Nokia innovations enabling 5G for Telia Finland

Telia Finland customers now enjoy ultrafast speeds over their 5G network using innovations developed by Nokia. Janne Koistinen, Director of 5G Programme for Telia Finland, discusses the importance of having a trusted partner on the journey to 5G.

Spotlight

GTT

GTT connects people across organizations, around the world and to every application in the cloud. Our clients benefit from an outstanding service experience built on our core values of simplicity, speed and agility. GTT owns and operates a global Tier 1 internet network and provides a comprehensive suite of cloud networking services. For more information on GTT, please visit www.gtt.net.

OTHER ARTICLES
5G

SA and NSA: The Difference Between 5G Architectures

Article | September 28, 2023

Choosing the right 5G architecture is crucial for enhancing operations while keeping scalability and budget in mind. Learn whether SA or NSA is more suitable for your business needs with this article. 1. Introduction to 5G Network Architectures 2. What is 5G SA? 2.1 Characteristics of SA Architecture 2.2 Benefits of SA Architecture 3. What is 5G NSA? 3.1 Characteristics of NSA Architecture 3.2 Benefits of NSA Architecture 4. Factors to Consider When Choosing Between SA and NSA 4.1 Cost Implications of Each Architecture 4.2 Future Implications of Each Architecture 5. Conclusion 1. Introduction to 5G Network Architectures Widespread implementation of 5G is transforming how businesses across verticals operate, providing enhanced speed, low latency, and massive connectivity. The advancements in 5G system architecture enable new use cases, from autonomous vehicles to smart cities. There are currently two types of 5G network architecture, namely 5G standalone (5G SA) and 5G non-standalone (5G NSA). These two architectures differ in how they connect to the existing 4G infrastructure, the type of equipment required, and the level of network independence. Therefore, understanding the difference between SA and NSA is crucial for companies and organizations implementing 5G architecture. 2. What is 5G SA? 5G SA architecture is an entirely new technology that uses 5G core network architecture, independent of the current 4G LTE network. It has various use cases, such as combining 5G with AI and edge use cases. 2.1 Characteristics of SA Architecture Independent Network: All components of the architecture, including the 5G core architecture, radio access network, and user equipment, are not reliant on any 4G technology. High Performance: 5G SA architecture is optimized for high performance and low latency, enabling fast data transfer rates and near-instantaneous response times. Distributed Architecture: This allows efficient resource allocation and dynamic management of network resources. End-to-End Encryption: It provides end-to-end encryption, which ensures that data is secure and protected from unauthorized access. Higher Cost: 5G SA architecture is more expensive to implement than NSA architecture due to the need for a fully independent 5G network infrastructure. 2.2 Benefits of SA Architecture Low Latency: Applications of 5G that require real-time processing are only possible with SA architecture. Customization: As SA does not depend on existing network architecture, it can be tailored to company requirements. It also enables network slicing for 5G enterprise private network use cases. Security: End-to-end encryptions ensure a more secure network, and 5G network slicing keeps various access levels separate. Scalability: 5G architecture is designed to be highly scalable and handle large volumes of data and devices. Future-proofing: SA architecture will be able to support upcoming 5G features and capabilities by design. 3. What is 5G NSA? 5G NSA provides a transition into 'true' 5G architecture by incorporating 4G network infrastructure for deployment. 3.1 Characteristics of NSA Architecture Non-Independent Network: 5G NSA architecture is designed to leverage the existing 4G infrastructure to deliver 5G services. Transition to SA: NSA offers lower latencies and faster speeds than 4G LTE without deploying 5G architecture. Integrated Deployment: 5G NSA can be deployed quickly since it integrates existing infrastructure. Limited Scalability: As it relies on the existing 4G infrastructure, NSA is limited in scaling. Low Scalability: There is a lower limit on how many devices can join the network and the data volume that can be processed on NSA. 3.2 Benefits of NSA Architecture Faster Deployment: 5G NSA architecture can be deployed more rapidly than SA architecture. Easier Integration: 4G integration with existing networks is easier since it uses architecture. Cost-effective: 5G NSA architecture is generally less expensive to implement as it doesn't require a complete overhaul of the existing infrastructure to a 5G core architecture. Improvement Over 4G: While not providing the speed and low latency of 'true' 5G, NSA offers significant improvements over 4G networks. 4. Factors to Consider When Choosing Between SA and NSA 4.1 Cost Implications of Each Architecture SA architecture requires a complete overhaul of the existing infrastructure, which can result in higher infrastructure and deployment costs. However, SA architecture can be more cost-effective in the long run due to its future-proof design and ability to provide greater scalability and customization. On the other hand, NSA architecture leverages the existing 4G infrastructure, resulting in lower infrastructure and deployment costs. However, upgrading and maintaining an existing 4G network to support 5G technology can be complex and may result in higher operational costs in the long run. 4.2 Future Implications of Each Architecture SA architecture is designed to be future-proof and scalable, supporting upcoming 5G features and capabilities. This can give organizations greater flexibility and agility to respond to changing business needs and emerging technologies. On the other hand, NSA architecture may be less future-proof and require additional investments in infrastructure and resources to support new 5G features and capabilities. 5. Conclusion While NSA architecture may offer lower upfront costs and a faster deployment timeline, SA architecture may be more future-proof and scalable in the long run. Choosing the appropriate 5G architecture is a critical determinant for organizations aiming to utilize 5G technology in building a connected industry of the future. Organizations must evaluate their requirements and consider each architecture's short and long-term costs and operational implications before making a decision.

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5G

5G to usher in enterprise AR boom

Article | May 18, 2023

There is great potential for 5G to usher in significant near-term business impacts in the enterprise, and augmented reality (AR) applications will be the poster child that demonstrates the value of 5G. The sprawling footprints of industrial organizations are tailor-made for 5G. High-speed wireless data coverage will be available throughout dispersed industrial environments which simply can't be served via Wi-Fi alone. 5G cellular connectivity for field-based uses, including AR platforms that help frontline workers keep complex machinery in good working order, will be rapidly adopted. There are also many enterprises that have not deployed wireless infrastructure for cost or security reasons. The recent adoption of mobile digital tools by frontline workers to perform daily tasks and remote guidance makes 5G a valuable investment for these organizations. In many instances, 5G may be easier to deploy while delivering more functionality and higher security than Wi-Fi alone.

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Data Center Networking

As 5G growth accelerates, CSPs have new opportunities for network differentiation and service growth

Article | July 5, 2023

Despite the COVID-induced interruptions in the first half of 2020, 5G preparations and deployment continued in earnest in the second half of 2020 and now the market – vendors, CSPS, OEMs – are ready to bring 5G to the masses of users. The arrival of Apple’s first 5G devices in 4Q20 marked the tipping point of global consumer readiness, now extending from early-adopters. After the initial phase of network launches that saw coverage built-out in major urban centres, 5G service providers should now focus on expanding coverage to as many areas of high-data demand as possible. At the same time, as CSPs gauge their 5G roll-out strategies, they shouldn’t ignore rural areas with limited-to-no high-speed broadband coverage. In many markets, particularly developing ones, CSPs should carefully assess network-sharing as a way to cost-effectively tap pent-up demand, especially given the accelerating remote working trend.

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Network Infrastructure

5G Enterprise Private Network: 9 Ways to Scale Your Business

Article | October 7, 2022

Something revolutionary that solves problems becomes a product or service with many trade secrets you cannot afford to let loose in the market. All small, medium, and large businesses worry about how vulnerable they are to threats as far as data sharing within the organization is concerned. This is where a private network comes in. Every business wants to take a technological leap for scalability. Two of the factors that private networks address are independence from commercial carriers for the network and maintaining the privacy of trade secrets. This helps achieve long-term goals to scale your business. Powering your enterprise private network with the futuristic speeds of 5G can help your business achieve two goals at once. Take a look at why 5G has now started to matter even more. Why 5G? By 2026, the 5G market will reach $667.90 billion, with a CAGR of 122.3% from 2021 to 2026. It is estimated to go beyond $1.87 trillion by 2030. This massive technological transition will forever change how we communicate, process information, and connect with the cloud. A boost in turnkey research and development is one of the vital benefits of 5G that will help your business be one step ahead in the market. What Makes the 5G Enterprise Private Network Ideal for Small and Medium-Sized Businesses? A private enterprise network is VPN, LAN, WAN, or cloud-based. High-speed internet and low-latency data sharing or transfer are achieved using fiber optics in a 5G EPN. Expect superior service security, network slicing, enhanced service quality, and no risk of network congestion. Design your 5G EPN as per the software integrations required for your small and medium-sized business. This will allow seamless integration for present and future needs. 5G is about 100 times faster than 4G, leading to incredible speeds and unlocking many never-seen-before possibilities accelerating the speed of research for your enterprise. The network efficiency and the traffic capacity it can handle are 100x. Connecting and sharing data in almost real-time is made possible with 5G. This means, a private 5G network can reduce the infrastructure needs of relatively more demanding managed wired networks for small and medium-sized businesses supporting 5G ecosystems. But it will keep up with the most advanced wireless technologies of the future and stop supporting older ones. In addition, 5G supports lower power consumption than 4G during data transmission. This means enterprises get better battery life on devices running 5G, including 5G IoT devices. How Secure is a 5G Enterprise Private Network? The 5G enterprise private networks are integrated or hybrid EPNs (enterprise private networks) and independent EPNs. It depends on whether your business wants to lease 5G spectrum from the government or a mobile network operator (MNO) and whether you will use a hybrid or independent EPN. • Integrated 5G EPN: A small business can lease a private 5G line from an MNO. A public 5G network backs a virtual private network (VPN) for medium-to-small businesses. On the other hand, MEC and UPF from a public 5G network are used to set up a local network for large businesses. • Independent 5G EPN: This is the most secure type of 5G EPN, the independent 5G EPN. It is independently built for your enterprise, owned, operated, and managed by you. You will be handling the RAN, core, edge computing nodes, and the wireless spectrum reserved for your use. These are mostly the goals of a large business that sends and stores data that needs to be very secure. An independent 5G EPN is the best solution for large enterprises looking for the most secure private network. Also, it applies to businesses dealing with massive amounts of data. Why Use the Cloud for Storage and Retrieval of Data in 5G EPN? Access computing resources, data storage, development tools, and applications across the internet with the help of the cloud. The combined features of 5G and a private enterprise network create a healthy environment to implement cloud infrastructure. When thinking about using the cloud to store and get data in a 5G EPN, keep in mind the good things about it. Interconnected, shared resources 5G speed Improved reliability Increased data accessibility Better privacy and security Efficient connectivity Now that we have learned networking fundamentals for a better 5G EPN are resolved with the help of the cloud, let us discover how it can help your business scale. How Can Your Small, Medium, or Large Business Scale up With a 5G EPN Network Easily? You can use a 5G enterprise private network, or EPN, to get the most important benefits for a small business. Speed to promote an industrial digital transformation IoT readiness Better control over digital assets. Improved security Reliable coverage Network slicing Ultra-low latency Improved bandwidth Improved quality of service (QoS) You will have complete control over configuring and customizing your EPN, managed independently by your in-house 5G networks. Explore the future avenues of 5G private networks in detail. The Future of 5G Private Networks and Wi-Fi with Industrial Use Cases: According to a study by RAN Research, by 2028, private 5G networks will generate about $23.5 billion, with 19% usage in the manufacturing industry and 12% of the network in the healthcare industry. The deployment of the 5G network and upgraded Wi-Fi standards will likely be saturated by 2024. Most of the investments would be towards upgrading the infrastructure and maintaining the network. The goal of fierce competition among telecom network operators will be to gain rapid market share, bringing down the cost of usage. The new service providers will garner competition from telecom giants, while 5G private networks from different enterprises will still be dominant and mainstream in providing security, privacy, and data isolation. Leading Industrial Use Cases Healthcare: A revolution in healthcare benefiting from 5G technology is bound to happen with their transition to a cloud-native architecture. The need for high-speed and reliable connectivity will arise sooner or later, and 5G private networks will perfectly meet the requirement. The driving forces for healthcare to adopt 5G private networks include the shift to demographics, value-based and patient-centric care, and emergency healthcare. In addition, the use of big data analytics, the internet of medical things (IoMT), better wearable medical technology, hospital remote monitoring systems, e-Health and more will need the speed that 5G offers. Manufacturing: The Industrial Internet of Things (IIoT) uses private 5G networks. Depending upon the software-defined implementation of the 5G network, 5G does not just allow remote monitoring of production lines; it also regulates maintenance and device lifecycle while powering industrial automation. 5G is also finding its way into implementing augmented reality for troubleshooting electronics, additive manufacturing and 3D printing, automated guided vehicles, camera-based video analytics and more. Collaborative robotics, supply chain optimization, and maintenance using a digital twin are a few other things that are worth mentioning. Supply Chain: Due to near-shoring, manufacturing and distribution will decentralize. Due to Internet of Things (IoT) devices with sensors, supply chain and shipping logistics companies will be able to reduce delivery times, have better control over warehouse and transportation environments, and offer great asset management services. Final Thoughts Finding the right 5G private network type for your enterprise is easy. It offers enhanced security while connecting to the cloud, IoT and more. This would allow the development of futuristic products and services, touching multiple industries, with healthcare, manufacturing, warehousing, and logistics among the top. Keeping trade secrets and the latest research and development secure and enhancing the capabilities by integrating future technologies will improve with a 5G EPN. With a 5G private network for your enterprise being used on a large scale, the future of networking looks bright. FAQs: What is the difference between a public 5G network and a private 5G network? A single location or several locations of the same institution, business, or organization are the focus of a private 5G network. On the contrary, the public 5G network is nationwide with millions of subscribers without being dedicated to serving a single entity. Because of this, 5G EPN infrastructure solutions will probably be used on college campuses, in factories, hospitals, military bases, transportation hubs, and other places. What is a private 5G network and what are the benefits of a private 5G network? A 5G private network offers low latency, high bandwidth and multiple connections with access control, which are perfect for business applications for small, medium and large enterprises. Furthermore, 5G private networks allow you to tailor them to your business requirements, making them an excellent investment for your business. Again, while diversifying your business as per customer and market demand, it is crucial to have a networking infrastructure that can adapt to your changing needs. Therefore, a private 5G network becomes even more critical. How does EPN help in centralization and business continuity? When implementing business continuity planning and centralization of your organization, a 5G EPN can provide several benefits over a public network. It makes integrations easy, provides high-quality services, improves access control and reliability, and lets your business share resources in the best way for its current and future needs.

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Spotlight

GTT

GTT connects people across organizations, around the world and to every application in the cloud. Our clients benefit from an outstanding service experience built on our core values of simplicity, speed and agility. GTT owns and operates a global Tier 1 internet network and provides a comprehensive suite of cloud networking services. For more information on GTT, please visit www.gtt.net.

Related News

Network Infrastructure

NTT DATA and IP Infusion Partner to Accelerate Network Disaggregation

Business Wire | October 17, 2023

IP Infusion, a leading provider of open network software and solutions for wireline and mobile network operators, today announced a strategic partnership with NTT DATA, a global digital business and IT services leader. NTT DATA and IP Infusion are collaborating for go-to-market open networking solutions to bring enhanced disaggregation, scalability, and choices to network operators. NTT DATA (part of NTT Group) is a global innovator of IT and business services headquartered in Tokyo that offers consulting, industry solutions, business process services, IT modernization and managed services. NTT DATA will offer IP Infusion Cell Site Routers, Routed Optical Networking, Aggregation Router and Data Center software products, including bundled solutions, on a broad portfolio of white box hardware. This collaboration for expanding broad connectivity was initiated by the Telecom Infra Project (TIP), including TIP solutions for Disaggregated Cell Site Gateways (DCSG) or Cell Site Routers and Cassini for Routed Optical Networking projects. Both NTT DATA and IP Infusion are members of TIP, which is driving development and deployment of open, disaggregated, and standards-based technology solutions to advance global connectivity. “We are deeply committed to accelerating network disaggregation throughout our global ecosystem of customers and partners,” said Teodoro López Palacios, Partner, Telecom Sector at NTT DATA Europe & LATAM. “IP Infusion is a proven leader in open networking, providing award-winning and field-tested solutions that reduce total cost of ownership while expanding services. We are excited to help propel innovation, greater access, and better network outcomes to more users.” “The systems integrator role is important for the TIP community, and the IP Infusion and NTT DATA alliance is a big step forward for bringing disaggregated solutions to a diverse range of use cases,” said Kristian Toivo, Executive Director of Telecom Infra Project. “NTT DATA and IP Infusion have long demonstrated deep expertise in open network solutions and this collaboration will help create a stronger, more flexible supply chain, supporting high-quality connectivity.” We are pleased to partner with NTT DATA to drive further market penetration for open networking, said Atsushi Ogata, President and CEO of IP Infusion. It’s great to be working with NTT DATA, a trusted global innovator for business IT solutions, which clearly understands the powerful potential of network disaggregation. We are proud to be furthering TIP’s ideals for expanding open networks and paving the way for a connected future. Along with this partnership with NTT DATA, IP Infusion continues to receive acclaim for its products and services. This spring, leading independent global provider of technology industry insights GigaOm designated IP Infusion as Leader and Outperformer for the third consecutive year in all three of its 2023 Network Operating System Radar Reports. The IP Infusion software platform was identified as the most complete of the more than 20 NOS vendors GigaOm analysts evaluated, outperforming incumbent providers including Cisco and Juniper. In addition, TIP recognized IP Infusion’s Disaggregated Cell Site Gateway (DCSG) solution with the TIP Validated Solution Gold Badge in 2022. IP Infusion’s software was recognized for satisfying the stringent requirements set by the TIP Open Optical Packet Transport Project (OOPT) group for the DCSG. About IP Infusion IP Infusion manufactures open network software and solutions for carriers, service providers and data centers. With hundreds of customers and thousands of deployments, IP Infusion is a market leader in Network Operating Systems. Our flagship software platform OcNOS® allows network operators to disaggregate their networks, streamline operations, and reduce Total Cost of Ownership (TCO). Network OEMs may also disaggregate network devices to expedite time to market, offer comprehensive services, and achieve carrier grade robustness. IP Infusion is headquartered in Santa Clara, Calif., and is a wholly owned and independently operated subsidiary of ACCESS CO., LTD. Additional information can be found at http://www.IPInfusion.com. IP Infusion and OcNOS are trademarks or registered trademarks of IP Infusion. ACCESS is a registered trademark or trademark of ACCESS CO., LTD. in the United States, Japan and/or other countries. Northforge Innovations is a registered trademark of Northforge Innovations, Inc. All other trademarks, service marks, registered trademarks, or registered service marks mentioned are the property of their respective owners.

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Network Infrastructure

Arrcus Unveils Groundbreaking ACE-AI Networking Solution at MWC Las Vegas

Business Wire | October 03, 2023

Arrcus, the hyperscale networking software company and a leader in core, edge, and multi-cloud routing and switching infrastructure, is proud to introduce its trailblazing networking solution, Arrcus Connected Edge for AI (ACE-AI), designed to revolutionize the networking industry for AI/ML workloads. In the heart of today's digitally driven world, a monumental transformation is underway. Generative Artificial Intelligence (GenAI) has emerged as a powerful force, reshaping entire industries and redefining our digital landscape. At the epicenter of this transformative wave is the exponential growth of datacenter network traffic, driven by GenAI applications. AI/ML workloads will be increasingly distributed – at the Edge, in colos, telco PoPs/datacenters and public clouds. This growth underscores the urgent need for networks to evolve to become distributed, open, lossless and predictable to cater to this revolutionary paradigm shift. "AI networking bandwidth is going to grow over 100% Y/Y in the second half of 2023 and throughout 2024 based on the remarkable growth in vendor revenue associated with AI/ML, and this class of networking bandwidth growth is nearly three times that of traditional data center networking,” said Alan Weckel, Founder and Technology Analyst at 650 Group. “We see AI/ML as a major catalyst for the growth of Data Center switching over the next five years and is likely to be distributed in nature. Arrcus' adaptable ACE-AI platform effectively addresses these demands with its open and flexible network fabric, designed to unify the distributed AI/ML workloads wherever they may reside.” Arrcus' innovative ACE-AI networking solution based on ArcOS delivers a modern, unified network fabric for optimizing GPU and other distributed compute resources with maximum performance for AI/ML workloads. Ethernet as the underlying technology is well suited to address the needs with its inherent benefits for scalability, reliability, flexibility and low latency and ACE-AI builds on Ethernet to seamlessly weave together the entire network infrastructure, spanning from the edge to core to multi-cloud, encompassing switching and routing. Communication Service Providers (CSP), Enterprises and Datacenter operators can now harness the potential of 5G and GenAI by pooling compute resources wherever they may reside across the network to drive business outcomes. “AL/ML workloads, Large Language Models (LLM) and compute-intensive applications like GenAI need to be delivered in a distributed fashion, to enable pooling of scarce, expensive compute resources as well as ensure low latency at the point of consumption,” said Shekar Ayyar, Chairman and CEO, Arrcus. “With Arrcus ACE-AI, Enterprises, CSPs and Hyperscalers now have the ability to transition from the legacy, single vendor networks, to a more modern, scalable, and software-defined network with lower TCO in support of their AI expansion plans.” For next-generation datacenters, ACE-AI enables traditional CLOS and Virtualized Distributed Routing (VDR) architectures, with massive scale and performance to provide lossless, predictable connectivity for GPU clusters with high resiliency, availability and visibility. Features like Priority Flow Control (PFC), intelligent congestion detection and buffering at ingress points to prevent packet drops, ensure lower Job Completion Times (JCT) and tail latency. In the always-on world of GenAI, network high availability is crucial and is supported with features like Hitless Upgrade, reducing software maintenance upgrade times to under 20ms. “High-performing, reliable and low-latency networks that are energy efficient are fundamental to bring the AI/ML disruption to reality. Ethernet with its standards-based approach is perfectly suited to deliver this critical connectivity to the distributed AI paradigm,” said Ram Velaga, senior vice president and general manager, Core Switching Group, Broadcom Inc. “We share Arrcus’ vision and are excited to collaborate with them to create a network fabric that is open, programmatic and first rate performance.” To leverage 5G to deliver GenAI applications at the edge, ACE-AI also benefits from innovations like SRv6 Mobile User Plane (MUP) to enable the automated delivery of network slicing simply, efficiently and cost effectively. Network visibility is paramount for GenAI workloads, and ArcIQ is a modern network visibility and analytics platform that provides networking professionals with real-time, deep views of the networks and devices with actionable insights for proactive incident management and faster troubleshooting. Open networks serve as the cornerstone of adaptability and rapid innovation, and Arrcus supports a wide range of energy conserving merchant silicon and hardware options from multiple ODMs, ranging in speeds from 1G to 400G, across shallow and deep buffer switches, granting customers unprecedented choices. "The AI revolution is underway and demanding a comprehensive reevaluation of network infrastructure development to effectively address requirements of Distributed AI," said Heimdall Siao, President of Edgecore Networks. "We are enthusiastic about our collaboration with Arrcus to build the next-generation infrastructure combining Edgecore's Open Networking platform with Arrcus versatile ACE AI solution." “To adequately address high performance, low latency needs of applications like GenAI, combined with 5G transport it is critical to transition from legacy networking to an open, disaggregated stack that leverages hardware platforms built on the latest merchant silicon combined with scalable, programmable networking stack,” said Vincent Ho, CEO of UfiSpace. “UfiSpace and Arrcus deliver a highly innovative solution to address the 5G and AI revolution.” As GenAI reshapes industries, Arrcus delivers networks to match this dynamism by providing open, lossless, predictable, and distributed networks to lay the foundation for datacenters to flourish in this transformative era. About Arrcus Arrcus was founded to enhance business efficiency through superior network connectivity. The Arrcus Connected Edge (ACE) platform offers best-in-class networking with the most flexible consumption model at the lowest total cost of ownership. The Arrcus team consists of world-class technologists who have an unparalleled record in shipping industry-leading networking products, complemented by industry thought leaders, operating executives, strategic partners and top-tier VCs. The company is headquartered in San Jose, California with offices in Bangalore, India, and Tokyo, Japan. For more information, go to www.arrcus.com or follow @arrcusinc.

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Network Management

SOLiD and ASOCS Unveil Joint O-RAN Solution for Private 5G Networks

GlobeNewswire | September 26, 2023

SOLiD, the leader in cellular in-building mobile coverage, and ASOCS, a leading provider of private 5G network software, today announced a partnership to deliver a complete O-RAN-compliant solution for private 5G and Industrial IoT (IIoT) networks. The joint solution enables rapid deployment of scalable private 5G campus networks with intelligent real-time positioning using the Citizens Broadband Radio Service (CBRS) spectrum. The new private 5G network solution comprises the SOLiD CBRS O-RAN Radio Unit (O-RU), the ASOCS CYRUS® virtual O-RAN Distributed Unit (O-DU) and Centralized Unit (O-CU), and ASOCS Hermes NGP real-time positioning software. The CBRS-compliant solution, certified by the OnGo Alliance, empowers a range of mission-critical Industry 4.0 use cases, such as manufacturing automation, predictive maintenance, real-time asset tracking, and occupational health and safety. The SOLiD CBRS O-RU complies with O-RAN ALLIANCE fronthaul specifications, supporting 4G LTE and 5G New Radio (NR) in standalone (SA) or non-standalone (NSA) architecture. The O-RU is compatible with various virtual or physical baseband products via an eCPRI interface. To improve private 5G network service agility, scalability, and efficiency, the SOLiD Fronthaul Multiplexer (MUX) technology eliminates the need for dedicated bandwidth for each RU, enabling more economical use of the CBRS spectrum. “With the power of AI, the ASOCS software-as-a-service solution enables a cloud-based private 5G network with real-time indoor/ outdoor positioning intelligence to connect data-driven Industry 4.0 edge applications with high accuracy and low latency,” said Niv Zimmerman, vice president of solutions, ASOCS. “Together with SOLiD, we offer a unique, comprehensive solution for deploying private 5G and IIoT networks in a scalable model.” “SOLiD is at the forefront of innovating connectivity with Open RAN architecture, changing how mobile network operators, system integrators, and manufacturers build tomorrow’s networks,” said Yong Hoon Kang, Ph.D., chief technology officer, SOLiD Americas. “The powerful combination of the SOLiD CBRS O-RAN Radio Unit and ASOCS software unleashes 5G to enable fast, turnkey deployment of robust and secure private in-building networks that transform the business environment.” “With low latency, fast data speeds, high reliability, and solid security, the true promise of 5G over CBRS is to enable Industry 4.0 applications for greater productivity and profitability,” said Alan Ewing, executive director, OnGo Alliance. “The SOLiD and ASOCS collaboration is an outstanding example from two of our members of how 5G NR and CBRS come together to deliver exceptional performance.” SOLiD and ASOCS have completed multiple interoperability tests proving the performance of their Open RAN technologies. To learn more, visit SOLiD and ASOCS in meeting room #1178 at MWC Las Vegas, September 26-28. About SOLiD SOLiD enables indoor and outdoor cellular at many of the world’s best-known and most challenging venues — from the busiest airports and subways to Fortune 500 corporate buildings, hospitals, hotels, universities, sports venues, government, industrial, and logistics facilities. SOLiD continuously innovates to deliver best-in-class connectivity solutions that scale to every need. For more information, visit www.solid.com/us. About ASOCS ASOCS provides a fully virtualized private 5G network solution, along with 5G real-time positioning services for enterprises that require mission-critical, data-driven applications. ASOCS products are delivered on a scalable software-as-a-service (SaaS) model, enabling companies to easily implement private 5G networks and benefit from high network reliability, enhanced security, and low latency. For more information, visit www.asocscloud.com.

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Network Infrastructure

NTT DATA and IP Infusion Partner to Accelerate Network Disaggregation

Business Wire | October 17, 2023

IP Infusion, a leading provider of open network software and solutions for wireline and mobile network operators, today announced a strategic partnership with NTT DATA, a global digital business and IT services leader. NTT DATA and IP Infusion are collaborating for go-to-market open networking solutions to bring enhanced disaggregation, scalability, and choices to network operators. NTT DATA (part of NTT Group) is a global innovator of IT and business services headquartered in Tokyo that offers consulting, industry solutions, business process services, IT modernization and managed services. NTT DATA will offer IP Infusion Cell Site Routers, Routed Optical Networking, Aggregation Router and Data Center software products, including bundled solutions, on a broad portfolio of white box hardware. This collaboration for expanding broad connectivity was initiated by the Telecom Infra Project (TIP), including TIP solutions for Disaggregated Cell Site Gateways (DCSG) or Cell Site Routers and Cassini for Routed Optical Networking projects. Both NTT DATA and IP Infusion are members of TIP, which is driving development and deployment of open, disaggregated, and standards-based technology solutions to advance global connectivity. “We are deeply committed to accelerating network disaggregation throughout our global ecosystem of customers and partners,” said Teodoro López Palacios, Partner, Telecom Sector at NTT DATA Europe & LATAM. “IP Infusion is a proven leader in open networking, providing award-winning and field-tested solutions that reduce total cost of ownership while expanding services. We are excited to help propel innovation, greater access, and better network outcomes to more users.” “The systems integrator role is important for the TIP community, and the IP Infusion and NTT DATA alliance is a big step forward for bringing disaggregated solutions to a diverse range of use cases,” said Kristian Toivo, Executive Director of Telecom Infra Project. “NTT DATA and IP Infusion have long demonstrated deep expertise in open network solutions and this collaboration will help create a stronger, more flexible supply chain, supporting high-quality connectivity.” We are pleased to partner with NTT DATA to drive further market penetration for open networking, said Atsushi Ogata, President and CEO of IP Infusion. It’s great to be working with NTT DATA, a trusted global innovator for business IT solutions, which clearly understands the powerful potential of network disaggregation. We are proud to be furthering TIP’s ideals for expanding open networks and paving the way for a connected future. Along with this partnership with NTT DATA, IP Infusion continues to receive acclaim for its products and services. This spring, leading independent global provider of technology industry insights GigaOm designated IP Infusion as Leader and Outperformer for the third consecutive year in all three of its 2023 Network Operating System Radar Reports. The IP Infusion software platform was identified as the most complete of the more than 20 NOS vendors GigaOm analysts evaluated, outperforming incumbent providers including Cisco and Juniper. In addition, TIP recognized IP Infusion’s Disaggregated Cell Site Gateway (DCSG) solution with the TIP Validated Solution Gold Badge in 2022. IP Infusion’s software was recognized for satisfying the stringent requirements set by the TIP Open Optical Packet Transport Project (OOPT) group for the DCSG. About IP Infusion IP Infusion manufactures open network software and solutions for carriers, service providers and data centers. With hundreds of customers and thousands of deployments, IP Infusion is a market leader in Network Operating Systems. Our flagship software platform OcNOS® allows network operators to disaggregate their networks, streamline operations, and reduce Total Cost of Ownership (TCO). Network OEMs may also disaggregate network devices to expedite time to market, offer comprehensive services, and achieve carrier grade robustness. IP Infusion is headquartered in Santa Clara, Calif., and is a wholly owned and independently operated subsidiary of ACCESS CO., LTD. Additional information can be found at http://www.IPInfusion.com. IP Infusion and OcNOS are trademarks or registered trademarks of IP Infusion. ACCESS is a registered trademark or trademark of ACCESS CO., LTD. in the United States, Japan and/or other countries. Northforge Innovations is a registered trademark of Northforge Innovations, Inc. All other trademarks, service marks, registered trademarks, or registered service marks mentioned are the property of their respective owners.

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Network Infrastructure

Arrcus Unveils Groundbreaking ACE-AI Networking Solution at MWC Las Vegas

Business Wire | October 03, 2023

Arrcus, the hyperscale networking software company and a leader in core, edge, and multi-cloud routing and switching infrastructure, is proud to introduce its trailblazing networking solution, Arrcus Connected Edge for AI (ACE-AI), designed to revolutionize the networking industry for AI/ML workloads. In the heart of today's digitally driven world, a monumental transformation is underway. Generative Artificial Intelligence (GenAI) has emerged as a powerful force, reshaping entire industries and redefining our digital landscape. At the epicenter of this transformative wave is the exponential growth of datacenter network traffic, driven by GenAI applications. AI/ML workloads will be increasingly distributed – at the Edge, in colos, telco PoPs/datacenters and public clouds. This growth underscores the urgent need for networks to evolve to become distributed, open, lossless and predictable to cater to this revolutionary paradigm shift. "AI networking bandwidth is going to grow over 100% Y/Y in the second half of 2023 and throughout 2024 based on the remarkable growth in vendor revenue associated with AI/ML, and this class of networking bandwidth growth is nearly three times that of traditional data center networking,” said Alan Weckel, Founder and Technology Analyst at 650 Group. “We see AI/ML as a major catalyst for the growth of Data Center switching over the next five years and is likely to be distributed in nature. Arrcus' adaptable ACE-AI platform effectively addresses these demands with its open and flexible network fabric, designed to unify the distributed AI/ML workloads wherever they may reside.” Arrcus' innovative ACE-AI networking solution based on ArcOS delivers a modern, unified network fabric for optimizing GPU and other distributed compute resources with maximum performance for AI/ML workloads. Ethernet as the underlying technology is well suited to address the needs with its inherent benefits for scalability, reliability, flexibility and low latency and ACE-AI builds on Ethernet to seamlessly weave together the entire network infrastructure, spanning from the edge to core to multi-cloud, encompassing switching and routing. Communication Service Providers (CSP), Enterprises and Datacenter operators can now harness the potential of 5G and GenAI by pooling compute resources wherever they may reside across the network to drive business outcomes. “AL/ML workloads, Large Language Models (LLM) and compute-intensive applications like GenAI need to be delivered in a distributed fashion, to enable pooling of scarce, expensive compute resources as well as ensure low latency at the point of consumption,” said Shekar Ayyar, Chairman and CEO, Arrcus. “With Arrcus ACE-AI, Enterprises, CSPs and Hyperscalers now have the ability to transition from the legacy, single vendor networks, to a more modern, scalable, and software-defined network with lower TCO in support of their AI expansion plans.” For next-generation datacenters, ACE-AI enables traditional CLOS and Virtualized Distributed Routing (VDR) architectures, with massive scale and performance to provide lossless, predictable connectivity for GPU clusters with high resiliency, availability and visibility. Features like Priority Flow Control (PFC), intelligent congestion detection and buffering at ingress points to prevent packet drops, ensure lower Job Completion Times (JCT) and tail latency. In the always-on world of GenAI, network high availability is crucial and is supported with features like Hitless Upgrade, reducing software maintenance upgrade times to under 20ms. “High-performing, reliable and low-latency networks that are energy efficient are fundamental to bring the AI/ML disruption to reality. Ethernet with its standards-based approach is perfectly suited to deliver this critical connectivity to the distributed AI paradigm,” said Ram Velaga, senior vice president and general manager, Core Switching Group, Broadcom Inc. “We share Arrcus’ vision and are excited to collaborate with them to create a network fabric that is open, programmatic and first rate performance.” To leverage 5G to deliver GenAI applications at the edge, ACE-AI also benefits from innovations like SRv6 Mobile User Plane (MUP) to enable the automated delivery of network slicing simply, efficiently and cost effectively. Network visibility is paramount for GenAI workloads, and ArcIQ is a modern network visibility and analytics platform that provides networking professionals with real-time, deep views of the networks and devices with actionable insights for proactive incident management and faster troubleshooting. Open networks serve as the cornerstone of adaptability and rapid innovation, and Arrcus supports a wide range of energy conserving merchant silicon and hardware options from multiple ODMs, ranging in speeds from 1G to 400G, across shallow and deep buffer switches, granting customers unprecedented choices. "The AI revolution is underway and demanding a comprehensive reevaluation of network infrastructure development to effectively address requirements of Distributed AI," said Heimdall Siao, President of Edgecore Networks. "We are enthusiastic about our collaboration with Arrcus to build the next-generation infrastructure combining Edgecore's Open Networking platform with Arrcus versatile ACE AI solution." “To adequately address high performance, low latency needs of applications like GenAI, combined with 5G transport it is critical to transition from legacy networking to an open, disaggregated stack that leverages hardware platforms built on the latest merchant silicon combined with scalable, programmable networking stack,” said Vincent Ho, CEO of UfiSpace. “UfiSpace and Arrcus deliver a highly innovative solution to address the 5G and AI revolution.” As GenAI reshapes industries, Arrcus delivers networks to match this dynamism by providing open, lossless, predictable, and distributed networks to lay the foundation for datacenters to flourish in this transformative era. About Arrcus Arrcus was founded to enhance business efficiency through superior network connectivity. The Arrcus Connected Edge (ACE) platform offers best-in-class networking with the most flexible consumption model at the lowest total cost of ownership. The Arrcus team consists of world-class technologists who have an unparalleled record in shipping industry-leading networking products, complemented by industry thought leaders, operating executives, strategic partners and top-tier VCs. The company is headquartered in San Jose, California with offices in Bangalore, India, and Tokyo, Japan. For more information, go to www.arrcus.com or follow @arrcusinc.

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Network Management

SOLiD and ASOCS Unveil Joint O-RAN Solution for Private 5G Networks

GlobeNewswire | September 26, 2023

SOLiD, the leader in cellular in-building mobile coverage, and ASOCS, a leading provider of private 5G network software, today announced a partnership to deliver a complete O-RAN-compliant solution for private 5G and Industrial IoT (IIoT) networks. The joint solution enables rapid deployment of scalable private 5G campus networks with intelligent real-time positioning using the Citizens Broadband Radio Service (CBRS) spectrum. The new private 5G network solution comprises the SOLiD CBRS O-RAN Radio Unit (O-RU), the ASOCS CYRUS® virtual O-RAN Distributed Unit (O-DU) and Centralized Unit (O-CU), and ASOCS Hermes NGP real-time positioning software. The CBRS-compliant solution, certified by the OnGo Alliance, empowers a range of mission-critical Industry 4.0 use cases, such as manufacturing automation, predictive maintenance, real-time asset tracking, and occupational health and safety. The SOLiD CBRS O-RU complies with O-RAN ALLIANCE fronthaul specifications, supporting 4G LTE and 5G New Radio (NR) in standalone (SA) or non-standalone (NSA) architecture. The O-RU is compatible with various virtual or physical baseband products via an eCPRI interface. To improve private 5G network service agility, scalability, and efficiency, the SOLiD Fronthaul Multiplexer (MUX) technology eliminates the need for dedicated bandwidth for each RU, enabling more economical use of the CBRS spectrum. “With the power of AI, the ASOCS software-as-a-service solution enables a cloud-based private 5G network with real-time indoor/ outdoor positioning intelligence to connect data-driven Industry 4.0 edge applications with high accuracy and low latency,” said Niv Zimmerman, vice president of solutions, ASOCS. “Together with SOLiD, we offer a unique, comprehensive solution for deploying private 5G and IIoT networks in a scalable model.” “SOLiD is at the forefront of innovating connectivity with Open RAN architecture, changing how mobile network operators, system integrators, and manufacturers build tomorrow’s networks,” said Yong Hoon Kang, Ph.D., chief technology officer, SOLiD Americas. “The powerful combination of the SOLiD CBRS O-RAN Radio Unit and ASOCS software unleashes 5G to enable fast, turnkey deployment of robust and secure private in-building networks that transform the business environment.” “With low latency, fast data speeds, high reliability, and solid security, the true promise of 5G over CBRS is to enable Industry 4.0 applications for greater productivity and profitability,” said Alan Ewing, executive director, OnGo Alliance. “The SOLiD and ASOCS collaboration is an outstanding example from two of our members of how 5G NR and CBRS come together to deliver exceptional performance.” SOLiD and ASOCS have completed multiple interoperability tests proving the performance of their Open RAN technologies. To learn more, visit SOLiD and ASOCS in meeting room #1178 at MWC Las Vegas, September 26-28. About SOLiD SOLiD enables indoor and outdoor cellular at many of the world’s best-known and most challenging venues — from the busiest airports and subways to Fortune 500 corporate buildings, hospitals, hotels, universities, sports venues, government, industrial, and logistics facilities. SOLiD continuously innovates to deliver best-in-class connectivity solutions that scale to every need. For more information, visit www.solid.com/us. About ASOCS ASOCS provides a fully virtualized private 5G network solution, along with 5G real-time positioning services for enterprises that require mission-critical, data-driven applications. ASOCS products are delivered on a scalable software-as-a-service (SaaS) model, enabling companies to easily implement private 5G networks and benefit from high network reliability, enhanced security, and low latency. For more information, visit www.asocscloud.com.

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