In fully CMOS digital integrated systems, switching activity of logic gates is the source of the so-called "digital noise". Together with interconnections parasitics, digital switching noise is known to cause "bouncing" effects, i.e. oscillations of on-chip supply and bias voltages, which can remarkably degrade overall system performance. Digital switching is a completely deterministic process, depending on both circuit parameters and input signals. However, the huge number of logic blocks in a digital integrated system makes digital switching a cognitively stochastic process. Therefore, logic transition activity can be analyzed using a stochastic approach. In this paper, we model the digital switching current as a stationary shot noise process, and we derive both its amplitude distribution and its power spectral density.
A stochastic model of digital switching noise / G. Boselli, G. Trucco, V. Liberali - In: VLSI circuits and systems. 3, 2-4 may 2007 : Maspalomas, Gran Canaria, Spain / [a cura di] V. de Armas Sosa, K. Eshraghian, F.B. Tobajas. - Bellingham : SPIE, 2007. - ISBN 9780819467188. (( convegno VLSI Circuits and Systems Conference tenutosi a Maspalomas, Gran Canaria nel 2007.
A stochastic model of digital switching noise
G. BoselliPrimo
;G. TruccoSecondo
;V. LiberaliUltimo
2007
Abstract
In fully CMOS digital integrated systems, switching activity of logic gates is the source of the so-called "digital noise". Together with interconnections parasitics, digital switching noise is known to cause "bouncing" effects, i.e. oscillations of on-chip supply and bias voltages, which can remarkably degrade overall system performance. Digital switching is a completely deterministic process, depending on both circuit parameters and input signals. However, the huge number of logic blocks in a digital integrated system makes digital switching a cognitively stochastic process. Therefore, logic transition activity can be analyzed using a stochastic approach. In this paper, we model the digital switching current as a stationary shot noise process, and we derive both its amplitude distribution and its power spectral density.
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