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Dirk Leipold
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2020 – today
- 2023
- [j16]Ali Esmailiyan, Elena Blokhina
, Dennis Andrade-Miceli, Eoin Faust, Panagiotis Giounanlis
An On-Chip Picoampere-Level Leakage Current Sensor for Quantum Processors in 22-nm FD-SOI CMOS. IEEE Trans. Circuits Syst. II Express Briefs 70(6): 1861-1865 (2023) - [c23]Eduard Alarcón, Sergi Abadal, Fabio Sebastiano, Masoud Babaie, Edoardo Charbon, Peter Haring Bolívar, Maurizio Palesi, Elena Blokhina, Dirk Leipold, Robert Bogdan Staszewski, Artur García-Sáez, Carmen G. Almudéver:
Scalable multi-chip quantum architectures enabled by cryogenic hybrid wireless/quantum-coherent network-in-package. ISCAS 2023: 1-5 - [c22]Imran Bashir, Dirk Leipold, Namit Mishra, Pietro King
Towards A Fully Integrated TES Controller Operating at 4K Temperature. ISCAS 2023: 1-5 - [c21]Llorenç Fanals, Eduard Alarcón, Imran Bashir, Elena Blokhina, Dirk Leipold, Robert Bogdan Staszewski:
Tunable $LC$ resonator for multiplexed multi-qubit readout. ISCAS 2023: 1-5 - [i2]Eduard Alarcón, Sergi Abadal, Fabio Sebastiano, Masoud Babaie, Edoardo Charbon, Peter Haring Bolívar, Maurizio Palesi, Elena Blokhina, Dirk Leipold, Robert Bogdan Staszewski, Artur García-Sáez, Carmen G. Almudéver:
Scalable multi-chip quantum architectures enabled by cryogenic hybrid wireless/quantum-coherent network-in-package. CoRR abs/2303.14008 (2023) - 2022
- [c20]Dennis Andrade-Miceli, Conor Power, Ali Esmailiyan, Teerachot Siriburanon, Imran Bashir, Mike Asker, Dirk Leipold, Robert Bogdan Staszewski, Elena Blokhina:
Characterisation and Modelling of 22-nm FD-SOI Transistors Operating at Cryogenic Temperatures. ICECS 2022 2022: 1-4 - [c19]Conor Power, Dennis Andrade-Miceli, Imran Bashir, Mike Asker, Dirk Leipold, Robert Bogdan Staszewski, Elena Blokhina:
Modelling of Electron Injection and Confinement in Cryogenic 22-nm FD-SOI Quantum Dot Arrays. ICECS 2022 2022: 1-4 - 2021
- [j15]Elena Blokhina
Towards the Co-Simulation of Charge Qubits: A Methodology Grounding on an Equivalent Circuit Representation. IEEE Open J. Circuits Syst. 2: 548-563 (2021) - [c18]Imran Bashir, Dirk Leipold, Mike Asker, Ali Esmailiyan, Elena Blokhina, David Redmond, Panagiotis Giounanlis, Dennis Andrade-Miceli, Robert Bogdan Staszewski:
Bias Generation and Calibration of CMOS Charge Qubits at 3.5 Kelvin in 22-nm FDSOI. ESSCIRC 2021: 47-50 - [c17]Imran Bashir, Dirk Leipold, Mike Asker, Ali Esmailiyan, Elena Blokhina, David Redmond, Panagiotis Giounanlis, Dennis Andrade-Miceli, Robert Bogdan Staszewski:
Bias Generation and Calibration of CMOS Charge Qubits at 3.5 Kelvin in 22-nm FDSOI. ESSDERC 2021: 47-50 - [i1]Imran Bashir, Dirk Leipold, Elena Blokhina, Mike Asker, David Redmond, Ali Esmailiyan, Panagiotis Giounanlis, Hans Haenlein, Xuton Wu, Andrii Sokolov, Dennis Andrade-Miceli, Robert Bogdan Staszewski:
Monolithic Integration of Quantum Resonant Tunneling Gate on a 22nm FD-SOI CMOS Process. CoRR abs/2112.04586 (2021) - 2020
- [j14]Elena Blokhina
CMOS Position-Based Charge Qubits: Theoretical Analysis of Control and Entanglement. IEEE Access 8: 4182-4197 (2020) - [c16]Andrii Sokolov
Simulation Methodology for Electron Transfer in CMOS Quantum Dots. ICCS (6) 2020: 650-663 - [c15]Elena Blokhina
Noisy Intermediate Scale Quantum Computers: on the Co-Simulation of Qubits and Control Electronics. ICECS 2020: 1-4 - [c14]Panagiotis Giounanlis, Andrii Sokolov
Electrostatic Control and Entanglement of CMOS Position-Based Qubits. ISCAS 2020: 1-5 - [c13]Robert Bogdan Staszewski, Panagiotis Giounanlis, Ali Esmailiyan, Hongying Wang, Imran Bashir, Cagri Cetintepe, Dennis Andrade-Miceli, Mike Asker, Dirk Leipold, Teerachot Siriburanon, Andrii Sokolov
Position-Based CMOS Charge Qubits for Scalable Quantum Processors at 4K. ISCAS 2020: 1-5
2010 – 2019
- 2019
- [j13]Panagiotis Giounanlis
Modeling of Semiconductor Electrostatic Qubits Realized Through Coupled Quantum Dots. IEEE Access 7: 49262-49278 (2019) - [c12]Imran Bashir
A Mixed-Signal Control Core for a Fully Integrated Semiconductor Quantum Computer System-on-Chip. ESSCIRC 2019: 125-128 - [c11]Panagiotis Giounanlis, Elena Blokhina
A Python-Verilog Toolbox for Modeling of a Hadamard Gate Based on Position-Based CMOS Qubits. ICECS 2019: 566-569 - [c10]Imran Bashir
A Verilog-A Model of the Shuttle of an Electron in a Two Quantum-Dot System. NEWCAS 2019: 1-4 - 2018
- [c9]Panagiotis Giounanlis
Occupancy Oscillations and Electron Transfer in Multiple-Quantum-Dot Qubits and their Circuit Representation. ICECS 2018: 153-156
2000 – 2009
- 2008
- [c8]Robert Bogdan Staszewski
A 24mm2 Quad-Band Single-Chip GSM Radio with Transmitter Calibration in 90nm Digital CMOS. ISSCC 2008: 208-209 - 2006
- [j12]Yo-Chuol Ho, Robert Bogdan Staszewski
Charge-Domain Signal Processing of Direct RF Sampling Mixer with Discrete-Time Filters in Bluetooth and GSM Receivers. EURASIP J. Wirel. Commun. Netw. 2006 (2006) - [j11]Chih-Ming Hung
A digitally controlled oscillator system for SAW-less transmitters in cellular handsets. IEEE J. Solid State Circuits 41(5): 1160-1170 (2006) - [j10]Khurram Muhammad, Yo-Chuol Ho, Terry Mayhugh Jr., Chih-Ming Hung
The First Fully Integrated Quad-Band GSM/GPRS Receiver in a 90-nm Digital CMOS Process. IEEE J. Solid State Circuits 41(8): 1772-1783 (2006) - [j9]Robert Bogdan Staszewski
LMS-based calibration of an RF digitally controlled oscillator for mobile phones. IEEE Trans. Circuits Syst. II Express Briefs 53-II(3): 225-229 (2006) - [c7]Robert Bogdan Staszewski
Software Assisted Digital RF Processor for Single-Chip GSM Radio in 90 nm CMOS. CICC 2006: 81-84 - [c6]Robert Bogdan Staszewski
Digital Signal Processing for RF at 45-nm CMOS and Beyond. CICC 2006: 517-522 - [c5]Robert Bogdan Staszewski
Digital RF Processor Techniques for Single-Chip Radios. CICC 2006: 789-796 - 2005
- [j8]Khurram Muhammad, Robert Bogdan Staszewski
Digital RF processing: toward low-cost reconfigurable radios. IEEE Commun. Mag. 43(8): 105-113 (2005) - [j7]Robert Bogdan Staszewski
A digitally controlled oscillator in a 90 nm digital CMOS process for mobile phones. IEEE J. Solid State Circuits 40(11): 2203-2211 (2005) - [j6]Robert Bogdan Staszewski
All-digital PLL and transmitter for mobile phones. IEEE J. Solid State Circuits 40(12): 2469-2482 (2005) - [j5]Robert Bogdan Staszewski
Direct frequency modulation of an ADPLL for bluetooth/GSM with injection pulling elimination. IEEE Trans. Circuits Syst. II Express Briefs 52-II(6): 339-343 (2005) - [j4]Robert Bogdan Staszewski
SoC with an integrated DSP and a 2.4-GHz RF transmitter. IEEE Trans. Very Large Scale Integr. Syst. 13(11): 1253-1265 (2005) - [c4]Khurram Muhammad, Yo-Chuol Ho, Terry Mayhugh Jr., Chih-Ming Hung
A discrete time quad-band GSM/GPRS receiver in a 90nm digital CMOS process. CICC 2005: 809-812 - [c3]Robert Bogdan Staszewski
Digital RF processor (DRP™) for cellular phones. ICCAD 2005: 122-129 - [c2]Robert Bogdan Staszewski
Digital RF Processing Techniques for SoC Radios, invited. IWSOC 2005: 217-222 - 2004
- [j3]Robert Bogdan Staszewski
All-digital TX frequency synthesizer and discrete-time receiver for Bluetooth radio in 130-nm CMOS. IEEE J. Solid State Circuits 39(12): 2278-2291 (2004) - 2003
- [j2]Robert Bogdan Staszewski
Digitally controlled oscillator (DCO)-based architecture for RF frequency synthesis in a deep-submicrometer CMOS Process. IEEE Trans. Circuits Syst. II Express Briefs 50(11): 815-828 (2003) - [j1]Robert Bogdan Staszewski
Just-in-time gain estimation of an RF digitally-controlled oscillator for digital direct frequency modulation. IEEE Trans. Circuits Syst. II Express Briefs 50(11): 887-892 (2003) - [c1]Robert Bogdan Staszewski
Just-in-time gain estimation of an RF digitally-controlled oscillator. CICC 2003: 571-574
Coauthor Index
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last updated on 2024-10-07 21:17 CEST by the dblp team
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