NXP Semiconductors unveiled a new series of Layerscape Access processors, compliant with O-RAN Alliance specifications abd designed for 5G Access Edge applications, such as Central Units/Distributed Units (CU/DU), Radio Units (RUs), along with Integrated Small Cells and Customer Premises Equipment (CPE) systems.
NXP said its Layerscape Access processors deliver unprecedented control over 5G-NR software architecture to support different network options. A primary challenge in 5G development is how to build-out the network infrastructure where there are a variety of architectures, spectrum, and evolving standards. With these new programmable, open-architecture, and scalable-Layerscape Access products, NXP helps deliver on the 5G promise.
The new Layerscape Access Families include:
- LA1200 family – software-defined baseband processors for mmWave or sub-6GHz: RUs, Integrated Small Cells, and CPEs. These teraflop-class devices, with integrated forward error correction, are also ideal for DU offload applications.
- LA9350 family – a cost-effective programmable baseband processor. This family addresses lower transceiver density 5G sub-6GHz and millimeter-wave markets such as RUs or enterprise and industrial applications.
- LA9310 family – NXP’s most power-efficient software-defined baseband processors designed for 5G timing detection, aerospace, and defense applications
The new Layerscape Access processors are scheduled to sample in Q1 2020. Proof of concept development platforms are available today.
“NXP’s compelling end-to-end portfolio builds on NXP’s history of wireless solutions and industry leadership,” said Tareq Bustami, senior vice president and general manager of NXP’s Digital Networking Solutions. “We believe the uniquely programmable Layerscape Access baseband and integrated data converters offer the performance and flexibility required to enable rapid 5G deployments.”
