A 5.8-Gb/s Adaptive Integrating Duobinary DFE Receiver for Multi-Drop Memory Interface

Hyun Wook Lim; Sung Won Choi; Jeong Keun Ahn; Woong Ki Min; Sang Kyu Lee; Chang Hoon Baek; Jae Youl Lee; Gyoo Cheol Hwang; Young Hyun Jun; Bai Sun Kong

doi:10.1109/JSSC.2017.2675923

A 5.8-Gb/s Adaptive Integrating Duobinary DFE Receiver for Multi-Drop Memory Interface

Hyun Wook Lim, Sung Won Choi, Jeong Keun Ahn, Woong Ki Min, Sang Kyu Lee, Chang Hoon Baek, Jae Youl Lee, Gyoo Cheol Hwang, Young Hyun Jun, Bai Sun Kong

Department of Semiconductor Systems Engineering

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

19 Scopus citations

Abstract

This paper describes a 5.8 Gb/s adaptive integrating duobinary decision-feedback equalizer (DFE) for use in next-generation multi-drop memory interface. The proposed receiver combines traditional interface techniques like the integrated signaling and the duobinary signaling, in which the duobinary signal is generated by current integration in the receiver. It can address issues such as input data dependence during integration, need for precursor equalization, high equalizer gain boosting, and sensitivity to high-frequency noise. The proposed receiver also alleviates DFE critical timing to provide gain in speed, and embed DFE taps in duobinary decoding to provide gain in power and area. The adaptation for adjusting the equalizer common-mode level, duobinary zero level, tap coefficient values, and timing recovery is incorporated. The proposed DFE receiver was fabricated in a 45 nm CMOS process, whose measurement results indicated that it worked at 5.8 Gb/s speed in a four-drop channel configuration with seven slave ICs, and the bathtub curve shows 36% open for 10^-10 bit error rate.

Original language	English
Article number	7894188
Pages (from-to)	1563-1575
Number of pages	13
Journal	IEEE Journal of Solid-State Circuits
Volume	52
Issue number	6
DOIs	https://doi.org/10.1109/JSSC.2017.2675923
State	Published - Jun 2017

Keywords

DRAM
duobinary signaling
equalizer
integrating decision-feedback equalizer (DFE)
memory
multi-drop interface

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10.1109/JSSC.2017.2675923

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title = "A 5.8-Gb/s Adaptive Integrating Duobinary DFE Receiver for Multi-Drop Memory Interface",

abstract = "This paper describes a 5.8 Gb/s adaptive integrating duobinary decision-feedback equalizer (DFE) for use in next-generation multi-drop memory interface. The proposed receiver combines traditional interface techniques like the integrated signaling and the duobinary signaling, in which the duobinary signal is generated by current integration in the receiver. It can address issues such as input data dependence during integration, need for precursor equalization, high equalizer gain boosting, and sensitivity to high-frequency noise. The proposed receiver also alleviates DFE critical timing to provide gain in speed, and embed DFE taps in duobinary decoding to provide gain in power and area. The adaptation for adjusting the equalizer common-mode level, duobinary zero level, tap coefficient values, and timing recovery is incorporated. The proposed DFE receiver was fabricated in a 45 nm CMOS process, whose measurement results indicated that it worked at 5.8 Gb/s speed in a four-drop channel configuration with seven slave ICs, and the bathtub curve shows 36\% open for 10-10 bit error rate.",

keywords = "DRAM, duobinary signaling, equalizer, integrating decision-feedback equalizer (DFE), memory, multi-drop interface",

author = "Lim, \{Hyun Wook\} and Choi, \{Sung Won\} and Ahn, \{Jeong Keun\} and Min, \{Woong Ki\} and Lee, \{Sang Kyu\} and Baek, \{Chang Hoon\} and Lee, \{Jae Youl\} and Hwang, \{Gyoo Cheol\} and Jun, \{Young Hyun\} and Kong, \{Bai Sun\}",

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AU - Choi, Sung Won

AU - Ahn, Jeong Keun

AU - Min, Woong Ki

AU - Lee, Sang Kyu

AU - Baek, Chang Hoon

AU - Lee, Jae Youl

AU - Hwang, Gyoo Cheol

AU - Jun, Young Hyun

AU - Kong, Bai Sun

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AB - This paper describes a 5.8 Gb/s adaptive integrating duobinary decision-feedback equalizer (DFE) for use in next-generation multi-drop memory interface. The proposed receiver combines traditional interface techniques like the integrated signaling and the duobinary signaling, in which the duobinary signal is generated by current integration in the receiver. It can address issues such as input data dependence during integration, need for precursor equalization, high equalizer gain boosting, and sensitivity to high-frequency noise. The proposed receiver also alleviates DFE critical timing to provide gain in speed, and embed DFE taps in duobinary decoding to provide gain in power and area. The adaptation for adjusting the equalizer common-mode level, duobinary zero level, tap coefficient values, and timing recovery is incorporated. The proposed DFE receiver was fabricated in a 45 nm CMOS process, whose measurement results indicated that it worked at 5.8 Gb/s speed in a four-drop channel configuration with seven slave ICs, and the bathtub curve shows 36% open for 10-10 bit error rate.

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A 5.8-Gb/s Adaptive Integrating Duobinary DFE Receiver for Multi-Drop Memory Interface

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