Two industry trends with significant momentum are on a collision course. One is the cloud, which in pursuit of low-latency/high-bandwidth applications is moving out of the datacenter and towards the edge. The promise and potential of applications ranging from Internet-of-Things (IoT) to Immersive UIs, Public Safety, Autonomous Vehicles, and Automated Factories, has triggered a gold rush to build edge platforms and services. The other is the access network that connects homes, businesses, and mobile devices to the Internet. Network operators (Telcos and CableCos) are transitioning from a reliance on closed and proprietary hardware to open architectures leveraging disaggregated and virtualized software running on white-box servers, switches, and access devices.
The confluence of cloud and access technologies raises the possibility of convergence. For the cloud, access networks provide low-latency connectivity to end users and their devices, with 5G in particular providing native support for the mobility of those devices. For the access network, cloud technology enables network operators to enjoy the CAPEX & OPEX savings that come from replacing purpose-built appliances with commodity hardware, as well as accelerating the pace of innovation through the softwartization of the access network.
It is clear that the confluence of cloud and access technologies at the access-edge is rich with opportunities to innovate, and this is what motivates the CORD-related platforms we are building at ONF. But it is impossible to say how this will all play out over time, with different perspectives on whether the edge is on-premise, on-vehicle, in the cell tower, in the Central Office, distributed across a metro area, or all of the above. With multiple incumbent players—e.g., network operators, cloud providers, cell tower providers—and countless startups jockeying for position, it’s impossible to predict how the dust will settle.
On the one hand, cloud providers believe that by saturating metro areas with edge clusters and abstracting away the access network, they can build an edge presence with low enough latency and high enough bandwidth to serve the next generation of edge applications. In this scenario, the access network remains a dumb bit-pipe, allowing cloud providers to excel at what they do best: run scalable cloud services on commodity hardware. On the other hand, network operators believe that by building the next generation access network using cloud technology, they will be able to co-locate edge applications in the access network. This scenario comes with built-in advantages: an existing and widely distributed physical footprint, existing operational support, and native support for both mobility and guaranteed service.
While acknowledging both of these possibilities, there is a third outcome that not only merits consideration, but is also worth actively working towards: the democratization of the network edge. The idea is to make the access-edge accessible to anyone, and not strictly the domain of incumbent cloud providers or network operators. There are three reasons to be optimistic about this possibility: