Towards a Domain Specific Solution for a New Generation of Wireless Modems
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Wireless cellular System on Chip (SoC) are experiencing unprecedented demands on data rate, latency use case variety. 5G wireless technologies require a massive number of antennas and complex signal processing to improve bandwidth and spectral efficiency. The Internet of Things is causing a proliferation in the number of connected devices, and service categories, such as ultra-reliable low latency, which will produce new use cases, such as self-driving cars, robotic factories, and remote surgery. In addressing these challenges, we can no longer rely on faster cores, or even more silicon. Modem software development is becoming increasingly error prone and difficult as the complexity of the applications and the architectures increase. In this report we propose a Wireless Domain Specific Solution that takes a Dataflow acceleration approach and addresses the need of the SoC to support dataflows that change with use case and user activity, while maintaining the Firm Real Time High Availability with low probability of Heisenbugs that is required in cellular modems. We do this by developing a Domain Specific Architecture that describes the requirements in a suitably abstracted dataflow Domain Specific language. A toolchain is described that automates translation of those requirements in an efficient and robust manner and provides formal guarantees against Heisenbugs. The dataflow native DSA supports the toolchain output with specialized processing, data management and control features with high performance and low power, and recovers rapidly from dropped dataflows while continuing to achieve the real time requirements. This report focuses on the dataflow acceleration in the DSA and the part of the automated toolchain that formally checks the performance and correctness of software running on this dataflow hardware. Results are presented and a summary of future work is given.
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