Modeling the effect of technology trends on the soft error rate of combinational logic

Shivakumar, Premkishore; Kistler, Michael; Keckler, Stephen W.; Burger, Doug; Alvisi, Lorenzo

doi:10.1109/dsn.2002.1028924

articleJun 25, 2003Closed access

Modeling the effect of technology trends on the soft error rate of combinational logic

PSPremkishore Shivakumar MKMichael Kistler SWStephen W. Keckler DBDoug Burger LALorenzo Alvisi

The University of Texas at Austin · IBM Research - Austin

Indexed incrossref

Abstract

This paper examines the effect of technology scaling and microarchitectural trends on the rate of soft errors in CMOS memory and logic circuits. We describe and validate an end-to-end model that enables us to compute the soft error rates (SER) for existing and future microprocessor-style designs. The model captures the effects of two important masking phenomena, electrical masking and latching-window masking, which inhibit soft errors in combinational logic. We quantify the SER due to high-energy neutrons in SRAM cells, latches, and logic circuits for feature sizes from 600 nm to 50 nm and clock periods from 16 to 6 fan-out-of-4 inverter delays. Our model predicts that the SER per chip of logic circuits will…

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1,443

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FWCI: 92.80
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Authors

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Topics & keywords

Topics

Keywords

Soft error
Static random-access memory
Computer science
Sequential logic
Logic gate
Microprocessor
Combinational logic
Electronic circuit

UN Sustainable Development Goals

Affordable and clean energy

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