Resonant clock distribution with distributed LC oscillators is promising to reducing clock power and jitter noise. Yet the difficulty in the integration of on-chip inductors still limits its application in practice. This paper resolves such a key issue with sub-50μm magnetic inductors, which are fully compatible with the CMOS process. These inductors leverage soft magnetic coils to achieve inductances up to 4nH, Q-factor of 3 at 1GHz with a device diameter of only 30-50μm resulting in area savings of nearly 100X as compared to conventional design. The latency and noise performance of the resonant clock network is demonstrated to be comparable to those using conventional inductors without soft magnetic materials. In addition, inductors with integrated magnetic materials significantly reduce mutual coupling and eddy current loss in the power grid below the clock network. These design advantages enable high density of on-chip distributed oscillators, providing better phase averaging, lower power and superior noise characteristics as compared to traditional buffer-tree based clock network.
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