Folgen
Harald Homulle
Harald Homulle
Senior design engineer, Pi Imaging Technology
Bestätigte E-Mail-Adresse bei piimaging.com
Titel
Zitiert von
Zitiert von
Jahr
Cryo-CMOS circuits and systems for quantum computing applications
B Patra, RM Incandela, JPG Van Dijk, HAR Homulle, L Song, ...
IEEE Journal of Solid-State Circuits 53 (1), 309-321, 2017
4112017
Single-photon avalanche diode imagers in biophotonics: review and outlook
C Bruschini, H Homulle, IM Antolovic, S Burri, E Charbon
Light: Science & Applications 8 (1), 87, 2019
3942019
Cryo-CMOS for quantum computing
E Charbon, F Sebastiano, A Vladimirescu, H Homulle, S Visser, L Song, ...
2016 IEEE International Electron Devices Meeting (IEDM), 13.5. 1-13.5. 4, 2016
2122016
Characterization and compact modeling of nanometer CMOS transistors at deep-cryogenic temperatures
RM Incandela, L Song, H Homulle, E Charbon, A Vladimirescu, ...
IEEE Journal of the Electron Devices Society 6, 996-1006, 2018
2022018
Cryo-CMOS electronic control for scalable quantum computing
F Sebastiano, H Homulle, B Patra, R Incandela, J van Dijk, L Song, ...
Proceedings of the 54th Annual Design Automation Conference 2017, 1-6, 2017
692017
15.5 cryo-CMOS circuits and systems for scalable quantum computing
E Charbon, F Sebastiano, M Babaie, A Vladimirescu, M Shahmohammadi, ...
2017 IEEE International Solid-State Circuits Conference (ISSCC), 264-265, 2017
692017
A reconfigurable cryogenic platform for the classical control of quantum processors
H Homulle, S Visser, B Patra, G Ferrari, E Prati, F Sebastiano, E Charbon
Review of Scientific Instruments 88 (4), 2017
652017
The cryogenic temperature behavior of bipolar, MOS, and DTMOS transistors in standard CMOS
H Homulle, L Song, E Charbon, F Sebastiano
IEEE Journal of the Electron Devices Society 6, 263-270, 2018
562018
A cryogenic 1 GSa/s, soft-core FPGA ADC for quantum computing applications
H Homulle, S Visser, E Charbon
IEEE Transactions on Circuits and Systems I: Regular Papers 63 (11), 1854-1865, 2016
522016
Benefits and challenges of designing cryogenic CMOS RF circuits for quantum computers
M Mehrpoo, B Patra, J Gong, JPG van Dijk, H Homulle, G Kiene, ...
2019 IEEE International Symposium on Circuits and Systems (ISCAS), 1-5, 2019
512019
LinoSPAD: a time-resolved 256x1 CMOS SPAD line sensor system featuring 64 FPGA-based TDC channels running at up to 8.5 giga-events per second
S Burri, H Homulle, C Bruschini, E Charbon
Optical Sensing and Detection IV 9899, 57-66, 2016
472016
Ten years of biophotonics single-photon SPAD imager applications: retrospective and outlook
C Bruschini, H Homulle, E Charbon
Multiphoton Microscopy in the Biomedical Sciences XVII 10069, 213-233, 2017
462017
Compact solid-state CMOS single-photon detector array for in vivo NIR fluorescence lifetime oncology measurements
HAR Homulle, F Powolny, PL Stegehuis, J Dijkstra, DU Li, K Homicsko, ...
Biomedical optics express 7 (5), 1797-1814, 2016
402016
Nanometer CMOS characterization and compact modeling at deep-cryogenic temperatures
RM Incandela, L Song, HAR Homulle, F Sebastiano, E Charbon, ...
2017 47th European Solid-State Device Research Conference (ESSDERC), 58-61, 2017
382017
Deep-cryogenic voltage references in 40-nm CMOS
H Homulle, F Sebastiano, E Charbon
IEEE Solid-State Circuits Letters 1 (5), 110-113, 2018
332018
Cryogenic CMOS interfaces for quantum devices
F Sebastiano, HAR Homulle, JPG van Dijk, RM Incandela, B Patra, ...
2017 7th IEEE International Workshop on Advances in Sensors and Interfaces …, 2017
242017
200 MS/s ADC implemented in a FPGA employing TDCs
H Homulle, F Regazzoni, E Charbon
Proceedings of the 2015 ACM/SIGDA International Symposium on Field …, 2015
242015
Cryogenic electronics for the read-out of quantum processors
H Homulle
192019
Characterization of bipolar transistors for cryogenic temperature sensors in standard CMOS
L Song, H Homulle, E Charbon, F Sebastiano
2016 IEEE SENSORS, 1-3, 2016
182016
Cryogenic low-dropout voltage regulators for stable low-temperature electronics
H Homulle, E Charbon
Cryogenics 95, 11-17, 2018
152018
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20