Adaptive techniques for joint optimization of XTC and DFE loop gain in high-speed I/O

Taehyoun Oh; Ramesh Harjani

doi:10.4218/etrij.15.0114.0306

Adaptive techniques for joint optimization of XTC and DFE loop gain in high-speed I/O

Taehyoun Oh, Ramesh Harjani

Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

High-speed I/O channels require adaptive techniques to optimize the settings for filter tap weights at decision feedback equalization (DFE) read channels to compensate for channel inter-symbol interference (ISI) and crosstalk from multiple adjacent channels. Both ISI and crosstalk tend to vary with channel length, process, and temperature variations. Individually optimizing parameters such as those just mentioned leads to suboptimal solutions. We propose a joint optimization technique for crosstalk cancellation (XTC) at DFE to compensate for both ISI and XTC in high-speed I/O channels. The technique is used to compensate for between 15.7 dB and 19.7 dB of channel loss combined with a variety of crosstalk strengths from 60 mVp-p to 180 mVp-p adaptively, where the transmit non-return-tozero signal amplitude is a constant 500 mVp-p.

Original language	English (US)
Pages (from-to)	906-916
Number of pages	11
Journal	ETRI Journal
Volume	37
Issue number	5
DOIs	https://doi.org/10.4218/etrij.15.0114.0306
State	Published - Oct 1 2015

Bibliographical note

Publisher Copyright:
© 2015 ETRI.

Keywords

Bandwidth
Crosstalk cancellation
Equalization
High-speed link
ISI
Inter-symbol interference
Jitter
Joint optimization
Parallel interfaces
Pre-emphasis
Pulse response
Single-ended I/Os
Vertical eye-opening
XTC

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title = "Adaptive techniques for joint optimization of XTC and DFE loop gain in high-speed I/O",

abstract = "High-speed I/O channels require adaptive techniques to optimize the settings for filter tap weights at decision feedback equalization (DFE) read channels to compensate for channel inter-symbol interference (ISI) and crosstalk from multiple adjacent channels. Both ISI and crosstalk tend to vary with channel length, process, and temperature variations. Individually optimizing parameters such as those just mentioned leads to suboptimal solutions. We propose a joint optimization technique for crosstalk cancellation (XTC) at DFE to compensate for both ISI and XTC in high-speed I/O channels. The technique is used to compensate for between 15.7 dB and 19.7 dB of channel loss combined with a variety of crosstalk strengths from 60 mVp-p to 180 mVp-p adaptively, where the transmit non-return-tozero signal amplitude is a constant 500 mVp-p.",

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author = "Taehyoun Oh and Ramesh Harjani",

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AU - Harjani, Ramesh

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N2 - High-speed I/O channels require adaptive techniques to optimize the settings for filter tap weights at decision feedback equalization (DFE) read channels to compensate for channel inter-symbol interference (ISI) and crosstalk from multiple adjacent channels. Both ISI and crosstalk tend to vary with channel length, process, and temperature variations. Individually optimizing parameters such as those just mentioned leads to suboptimal solutions. We propose a joint optimization technique for crosstalk cancellation (XTC) at DFE to compensate for both ISI and XTC in high-speed I/O channels. The technique is used to compensate for between 15.7 dB and 19.7 dB of channel loss combined with a variety of crosstalk strengths from 60 mVp-p to 180 mVp-p adaptively, where the transmit non-return-tozero signal amplitude is a constant 500 mVp-p.

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KW - Bandwidth

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KW - Joint optimization

KW - Parallel interfaces

KW - Pre-emphasis

KW - Pulse response

KW - Single-ended I/Os

KW - Vertical eye-opening

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Adaptive techniques for joint optimization of XTC and DFE loop gain in high-speed I/O

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Keywords

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