Nokia’s Data Center Services division has unveiled plans to launch mobile telcos into the cloud. Plans include a custom-made a multivendor infrastructure to support its transformation consulting services, reports BCN.
These services aim to help telecoms operators re-shape their people and processes for the new cloud-centric comms industry. In a statement it explained that its new managed cloud operations aim to make the introduction of multi-vendor hybrid operations, cloud data centres and the virtualisation of network functions (VNFs) as painless as possible.
The networking vendor is expanding its cloud services portfolio with the launch of three professional services. Nokia Data Center services will offer development and operations (DevOps) services, with a brief to help telcos use cloud technology to launch services as quickly as possible. Secondly, the Nokia Cloud Transformation Consulting services aim to help operators make the fullest use of telco cloud opportunities. Nokia said it is using expertise rom the Bell Labs Consulting practice to support operators and enterprises in addressing cloud transformation.
Finally the Managed Cloud Operations managed service will help telcos run hybrid operations across hardware, cloudware and application layer management, without the build up of silos of information that have traditionally hamstrung telcos turned comms service providers.
In order to support the data centre services Nokia is creating a design facility in the UK, supported by global delivery depots across the globe. To complement its services portfolio, Nokia has now invited partners, such as global supply chain Sanmina, to focus on Data Center services.
The service is needed because 62% of operators are very likely to rely on network equipment providers for data centre transformation, according to Heavy Reading research figures quoted by Nokia.
Meanwhile, in a related announcement Nokia said it will simplify networks with a new Shared Data Layer, a central point of storage for all the data used by Virtualized Network Functions (VNFs). This could free VNFs from the need to manage their own data, creating so-called stateless VNFs that are simpler and have the capacity for rapid expansion or contraction.
The result is a more flexible, programmable network for 5G that can minimise latency and maximise network speeds in order to cater for the Internet of Things (IoT). The network also becomes more reliable as a failed stateless VNF can instantly activate and provide access to the shared data to maintain seamless service continuity.