TY  - CONF
AU  - Geck, Lotte
AU  - Degenhardt, Carsten
AU  - van Waasen, Stefan
TI  - Interfacing qubits: Cryogenic control electronics
M1  - FZJ-2018-00171
PY  - 2017
AB  - We compare our approach of placing the electronics as close to the qubits as possible with other approaches like the cryogenic use of FPGAs or scaling of room temperature electronics [3] [4]. Especially the connectivity towards room temperature is a key aspect and will be examined in detail. Next to connectivity, other important challenges for the control electronics are area demand and power consumption. Both have been investigated and the figures of merit of different implementations will be shown. The placement of the electronics next to the qubits into the cryogenic environment shows additional advantages like improved noise behaviour. We will show how this aspect influences the choice of component architectures.For demonstration of the suitability of our approach first results for a modelled electronic system will be presented. [1] IBM Builds Its Most Powerful Universal Quantum Computing Processors.
T2  - International Workshop On Silicon Quantum Electronics
CY  - 18 Aug 2017 - 21 Aug 2017, Hillsboro (United States of America)
Y2  - 18 Aug 2017 - 21 Aug 2017
M2  - Hillsboro, United States of America
LB  - PUB:(DE-HGF)6
UR  - https://juser.fz-juelich.de/record/841874
ER  -