A study of the relationship between on-chip power distribution network voltage noise, charge per clock cycle, on-chip decoupling capacitance and clock jitter in a 40-nm field programmable gate array test chip

As technology process nodes continue to shrink, the performance of nano-technology devices becomes increasingly dependent on power quality. With core logic voltage reduced to 0.9 V, 40-nm devices are more susceptible to on-chip power distribution network (PDN) voltage noise. On-chip PDN voltage nois...

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Hauptverfasser:	Hui Lee Teng, Shishuang Sun, Man On Wong, Boyle, Peter, Chee Seong Fong
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Clocks Jitter Noise Registers Switches System-on-a-chip Voltage measurement
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creator	Hui Lee Teng Shishuang Sun Man On Wong Boyle, Peter Chee Seong Fong
description	As technology process nodes continue to shrink, the performance of nano-technology devices becomes increasingly dependent on power quality. With core logic voltage reduced to 0.9 V, 40-nm devices are more susceptible to on-chip power distribution network (PDN) voltage noise. On-chip PDN voltage noise increases jitter and reduces a circuit's timing margin, which may lead to performance failures due to timing violations. This paper presents a study of the relationship between on-chip PDN voltage noise, charge per clock cycle (Q CYCLE ), on-chip decoupling capacitance (ODC), and internal clock period jitter. This study investigates the impact of on-chip PDN voltage noise, generated by switching internal logic elements, on jitter performance using two Altera 40-nm field programmable gate array (FPGA) test chips. The results from this study can aid chip designers in optimizing power quality, thereby achieving error-free timing design goals.
doi_str_mv	10.1109/AEM2C.2010.5578815
format	Conference Proceeding
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subjects	Clocks Jitter Noise Registers Switches System-on-a-chip Voltage measurement
title	A study of the relationship between on-chip power distribution network voltage noise, charge per clock cycle, on-chip decoupling capacitance and clock jitter in a 40-nm field programmable gate array test chip
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