A 100 Gb/s transceiver with GND-VDD common-mode receiver and flexible multi-channel aligner

Tanaka, Kei; Fukaishi, M.; Takeuchi, Masahiko; Yoshida, N.; Minami, Kazuyuki; Yamaguchi, Koichi; Uchida, Hiroyuki; Morishita, Yoji; Sakamoto, Tetsuzo; Kaneko, Tetsuya; Soda, M.; Kurisu, M.; Saeki, T.

doi:10.1109/isscc.2002.993037

Cited by 11 publications

(5 citation statements)

References 3 publications

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“…W ITH THE rising data rate in transmission channels of high-speed digital and communication systems [1], the importance of high-frequency phenomena in interconnect circuits continues to grow as a result of their effects on performance and cost. A multilayer printed circuit board (PCB) is a type of low-cost interconnect structure which commonly includes through via holes and striplines.…”

Section: Introductionmentioning

confidence: 99%

Resonance stub effect in a transition from a through via hole to a stripline in multilayer PCBs

Kushta

Narita

Kaneko

et al. 2003

IEEE Microw. Wireless Compon. Lett.

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We present results of study of the resonance stub effect occurring in a transition from a through via hole to a stripline in a multilayer printed circuit board (PCB). This effect for via structures including ground vias is estimated by numerical simulations and measurements in the frequency band up to 20 GHz. Ways to alleviate problems in the design of interconnections embedded in multilayer PCBs due to the resonance stub effect and possible applications of the effect in microwave filtering are traced.Index Terms-Bandstop filters, interconnect circuits, multilayer printed circuit boards.

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Section: Introductionmentioning

confidence: 99%

Resonance stub effect in a transition from a through via hole to a stripline in multilayer PCBs

Kushta

Narita

Kaneko

et al. 2003

IEEE Microw. Wireless Compon. Lett.

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“…However, the interconnect partially takes advantage of the technology scaling, because faster transistors enable a better circuit to overcome the increased channel loss. Figure 11A shows a survey from the state-of-the-art published works ( Tamura et al, 2001 ; Haycock & Mooney, 2001 ; Tanaka et al, 2002 ; Lee et al, 2003 , 2004 ; Krishna et al, 2005 ; Landman et al, 2005 ; Casper et al, 2006 ; Palermo, Emami-Neyestanak & Horowitz, 2008 ; Kim et al, 2008 ; Lee, Chen & Wang, 2008 ; Amamiya et al, 2009 ; Chen et al, 2011 ; Takemoto et al, 2012 ; Raghavan et al, 2013 ; Navid et al, 2014 ; Zhang et al, 2015 ; Upadhyaya et al, 2015 ; Norimatsu et al, 2016 ; Gopalakrishnan et al, 2016 ; Shibasaki et al, 2016 ; Peng et al, 2017 ; Han et al, 2017 ; Upadhyaya et al, 2018 ; Wang et al, 2018 ; Depaoli et al, 2018 ; Tang et al, 2018 ; LaCroix et al, 2019 ; Pisati et al, 2019 ; Ali et al, 2019 , 2020 ; Im et al, 2020 ; Yoo et al, 2020 ), where we can confirm the correlation between the technology node and the data rate. On the other hand, however, overcoming the increased channel loss has become more and more expensive as the loss is going worse as the bandwidth increases; the equalization circuits consume too much power to compensate the loss, which makes people hesitant to increase the bandwidth.…”

Section: Interconnectmentioning

confidence: 99%

Today’s computing challenges: opportunities for computer hardware design

Bae

2021

PeerJ Computer Science

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Due to the explosive increase of digital data creation, demand on advancement of computing capability is ever increasing. However, the legacy approaches that we have used for continuous improvement of three elements of computer (process, memory, and interconnect) have started facing their limits, and therefore are not as effective as they used to be and are also expected to reach the end in the near future. Evidently, it is a large challenge for computer hardware industry. However, at the same time it also provides great opportunities for the hardware design industry to develop novel technologies and to take leadership away from incumbents. This paper reviews the technical challenges that today’s computing systems are facing and introduces potential directions for continuous advancement of computing capability, and discusses where computer hardware designers find good opportunities to contribute.

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“…Its voltage-current transmission matrix (ABCD matrix) is represented by (1) 1521-3323/$20.00 © 2006 IEEE The measured matrix always includes associated errors and is assumed to be written as , when the coupling errors can be ignored. Both and are transmittance errors that exist at the left and right edges of the transmission line, due to connective discontinuities, such as via holes and connectors (Fig.…”

Section: A Propagation Constant Extractionmentioning

confidence: 99%

“…This forms a set of equations and can be solved for ( 1,2) and under the condition that , 1. The solutions are as follows:…”

Section: Appendix B Solutions For Error Matrix Andmentioning

confidence: 99%

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An Accurate Experimental Method for Characterizing Transmission Lines Embedded in Multilayer Printed Circuit Boards

Narita

Kushta

2006

IEEE Trans. Adv. Packag.

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We have developed an accurate method for measuring the complex propagation constant and characteristic impedance of transmission lines embedded in multilayer printed circuit boards. It is based on mathematical error-removal schemes using two different length transmission lines and an advanced via-hole structure that minimizes coupling. Consequently, associated errors, due to discontinuities and interference can be effectively eliminated, and the frequency dependencies of the transmission line parameters can be clarified in wide frequency bandwidths. We verified the validity of this method in frequency ranges up to at least 18 GHz, by comparing the determined values with the theory derived from transverse electromagnetic (TEM) approximations.

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A 100 Gb/s transceiver with GND-VDD common-mode receiver and flexible multi-channel aligner

Cited by 11 publications

References 3 publications

Resonance stub effect in a transition from a through via hole to a stripline in multilayer PCBs

Resonance stub effect in a transition from a through via hole to a stripline in multilayer PCBs

Today’s computing challenges: opportunities for computer hardware design

An Accurate Experimental Method for Characterizing Transmission Lines Embedded in Multilayer Printed Circuit Boards

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