An Octa-Core 2.8/2ghz Dual-Gear Sensor-Assisted High-Speed And Power-Efficient Cpu In 7nm Finfet 5g Smartphone Soc

A high-speed and power-efficient heterogeneous octa-core CPU complex is realized in a 7nm FinFET process. On-chip sensors that handle guard band in terms of process $(V_{PGB})$, voltage, temperature $(V_{TGB})$, and aging $(V_{AGB})$ are designed for power enhancement in dynamic frequency and voltage scaling (DVFS). A process sensor (P-sensor) is used to determine per-die V PGB for Smartphone operation voltage $(V_{sov})$ with machine learning (ML). A temperature sensor (T-sensor) senses run-time local thermal and temperature inversion (T-inversion) to scale V TGB in DVFS. An aging sensor (A-sensor) converts cell degradation to corresponding V AGB for aging compensation. Lastly, a voltage sensor (V-sensor) sustains system stability against supply noise. With sensor assistance, the CPU performs up to 2.8GHz speed with 13% power improvement in a fully integrated 5G multi-mode Smartphone SoC that supports the sub-6GHz band with 2.6Gbps upload and 4.7Gbps download speeds.