Nokia, Ericsson, II-VI, Lumentum and Sumitomo Electric published a joint technical paper making the case for reducing the wide choice of Mobile Optical Pluggables (MOPA) used to connect cell sites to fiber optic networks. The co-authors of the paper have recommended predefined optical blueprints that help operators speed up time to market using a common list of optical pluggable modules in a market worth $500 million per year.
Optical pluggables are defined as front-panel pluggable optical transceivers in popular form factors like SFP+, SFP28, QSFP28, etc. and the Blueprints are intended as global solutions, i.e., as generic as possible to cover a wide range of network scenarios.
The first-time joint industry initiative, published in time for the Optical Networking and Communication Conference & Exhibition, lays out a set of Mobile Optical Blueprints which describe the most optimized optical pluggable modules and passive optical components. Recommendations include optical characteristics such as data rates, reach, power, wavelengths as well as mechanical characteristics such as form factor, heat dissipation and operational temperature.
Ian Redpath, Practice Leader, Transport Networks and Components at Omdia said: “In a 5G world, optical pluggables will be utilized to connect cell sites to the network core. Network operators are currently challenged with assessing many pluggable variations, increasing their qualification work load and slowing time to deploy. MOPA will streamline efforts for the connectivity community, enabling cost reductions and reducing time to deploy.”
Stefaan Vanhastel, CTO Nokia Fixed Networks said: “Fiber is a critical component of 5G rollouts and provides unmatched capacity for 5G transport. A clear overview of available optics strategies makes it easier to design and deploy 5G networks. We are pleased to be joining forces with Ericsson, II-VI, Lumentum and Sumitomo Electric on this vital initiative which will make the choice for fiber even more compelling in the transport domain.”
Verizon Executive VP and CTO Kyle Malady stated: Right now we have about 1/3 of our cell sites and small cells on our own fiber asset (backhaul). And I think that’s — we like the owner’s economics of that. We also like the control of the network because we can maintain quality and reliability.
Wells Fargo Question:
Let’s talk about Verizon’s One Fiber project, where you’re building in more than 60 cities. Has that continued at its pace that it was at last year? Has it slowed down at all? And at what point is most of the network core already built and you’ve really flipped to more kind of success-based fiber CapEx once you get beyond the core build?
Kyle Malady’s Answer:
We’re getting there on the core build. I’d say maybe 80% there roughly. And now it’s more connecting in a lot of markets. It’s more connecting the cell sites into it and making what we call laterals. So building the fiber laterals to cell sites or what have you and connecting back to the core. So we got two or three more years left on our fiber build here. And then primarily, it will be just success-based builds.
Verizon launched its One Fiber initiative in 2016, unifying its fiber planning and purchasing for both wireless and wireline into a single program. It initially announced a six-year, $300 million project in Boston, eventually outlining ambitions to add fiber to more than 60 markets outside of its ILEC footprint.
Speaking in May 2019 during the Wireless Infrastructure Association’s Connectivity Expo, Verizon SVP Adam Koeppe said:
We’ve made a conscious effort to really pair our wireless engineering with a fiber engineering process and what that’s allowed us to do is pursue over 60 markets around the country. We’re going to actually be building fiber into the footprint and, you know, truthfully, serving our own needs if you will from a frontal and backhaul perspective. That’s a very integrated engineering process that creates tremendous synergy on our end and allows for very rapid deployment.
Regarding Verizon’s 5G Home (fixed wireless access or FWA) expansion, Malady said:
Now that we have millimeter wave and C-Band spectrum, I feel confident that we can do this. And I feel confident we can do this in a good way, a way that is consistent with the quality people have come to rely on Verizon for. So we’re going to engineer this right. We have enough spectrum to do it. And I’m excited about the possibilities for us from a — meeting customers where they want to be. And without this millimeter wave and C-Band, we couldn’t have been able to support this kind of use case.
Besides the consumer market for 5G Home, SMB seems to be kind of a no-brainer. If we make it easy to use, if we make it easy to buy and set up and utilize, people will probably figure out ways to use that we haven’t even thought of yet. So I do think it’s something that will be used across the board. You could use it (5G Home) at Wells Fargo. You could use them in ATMs. You can use the service for a whole host of things, if you make — if it’s easier to use, more reliable, good price point. So if the value is there, I think people will use it no matter kind of — no matter what segment of the economy they are in. So — but obviously, we’re a heavy Consumer company, and that’s where we’re going to start.
Malady added he expects Verizon’s fiber experience to give it a competitive edge in the FWA arms race with rivals like T-Mobile. “Having been in the FiOS game for a long time we understand what works, what doesn’t work, how to set things up, the customer support, all the different angles. So I do believe that having experience with FiOS is absolutely going to translate over to what we do with 5G Home.”
The 5G journey is only just beginning and the shape of its implications are barely visible, but the anticipation among industry participants is palpable. Bank of America (BofA) telecom analyst David Barden examines 5G use cases across different industry verticals. Examples span across Healthcare, Industrials, Energy and Consumer just to name a few.
While there is not a “killer app” for 5G yet, BofA expects the app economy to develop the right applications over time as 5G networking deployment and phone adoption is stimulated by the generational tech war between U.S. and China.
Long-term possibilities include doctors performing remote surgeries, flying cars, haptic bodysuits that fully immerse you in the game world, machines proactively monitoring and warning of breakdowns and predictive maintenance, automated loading at warehouses and smart grids for utility providers. Other examples are included in this excerpt from BofA’s global research report.
5G in the wild:
Over the last year, the 5G conversation has evolved from ‘What is 5G?‘ to ‘Why do we want it?‘ to ‘What do you do with 1Gbps speed?‘ What you do with that kind of speed, latency and connectivity capability is push massive amounts of information across a vast number of devices very fast. One example relevant to the drone and auto industries is the notion of ‘beyond the line of sight‘. Take an example where metro traffic cameras can collect and process sensor information from an entire city and feed it directly into your car so your car already knows there is a stopped vehicle in the middle of the road one mile ahead of you on your planned route and adjusts accordingly.
Examples are endless, and are as big as one can dream – think remote surgeries performed by doctors thousands of miles away due to the power of robotics while using 5G powered medical devices and a lightning fast network, 5G-empowered flying vertical takeoff and landing (VTOL) cars, connected diapers, haptic bodysuits that fully immerse you in your game world, beyond just ‘looking‘ but also now ‘feeling‘.
While it is still tough to conceive of the killer 5G app that will drive adoption, there is no shortage of people thinking about it. Based on a recent McKinsey study (‘The 5G Era‘), companies are willing to adopt to 5G in order to enable ‘new standard‘ use cases or to comply with future connectivity standards. And these ‘new standard‘ use cases are expected to drive 5G IoT unit sales over the next decade. Below, we survey different industry verticals (from healthcare to industrials, energy to consumer) and specific use cases that may utilize this next generation of connectivity most heavily today and how they may evolve.
Sizing the IoT opportunity:
In the next few exhibits, we will look at the potential market size and economics of 5G-powered IoT technology. By comparing the IoT addressable market in various industry verticals side-by-side we found that while the Consumer IoT market would grow to be the largest IoT market vertical at about $142b in 2026, it would be growing at the slowest rate of 17%. The Internet of Medical Things (IoMT) Market closely trails Consumer IoT as the second largest market opportunity, with a market size that is expected to reach around $123b in 2026 but growing at a faster rate of 27.2%. The industrials IoT market would be growing by far the fastest with a CAGR of 79.1%, but off of a relatively small base of just $500m in 2020.
We note that the consumer IoT market is currently the largest as the term ‘IoT‘ broadly covers a wide array of devices that range from smartphones and fitness wearables, to end-use applications such as in-car entertainment, traffic management, connected cars, home automation and more. It is the vertical that is furthest along the adoption curve in the ‘IoT space‘, thereby explaining the slower-than-peers projected growth rate. Because consumer use cases have been most widely covered in our previous reports, we focus on commercial 5G and IoT use cases in this report.
Revolutionizing healthcare with 5G:
5G will play a pivotal role in shaping tomorrow‘s healthcare infrastructure. The common use cases for 5G in healthcare can be broadly bucketed into two key areas 1) providing connectivity everywhere to enable the omnipresence of telemedicine and 2) powering the Internet of Medical Things (IoMT).
Enabling the omnipresence of telemedicine:
The adoption of telemedicine has been accelerating due in part to the COVID-19 pandemic. Based on a market report by ReportLinker in April 2020, the telehealth market is expected to grow at a 29%+ CAGR from 2019 to 2025. Following the outbreak of the COVID-19 pandemic, telehealth has transformed from a “nice-to-have“ to a necessity as traditional healthcare providers encourage patients with mild to moderate illnesses to be treated virtually rather than via in-person visits. The latest McKinsey study titled “Telehealth: A quarter-trillion-dollar post-COVID-19 reality?“ estimates that up to $250b of current US healthcare spend could be virtualized.
Based on data from FAIR Health from December of 2020, a nonprofit manages the nation‘s largest database of privately billed healthcare insurance claims, telehealth claims increased 2,980% nationally from September 2019 to September 2020, albeit from a small base (0.16% in ‘19 of total claims to 5.07% in ‘20). According to Center of Disease Control and Prevention (CDC) data, during the beginning stages of the pandemic last March, telehealth visits increased 154% compared to same period in 2019. CDC used data collected from the major participants in the space such as Teladoc (Ticker: TDOC), Amwell (Ticker: AMWL), MDLive and Doctor On Demand.
With accelerating adoption, a fast and reliable network that can support near real-time, HD video without congestion has become pertinent. Today‘s broadband speeds and coverage are sufficient to address the majority of the use cases within the population. Remote areas and physicians, however, will need access to reliable connections sooner rather than later. As applications and technical requirements in telemedicine grow more robust, 5G will play a critical role in enabling the need for speed and applications at the edge.
In addition to providing the connectivity part of telemedicine carriers have introduced solution suites to make the experience more seamless for end users.
Verizon announced BlueJeans Telehealth in April 2021. The platform offers a holistic suite of telehealth solutions that will address two key concerns which are 1) ease of use, and 2) security (i.e. HIPPA compliance and more). The platform offers a one-click, download-free telehealth platform that powers the patient experience from onboarding to education.
AT&T’s Business segment has announced a partnership with VitalTech, a virtual care and remote patient monitoring company. The partnership offers 60 days of free telehealth services through VitalCare to AT&T business customers, such as hospitals, to support physicians and patients.
Empowering the Internet of Medical Things (IoMT):
What is the Internet of Medical Things? It is a blanket term for all medical devices and applications that can be connected to healthcare IT. The adoption of connected medical devices is becoming embedded in healthcare providers‘ buying decisions at the margin. One trend in the healthcare space is the blossoming of outcome-based contracts (OBC). According to an industry survey done by Avalere Health, 59% of payers executed an OBC in 2019 vs. 24% in 2017. In this type of contract, med-tech buying agreements will be tied to whether specific clinical or economic outcomes are met, with provisions for “profit sharing“. In some cases, the agreement may be priced on the value provided for the patient (i.e. treatment outcome vs. cost of delivering the respective outcome).
Source: Grand View Research Report from January 2021
BofA GLOBAL RESEARCH
Beyond patient monitoring, an increasing number of connected medical devices are enabling the ability to generate, collect, analyze and transmit health care data and images to healthcare providers. PTC, a major player in the IoT space, sells ThingWorx, an IoT platform that can be embedded into virtually any medical device. The possibilities are endless. As an example, Sysmex, a manufacturer of hematology analyzers, wanted to create a smaller, faster and more agile blood analyzer.
Leveraging PTC‘s ThingWorx, Sysmex created Sysmex XW-100, a smart, connected blood analyzer that not only is smaller and more easily deployable, it also enables blood test results to be delivered for same day diagnosis and rapid response.
The broad adoption of IoMT would lead to more accurate diagnoses, fewer mistakes and a lower cost-of-care in the long term. 5G and edge computing are essential for accommodating the volume of data generated by IoMT devices as the number sensors and endpoints increases alongside adoption among care providers and patients alike.
Other use cases for 5G in healthcare:
The examples shared above are the most concrete and immediately monetizable market opportunities in 5G-powered healthcare solutions thus far. There are additional emerging opportunities that will require the capacity and low-latency that 5G can provide including the following.
Healthcare AR/VR: 5G will enable VR/AR clinician training and patient care. As an example, AT&T is collaborating with VITAS Healthcare to study the effect of 5G-enabled AR/VR on hospice patients. By using calming content via 5G-enabled VR/AR, the study tested whether certain patients were able to experience lower pain and anxiety.
Transferring and processing of ultra-high resolution medical imagery: PET scans can generate up to 1GB of information per patient per study. 5G networks will enable instantaneous transmission of large data sets generated from MRIs and PET scans.
Robotic surgery (?): There are many benefits to robotic surgeries, especially in the case of minimally invasive procedures. Robotic surgery is done with more precision, smaller incisions, reduced blood loss, less pain, and quicker healing time. The global robotic surgery market is expected grow at 14.79% CAGR from 2020 to reach $6.5b by 2024, with a focus on developing low-cost robotic surgical systems. At the scale it operates today, it is still relatively costly compared to traditional methods. 5G‘s ultra-low latency is crucial (with zero margin for error), however, in enabling robotic surgeries as they will require massive data transmission, image processing and analysis across large distances at very low latency.
5G transforming industrials
Enterprise 5G applications can provide proactive asset management to directly create value for manufacturers. 5G may be used to connect low-power sensors to machinery and machinery parts, enabling factories, airlines, automakers, and other industrial operators to proactively monitor and manage equipment repairs and replacements. Data collected from the sensors is transmitted via the 5G network to processors with machine learning algorithms to predict the future behavior of the equipment. For example, if a tractor‘s engine begins overheating, sensors would sense the rising temperature and relay the message to the monitoring processors, which would then alert the operator of a potential breakdown before any serious damage occurs. Proactive management of assets can reduce total capex spending in the long run by extending the life of assets.
Why not WiFi? A McKinsey study found that within factories and plants generally speaking, currently available connectivity option have several major shortfalls, making 5G necessary in order to implement the next generation of technology and Fourth Industrial Revolution (4th IR) use cases. Wi-Fi networks often experience interference, especially when sensors and agents grow in mass quantities. Wired connections, while reliable, are not as agile.
A recent survey conducted by Nokia where it interviewed a thousand key stakeholders in IT across the US and UK found that in terms of 5G functionality, video-related use cases are the most common across various business to business (B2B) and business to consumer (B2C) verticals. For example, 75% of businesses surveyed are currently using video for monitoring purposes. With 5G, each end point could be empowered and connected with video and analytics functions. Simple as that sounds, video married to analytics can function as a sensor to detect defects in a factory or monitor any industrial operation via real-time detection of objects, risks, and incidents. As the number of endpoints grow, 5G will be the critical backbone due to the need for uninterrupted connectivity that can handle massive amounts of data traffic.
The manufacturing vertical currently has one of the highest awareness level of 5G and has ventured into advance uses cases such as remote machine control and robotics, a trend that has been accelerated due to the COVID-19 pandemic. In Exhibit 8 below, we see how 5G enables the fourth industrial revolution across a range of applications within industrials by satisfying the application‘s technical requirements across reliability, security, speed, latency, data volume, and density.
5G, AI, and IoT will transform factory floors with predictive maintenance
Minimizing downtime is a huge part of cost control for manufacturers. Furthermore, unplanned downtime can cost up to 9x more than planned downtime. Imagine a scenario where a machine in a high speed assembly line breaks down, the entire production line will halt until the machine is fixed. Studies shows that the cost of machine failing in such a scenario can be more than $10,000 per minute.
The historical way of preventing unplanned downtime was to schedule routine maintenance which also incurs spending in the form of maintenance costs rather than repair costs. This is where advanced predictive maintenance powered by 5G would solve both problems.
By equipping the factory floor with sensors and agents at each endpoint, machine conditions may be monitored in real time and advanced diagnostics may be run to both avoid break-fix events but also unnecessary preventative maintenance spending. 5G is critical to power these sensors because advance analytics will run along dozens of parameters when monitoring assets such as temperature, vibration, humidity, pressure, and many more. The data needs to be holistic and complete in order for connected devices to accomplish what‘s promised making the size of the data a challenge to transmit and process in real time, necessitating the promise of 5G.
Ericsson is one of the most advanced 5G users in manufacturing. In 2018, Ericsson partnered with Audi to roll out and run field tests for various industrial applications in the Audi‘s manufacturing headquarters in Ingolstadt, Germany in a smart factory named the ‘Audi Production Lab‘. In Ericsson‘s factory in Nanjing, the company has approximately 1,000 high-precision screwdrivers that require routine calibration and lubrication based on utilization. This has been a high-touch manual process historically which required manual documentation. By fitting these tools with real time motion sensors that analyze collected data, the factory was able to replace manual tracking with an automated solution to cut the manual workload by 50% and is planning on phasing out manual tracking entirely in the future.
5G can enable precision manufacturing like never before
The availability of advanced, predictive analytics in machinery extends an asset‘s life and lowers the cost for factories, but the real lever for increasing productivity is precision monitoring and control enabled by 5G. With this technology, the entire production process is monitored in real time. 5G connectivity will allow machines to feed real time data back to applications that have machine learning and AI functionality to analyze an item currently in production and compare it to the planned model for any discrepancies. By recognizing when a machine is not working optimally and re-calibrating accordingly to maintain cycle speeds, based on research done by a survey done by STL Partners with manufacturers in August of 2019, manufacturers believe machine productivity could improve by 15% on average.
The concept of precision monitoring is easy to grasp and can transform the way factories run quality control. In order for this model to work properly, ultra-low latency is required (sub 10 milliseconds) due to the need for constant data collection and comparison to the digitally planned model at each sensor endpoint.
This BofA research report continues, but we will end here in deference to BofA clients.
For more information on BofA Global Research:
For another analyst firm point of view: https://www.mckinsey.com/~/media/mckinsey/industries/advanced%20electronics/our%20insights/the%205g%20era%20new%20horizons%20for%20advanced%20electronics%20and%20industrial%20companies/the-5g-era-new-horizons-for-advanced-electronics-and-industrial-companies.pdf
Russian network operators Beeline, Rostelecom and Megafon have agreed they will own own equal stakes in their joint venture New Digital Technologies. The joint venture will focus on the release of spectrum for 5G services, including 694-790 MHz, 3.4-3.8 GHz, 4.4-4.99 GHz and 24.25-29.5 GHz bands.
The agreement was signed under the framework of the St Petersburg International Economy Forum. See hyperlink to 5G Russia video below.
Russia’s Federal Antimonopoly Service (FAS) had given ‘preliminary consent’ to this agreement as reported on May 12th. In a disclosure on its website, the FAS said:
The agreement on joint activities, if implemented, stipulates equal access to radio frequencies for all participants in the mobile wireless communication.
In particular, the mobile network operators involved in the transaction will develop and agree with the antimonopoly authority on the conditions for the use of the infrastructure and/or the joint use of radio frequencies and the conditions for the provision of infrastructure for mobile virtual network operators*.
Taking into account the guarantees provided for the access of mobile network operators to the released radio frequency spectrum, the FAS Russia approved the transaction.
According to the antimonopoly authority, the access to the released radio frequency spectrum for construction of the 5G networks and the subsequent provision of 5G mobile wireless communications is an opportunity to provide a new generation of communication services on the territory of the Russian Federation.
* A mobile network operator that implements the business model of mobile wireless communications using the nodal elements of the communication network of other mobile network operators.
Russian network operator MTS will not participate in this joint project. However, MTS has launched its pilot 5G network in St Petersburg. Broadband at up to 1.5 Gbps speed is available at 16 crowded locations in the city, as well as in the town of Kronshtadt in the St Petersburg region.
You can watch a June 3rd video (no sound for 1st 7 1/2 minutes) of “5G: The Architecture Backbone of Russia’s Digitalization” from the St Petersburg Forum here.
One speaker said that 5G will have a very long time horizon. In Moscow, 5G will have a circle of people or narrow audience which will help pay for the 5G infrastructure buildout. Also, private 5G industrial solutions will develop in the largest Russian companies. Global competition will drive those companies to offer 5G. We’ll see…
Separately, Rostelecom has opened a new data center located in the Kalininsky district of St. Petersburg, the 4,000 sq m (43,000 sq ft) facility is built to Tier-III standards and has a total capacity of 800 racks and a capacity of 7.4MW.
The company said the facility will offer hosting, cloud services, as well as redundancy and disaster recovery services in tandem with its data centers in Moscow and Udomlya.
I. Digital Realty, the largest global provider of cloud- and carrier-neutral data center, colocation and interconnection solutions, announced today the deployment of Amazon Web Services (AWS) Direct Connect 100Gbps capability at the company’s Westin Building Exchange in Seattle, Washington and on its Interxion Dublin Campus in Ireland, bringing one of the fastest AWS Direct Connect [1.] capabilities to PlatformDIGITAL®. Digital Realty’s platform connects 290 centers of data exchange with over 4,000 participants around the world, enabling enterprise customers to scale digital business and interconnect distributed workflows on a first of its kind global data center platform.
Note 1. AWS Direct Connect is a cloud service solution that makes it easy to establish a dedicated network connection from your premises to AWS. This can increase bandwidth throughput and provide a more consistent network experience than internet-based connections.
As organizations bring on new technologies and solutions such as artificial intelligence (AI) and IoT at scale, the explosive growth of digital business is posing new challenges, as data takes on its own gravity, becoming heavier, denser, and more expensive to move.
The new AWS Direct Connect 100Gbps is tailored to providing easy access to larger data sets, enabling high availability, reliability and lower latency. As a result, customers will be able to move bandwidth-heavy workloads seamlessly – and break through the barriers posed by data gravity. Customers gain access to strategic IT infrastructure that can aggregate and maintain data with less design time and spend, enabling access to AWS with one of the fastest and highest quality AWS network connections available.
As an AWS Outposts Ready Partner, Digital Realty’s global platform is optimized to support the needs of data-intensive, secure hybrid IT deployments. Digital Realty supports AWS Outposts deployments by enabling access to more than 40 AWS Direct Connect locations globally to address local processing, compliance, and storage requirements, while optimizing cost and performance. When coupled with the availability of AWS Direct Connect 100Gbps connections, the Westin Building Exchange and Interxion Dublin campuses become ideal meeting places for customers to tackle data gravity challenges and unlock new opportunities with their AWS Outposts deployments.
“As emerging technologies such as AI, VR and blockchain move from the margins to the mainstream, enterprises need new levels of performance from their hybrid solutions,” said Tom Sly, General Manager, AWS Direct Connect. “Deploying AWS Direct Connect at 100Gbps at Digital Realty facilities in Seattle and Dublin is critical to our strategy of helping customers build more sophisticated applications with increased flexibility, scalability and reliability. We’re excited to see the value Digital Realty’s PlatformDIGITAL® delivers for our mutual customers.”
The Westin Building Exchange serves as a primary interconnection hub for the Pacific Northwest, linking Canada, Alaska and Asia along the Pacific Rim. The building is one of the most densely interconnected facilities in North America, and is home to leading global cloud, content and interconnection providers, housing over 150 carriers and more than 10,000 cross-connects, giving Amazon customers low-latency access to the largest companies and services representing the digital economy. The 34-story tower is adjacent to Amazon’s existing 4.1 million square foot campus in Seattle.
Digital Realty offers six colocation data centers in the Irish capital, which forms a strategic bridge between Europe and the U.S. Ireland has particular significance as a global trading hub and provides the headquarters location for several global multinationals within the software, finance and life science industries. Multiple transatlantic cables also land in Ireland before continuing to the UK or continental Europe, making Interxion Dublin a prime location for the new AWS Direct Connect 100Gbps at the heart of a vibrant connected data community.
“Today’s announcement of the opening of AWS Direct Connect 100Gbps on-ramps significantly expands opportunities for customers to scale their digital transformation through our global PlatformDIGITAL®,” added Digital Realty Chief Technology Officer Chris Sharp. “AWS serves some of the world’s most innovative and demanding customers, from start-up to enterprise, that are looking to drive the digital economy forward. Our platform expands the coverage, capacity, and next-generation connectivity that AWS customers need to extend workloads to the cloud rapidly. We are honored to open up next-generation access in collaboration with AWS and specifically at the heart of the rich digital communities at the Westin Building Exchange and on our Interxion Dublin campus.”
The new deployments create centers of data exchange in Network Hubs deployed on PlatformDIGITAL®, enabling distributed workflows to be rapidly scaled and securely interconnected – reducing operating costs, enhancing visibility, saving time and improving compliance. The new capability also gives AWS customers instant access to a growing list of powerful AWS services such as Blockchain, Machine Learning, IoT and countless others – all over a direct, private connection optimized for high performance and security.
AIB, Inc., a leading data exchange and management firm with a software as a service platform deployed at over 1,600 automotive industry customers, recognized the value of deploying a physical Network Hub on PlatformDIGITAL® coupled with a virtual direct interconnection to AWS to enable flexibility in its hybrid IT environment.
“Our Texas-based operations required new cloud zone diversity solutions for our cloud native national vision. Digital Realty provided an innovative and comprehensive solution for AWS cloud access through PlatformDIGITAL®,” said Kellen Dunham, CTO, AIB, Inc.
Digital Realty’s global platform enables low-latency access to both the nearest AWS Region as well as a wide array of options to connect edge deployments or devices. Customers can securely connect to their desired AWS Region using both physical and virtual connectivity options. Globally, PlatformDIGITAL® offers access to more than 40 AWS Direct Connect locations, including 11 in EMEA, providing secure, high-performance access to numerous AWS Outposts-Ready data centers around the world. In addition, the Digital Realty Internet Exchange (DRIX) supports AWS Direct Peering capabilities and dedicated access to multiple third-party Internet Exchanges on PlatformDIGITAL®, providing a direct path from on-premise networks to AWS. The solution is part of PlatformDIGITAL®’s robust and expanding partner community that solves hybrid IT challenges for the enterprise.
About Digital Realty:
Digital Realty supports the world’s leading enterprises and service providers by delivering the full spectrum of data center, colocation and interconnection solutions. PlatformDIGITAL®, the company’s global data center platform, provides customers a trusted foundation and proven Pervasive Datacenter Architecture (PDx™) solution methodology for scaling digital business and efficiently managing data gravity challenges. Digital Realty’s global data center footprint gives customers access to the connected communities that matter to them with 290 facilities in 47 metros across 24 countries on six continents. To learn more about Digital Realty, please visit digitalrealty.com or follow us on LinkedIn and Twitter.
- For more information on locations and availability please visit www.digitalrealty.com/cloud/aws-direct-connect
- Learn about Digital Realty’s Data Hub featuring AWS Outposts solution for data localization and compliance on PlatformDIGITAL
- Explore global coverage options on PlatformDIGITAL®
- Read the AIB case study on deploying hybrid IT flexibly with Digital Realty and AWS
II. Bell Canada today announced it has entered into an agreement with Amazon Web Services, Inc. (AWS) to modernize the digital experience for Bell customers and support 5G innovation across Canada. Bell will use the breadth and depth of AWS technologies to create and scale new consumer and business applications faster, as well as enhance how its voice, wireless, television and internet subscribers engage with Bell services and content such as streaming video. In addition, AWS and Bell are teaming up to bring AWS Wavelength to Canada, deploying it at the edge of Bell’s 5G network to allow developers to build ultra-low-latency applications for mobile devices and users. With this rollout, Bell will become the first Canadian communications company to offer AWS-powered multi-access edge computing (MEC) to business and government users.
“Bell’s partnership with AWS further heightens both our 5G network leadership and the Bell customer experience with greater automation, enhanced agility and streamlined service options. Together, we’ll provide the next-generation service innovations for consumers and business customers that will support Canada’s growth and prosperity in the years ahead,” said Mirko Bibic, President and CEO of BCE and Bell Canada. “With this first in Canada partnership to deploy AWS Wavelength at the network edge, where 5G’s high capacity, unprecedented speed and ultra low latency are crucial for next-generation applications, Bell and AWS are opening up all-new opportunities for developers to enhance our customers’ digital experiences. As Canada recovers from COVID-19 and looks forward to the economic, social and sustainability advantages of 5G, Bell is moving rapidly to expand the country’s next-generation network infrastructure capabilities. Bell’s accelerated capital investment plan, supported by government and regulatory policies that encourage significant investment and innovation in network facilities, will double our 5G coverage this year while growing the high-capacity fibre connections linking our national network footprint.”
The speed and increased bandwidth capacity of the Bell 5G network support applications that can respond much more quickly and handle greater volumes of data than previous generations of wireless technology. Through its relationship with AWS, Bell will leverage AWS Wavelength to embed AWS compute and storage services at the edge of its 5G telco networks so that applications developers can serve edge computing workloads like machine learning, IoT, and content streaming. Bell and AWS will move 5G data processing to the network edge to minimize latency and power customer-led 5G use cases such as immersive gaming, ultra-high-definition video streaming, self-driving vehicles, smart manufacturing, augmented reality, machine learning inference and distance learning throughout Canada. Developers will also have direct access to AWS’s full portfolio of cloud services to enhance and scale their 5G applications.
Optimized for MEC applications, AWS Wavelength minimizes the latency involved in sending data to and from a mobile device. AWS delivers the service through Wavelength Zones, which are AWS infrastructure deployments that embed AWS compute and storage services within a telecommunications provider’s datacenters at the edge of the 5G network so that data traffic can reach application servers within the zones without leaving the mobile provider’s network. Application data need only travel from the device to a cell tower to an AWS Wavelength Zone running in a metro aggregation site. This results in increased performance by avoiding the multiple hops between regional aggregation sites and across the internet that traditional mobile architectures require.
Outside of the AWS Wavelength deployment, Bell is also continuing to evolve its offerings to enhance its customers’ digital experiences. From streaming media to network performance to customer service, Bell will leverage AWS’s extensive portfolio of cloud capabilities to better serve its tens of millions of customers coast to coast. This work will allow Bell’s product innovation teams to streamline and automate processes as well as adapt more quickly to changing market conditions and customer preferences.
“As the first telecommunications company in Canada to provide access to AWS Wavelength, Bell is opening the door for businesses and organizations throughout the country to combine the speed of its 5G network with the power and versatility of the world’s leading cloud. Together, Bell and AWS are bringing the transformative power of cloud and 5G to users all across Canada,” said Andy Jassy, CEO of Amazon Web Services, Inc. “Cloud and 5G are changing the business models for telecommunications companies worldwide, and AWS’s unmatched infrastructure capabilities in areas like machine learning and IoT will enable leaders like Bell to deliver new digital experiences that will enhance their customers’ lives.”
Launched in June 2020, Bell’s 5G network is now available to approximately 35% of the Canadian population. On February 4, Bell announced it was accelerating its typical annual capital investment of $4 billion by an additional $1 billion to $1.2 billion over the next 2 years to rapidly expand its fibre, rural Wireless Home Internet and 5G networks, followed May 31 by the announcement of a further up to $500 million increase in capital spending. With this accelerated capital investment plan, Bell’s 5G network is on track to reach approximately 70% of the Canadian population by year end.
5G will support a wide range of new consumer and business applications in coming years, including virtual and augmented reality, artificial intelligence and machine learning, connected vehicles, remote workforces, telehealth and Smart Cities, with unprecedented IoT opportunities for business and government. 5G is also accelerating the positive environmental impact of Bell’s networks. The Canadian Wireless Telecommunications Association estimates 5G technology can support 1000x the traffic at half of current energy consumption over the next decade, enhancing the potential of IoT and other next-generation technologies to support sustainable economic growth, and supporting Bell’s own objective to be carbon neutral across its operations in 2025.
About Bell Canada:
The Bell team builds world-leading broadband wireless and fiber networks, provides innovative mobile, TV, Internet and business communications services and delivers the most compelling content with premier television, radio, out of home and digital media brands. With a goal to advance how Canadians connect with each other and the world, Bell serves more than 22 million consumer and business customer connections across every province and territory. Founded in Montréal in 1880, Bell is wholly owned by BCE Inc. (TSX, NYSE: BCE). To learn more, please visit Bell.ca or BCE.ca.
Bell supports the social and economic prosperity of our communities with a commitment to the highest environmental, social and governance (ESG) standards. We measure our progress in increasing environmental sustainability, achieving a diverse and inclusive workplace, leading data governance and protection, and building stronger and healthier communities. This includes confronting the challenge of mental illness with the Bell Let’s Talk initiative, which drives mental health awareness and action with programs like the annual Bell Let’s Talk Day and Bell funding for community care, research and workplace programs nationwide all year round.
Comment and Analysis:
AWS already has an edge compute footprint that covers parts of Asia, Europe and North America. AWS, Google Cloud and Microsoft Azure increasingly (unsurprisingly) look like the real power brokers and empire builders in multi-access/mobile edge computing. Rogers and Telus, Bell’s two main rivals. will likely contract with one of the three big cloud service providers for their 5G edge computing needs.
Deutsche Telekom (DT) together with partners Ericsson, Nokia, Qualcomm, Samsung, Xiaomi announced the successful completion of the world’s first Voice over 5G New Radio (VoNR) call in an end to end multi-vendor environment.
The trial was in DT’s lab in Warsaw, Poland [1.]. The partners were able to verify the capability over a 5G Standalone (SA) network with voice and 5G data sessions in parallel. This network setup integrated a 5G Core from Ericsson and IP Multimedia Subsystem (IMS) from Nokia. The calls were completed on commercial terminals from Samsung Galaxy S21 5G, Xiaomi Mi 11 Lite 5G, and a 5G smartphone form factor test device powered by Qualcomm’s Snapdragon 780G and 888 5G Mobile Platforms with Snapdragon 5G Modem-RF Systems.
The partners said that “innovation milestone is an important step towards the commercial introduction of seamless native 5G voice services in Deutsche Telekom networks.”
Note 1. Deutsche Telekom, together with Nokia and Ericsson, established the 5G Standalone network infrastructure in test mode at Deutsche Telekom’s lab in Warsaw, Poland, where testing and engineering is conducted on behalf of the entire Group.
In cloud-native 5G SA networks, operators will be able to deliver high quality voice services without having to rely on LTE as anchor. The addition of VoNR to the superior data transmission quality of 5G technology will allow customers to enjoy voice and data services in parallel. VoNR is therefore expected to play a role in many data services enabled by 5G, from enhancements to voice quality in existing services to completely new services around immersive video conferencing and augmented or virtual reality.
“High quality and seamless voice calling remains a must-have service for our customers in the 5G era. The addition of 5G VoNR can be a differentiator for next generation immersive applications that integrate high speed 5G data with high definition audio,” says Alex Choi, SVP Strategy & Technology Innovation, Deutsche Telekom. “Our collaboration with best-in-class partners to validate end-to-end 5G VoNR interoperability is an important step towards the future of 5G voice services for our customers.
Jan Karlsson, Senior Vice President and Head of Digital Services, Ericsson, says, “The end-to-end 5G voice over NR going live with the first call in Deutsche Telekom network further demonstrates the strength and recognition of our cloud native 5G Core network for standalone 5G networks.”
Marc Erhardt, Head of Cloud and Network Services in the Customer Team Deutsche Telekom, Nokia says, “Voice communication remains a key feature also in the 5G world. Subscribers demand high-quality voice services and voice also plays a role in many of the new data services enabled by 5G. Successful 5G strategies therefore must include a plan for embedding voice into 5G services, and the IMS core will be key for this. Our participation in this successful trial is the latest validation reflecting the strong capabilities of the Nokia IP Multimedia Subsystem and Telephony Application Server.”
“This achievement is a step forward in realizing the full potential of 5G for consumers and industries. The capabilities of mature 5G networks will bring significant benefits to end-users as well as produce a plethora of innovative new services and applications,” says Enrico Salvatori, senior vice president and president, Qualcomm Europe/MEA, Qualcomm Europe, Inc.
“Both the Xiaomi Mi 11 Lite 5G and the 5G smartphone form factor test device used in this activity are powered by Snapdragon 780G and 888 5G Mobile Platforms with Snapdragon 5G Modem-RF Systems respectively which support a wide range of 5G capabilities including both 5G VoNR and 5G SA.”
“Galaxy 5G devices are already changing the way we communicate and how we experience the world around us,” says KJ Kim, EVP and Head of Mobile R&D Office, Mobile Communications Business, Samsung Electronics. “Samsung’s longstanding partnership with Deutsche Telekom continues to lead the growth of 5G and as Galaxy S21 5G comes with next generation 5G VoNR, we look forward to giving more people access to innovative mobile experiences.”
“Close collaboration along 5G ecosystem is crucial to unlock the true potential of 5G.” Says James Munn, Head of Global Carrier Operations, Xiaomi. “Combining new 5G services, such as VoNR, with our world-class 5G smartphones will ensure we are able to offer the best possible experience to our customers.”
To achieve this 5G VoNR breakthrough Deutsche Telekom, together with Nokia and Ericsson, has established the 5G Standalone network infrastructure in test mode at Deutsche Telekom’s lab in Warsaw, Poland, where testing and engineering is conducted on behalf of the entire Group.
The setup includes the integration of a 5G Core (5GC) from Ericsson and an IMS (IP Multimedia Subsystem) from Nokia, whereby the IMS core provides voice as a 5G application service. The transmission was tested over 5G NR Standalone (SA) Radio Access Technology from both Ericsson and Nokia. The voice calls were completed using the Samsung Galaxy S21 5G, Xiaomi Mi 11 Lite 5G, and a 5G smartphone form factor test device powered by the Snapdragon 780G and 888 5G Mobile Platforms with Snapdragon 5G Modem-RF Systems.
The latest Ericsson Consumer Lab survey has found a 10% higher satisfaction rate with 5G compared to 4G, but also reveals that 70% are dissatisfied (see Key Findings #4. below) at the absence of innovative apps on their 5G bundle. 5G network operators should “differentiate a 5G experience from 4G and promote a sense of novelty and exclusivity.”
1. Consumer intent to upgrade to 5G accelerates despite the pandemic. At least 300 million smartphone users could take up 5G in 2021. By the end of 2020, 22 percent more smartphone users with 5G-ready smartphones could have adopted 5G if knowledge gaps had been addressed.
2. 5G triggers changes in usage behavior, starts to displace Wi-Fi. 5G users spend two hours more per week using cloud gaming and one hour more on augmented reality (AR) apps compared to 4G users. 20 percent say they have decreased their usage of Wi-Fi after upgrading.
3. Indoor 5G coverage is more important for consumers. 5G early adopters rate indoor 5G coverage as two times more important than speed or battery life in driving satisfaction.
4. Early adopters are pleased with 5G speeds but expect more innovation. 70% are dissatisfied with the availability of innovative services and expect new applications making use of 5G. While early adopters are pleased with 5G network speeds, they are already expressing dissatisfaction with a lack of bundled new and innovative apps and services, which they feel were promised in the marketing pitch for 5G.
5. Consumers value 5G plans bundled with digital services and are willing to pay 20–30% more. However, two-thirds of use cases highly valued by consumers have not yet been commercialized.
The report says the biggest revenue boost will come from bundling digital services with 5G tariffs.
Here are five ways that service providers can meet consumer expectations and improve their 5G experience, now and in the future:
1. Enhance the value: address the knowledge gap to educate and better market the value of 5G.
2. Consumers expect the quality of indoor and outdoor coverage to be consistent.
3. Adapt to network requirements of new services enabled by 5G.
4. Focus on the jobs consumers want 5G to do, to envision new use cases.
5. Go beyond just showcases: accelerate the commercialization of existing and new use cases.
The survey found that “at least 300 million consumers could upgrade to 5G in 2021.” We seriously doubt that due to the absence of new applications and services.
The report states that it will be essential to combine app developers and other ecosystem players to accelerate the commercialization of new services currently being showcased but close to commercial release.
Speaking at Ericsson’s UnBoxed 2021 event, CEO Borje Ekholm said that 5G adoption is accelerating around the world, that the company remains upbeat about the future given the rapid pace of innovation, and advocates “open market.”
“We have always been and always will be believer in open markets and open competition. The concept of global open standards has made mobile technology affordable due to significant economies of scale. 5G adoption is accelerating around the world, and 5G subscriptions globally is estimated to exceed half a billion before the end of the year,” he said.
Consumption of data by 5G subscribers is 2-3 times higher than that of 4G users, Ekholm noted.
Does anyone who reads the IEEE Techblog really believe that? Readers are invited to express their opinions by posting a Comment in the box below this article.
Private 5G Launched:
Ericsson Private 5G offers secure and simple 4G LTE and 5G Standalone (SA) connectivity primarily targeting – but not limited to – manufacturing, mining and process industry, offshore and power utilities, as well as ports and airports. Ericsson Private 5G optimizes and simplifies business operations with cloud-based network management, keeps sensitive data on-premise, has zero downtime upgrades and guarantees high performance through Service-Level Agreements (SLAs).
It is easily installed within hours at any facility and can be scaled to support larger coverage areas, more devices and higher capacity when needed. The product is designed to be flexible and will support a range of deployment sizes, depending on requirements, to suit varied needs. Businesses can manage their networks and integrate with IT/OT systems via an open API.
Ericsson Private 5G builds upon Ericsson’s 4G/5G radio and dual mode core technology, enabling a wide variety of use cases for both indoor and outdoor environments while integrating well with business operations, devices and applications. As a result, companies can improve productivity, give their customers more value and provide better working environments for employees.
Innovative use cases include tracking assets and real-time automation to improve productivity in warehouses, and a digital twin that can help to optimize manufacturing operations. Efficient quality inspections can also be performed via augmented reality or smart surveillance drones to increase worker safety, particularly in potentially hazardous environments such as ports and mines.
Ericsson already has a significant track record of operational 4G and 5G private network deployments with customers worldwide. Ericsson Private 5G builds on the success of that solution portfolio and deployment insights, as well as insights from projects such as 5G-Industry Campus Europe.
Peter Burman, Program Manager Mine Automation, at Swedish mining company Boliden, says: “Automation, and safety through automation in our mining operations is an absolute must for us. Ericsson Private 5G is exactly what Boliden needs to bring high quality, fast and secure connectivity into potentially hazardous environments allowing us to mobilize efficiency and safety improving use cases.
Niels König, Coordinator 5G-Industry Campus Europe, Fraunhofer Institute for Production Technology IPT: “Private 5G networks are highly attractive for producing companies because of the uncompromised performance that 5G can bring, allowing them to tackle the challenges of production. Efficiently deploying and using network solutions in enterprises requires simplicity in installation, flexibility in connecting to existing production IT and lean operations while at the same time being able to scale the network to meet future challenges. Ericsson Private 5G delivers exactly these capabilities.”
Leo Gergs, Senior Analyst, ABI Research, says: “With this new offering, Ericsson will be able to address key trends in the enterprise cellular market. The value proposition will appeal to operators and service providers as the solution hides technology complexity and therefore reduces the barrier of entry to deployment for many different flavors of enterprise networks.”
Thomas Noren, Head of Dedicated Networks, Business Area Technologies and New Businesses, Ericsson, says: “With Ericsson Private 5G, we take the best of Ericsson’s current portfolio and top it up with the best of our new technology. We do this to give businesses what they need to improve productivity, enable new offerings and give employees a better working environment. With Ericsson Private 5G, we also give operators a better way to serve business customers and leverage their assets – in short, to grow beyond mobile broadband.”
Effect of Chip Shortage:
The CEO predicted a global chip shortage would continue into 2022, increasing the likelihood the network equipment vendor would be affected after so far managing to mitigate the impact.
Ericsson began diversifying its supplier base almost three years ago, helping it weather current shortages and leaving it positioned to “be able to continue to supply our customers like we have in the past.” Yet he conceded the longer the shortage persists, “the more risk it will be for us”. Given the “lead time to increase capacity is long”, Ekholm expects the shortage to last.
He said global demand for chipsets is increasing with digitalization, making more capacity critical.
Smaller US operators recently told the Federal Communications Commission they need more time to replace Huawei equipment due to the chip market woes.
Reuters reports that Vodafone’s Italian division has secured conditional approval from Rome to use equipment made by China’s Huawei in its 5G radio access network, two sources close to the matter said.
Italy can block or impose tough conditions on deals involving non EU vendors under “golden powers,” which have been used three times since 2012 to block foreign interest in industries deemed to be of strategic importance.
The government of national unity led by Prime Minister Mario Draghi authorized the deal between Vodafone and Huawei on May 20, one of the two sources told Reuters, asking not to be named due to the sensitivity of the matter.
As in similar deals, the government imposed a set of prescriptions including restrictions on remote intervention by Huawei to fix technical glitches and an extremely high security threshold, the source added. Vodafone and Huawei declined to comment.
The United States has lobbied Italy and other European allies to avoid using Huawei equipment in their next generation telecoms networks and to closely scrutinize rival ZTE, saying the companies could pose a security risk. Huawei and ZTE strongly deny the allegations.
In the last 12 months, Italy has adopted a tougher stance on Huawei, while not banning it entirely from 5G infrastructure.
Under previous Prime Minister Giuseppe Conte, Rome prevented telecoms group Fastweb in October from signing a deal with Huawei to supply equipment for its 5G core network, where highly sensitive data is processed.
In Malaysia a former deputy minister of international trade and industry, Kian Ming Ong, told Sydney Morning Herald it hadn’t seen any proof of vulnerabilities in Huawei’s network equipment. He said the government was likely to select Huawei as prime supplier to its national wholesale 5G network.
Huawei would be selected by a specially formed 5G government agency as the majority provider for Malaysia’s so-called single wholesale network. Fellow Chinese company ZTE and Scandinavian heavyweights Ericsson and Nokia are among seven other potential vendors who have been asked to bid for the deal.
In a Nikeii Asia op-ed Huawei’s Vincent Peng wrote:
Huawei is caught in a rivalry between two great powers. Although U.S.-China relations may not thaw any time soon, it seems clear that the current administration is taking a more multilateral approach to the world than its predecessor did.
This gives us hope that there may eventually be a change in how the U.S. government chooses to treat Huawei and other global technology companies headquartered outside of the United States.
To register for Huawei’s Finance Summit 2021:
Less than one month after Dish Network disclosed it is collaborating with Amazon Web Services, Inc. (AWS) for its “cloud native” 5G core network [1.], Mavenir has announced support for deployments and integration of its “cloud-native” telecom network functions with telco infrastructure solutions on AWS.
Mavenir’s collaboration with AWS allows Communications Service Providers (CSPs) to deploy Mavenir’s 4G and 5G products and applications with AWS’s computing infrastructure, state of the art container deployment and management technologies, and big data analytics services.
Note 1. Both Mavenir and AWS are vendors for Dish Network’s (DISH) greenfield 5G wireless network which is comprised of a virtualized RAN (vRAN) and a “cloud native” 5G core network (which includes highly touted functions such as network slicing, orchestration/automation, virtualization, etc).
Mavenir’s “cloud-native” Open RAN, 5G packet core, IMS, and messaging will be combined with Amazon Elastic Kubernetes Service (Amazon EKS) anywhere, supporting AWS Outposts. There will also be options for existing deployments to migrate Mavenir’s IMS core, voice, and messaging to Amazon EKS and Amazon Elastic Compute Cloud (Amazon EC2) infrastructure.
AWS will also be able to run Mavenir’s orchestration and network slicing solutions. The two companies will combine their technologies to centrally manage data for network-wide insights and optimization. Mavenir and AWS will also work together to provide private networks and edge deployments.
The solution is designed to scale and leverages the same tools and technologies offered by AWS to enterprise applications today. These tools are the backbone for visibility and automation for any AWS-based offering and generally referred to as Platform-as-a-Service (PaaS).
That, in effect, results in offloading some of the telco application business to cloud functions. Mavenir says that will reduce complexity, put service providers at par with organizations which are realizing cost savings from cloud migrations without losing insight, performance, and control on their networks.
Opinion: The above claims remain to be proven! Time will tell. However, this partnership provides a well respected host environment (AWS) for Mavenir’s cloud resident 4G/5G software. That certainly lowers the risk for service providers that want to deploy Mavenir’s products and applications.
Another key element from this collaboration is the enablement of Private Networks and Edge deployments on AWS, powered by Mavenir’s Digital Enablement platform. With a digital app store for enterprise and various industry 4.0 applications such as IVA, AR/VR, IIoT and Robotics control, Mavenir’s Edge AI application suite is empowering an ecosystem of developers, service providers, partners, and enterprises to create and deploy applications in AWS to power digitalization and industry 4.0 with 5G.
This collaboration also lowers the network deployment time and cost for Mobile Network Operators and enterprises equally fulfilling use cases of either adding 5G and edge capabilities to an existing network or a greenfield 4G/5G network launch leveraging public clouds.
“The collaboration with Mavenir and AWS allows us to build out our 5G network and messaging platforms in a true cloud-native manner, harnessing the speed and agility that the AWS cloud brings along with Mavenir’s expertise in deploying and operating cloud-native network functions,” said Sidd Chenumolu, Vice President of Technology Development, DISH. “Together, we will enable our customers to take full advantage of the potential of 5G, reimagining wireless connectivity and giving our customers the ability to customize their network experience.”
“Working with AWS enables us to bring new customer-focused 5G use cases and 5G deployments to the market faster and with unique capabilities to realize true 5G potential,” said Bejoy Pankajakshan, Mavenir’s Chief Strategy Officer. “Mavenir’s solutions are designed to support full public cloud as well as hybrid cloud deployments.”
“We’re delighted to collaborate with Mavenir to offer voice and messaging solutions for core network and RAN customers along with AI/ML solutions for orchestration and observability.” said Amir Rao, General Manager Telco Solution Portfolio and Tech Alliances, AWS. “Together, we are providing true cloud native benefits to CSP customers, combining Mavenir’s expertise in the NFV market with the global scale of the AWS infrastructure to meet industry challenges of agility, scaling, slicing, and resiliency.”
Mavenir’s 4G and 5G deployments on AWS provides unique capabilities, including:
- Integration of Mavenir’s cloud-native Open RAN (vDU, vCU-CP, vCU-UP), Converged 4G/5G Packet Core, IMS, and Messaging with Amazon Elastic Kubernetes Service (Amazon EKS) anywhere supporting AWS Outposts.
- Use of AWS platform services and tools to deploy and manage cloud native network functions.
- Options for existing deployments to migrate Mavenir’s IMS core, voice, and messaging solutions to Amazon EKS and Amazon Elastic Compute Cloud (Amazon EC2) infrastructure.
- Mavenir’s Orchestration and Network Slicing solutions to manage hybrid cloud workloads running on AWS.
- Adoption of AWS for centrally managed telco workloads on far-edge, network edge and core simultaneously.
- Deployment of Mavenir’s standards compliant observability framework, RIC, NWDAF, AIOps and Analytics platform in AWS to collect the data from various AWS nodes in a centrally managed data lake and process the data using AI/ML for network wide insights and optimization.
- Integration of Mavenir’s telecom adaptation layer (Telco PaaS) as a common open source-based platform adaptation layer designed for telco specific workloads to support various carrier grade requirements on top of Amazon EKS and AWS PaaS functions.
Chart Courtesy of Amazon Web Services