Rakuten Mobile, Inc., NEC Corporation and Intel Corporation announced that they have achieved a performance of 640 Gbps per server for the containerized User Plane Function (UPF) on the containerized 5G SA core network jointly developed by Rakuten Mobile and NEC running on the Rakuten Communications Platform (RCP).
Containerized UPF performance is crucial to maximize the value of 5G deployment. This is because the control plane (C-plane) and user plane (U-plane), which were historically collocated, are completely decoupled in the disaggregated 5G architecture. This enables an independently scalable UPF which is key to private networks, edge computing, hybrid cloud and to accelerate a variety of deployment scenarios. Rakuten Mobile has adopted 5G architecture from the launch of its network, including a Control and User Plane Separated packet core for its 4G LTE network.
The 640 Gbps performance per server for the containerized UPF on the 5G SA core network was achieved in a laboratory environment in Tokyo. This represents a significant opportunity to drive high performance of the commercial network in the future.
NEC leveraged its industry-leading product development based on its advanced telecom and IT expertise to maximize CPU utilization and fast memory access. This is fueled by the utilization of Intel's latest high performance infrastructure, including 3rd Gen Intel Xeon Scalable processors with built-in AI acceleration and Dual-port 100 Gb Intel Ethernet Network Adapter E810-2CQDA2 with Dynamic Device Personalization. Rakuten Mobile, Intel and NEC have collaborated on high speed processing of containerized UPF, which plays a significant role in this initiative, and achieved a performance of 640 Gbps per server. High speed processing in a containerized environment on Rakuten Mobile's RCP enables instant and flexible deployment of UPF from edge to central locations based on traffic characteristics, leveraging RCP's full automation features.
"Rakuten Mobile has successfully designed and built a fully containerized mobile network based on open standards," commented Tareq Amin, representative director, executive vice president and CTO of Rakuten Mobile. "With NEC and Intel, we have demonstrated that extremely high speed processing is possible on containers. We aim to continue to pursue performance improvements in the core to achieve higher throughput and reduce cost and energy consumption in the rollout of network technology in Japan and worldwide."
"We're proud that Rakuten Mobile, Intel and NEC were able to demonstrate industry-leading UPF performance," commented NEC Executive Vice President Atsuo Kawamura. "NEC has been developing high performance and highly reliable 5G systems by leveraging our vast experience that includes more than 25 years in mobile core networking. Our strong track record, technical capabilities and expertise in both network and computing domains, allowed us to bring high-quality 5G core to virtualization and cloud-native technology.
NEC and Intel have a long-term relationship in the hardware business, including CPUs and network interface cards, and have jointly enhanced the acceleration technology for virtualization, represented by the data plane development kit. NEC performed significant optimization and improvements to pursue higher performance for the cloud-native UPF. In the future, we will continue to contribute to society through 5G in Japan and around the world leveraging the results of this project."
"The fully virtualized Rakuten Mobile network featuring NEC's containerized 5G UPF software built on the latest Intel technology is another key proof point of how ecosystem collaboration and industry-leading technology are both essential to fulfill the promise of 5G," said Dan Rodriguez, corporate vice president and general manager of Intel's Network Platforms Group. "The ongoing development and optimization work among the companies on the latest 3rd Gen Intel Xeon Scalable processors and Intel Ethernet 800 Series network adapters not only provides outstanding performance, but the added flexibility to run workloads from core to edge that are designed to offer the best experience for end users."