things first – what causes a mismatch? Due to the odd human error, as explained above, failing to determine duplex mode is the main cause for mismatch between interfaces. Let’s see why.

For one, the interface that is already auto-negotiating is unable to know at which duplex mode its link partner is operating, since it is unable to negotiate due to being hard-set. In order to avoid a mismatch, the negotiating partner must use the same speed as the hard-set interface (which it can communicate), but in accordance with the 802.3. standard, it must connect at half-duplex – the default duplex for Ethernet. Most of the times this action will result in a duplex mismatch between interfaces.

In turn, because one of the interfaces can both send and receive simultaneously and the other is only able to either send or receive, the mismatch will generate collisions on the link connecting the two devices, particularly on the half-duplex side. In the end, a mismatch impacts overall performance, and can reduce throughput and increase the number of error counts on the affected interfaces.

The best way to avoid a mismatch is to make sure that the settings on both sides are set to auto-negotiate. Nonetheless, you could also configure the settings manually, but keep in mind that both interfaces would have to be configured the same way. If one interface is set at 100 Mbps, full-duplex, the interface it’s going to connect with must also be set at 100 Mbps, full-duplex.

Transaction accelerates onsemi’s mission to push innovation to create intelligent power and sensing technologies and build a sustainable futureExpands onsemi’s silicon carbide capabilities & assures customer supply to meet the rapid ramp-up of the sustainable ecosystem, including electric vehicles (EVs), EV charging and energy infrastructureReinforces onsemi’s commitment to make substantial investments in disruptive, high-growth technologiesPHOENIX, AZ and HUDSON, NH – August 25, 2021 – onsemi (Nasdaq: ON), a leading supplier of intelligent power and sensing technologies, and GT Advanced Technologies (“GTAT”), a producer of silicon carbide (SiC), today announced that they have entered into a definitive agreement under which onsemi will acquire GTAT for $415 million in cash.

Founded in 1994, GTAT has significant experience in crystalline growth, including SiC. SiC is a key material for next-generation semiconductors that provide technical benefits in SiC power switching devices, significantly improving system efficiency in electric vehicles (EVs), EV charging and energy infrastructure.

The transaction is expected to better position onsemi to secure and grow supply of SiC and meet rapidly growing customer demand for SiC-based solutions in the sustainable ecosystem, including EVs, EV charging and energy infrastructure. Combining onsemi’s manufacturing capabilities with GTAT’s technical expertise will accelerate SiC development and position onsemi to better serve customers as the sustainable ecosystem rapidly ramps up over the next decade. This enhanced SiC capability will allow onsemi to assure customers of supply of critical components and to further commercialize intelligent power technologies.

“This transaction reflects our confidence and stated commitment to meaningfully invest in silicon carbide solutions to support the creation of intelligent power and sensing technologies to help build a sustainable future,” said Hassane El-Khoury, president and chief executive officer of onsemi. “We are focused on deepening our leadership and innovation in game-changing technologies that support the automotive and industrial sectors, and GTAT brings outstanding technical capabilities and expertise in developing wafering-ready silicon carbide, which we intend to accelerate and expand to better empower customers in our high-growth end markets. We look forward to welcoming GTAT’s talented employees to the onsemi team and driving innovation together.”

“Today’s announcement marks the start of a new chapter for GTAT and is a testament to the value created by the hard work and strength of our team,” said Greg Knight, president and chief executive officer of GTAT. “onsemi is strategically positioned to scale our capabilities, providing the resources and platform to maximize the potential of our cutting-edge production techniques and ensure we remain on the forefront of advanced crystalline growth.”

The acquisition also reinforces onsemi’s commitment to make substantial investments in disruptive, high-growth technologies, consistent with the company’s recently announced 2025 target financial model described during its Analyst Day presentation. As onsemi previously stated, capital expenditures are expected to be approximately 12% of revenue in 2022 and 2023, as onsemi invests to drive differentiation and leadership, including in SiC. The transaction is not expected to impact the company’s 2025 target financial model.

onsemi plans to invest in expanding GTAT’s research and development efforts to advance 150mm and 200mm SiC crystal growth technology, while also investing in the broader SiC supply chain, including Fab capacity and packaging.

The transaction, which has been unanimously approved by the Boards of Directors of onsemi and GTAT, is expected to close in the first half of 2022. Completion of the transaction is subject to regulatory approvals and other customary closing conditions. Approval of onsemi’s stockholders is not required in connection with the proposed transaction.

onsemi intends to fund the transaction through cash on hand and available capacity under its existing revolving credit facility. The company expects the transaction to be marginally dilutive to its non-GAAP earnings per share in the immediate term and to be accretive within one year after close.

About GT Advanced Technologies Inc.

GT Advanced Technologies Inc., through its wholly owned subsidiaries including GTAT Corporation, is headquartered in Hudson, N.H. USA and manufactures SiC and sapphire materials for high-growth markets. SiC materials are fundamental to the accelerated adoption of a new generation of products such as electric vehicles, high-power industrial motors, and telecom infrastructure applications. Sapphire materials are fundamental in advanced optical, mechanical and laser applications, as well as in aerospace/defense systems. GTAT is a valued supply chain partner in the diverse markets that it serves. For more information about the company, please visit www.gtat.com.