A power efficient 2Gb/s transceiver in 90nm CMOS for 10mm On-Chip interconnect

E. Mensink; Daniel Schinkel; Eric A.M. Klumperink; Adrianus Johannes Maria van Tuijl; Bram Nauta

A power efficient 2Gb/s transceiver in 90nm CMOS for 10mm On-Chip interconnect

E. Mensink, Daniel Schinkel, Eric A.M. Klumperink, Adrianus Johannes Maria van Tuijl, Bram Nauta

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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Abstract

Abstract—Global on-chip data communication is becoming a concern as the gap between transistor speed and interconnect bandwidth increases with CMOS process scaling. In this paper a low-swing transceiver for 10mm long 0.54μm wide on-chip interconnect is presented, which achieves a similar data rate as previous designs (a few Gb/s), but at much lower power than recently published work. Both low static power and low dynamic power (low energy per bit) is aimed for. A capacitive pre-emphasis transmitter lowers the voltage swing and increases the bandwidth using a simple inverter based transceiver and capacitive coupling to the interconnect. The receiver uses Decision Feedback Equalization with a power-efficient continuous-time feedback filter. A low power latch-type voltage sense amplifier is used. The transceiver, fabricated in a 1.2V 90nm CMOS process, achieves 2Gb/s. It consumes only 0.28pJ/b, which is 7 times lower than earlier work.

Original language	Undefined
Title of host publication	18th Annual Workshop on Circuits Systems and Signal Processing (ProRISC)
Place of Publication	Utrecht
Publisher	STW
Pages	60-63
Number of pages	4
ISBN (Print)	978-90-73461-49-9
Publication status	Published - 29 Nov 2007
Event	18th Annual Workshop on Circuits, Systems and Signal Processing, ProRISC 2007 - Veldhoven, Netherlands Duration: 29 Nov 2007 → 30 Nov 2007 Conference number: 18

Publication series

Name
Publisher	Technology Foundation STW

Conference

Conference	18th Annual Workshop on Circuits, Systems and Signal Processing, ProRISC 2007
Country/Territory	Netherlands
City	Veldhoven
Period	29/11/07 → 30/11/07

Keywords

EWI-10895
METIS-245728
IR-64294

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Cite this

@inproceedings{63c2ce38de7546d4a471b8686e0a214e,

title = "A power efficient 2Gb/s transceiver in 90nm CMOS for 10mm On-Chip interconnect",

abstract = "Abstract—Global on-chip data communication is becoming a concern as the gap between transistor speed and interconnect bandwidth increases with CMOS process scaling. In this paper a low-swing transceiver for 10mm long 0.54μm wide on-chip interconnect is presented, which achieves a similar data rate as previous designs (a few Gb/s), but at much lower power than recently published work. Both low static power and low dynamic power (low energy per bit) is aimed for. A capacitive pre-emphasis transmitter lowers the voltage swing and increases the bandwidth using a simple inverter based transceiver and capacitive coupling to the interconnect. The receiver uses Decision Feedback Equalization with a power-efficient continuous-time feedback filter. A low power latch-type voltage sense amplifier is used. The transceiver, fabricated in a 1.2V 90nm CMOS process, achieves 2Gb/s. It consumes only 0.28pJ/b, which is 7 times lower than earlier work.",

keywords = "EWI-10895, METIS-245728, IR-64294",

author = "E. Mensink and Daniel Schinkel and Klumperink, {Eric A.M.} and {van Tuijl}, {Adrianus Johannes Maria} and Bram Nauta",

year = "2007",

month = nov,

day = "29",

language = "Undefined",

isbn = "978-90-73461-49-9",

publisher = "STW",

pages = "60--63",

booktitle = "18th Annual Workshop on Circuits Systems and Signal Processing (ProRISC)",

note = "18th Annual Workshop on Circuits, Systems and Signal Processing, ProRISC 2007 ; Conference date: 29-11-2007 Through 30-11-2007",

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TY - GEN

T1 - A power efficient 2Gb/s transceiver in 90nm CMOS for 10mm On-Chip interconnect

AU - Mensink, E.

AU - Schinkel, Daniel

AU - Klumperink, Eric A.M.

AU - van Tuijl, Adrianus Johannes Maria

AU - Nauta, Bram

N1 - Conference code: 18

PY - 2007/11/29

Y1 - 2007/11/29

N2 - Abstract—Global on-chip data communication is becoming a concern as the gap between transistor speed and interconnect bandwidth increases with CMOS process scaling. In this paper a low-swing transceiver for 10mm long 0.54μm wide on-chip interconnect is presented, which achieves a similar data rate as previous designs (a few Gb/s), but at much lower power than recently published work. Both low static power and low dynamic power (low energy per bit) is aimed for. A capacitive pre-emphasis transmitter lowers the voltage swing and increases the bandwidth using a simple inverter based transceiver and capacitive coupling to the interconnect. The receiver uses Decision Feedback Equalization with a power-efficient continuous-time feedback filter. A low power latch-type voltage sense amplifier is used. The transceiver, fabricated in a 1.2V 90nm CMOS process, achieves 2Gb/s. It consumes only 0.28pJ/b, which is 7 times lower than earlier work.

AB - Abstract—Global on-chip data communication is becoming a concern as the gap between transistor speed and interconnect bandwidth increases with CMOS process scaling. In this paper a low-swing transceiver for 10mm long 0.54μm wide on-chip interconnect is presented, which achieves a similar data rate as previous designs (a few Gb/s), but at much lower power than recently published work. Both low static power and low dynamic power (low energy per bit) is aimed for. A capacitive pre-emphasis transmitter lowers the voltage swing and increases the bandwidth using a simple inverter based transceiver and capacitive coupling to the interconnect. The receiver uses Decision Feedback Equalization with a power-efficient continuous-time feedback filter. A low power latch-type voltage sense amplifier is used. The transceiver, fabricated in a 1.2V 90nm CMOS process, achieves 2Gb/s. It consumes only 0.28pJ/b, which is 7 times lower than earlier work.

KW - EWI-10895

KW - METIS-245728

KW - IR-64294

M3 - Conference contribution

SN - 978-90-73461-49-9

SP - 60

EP - 63

BT - 18th Annual Workshop on Circuits Systems and Signal Processing (ProRISC)

PB - STW

CY - Utrecht

T2 - 18th Annual Workshop on Circuits, Systems and Signal Processing, ProRISC 2007

Y2 - 29 November 2007 through 30 November 2007

ER -