5G Security and Privacy for Smart Cities

Wireless telecommunications technology has undergone a tremendous evolution in the last few decades, from making simple phone calls (1G) and sending text messages (2G), to connecting to highspeed internet (3G) and providing multimedia and entertainment services (4G). Futuristic technologies such as remote robotics and virtual reality are emerging quickly and are likely to see mass adoption, while 4G cellular networks have reached capacity limits and are incapable of supporting the uninterrupted operations of these services. It is estimated that data will reach 175 zettabytes worldwide by 2025, up from 1.2 zettabytes in 2010, when 4G was first being deployed globally. 5G therefore provides a much-needed mobile bandwidth infrastructure for a world of connected objects and smarter cities.

Spotlight

Offensive Security

Offensive Security is the leading provider of online penetration testing training and certification for information security professionals. Created by the founders of Kali Linux, Offensive Security offers a unique mix of practical, hands-on training, performance-based certification programs, virtual lab access, and very successful open source projects. These offerings work together to provide practitioners with a one-of-a-kind opportunity to develop the highly sought-after skills that will advance their careers and better protect their organizations. Additionally, Offensive Security is committed to funding and growing Kali Linux, the leading operating system for penetration testing, ethical hacking and network security assessments.

OTHER ARTICLES
Wireless, 5G

GSMA Mobile Economy 2021: 5G has momentum, 4G has peaked, global mobile subscriber growth slowing

Article | May 18, 2023

he launch of commercial 5G services in Latin America and Sub-Saharan Africa over the last year means that 5G technology is now available in every region of the world. The pandemic has had little impact on 5G momentum; in some instances, it has even resulted in operators speeding up their network rollouts, with governments and operators looking to boost capacity at a time of increased demand. By the end of 2025, 5G will account for just over a fifth of total mobile connections and more than two in five people around the world will live within reach of a 5G network. In leading 5G markets, such as China, South Korea and the U.S.

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Unified Communications, Network Security

5G Small Cells: The Future of Wireless Networks

Article | July 10, 2023

5G small cells form the backbone of the modern wireless networks. Learn more about this technology is revolutionizing 5G deployment and enabling various use cases across industries in this article. Contents 1 Introduction to 5G Small Cells for Modern Businesses 2 5G Small Cells: Overview 2.1 Characteristics of 5G Small Cells 2.2 How Small Cells Fit into 5G Architecture 3 Benefits of 5G Small Cells for Businesses 3.1 Improved Coverage and Capacity 3.2 Enhanced Network Performance 3.3 Lower Latency 3.4 Cost-effectiveness 4 Use Cases for 5G Small Cells 4.1 Urban Areas 4.2 Rural Areas 4.3 Indoor Environments 5 Conclusion 1 Introduction to 5G Small Cells for Modern Businesses Small cells are low-power radio access nodes that operate in licensed and unlicensed spectrum bands and are typically deployed in areas with high demand for wireless connectivity. They are a vital component of the 5G wireless network architecture and are designed to complement traditional cell towers, providing improved coverage, network capacity, and faster data speeds. Small cells come in several types, including femtocells, picocells, and microcells, and can be deployed according to the use case. 2 5G Small Cells: Overview 2.1 Characteristics of 5G Small Cells 5G small cells are characterized by small form factors and are designed to be compact and discreet for deployment in various settings, such as urban areas, rural areas, indoor environments, and public spaces. In addition, they consume less power than traditional cell towers, making them more energy-efficient. They also operate on high-frequency bands, which enables them to provide faster data speeds and lower latency than traditional cell towers, which makes small cells essential for 5G. The 5G small cell architecture can be deployed in dense networks, providing better coverage and capacity in areas where traditional cell towers may not be able to reach. Also, a 5G small cell antenna can be configured to provide seamless handoffs between cells, ensuring users have a consistent and uninterrupted wireless experience. These characteristics make them ideal for specific 5G use cases, which will be explored further in the article. 2.2 How Small Cells Fit into 5G Architecture Small cells and 5G evolution are closely linked, and this technology is an ideal solution for future wireless networks. They offer greater capacity, coverage, and flexibility than traditional cell towers, allowing them to meet the demands of an increasingly connected world. By operating on high-frequency bands and being deployed in dense networks, small cells in 5G can provide faster data speeds, lower latency, and better coverage than previous generations of wireless networks. Additionally, their small form factor and flexible deployment options allow for use cases like private 5G networks that revolutionize industries. 3 Benefits of 5G Small Cells for Businesses 5G networks will support a massive increase in connected devices, including smartphones, IoT sensors, and other devices. Small cells are critical for achieving the full potential of 5G networks and the exciting new applications and services they will enable. 3.1 Improved Coverage and Capacity 5G small cells offer improved coverage over traditional cell towers in certain situations, particularly in urban areas. Buildings and other obstacles interfere with wireless signals, so the connection quality decreases in areas with such infrastructure. By deploying small cells closer to users, the network can provide better coverage and capacity in these areas. Small cells can also be deployed indoors, providing better coverage and capacity in buildings and other enclosed spaces. This is important due to poor wireless range, signal interference from walls, and other obstacles. By deploying small cells indoors, the network can provide better coverage and capacity in these areas, improving the overall wireless experience for users. 3.2 Enhanced Network Performance The deployment of small cells enables network densification, which allows several devices to connect to the network simultaneously. This can help reduce network congestion and improve overall network performance, particularly in urban areas. They can also be configured to provide seamless handoffs between cells, ensuring that users have a consistent and uninterrupted wireless experience. This is important because users often move between different areas with different coverage levels and capacities, providing a streamlined experience. 3.3 Lower Latency Small cells are designed to operate on high-frequency bands, which enables them to provide faster data speeds and lower latency than prior generations of wireless networks. This is especially important for applications that require real-time communication, such as virtual reality, autonomous vehicles, and remote surgery. By providing faster data speeds and lower latency, small cells can help enhance these applications' performance, providing a better overall user experience. 3.4 Cost-effectiveness Small cells offer a cost-effective alternative to traditional cell towers, particularly in urban areas with high land and real estate costs. By mounting 5G small cell antennas on existing infrastructure, such as lampposts and buildings, deployment costs can be lowered. Additionally, small cells can be deployed in a modular fashion, allowing for targeted and cost-effective expansion based on the required coverage and capacity. This approach avoids large-scale and expensive deployments of new infrastructure. Moreover, small cells can be powered by low-cost, low-power sources like solar panels or batteries, reducing ongoing operational costs. Furthermore, small cells consume less power than traditional cell towers, resulting in lower energy costs. 4 Use Cases for 5G Small Cells 4.1 Urban Areas As discussed previously, small cell radio antennas in 5G can improve networks in dense urban environments, alleviating network congestion and improving data speeds. In addition, by deploying small cells in areas with high user demand, network operators can provide targeted coverage and capacity improvements to specific areas, ensuring that users have fast and reliable connectivity. 4.2 Rural Areas Small cells can be used to extend coverage to underserved or unserved areas by traditional cell towers. They can fill in coverage gaps, providing reliable connectivity to users in rural areas that may not have access to high-quality wireless services. This will enable use cases such as remote workforces in rural areas, smart agriculture, and distance education and training. 4.3 Indoor Environments Traditional cell towers may not be able to provide reliable connectivity indoors due to physical barriers such as thick walls and ceilings. Small cells can provide targeted coverage and capacity to specific areas, such as conference rooms or shopping malls, where users require high-quality wireless connectivity. In addition to improving range, small cells can help alleviate network congestion and improve data speeds in high-traffic indoor environments. 5 Final Thoughts Small cells are a crucial element in developing and implementing 5G technology. By leveraging a small form factor and high-frequency band usage, small cells facilitate the deployment of 5G networks in a more cost-effective and targeted manner than traditional cell towers. They support a wide range of use cases by providing reliable and high-quality wireless connectivity to a growing number of devices. They will continue to be a critical technology for businesses and organizations seeking to leverage the benefits of 5G technology.

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Enterprise Mobility

Impact of Widespread Implementation of 5G on Cloud Computing

Article | June 15, 2023

Introduction 5G is predicted to have a significant impact on how cloud computing operates in the future. It will undoubtedly revolutionize the communication and networking industry. In addition, it will have a significant impact on all other industries. Transmission speeds will be 10 times faster in 5G than in 4G. Apart from networking and communication industries, it will also revolutionize other healthcare, automotive, and many more. Commercial 5G smartphones are already in the market. A study report by Ericsson Mobility predicts that there will be one billion 5G subscriptions by 2023. It will account for about 20% of the mobile data traffic. 5G, with its features such as low latency performance and high speed, has all the capabilities of developing cloud computing and take to the next level. As a result, there will be an unpredictable positive impact of 5G on cloud computing, especially in the industries and sectors that use the latest technologies such as the Internet of Things, machine learning, and AI. It has already started redefining business networks. It is also expected to make tremendous, unpredictable progress and changes in how cloud computing and networks perform in storing, moving, and accessing data. It will be possible as 5G brings more technological applications to make digital transformations faster and more efficient for businesses. 5G Network- Advantages As said in the introduction, there are many advantages to 5G network. Some of them can be: Greater transmission speed Lower latency Higher capacity Compared to 4G, 5G has increased bandwidth. These features will change the way people work, live, and play in the future once the 5G network comes into play widely. How Will 5G Impact Cloud Computing? Undoubtedly 5G has the potential to redefine the future of cloud computing. It will transform edge computing. Let us look in detail at what impact 5G will bring in cloud computing. Mobile Cloud Applications to Become More Efficient and Widely Used Undoubtedly 5G has the potential to redefine the future of cloud computing. It will transform edge computing. Let us look in detail at what impact 5G will bring in cloud computing. Mobile Cloud Applications to Become More Efficient and Widely Used Organizations today widely use cloud-enabled applications for customer services as well as for their different operations. Once the widespread use of the 5G network starts, the mobile application will become more efficient and widely used. It will be reflected more in the industries such as healthcare and banking. Enabling Cloud Service Providers to Reach Customers Reliably and Easily 5G will make a machine to machine communication and larger computing possible. This will make accessing virtual machines via phones a common practice. Mobile users will get more features and options from cloud computing enterprises. Remote workers will access cloud services as hotspots will become faster and uninterrupted. Complete Transformation of Edge Computing The emergence of edge computing has solved the issues of unnecessary traffic on the cloud and latency. The need for edge computing became strong when internet penetration and IoT came into existence. Now, G5 will make edge computing grow, making it an essential thing. G5 will transform edge computing entirely and increase the demand for it. As a result, edge and 5G are becoming mutually reinforcing phenomena. 5G will work on edge computing to provide quick real-time data. This is because edge computing has the potential to provide low latency and higher bandwidth. Faster Streaming 5G network will surprise companies and entities with its fast data transfer capabilities. It will be ten times faster than the 4G network. It will facilitate storage and faster real-time streaming and thus productivity at its best. “If everything you touch has to go to a data center and back before you see the animation, you're going to notice. Working at the 5G Lab in a mobile edge cloud, all of a sudden, what we thought would be impossible can happen because the 5G network is so fast.” - Ian McLoughlin, LiquidSky Software founder, and CEO Work from any Location As 5G is ten times faster than 4G in transferring data due to its better connectivity, employees can work from any location. It will make remote work possible anywhere. Better Security Systems As technology is ever-evolving, hackers and online frauds come with advanced techniques to steal data. They hold the sensitive information of organizations and do unimaginable damage. Once 5G is rolled out widely, administrators will recognize such frauds in advance and prepare to mitigate such cyber-attacks. Summing up Cloud computing is undoubtedly going to have an impact on cloud computing. The connectivity of 5G is ten times faster than 4G. IT will help people connect to their workplaces from any location. Remote work will make it easier. Cloud mobile applications will become more efficient and reliable. The service providers will have a good relationship with customers as they will be providing prompt and reliable service in terms of connectivity. Joining together with other technologies such as edge computing, AI, ML, technology is expected to get into another level with the wide roll-out of 5G. Frequently Asked Questions How will 5G affect cloud computing? Cloud computing will have a complete transformation and improvement when 5G is rolled out widely. The 5G connectivity has the features such as cloud virtualization, Ultra-reliable low-latency communication, better latency, increased bandwidth, and more flexible cloud-based management. How is 5G going to impact lives? 5G is capable of controlling services remotely. In addition, 5G will enhance autonomous driving, personal communication, IoT, AI, and augmented reality. It will also change the way companies store, access, share and protect data. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "How will 5G affect cloud computing?", "acceptedAnswer": { "@type": "Answer", "text": "Cloud computing will have a complete transformation and improvement when 5G is rolled out widely. The 5G connectivity has the features such as cloud virtualization, Ultra-reliable low-latency communication, better latency, increased bandwidth, and more flexible cloud-based management." } },{ "@type": "Question", "name": "How is 5G going to impact lives?", "acceptedAnswer": { "@type": "Answer", "text": "5G is capable of controlling services remotely. In addition, 5G will enhance autonomous driving, personal communication, IoT, AI, and augmented reality. It will also change the way companies store, access, share and protect data." } }] }

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Wan Technologies

The 5G Enterprise Private Network: A Private Network for the Future

Article | August 23, 2022

In the United States, private networks saw the sun for the first time in the early 1970s by AT&T. The networks were majorly operated over telecommunication networks. In the 1990s, with the evolution of Internet technology, a new type of network known as virtual private networks emerged. This type of network was built on public infrastructure, and the data was encrypted to protect it from eavesdroppers. Nowadays, networks developed by businesses are called Enterprise Private Networks (EPN) when privacy is maintained via security processes and tunneling protocols such as Layer 2 Tunneling Protocol. The objective of an EPN is to provide high-speed internet access and data sharing within an organization. Businesses can utilize Wi-Fi in their workplaces to share internet access and resources. This type of private network also employs routers, switches, fiber optics, virtual devices, and modems. Security is also a significant factor while developing an enterprise network. Different firewalls are set at access points to ensure safe data transfer between systems. Enterprise private networks can be built in various ways, including: Virtual private network (VPN) Local area network (LAN) Wide area network (WAN) Cloud-based networks Let’s dive deeper into EPN. Enterprise Private Network: Reasons to Deploy It Today! Giving its intended objective, enterprise private networks can be considered to provide a variety of conceivable benefits to an organization. Enhancing Network Security A company must adhere to strict procedures to safeguard its security. Networks are vulnerable to cyberattacks, and some business data contains sensitive information that might be lost or acquired by the wrong people. However, data circulation is critical to long-term business operations, which is why incorporating an enterprise private network is a wonderful way to keep security issues at bay even while allowing the organization to more easily manage its critical operations. This is a key reason why most businesses do not hesitate to use EPN, regardless of how difficult it is to set up or the upfront costs associated with it. Economizing Measures Keeping overheads to a minimum is critical for achieving a convincing ROI at the end of the day. Most businesses take stringent steps to ensure that they remain profitable. Cutting major expenditures is a helpful technique to do this, and the deployment of EPN is a perfect example. Because important business data can be exchanged over the network where key stakeholders can access it, the expense of physically transferring data and resources from one place to another is reduced. Moreover, a significant amount of valuable time is saved since any type of data and resources can be uploaded across the network in a matter of minutes. Centralization Another important element that is essential to an organization's success is business continuity. Different departments of an organization are interconnected to one another through an enterprise private network and can effortlessly share resources with one another. As earlier stated, it enables time efficiency and allows companies to keep progressing toward gradually achieving their day-to-day demands. Enterprise Private Network: A Catalyst to 5G Digital Transformation Businesses now depend on technology that has undergone significant transformation in recent years. Organizations are increasingly relying on feature-rich apps to operate their operations and drive innovation. Connectivity is at the heart of keeping everything operating smoothly and effectively, and 5G is expected to provide even more pace and potential. 5G is enticing because its infrastructure differs from prior generations of cellular networks. The 3G and 4G networks were designed with hardware-based network operations in mind. 5G, on the other hand, is 'cloud-native,' with network functions stored in software as a Virtual Network Function (VNF) or Cloud-native Network Function (CNF). 5G has the ability to drive digital transformation for companies and organizations by providing faster connection speeds, reduced latency, higher capacity, and better security. Organizations can obtain significant business advantages in automation, security, and safety when 5G is used in combination with a private cellular network. The Importance of 5G on Private Networks Speed 5G provides better bandwidth than 4G LTE networks, which is critical for data-intensive applications. Latency Robotics, manufacturing, remotely operated systems, and vehicle-to-vehicle communications all need low latency. Network Slicing The 5G network core offers network slicing, allowing network operators to virtualize network traffic, often in a cloud-based flexible environment. Increased Connection Density 5G will ultimately support 100 times more connected devices per square kilometer, up to one million devices. Multi-Access Edge Computing (MEC) 5G Multi-Access Edge Computing (MEC) moves computational power closer to the network edge, reducing the time required to send data to a centralized data center. Wi-Fi 6 While 5G has considerable benefits over Wi-Fi, the new Wi-Fi 6 version also has greater capacity, reduced latency, and faster speeds than its predecessor, Wi-Fi 5. Industries Leveraging EPN to Enhance Their Capabilities With the expanding digital transformation, business interest in private networks is growing. Enterprises can deploy such networks to explore a broad range of wireless use cases and provide access to areas that are not covered by a public network. These networks can also be customized to meet the needs of certain industries and businesses. With the arrival of 5G, private networks enabled by the technology are positioned to stimulate innovation and allow next-generation enterprise transformation across a wide range of industries. Industries leveraging 5G-enabled enterprise private networks are: Healthcare Healthcare tops the list of rapidly growing industries, requiring private networks. The unprecedented burden caused on healthcare systems worldwide by the COVID-19 pandemic has driven the need for improved connectivity and modernization of infrastructure, prompting hospitals to establish private networks. Manufacturing The manufacturing industry is undergoing a significant digital transformation, which is enabling various new use cases like automated manufacturing. In the industrial arena, private 5G networks play a critical role in increasing the density and efficiency of automation technologies like collaborative mobile robots, automated guided vehicles, AR predictive maintenance, and virtual reality remote devices. Smart Facilities By reducing the reliance on third-party wireless service providers, private 5G networks enable these establishments to build and install the infrastructure most suited to their digital transformation roadmap. Logistics Another high-potential use case for private 5G networks is the logistics industry. With increasing global e-commerce adoption, the continuous movement of products through all logistical checkpoints—including warehouses, ports, and distribution centers—must be monitored and linked through a diverse variety of corporate mobility devices. Mining Another industry with significant potential for private 5G networks is mining. Mine operators want dependable wireless connections in order to leverage digital technologies, but they are often unable to introduce wireless communications to underground locations while still meeting the essential connectivity demands of machinery and mobile employees in open-pit locations. Private networks, which have fewer access points than Wi-Fi, can overcome these difficulties by providing a stable and widespread internet connection to machines, vehicles, and workers throughout a mine. This leads to improved safety, increased production, and a lower carbon footprint. Some of the other industries are Oil and gas, Education, Ports, Smart Cities, etc. Rising Demand for Enterprise Private Network (EPN) As per research analyst Leo Gergs from ABI Research, there are a couple of factors that are causing the surge in demand for private networks for enterprises. These factors are: Rise in demand for automation and enterprise digitalization in every sector of the market, including industrial manufacturing, logistics, oil and gas, etc., because of COVID-19. The private 5G network has arrived, bringing with it irresistible features and use cases for businesses from all industries. Private networks depend on technology from both public carrier networks and business IT, bringing together two disciplines that had previously evolved in quite distinct directions. Industry digitalization, the convergence of telecom and IT, edge migration of cloud apps, and increased spectrum availability are all combined to set the scenario for exploding demand for private 5G. A private 5G network is an enterprise-specific network that offers communication connections to people or items belonging to a single company as well as unique services required for the enterprise's operations. Enterprises across sectors are crunching the math on private 5G, from factories to farms to hospitals to hotels. According to ABI Research, heavy industrial verticals will increase demand for private network installations. Industrial manufacturing and energy production (including mining, oil and gas, and logistics) will contribute $32.38 billion in private network revenues by 2030, accounting for half of the $64 billion in total private network revenues. The need for private 5G networks is increasing as 5G arrives, allowing compelling business use cases and favorable legislative developments on spectrum availability for corporations. TBR projected that the market for private 5G networks would reach $7.5 billion by 2025, rising from $200 million in 2020. Carving the Future With every new cutting-edge technology comes a leap of faith. Businesses and industries can expedite their digital journeys by using 5G private networks to offer secure connections while gathering and managing huge amounts of business-critical data. Private 5G is not simply a new paradigm for network operators; it's also an incredible opportunity for public and private organizations to unleash efficiency, exploit real-time data, and boost revenue. FAQ How Does Enterprise Private Network Work? An enterprise private network is a business computer network that allows business organizations with several offices to securely connect to each other through a network. The primary purpose of an enterprise private network is to share system resources. How to Set Up Your Private 5G Network? To build a private 5G network, businesses need to: The first step is to get the spectrum right-to-use. Acquire 5G equipment such as base stations, mini-towers, and small cells from network equipment or infrastructure providers. Integrate equipment with edge devices like smartphones, routers, sensors, etc. What Is the Cost of Building a 5G Network? A modest tower and 5G cell site will cost between $30,000 and $50,000. If the wireless network is to function during a power failure, the cell site will also need commercial power and batteries.

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Spotlight

Offensive Security

Offensive Security is the leading provider of online penetration testing training and certification for information security professionals. Created by the founders of Kali Linux, Offensive Security offers a unique mix of practical, hands-on training, performance-based certification programs, virtual lab access, and very successful open source projects. These offerings work together to provide practitioners with a one-of-a-kind opportunity to develop the highly sought-after skills that will advance their careers and better protect their organizations. Additionally, Offensive Security is committed to funding and growing Kali Linux, the leading operating system for penetration testing, ethical hacking and network security assessments.

Related News

Enterprise Mobility,Mobile OS

MATRIXX Software’s Digital Commerce Platform Available in Microsoft’s Azure Marketplace

MATRIXX | January 27, 2023

5G monetization solutions leader, MATRIXX software, yesterday announced that the MATRIXX Digital Commerce Platform (DCP) is now available on the Microsoft Azure Marketplace, an online store providing software and services to be used with the Azure cloud computing platform. MATRIXX DCP, a cloud native monetization platform gives Communications Services Providers (CSPs) a wide range of monetization options, making it simpler to take advantage of 5G revenue prospects. By installing MATRIXX DCP on Azure Kubernetes Service (AKS), CSPs may take full advantage of the reliable Azure cloud platform's benefits for the vital goal of monetizing new and cutting-edge services. With a no-code, cloud-native, real-time platform, MATRIXX DCP, a 3GPP-compliant converged charging solution, enables telcos to monetize at web scale. With MATRIXX DCP, operators can scale swiftly in the 5G era and beyond, create differentiated digital consumer experiences, and drive innovation. Marc Price, CTO at MATRIXX Software, said, “Multi-cloud deployments are increasingly important for operators around the world, and are defining the next era of telecommunications.” He further added, “MATRIXX empowers our customers to have access to advanced monetization capabilities, wherever they choose to deploy. Microsoft is a trusted cloud ecosystem partner for CSPs, and with MATRIXX DCP in the Microsoft Azure Marketplace, telcos can easily procure and deploy monetization capabilities for emerging services.” About MATRIXX Software Matrix Software provides converged charging and commerce solutions. It’s cloud-native Digital Commerce Platform offers mission-critical, network-grade software that opens new prospects for network monetization. MATRIXX gives service providers the agility they need to quickly build, deploy, and monetize new products and services because to its no-code configuration features. Many of the world’s top IoT players, network infrastructure providers, and communications firms run on the MATRIXX platform. Utilizing business innovation and on-demand customer experience through MATRIXX enables businesses to compete better, produce new revenue, and pursue growth possibilities across markets and verticals.

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Wan Technologies,Wireless,5G

AMD and Viettel Collaborate on 5G Mobile Network Expansion

AMD | December 05, 2022

AMD and Viettel High Tech (Member of Viettel Group) today announced the successful completion of a 5G mobile network field trial deployment conducted by Viettel and powered by AMD Xilinx Zynq™ UltraScale+™ MPSoC devices. As the largest telecom operator in Vietnam serving more than 130 million mobile customers, Viettel High Tech has a rich history of using AMD radio technology with prior 4G deployments and is now accelerating new networks via new 5G remote radio heads. Designed to meet the growing capacity and performance requirements of mobile users globally, the Viettel 5G mobile network is expected to be completed by the end of 2022. AMD is the exclusive radio unit silicon supplier for Viettel’s indigenous 5G radio development. After the successful completion of the first field trial, Zynq MPSoCs are now set to be extended to an additional 300 Macro 8T8R base stations and 900 5G 8T8R Macro radios. The Zynq UltraScale+ MPSoC was also chosen by Viettel for its first-generation 64T64R Massive MIMO radio which is currently being optimized for field trials. Viettel is developing the next generation of radios to also include Zynq UltraScale+ RFSoC devices, to provide industry-leading integration and higher performance. “Viettel is committed to advancing mobile technology leadership by working closely with AMD to incorporate its adaptable SoC technology into our new generation of 5G networks. Going from VHT's history of making 4G BTS, this decision to scale for the growing demands of 5G was based on evaluating various factors including flexibility, simplification, design stability and the experience of engineers.” Nguyen Vu Ha, general director of Viettel High Tech “5G provides new opportunities to offer higher levels of performance, power efficiency and new services along with increased reliability required to meet the growing data demands of cellular networks,” said Yousef Khalilollahi, corporate vice president of APAC sales, Adaptive and Embedded Computing Group, AMD. “We are proud of our close collaboration with Viettel and remain focused on enabling its mobile network to deliver the optimal end-user experience as well as the flexibility to evolve and grow as Viettel’s user base and required bandwidth continue to increase globally.” About Viettel High Tech As the R&D arm of Viettel Group, Viettel High Tech develops full 5G network architecture including 5 layers: Service/App layers, Core layers, Transportation layers, Access layers, Devices; makes Vietnam one of the few countries that can produce 5G equipment. Collaboration with the leading partners is VHT’s strategy. With the desire to experiment, exchange knowledge, further develop diverse fields, VHT is moving to accompany the international high-tech community. About AMD For more than 50 years AMD has driven innovation in high-performance computing, graphics and visualization technologies. Billions of people, leading Fortune 500 businesses and cutting-edge scientific research institutions around the world rely on AMD technology daily to improve how they live, work and play. AMD employees are focused on building leadership high-performance and adaptive products that push the boundaries of what is possible.

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Network Infrastructure,Network Management,Wan Technologies

Verizon continues to deploy 5G Ultra Wideband faster than expected

Verizon | December 06, 2022

Verizon now covers more than 175 million people with their ultra fast, ultra reliable 5G Ultra Wideband service, and will offer nationwide 5G Ultra Wideband in Q1 2023. The ongoing C-Band rollout is a full 13 months ahead of the original schedule, and continues to accelerate. Less than 21 months after announcing the results of the FCC’s C-band auction and after securing early access to an additional 30 markets this year, Verizon accelerated its build plan and surpassed its goal of reaching 175 million people covered by the end of 2022, a month ahead of schedule. “Our customers don’t stand still and neither does our network. Today, more than one out of every two Americans now have access to 5G Ultra Wideband. We know our customers rely on our service every day and we work for them – continuously enhancing, expanding and improving our wireless network. And as proud as I am to have crossed this milestone, I am equally proud of the way we are building our network – with the most advanced technologies, industry leading security, a robust fiber underpinning and a robust and varied spectrum portfolio. We are building this right. We are building this as a platform for innovation for years to come.” Hans Vestberg, Chairman and CEO of Verizon. Verizon’s 5G Ultra Wideband brings power and performance comparable to a wired broadband internet connection to customers’ pockets. With download speeds up to one gigabit per second and the capacity to support data-heavy actions, 5G Ultra Wideband frees people up to do things on the go that many could only do before when connected to their home internet service. This includes everything from downloading huge documents and seamlessly streaming movies in HD audio and video, to playing console quality games and conducting video chats, video conferencing and FaceTime calls with clear sound and video. Verizon customers have much more to look forward to Verizon will continue to build out its 5G Ultra Wideband network using C-band spectrum providing service for millions more customers in the coming months, but Verizon’s engineers are not losing sight of the other critical components that will give customers the most reliable, secure, and robust experience possible on the Verizon network. In addition to providing greater coverage, especially in rural and suburban areas, Verizon will also enhance capacity by activating 100 MHz of C-Band spectrum in many markets, a significant step up from the 60 MHz of spectrum available when deployment first began. Once all of its licensed spectrum is made available, Verizon will have up to 200 MHz of C-Band spectrum deployed in many markets, which will provide exceptional speed and capacity. Complementing the wide coverage of Verizon’s premier C-Band spectrum, Verizon will continue deploying 5G on mmWave spectrum which provides for exponential capacity in areas with significantly dense populations such as venues, stadiums, arenas, airports, major metro areas, office complexes and more. mmWave will also continue to be used for private network deployments when enterprise customers need the fastest, most robust 5G service available for their enterprise applications from wireless manufacturing solutions to connected vehicles to remote healthcare and more. In addition to making 5G more accessible to more people, Verizon will continue focusing on building out the advanced technologies that provide increased security, reliability and customized experiences for customers. Those advancements include fully deploying the 5G core with Verizon’s proprietary cloud platform built specifically for telco workloads, advancing the fiber network to handle exponential increases in data traffic, continuing massive virtualization of the network to add programmability and flexibility into the network, using artificial intelligence to drive reliability and performance, continuing to develop edge computing capabilities to drive down latency, and continuing to advance antenna configurations to drive speed and efficiency.

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Enterprise Mobility,Mobile OS

MATRIXX Software’s Digital Commerce Platform Available in Microsoft’s Azure Marketplace

MATRIXX | January 27, 2023

5G monetization solutions leader, MATRIXX software, yesterday announced that the MATRIXX Digital Commerce Platform (DCP) is now available on the Microsoft Azure Marketplace, an online store providing software and services to be used with the Azure cloud computing platform. MATRIXX DCP, a cloud native monetization platform gives Communications Services Providers (CSPs) a wide range of monetization options, making it simpler to take advantage of 5G revenue prospects. By installing MATRIXX DCP on Azure Kubernetes Service (AKS), CSPs may take full advantage of the reliable Azure cloud platform's benefits for the vital goal of monetizing new and cutting-edge services. With a no-code, cloud-native, real-time platform, MATRIXX DCP, a 3GPP-compliant converged charging solution, enables telcos to monetize at web scale. With MATRIXX DCP, operators can scale swiftly in the 5G era and beyond, create differentiated digital consumer experiences, and drive innovation. Marc Price, CTO at MATRIXX Software, said, “Multi-cloud deployments are increasingly important for operators around the world, and are defining the next era of telecommunications.” He further added, “MATRIXX empowers our customers to have access to advanced monetization capabilities, wherever they choose to deploy. Microsoft is a trusted cloud ecosystem partner for CSPs, and with MATRIXX DCP in the Microsoft Azure Marketplace, telcos can easily procure and deploy monetization capabilities for emerging services.” About MATRIXX Software Matrix Software provides converged charging and commerce solutions. It’s cloud-native Digital Commerce Platform offers mission-critical, network-grade software that opens new prospects for network monetization. MATRIXX gives service providers the agility they need to quickly build, deploy, and monetize new products and services because to its no-code configuration features. Many of the world’s top IoT players, network infrastructure providers, and communications firms run on the MATRIXX platform. Utilizing business innovation and on-demand customer experience through MATRIXX enables businesses to compete better, produce new revenue, and pursue growth possibilities across markets and verticals.

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Wan Technologies,Wireless,5G

AMD and Viettel Collaborate on 5G Mobile Network Expansion

AMD | December 05, 2022

AMD and Viettel High Tech (Member of Viettel Group) today announced the successful completion of a 5G mobile network field trial deployment conducted by Viettel and powered by AMD Xilinx Zynq™ UltraScale+™ MPSoC devices. As the largest telecom operator in Vietnam serving more than 130 million mobile customers, Viettel High Tech has a rich history of using AMD radio technology with prior 4G deployments and is now accelerating new networks via new 5G remote radio heads. Designed to meet the growing capacity and performance requirements of mobile users globally, the Viettel 5G mobile network is expected to be completed by the end of 2022. AMD is the exclusive radio unit silicon supplier for Viettel’s indigenous 5G radio development. After the successful completion of the first field trial, Zynq MPSoCs are now set to be extended to an additional 300 Macro 8T8R base stations and 900 5G 8T8R Macro radios. The Zynq UltraScale+ MPSoC was also chosen by Viettel for its first-generation 64T64R Massive MIMO radio which is currently being optimized for field trials. Viettel is developing the next generation of radios to also include Zynq UltraScale+ RFSoC devices, to provide industry-leading integration and higher performance. “Viettel is committed to advancing mobile technology leadership by working closely with AMD to incorporate its adaptable SoC technology into our new generation of 5G networks. Going from VHT's history of making 4G BTS, this decision to scale for the growing demands of 5G was based on evaluating various factors including flexibility, simplification, design stability and the experience of engineers.” Nguyen Vu Ha, general director of Viettel High Tech “5G provides new opportunities to offer higher levels of performance, power efficiency and new services along with increased reliability required to meet the growing data demands of cellular networks,” said Yousef Khalilollahi, corporate vice president of APAC sales, Adaptive and Embedded Computing Group, AMD. “We are proud of our close collaboration with Viettel and remain focused on enabling its mobile network to deliver the optimal end-user experience as well as the flexibility to evolve and grow as Viettel’s user base and required bandwidth continue to increase globally.” About Viettel High Tech As the R&D arm of Viettel Group, Viettel High Tech develops full 5G network architecture including 5 layers: Service/App layers, Core layers, Transportation layers, Access layers, Devices; makes Vietnam one of the few countries that can produce 5G equipment. Collaboration with the leading partners is VHT’s strategy. With the desire to experiment, exchange knowledge, further develop diverse fields, VHT is moving to accompany the international high-tech community. About AMD For more than 50 years AMD has driven innovation in high-performance computing, graphics and visualization technologies. Billions of people, leading Fortune 500 businesses and cutting-edge scientific research institutions around the world rely on AMD technology daily to improve how they live, work and play. AMD employees are focused on building leadership high-performance and adaptive products that push the boundaries of what is possible.

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Network Infrastructure,Network Management,Wan Technologies

Verizon continues to deploy 5G Ultra Wideband faster than expected

Verizon | December 06, 2022

Verizon now covers more than 175 million people with their ultra fast, ultra reliable 5G Ultra Wideband service, and will offer nationwide 5G Ultra Wideband in Q1 2023. The ongoing C-Band rollout is a full 13 months ahead of the original schedule, and continues to accelerate. Less than 21 months after announcing the results of the FCC’s C-band auction and after securing early access to an additional 30 markets this year, Verizon accelerated its build plan and surpassed its goal of reaching 175 million people covered by the end of 2022, a month ahead of schedule. “Our customers don’t stand still and neither does our network. Today, more than one out of every two Americans now have access to 5G Ultra Wideband. We know our customers rely on our service every day and we work for them – continuously enhancing, expanding and improving our wireless network. And as proud as I am to have crossed this milestone, I am equally proud of the way we are building our network – with the most advanced technologies, industry leading security, a robust fiber underpinning and a robust and varied spectrum portfolio. We are building this right. We are building this as a platform for innovation for years to come.” Hans Vestberg, Chairman and CEO of Verizon. Verizon’s 5G Ultra Wideband brings power and performance comparable to a wired broadband internet connection to customers’ pockets. With download speeds up to one gigabit per second and the capacity to support data-heavy actions, 5G Ultra Wideband frees people up to do things on the go that many could only do before when connected to their home internet service. This includes everything from downloading huge documents and seamlessly streaming movies in HD audio and video, to playing console quality games and conducting video chats, video conferencing and FaceTime calls with clear sound and video. Verizon customers have much more to look forward to Verizon will continue to build out its 5G Ultra Wideband network using C-band spectrum providing service for millions more customers in the coming months, but Verizon’s engineers are not losing sight of the other critical components that will give customers the most reliable, secure, and robust experience possible on the Verizon network. In addition to providing greater coverage, especially in rural and suburban areas, Verizon will also enhance capacity by activating 100 MHz of C-Band spectrum in many markets, a significant step up from the 60 MHz of spectrum available when deployment first began. Once all of its licensed spectrum is made available, Verizon will have up to 200 MHz of C-Band spectrum deployed in many markets, which will provide exceptional speed and capacity. Complementing the wide coverage of Verizon’s premier C-Band spectrum, Verizon will continue deploying 5G on mmWave spectrum which provides for exponential capacity in areas with significantly dense populations such as venues, stadiums, arenas, airports, major metro areas, office complexes and more. mmWave will also continue to be used for private network deployments when enterprise customers need the fastest, most robust 5G service available for their enterprise applications from wireless manufacturing solutions to connected vehicles to remote healthcare and more. In addition to making 5G more accessible to more people, Verizon will continue focusing on building out the advanced technologies that provide increased security, reliability and customized experiences for customers. Those advancements include fully deploying the 5G core with Verizon’s proprietary cloud platform built specifically for telco workloads, advancing the fiber network to handle exponential increases in data traffic, continuing massive virtualization of the network to add programmability and flexibility into the network, using artificial intelligence to drive reliability and performance, continuing to develop edge computing capabilities to drive down latency, and continuing to advance antenna configurations to drive speed and efficiency.

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