A 20 mW, 4.8 Gbit/sec, SEU robust serializer in 65nm for read-out of data from LHC experiments

A 20 mW, 4.8 Gbit/sec, SEU robust serializer in 65nm for read-out of data from LHC experiments

The availability of a sub 1-W SerDes for future LHC read-out systems is of paramount importance for building new low-mass inner detectors for HL-LHC. This work reports on the design of two alternative architectures for the serializer block within a high speed transmitter with the objective of achiev...

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Veröffentlicht in:Journal of instrumentation 2014-01, Vol.9 (1), p.C01004-C01004
Hauptverfasser: Felici, D, Bertazzoni, S, Bonacini, S, Marchioro, A, Moreira, P, Ottavi, M
Format: Artikel
Sprache:eng
Schlagworte:
Architecture
Construction
Detectors
Electronics
Flip-flops
Instrumentation
Particle physics
Power consumption
State of the art
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Zusammenfassung:The availability of a sub 1-W SerDes for future LHC read-out systems is of paramount importance for building new low-mass inner detectors for HL-LHC. This work reports on the design of two alternative architectures for the serializer block within a high speed transmitter with the objective of achieving a power consumption of less than 30 mW at the operating speed of 4.8 Gbit/sec. Two alternative architectures are implemented using a commercial 65nm LP-CMOS technology. The architectures used are a "simple TMR" and a "code-protected" one, and are meant to investigate different strategies to handle SEUs. While using the same technology and flip-flops, the simple TMR architecture results in a consumption of 30 mW, the code-protected one of 19 mW, which are better than 1/4 of the power used in state-of-the-art rad-hard serializers. Early data on robustness to SEU effects are also presented.
ISSN:1748-0221
1748-0221
DOI:10.1088/1748-0221/9/01/C01004