Integrating HW/SW Functionality for Flexible Wireless Radio

TL;DR

This paper proposes a hybrid hardware/software approach for wireless radios that combines the flexibility of SDR with hardware efficiency, demonstrated through simulations of Zigbee protocols showing significant power savings and adaptability.

Contribution

It introduces a hybrid HW/SW design for wireless radios that balances flexibility and efficiency, enabling easier standard updates with minimal power impact.

Findings

Power consumption ranges from 8% to 38% of dedicated hardware.

Hybrid approach allows retrofitting new standards with modest power increase.

Simulation of Zigbee variants demonstrates performance and power trade-offs.

Abstract

Current methods of implementing wireless radio typically take one of two forms; either dedicated fixed-function hardware, or pure Software Defined Radio (SDR). Fixed function hardware is efficient, but being specific to each radio standard it lacks flexibility, whereas Software Defined Radio is highly flexible but requires powerful processors to meet real-time performance constraints. This paper presents a hybrid hardware/software approach that aims to combine the flexibility of SDR with the efficiency of dedicated hardware solutions. We evaluate this approach by simulating five variants of the IEEE 802.15.4 protocol, commonly known as Zigbee, and demonstrate the range of performance and power consumption characteristics for different accelerator and software configurations. Across the spectrum of configurations we see power consumption varies from 8% to 38% of a dedicated hardware implementation, and show how the hybrid approach allows a new modulation standard to be retrofitted to an existing design, with only a modest increase in power consumption.