IEEE Future Networks: 5G Drives Major Paradigm Shifts for Power

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The 5G network promises massive bandwidths and low latencies, but none will come to fruition without major paradigm shifts in network power architecture/distribution/utilization. 5G is a unique case study because it brings together many cutting-edge aspects of today's cloud-focused world. It is dependent on cohesion from the edge to the core network with the latest in data center technology (i.e. - Software-defined/virtualized everything). In between, there are heterogeneous networks of small cells operating in licensed/unlicensed spectrum via massive multi-input multi-output (MIMO) arrays of antennas required to enable millimeter wave transmission for billions of users. Power is the absolute gatekeeper for enabling 5G whether it be precise management of smartphone battery usage/charging, envelope tracking signals to optimize efficiency for the power amplifier (PA) at either ends, or intelligent power management in the data center to allow for unprecedented volumes of data processing/transmission to occur in footprints practical enough to sit around neighborhoods.
The 5G network promises massive bandwidths and low latencies, but none will come to fruition without major paradigm shifts in network power architecture/distribution/utilization. 5G is a unique case study because it brings together many cutting-edge aspects of today's cloud-focused world. It is dependent on cohesion from the edge to the core network with the latest in data center technology (i.e. - Software-defined/virtualized everything). In between, there are heterogeneous networks of small cells operating in licensed/unlicensed spectrum via massive multi-input multi-output (MIMO) arrays of antennas required to enable millimeter wave transmission for billions of users. Power is the absolute gatekeeper for enabling 5G whether it be precise management of smartphone battery usage/charging, envelope tracking signals to optimize efficiency for the power amplifier (PA) at either ends, or intelligent power management in the data center to allow for unprecedented volumes of data processing/transmission to occur in footprints practical enough to sit around neighborhoods.