Abstract
Fine-grain Dynamic Voltage and Frequency Scaling (DVFS) is becoming a requirement for Globally-Asynchronous Locally-Synchronous (GALS) architectures. However, the area overhead of adding voltage and frequency control engines in each voltage and frequency island must be taken into account to optimize the circuit. A small-area fast-reprogrammable Frequency-Locked Loop (FLL) engine is a suited option, since its implementation in 32nm represents 0.0016mm2, being 4 to 20 times smaller than classical techniques used such as a Phase-Locked Loop (PLL) in the same technology. Another relevant aspect with respect to the FLL is the control design, which must be suited for low area hardware. In this paper, an analytical model of the system is deduced from accurate Spice simulations. It also takes into account the delay introduced by the sensor. From this model, an optimal and robust control law with a minimum implementation area is developed. The closed-loop system stability is also ensured.
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