Building Software-Defined, High-Performance, and Efficient vRAN Requires Programmable Inline Acceleration – NVIDIA Technical Blog

Building Software-Defined, High-Performance, and Efficient vRAN Requires Programmable Inline Acceleration – NVIDIA Technical Blog News and tutorials for developers, data scientists, and IT admins 2025-05-16T23:50:38Z http://www.open-lab.net/blog/feed/ Rajesh Gadiyar <![CDATA[Building Software-Defined, High-Performance, and Efficient vRAN Requires Programmable Inline Acceleration]]> http://www.open-lab.net/blog/?p=71228 2023-10-23T17:13:13Z 2023-10-02T18:54:26Z

In 3GPP fifth generation (5G) cellular standard, layer 1 (L1) or the physical layer (PHY) is the most compute-intensive part of the radio access network (RAN)...]]>

In 3GPP fifth generation (5G) cellular standard, layer 1 (L1) or the physical layer (PHY) is the most compute-intensive part of the radio access network (RAN)... Decorate image of a city with light trails suggesting a network.

Decorate image of a city with light trails suggesting a network.

In 3GPP fifth generation (5G) cellular standard, layer 1 (L1) or the physical layer (PHY) is the most compute-intensive part of the radio access network (RAN) workload. It involves some of the most complex mathematical operations with sophisticated algorithms like channel estimation and equalization, modulation/demodulation, and forward error correction (FEC). These functions require high compute��

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