Verizon recently completed an end-to-end fully virtualized 5G data session in a live network.
Verizon's demonstration of virtualization in the Radio Access Network tested technology from several partners, including:
- Samsung provided its commercial 5G virtualized RAN solution, consisting of a virtualized Central Unit (vCU), a virtualized Distributed Unit (vDU), and radio units. The solution can provide mobile operators with improved efficiency, flexibility, and management benefits through the deployment of a software-based 5G radio infrastructure. Samsung announced commercial availability of its fully-virtualized 5G RAN solution last month.
- Intel provided its Intel Xeon Scalable processor, Intel FPGA Programmable Acceleration Card (Intel FPGA PAC) N3000, Intel Ethernet Network Adapter XXV710 to deliver the processing, acceleration and connectivity requirements, and its FlexRAN software reference architecture.
- Wind River is providing Verizon with a cloud-native, Kubernetes- and container-based software infrastructure, which delivers ultra-low latency and high availability for national deployment of virtualized 5G RAN. Wind River’s solution is integrated with best-in-class vRAN applications, providing single-pane-of-glass and zero-touch automated management, and network analytics.
Verizon said this technology milestone provides the foundation for wide-scale mobile edge computing and network slicing. Earlier this month, Verizon launched 5G mobile edge compute live for developers with AWS Wavelength at Verizon’s 5G Edge locations in Boston and the Bay Area. As Verizon extends its MEC leadership, virtualization in the Radio Access Network (RAN) becomes even more important.
Virtualizing the RAN decouples software and hardware functionality enabling the network to be built on general purpose hardware. Using Common Off-The-Shelf (COTS) hardware leads to greater flexibility and agility in the introduction of new products and services. Instead of adding or upgrading single-purpose hardware, the move to a cloud native, container-based virtualized architecture with standardized interfaces leads to greater flexibility, faster delivery of services, greater scalability, and improved cost efficiency in networks.
“Virtualizing the entire network from the core to the edge has been a massive, multi-year redesign effort of our network architecture that simplifies and modernizes our entire network,” said Adam Koeppe, Senior Vice President of Technology and Planning for Verizon. “Verizon has been on the leading edge of virtualizing the core over the past few years and has been bullish in the design and development of open RAN technology, as well as in the testing of that technology with great success.”“Massive scale IOT solutions, more robust consumer devices and solutions, AR/VR, remote healthcare, autonomous robotics in manufacturing environments, and ubiquitous smart city solutions are only some of the ways we will be able to deliver the promise of the digital world. Advancements in virtualization technology are critical steps towards that realization,” said Koeppe.
Verizon to offer 5G network edge computing with AWS Wavelength
Verizon will be the first carrier to offer the new AWS Wavelength service to provide developers the ability to deploy applications that require ultra-low latency to mobile devices using 5G. The service targets latency-sensitive use cases like machine learning inference at the edge, autonomous industrial equipment, smart cars and cities, Internet of Things (IoT), and augmented and virtual reality. The idea is to position AWS compute and storage services at the edge of Verizon’s 5G network.
The companies are currently piloting AWS Wavelength on Verizon’s edge compute platform, 5G Edge, in Chicago for a select group of customers, including video game publisher Bethesda Softworks and the National Football League (NFL). Additional deployments are planned in other locations across the U.S. in 2020.
Verizon 5G Edge provides mobile edge computing and an efficient high-volume connection between users, devices, and applications. AWS Wavelength lets customers deploy the parts of an application that require ultra-low latency to the edge of the network and then seamlessly connect back to the full range of cloud services running in AWS.
AWS also listed Vodafone Business, KDDI, and SK Telecom as partners.
The companies are currently piloting AWS Wavelength on Verizon’s edge compute platform, 5G Edge, in Chicago for a select group of customers, including video game publisher Bethesda Softworks and the National Football League (NFL). Additional deployments are planned in other locations across the U.S. in 2020.
Verizon 5G Edge provides mobile edge computing and an efficient high-volume connection between users, devices, and applications. AWS Wavelength lets customers deploy the parts of an application that require ultra-low latency to the edge of the network and then seamlessly connect back to the full range of cloud services running in AWS.
AWS also listed Vodafone Business, KDDI, and SK Telecom as partners.
Verizon tests Ericsson's cloud-native, containerized EPC
Verizon and Ericsson introduced a cloud-native, container-based technology on the core of Verizon’s active network.
The proof-of-concept trial deployment is described as the first container- based wireless EPC (Evolved Packet Core) technology deployment in a live network in the world.
The trial, which was conducted on Verizon's commercial network in Hillsboro, Oregon, used Ericsson Packet Core Controller deployed as a cloud-native and microservice-based Mobility Management Entity (MME) in an existing pool. The software used leverages docker images and helm charts, with expected updates on the software from Ericsson every two weeks.
Nils Viklund, Head of Solution Area Packet Core at Ericsson says: "The industry’s evolution to cloud native means big changes ahead. Ericsson is leading the industry when it comes to driving cloud-native design in order to bring the agility needed to manage workloads dynamically at the edge required for many new 5G use cases. Now together with Verizon, we are demonstrating how cloud native EPC can be an important step in increasing efficiency and utilization of the cloud infrastructure."
“The pace of technological advancement is rapid and is exponentially increasing. By evolving our core network past simply using virtualized machines and instead changing our underlying software architecture to run on cloud- native technology, we are able to achieve new levels of operational automation, flexibility and adaptability,” said Bill Stone, Vice President of Technology Development and Planning for Verizon.
The proof-of-concept trial deployment is described as the first container- based wireless EPC (Evolved Packet Core) technology deployment in a live network in the world.
The trial, which was conducted on Verizon's commercial network in Hillsboro, Oregon, used Ericsson Packet Core Controller deployed as a cloud-native and microservice-based Mobility Management Entity (MME) in an existing pool. The software used leverages docker images and helm charts, with expected updates on the software from Ericsson every two weeks.
Nils Viklund, Head of Solution Area Packet Core at Ericsson says: "The industry’s evolution to cloud native means big changes ahead. Ericsson is leading the industry when it comes to driving cloud-native design in order to bring the agility needed to manage workloads dynamically at the edge required for many new 5G use cases. Now together with Verizon, we are demonstrating how cloud native EPC can be an important step in increasing efficiency and utilization of the cloud infrastructure."“The pace of technological advancement is rapid and is exponentially increasing. By evolving our core network past simply using virtualized machines and instead changing our underlying software architecture to run on cloud- native technology, we are able to achieve new levels of operational automation, flexibility and adaptability,” said Bill Stone, Vice President of Technology Development and Planning for Verizon.
