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The simultaneous switching activity in digital circuits challenges the design of mixed-signal SoCs. Rather than focusing on time-domain noise voltage minimization, this work optimizes switching noise in the frequency domain. A two-tier solution based on the on-chip clock scheduling is proposed. First, to cope with the switching noise at the fundamental clock frequency, which usually dominates in terms...
Mitigating switching noise in highly complex integrated circuits (ICs) is one of the challenging issues in current design flows. The common way to optimize the noise characteristics is to apply current shaping techniques, which introduce clock skew to distribute the switching activity of the circuit. However, this is typically done at late backend design stages, i.e., in layout after cell placement,...
In this paper we present for the first time a complex GALS ASIC demonstrator in 40 nm CMOS process. This chip, named Moonrake, compares synchronous and GALS synchronization technology in a homogeneous experimental setting: same baseline designs, same manufacturing process, same die. The chip validates GALS technology for both point-to-point and network-centric on-chip communications, demonstrating...
With technology scaling into the deep sub-micron regime, the power supply and ground noise, which is introduced by the simultaneous switching activity in digital circuits, becomes a challenge for SoC and Networks-on-Chip (NoC) design. In this paper, analytical expressions of the magnitude of ground bounce for different gate switching ratios are derived. It is shown that, by spreading the switching...
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