Shauki Elassaad

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—Closed-form equations for second-order transfer functions of general arbitrarily coupled resistance–capacitance (RC) trees with multiple drivers are reported. The models allow precise delay and noise calculations for systems of coupled interconnects with guaranteed stability and represent the minimum complexity associated with this class of circuits. Their(More)
Closed form equations for second order transfer functions of generalarbitrarily-coupled RC trees with multiple drivers are reported.The models allow precise delay and noise calculations for systemsof coupled interconnects with guaranteed stability, and representthe minimum complexity associated with this class of circuits. Thesimplicity, accuracy and(More)
Closed form expressions are presented for the first and second moment of the impulse response for arbitrarily-coupled RC trees with multiple drivers, and used to generate accurate second order estimations of the transfer function from any driver to the receiver. The superposition of the waveforms for all switching events allows precise delay and noise(More)
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