2007
DOI: 10.1109/jssc.2007.892156
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A 6.0-mW 10.0-Gb/s Receiver With Switched-Capacitor Summation DFE

Abstract: Abstract-A low-power receiver with a one-tap decision feedback equalization (DFE) was fabricated in 90-nm CMOS technology. The speculative equalization is performed using switched-capacitor-based addition at the front-end sample-hold circuit. In order to further reduce the power consumption, an analog multiplexer is used in the speculation technique implementation. A quarter-rate-clocking scheme facilitates the use of low-power front-end circuitry and CMOS clock buffers. The receiver was tested over channels w… Show more

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Cited by 60 publications
(27 citation statements)
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“…The best current results for transceivers are ~ 2.8 -6.5 pJ/bit for board or backplane interconnects [17], and ~ 2 pJ/bit [16] for moderate length chip-to-chip interconnects with a relatively ideal electrical channel. Other recent work shows receivers for such links with ~ 1 pJ/bit at ~10 Gb/s rates [51], [52]. Capacitively coupled proximity communication directly between chips allows particularly high densities of interconnections with similarly low energies [53], and there is a variety of other approaches also for dense short vertical "3-D" connections between chips or active circuit layers [54].…”
Section: B Energies and Interconnect Densities For Interconnects To mentioning
confidence: 99%
“…The best current results for transceivers are ~ 2.8 -6.5 pJ/bit for board or backplane interconnects [17], and ~ 2 pJ/bit [16] for moderate length chip-to-chip interconnects with a relatively ideal electrical channel. Other recent work shows receivers for such links with ~ 1 pJ/bit at ~10 Gb/s rates [51], [52]. Capacitively coupled proximity communication directly between chips allows particularly high densities of interconnections with similarly low energies [53], and there is a variety of other approaches also for dense short vertical "3-D" connections between chips or active circuit layers [54].…”
Section: B Energies and Interconnect Densities For Interconnects To mentioning
confidence: 99%
“…Therefore, the emulated n post-cursor ISI taps are noise free and in the summer block only ISI taps are canceled. This key point is the main advantage of DFE over analog equalizer [1,5,6].…”
Section: Receiver Architecturementioning
confidence: 99%
“…In current-integrating based summer [12][13][14], the differential currents are integrated on the parasitic capacitors at the output node of the summer. In switched-capacitor based architecture [1,15], despite the previous two topologies, summation is performed by adding voltages and not currents, by using a sample-and-hold (S&H).…”
Section: Analog Summers In the Literaturementioning
confidence: 99%
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“…Additionally, there is a speed limitation for the electronic interconnection which typically employs millions of closely spaced metal wires in the state-of-the-art computer systems. Despite impressive advancements in the material and device technology, the current record of the onchip global interconnection lies at 5 Gb/s per channel [6] whilst the speed record of the chip-to-chip interconnection is at 10 Gb/s per channel [7]. A photonic switch that controls optical signals directly by another light beam with potential recovery times in the pico-or femto-second regimes has the capability for terahertz switching speed.…”
Section: Introductionmentioning
confidence: 99%