Earlier this year, I wrote about the coming data explosion that will be a challenge for the packet core. With vast amounts of traffic from IoT devices, an increase in video applications, and the exponential growth in connectivity that 5G will bring, we expect increasing strain on the network. Support for higher data peaks with lower latencies will be needed. And, as we learn and hear each day in the news, this isn’t a years-off projection, 5G is happening now.
According to the latest Ericsson Mobility Report, mobile data traffic grew 82 percent between Q1 2018 and Q1 2019. By 2024, total mobile data traffic is predicted to reach 131 exabytes per month, a 30 percent compound annual growth rate (CAGR). This increase will challenge communication service providers to transform their networks to support higher throughputs for new and enhanced applications, while continuing to leverage their investments in their existing infrastructure. To handle this influx of traffic the operators will also have to balance the energy demands associated with the enhancements they will make in their network.
Following the announcement of a multi-year collaboration this February, Intel and Ericsson are continuing the momentum of creating leading solutions for the industry, teaming up to develop the next generation hardware management platform. Having collaborated for many years, exemplified by earlier work during the initial Intel® Xeon® Scalable processor launch, Ericsson and Intel are pushing the envelope again by further enhancing one of the key elements of the network: the user plane.
Ericsson has utilized Intel processors to reach a new low CAPEX/Gbps user plane throughput and power/Gbps user plane throughput, resulting in less footprint and cooling costs. These enhancements are part of the evolution of Ericsson’s vEPC software and also included in Ericsson’s Dual Mode 5G Cloud Core.
Ericsson Packet Core on Intel Silicon
Two of the latest innovations focus on improving the total throughput possible in a virtualized user plane running on a dual-socket server:
- To achieve maximum user plane performance on a server, a direct I/O setup is necessary. In this networking mode, the Ericsson user plane functions EPG (Evolved Packet Gateway) is measured to process 193 Gbps of subscriber traffic on one standard Intel processor-based dual-socket server. The successful combination of Intel silicon and efficient Ericsson User Plane software creates this high performance, which minimizes the TCO per Gbps. EPG is part of Ericsson’s fully featured commercial solution, the Ericsson Packet Core.
- For Open vSwitch (OVS) deployments, Ericsson has re-architected I/O handling to support the multi-queue features of OVS. This enables the Ericsson user plane functions (EPG, and Packet Core Gateway in the future) to forward 25 Gbps subscriber traffic on a single Intel-based socket for applications and OVS and will allow saturation of 25 GE NICs.
In addition to increasing the aggregate capacity one server can handle, Ericsson also enabled the 5G experience for individual subscribers. With 5G, new individual subscriber peak rates of 20 Gbps downlink and 10 Gbps uplink are introduced. Ericsson enhanced the user plane function to dynamically handle high subscriber peak rates, while continuing to handle a significant number of subscribers’ base load in the system. These enhancements allow for significantly better utilization of the Intel CPUs as less buffer overhead for peak speed handling is required.
These updates to Ericsson’s software significantly improve the economics of running 5G user planes on Intel processors. We are developing a white paper to provide detailed documentation of the achieved proof-points and to elaborate on the TCO implications these updates mean for 5G roll-out and operations. As a side comment—these measurements were executed on the first generation of Intel® Xeon® Scalable processors (formerly code-named “Skylake”). We are working with Ericsson to characterize the improvements on the 2nd Generation Xeon Scalable processors (formerly code-named “Cascade Lake”).
Thanks to the introduction of the packet core solution, Intel and Ericsson enable operators to efficiently upgrade their core network in an intelligent manner. At Mobile World Congress Shanghai, Ericsson will also announce the Ericsson Edge NFVI. The new platform is a bundle of several Ericsson technologies, including software defined infrastructure. It contains Intel-based hardware and management software based on Intel Rack Scale Design. Ericsson’s Edge NFVI platform contains both a VIM and Container environment with related orchestration capabilities for the dual-mode cloud core (4G and 5G, with local breakout).
If you plan to attend Mobile World Congress Shanghai, visit the Ericsson booth at Hall N3 Stand N3.B20 to see the dual mode 5G cloud core demonstration. Read more about 5G mobile core transformation and Intel’s vision for the future in Dan Rodriguez’s most recent blog, and see all of Intel’s network transformation efforts around 5G, IoT, and more at intel.com/network.