Viavi Solutions Inc. (VIAVI) has formed a partnership with Mavenir, a leading provider of end-to-end cloud-native network software for mobile operators, for lab validation of radio access solutions in the U.S.
VIAVI’s lab test platform, in use by almost every base station manufacturer in the world, provides scalable test systems for validating network performance as experienced by end-users, across multiple cells and different radio access technologies.
“Mavenir is proud to be a leading vendor to mobile operators around the globe, offering software-defined infrastructure that can adapt to evolving requirements for both brownfield and Greenfield networks, large-scale to startup networks,” said Ramnik Kamo, EVP Quality, Systems and People, Mavenir. “VIAVI has been a highly collaborative partner with our two companies’ engineering teams working together to prove a new technology against very tight customer timescales.”
“As vendors across the industry develop open, cloud-native and disaggregated architectures, testing against user expectations of service quality will be critical to accelerate adoption at scale,” said Luiz Cesar Oliveira, Vice President, Americas, VIAVI. “We are excited to help Mavenir optimize their advanced radio access solutions based on our unique experience supporting over 200 service providers and virtually every network equipment manufacturer worldwide.”
The year 2020 marked a significant inflection point for mobile networks around the globe. With 229 million subscribers as of December 2020, 5G became the fastest growing mobile technology in history.
New MNOs were granted licenses to establish Greenfield networks to take advantage of this demand. Established network equipment manufacturers were restricted from supplying infrastructure in markets around the globe. These trends have driven an expansion of the supply chain for mobile network solutions.
VIAVI tools can measure the complete performance of the network over multiple interfaces including O-RAN and RF through to the packet core.
Capable of emulating one too many thousands of UEs, the platforms create a sophisticated and precise test environment, including comprehensive feature interactions, simulated RF and mobility, accurate replications of real-world user behavior profiles, together with mobility across the radio access network.