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Joachim Becker
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2020 – today
- 2024
- [c57]Bjoern Driemeyer, Holger Mandry, David-Peter Wiens, Joachim Becker, Maurits Ortmanns:
Optimisation of RO-PUF Design Parameters for Minimising the Effective Area per PUF Bit. ISCAS 2024: 1-5 - 2023
- [c56]Rostyslav Yurynets, Zoryna Yurynets, Joachim Becker, Oleksandra Kryven:
Assessing Flexibility of Organizations for Strategic Development of Agricultural Business Projects. COLINS (1) 2023: 289-299 - [c55]Markus Sporer, Nicolas Graber, Stefan Reich, Calogero Gueli, Joachim Becker, Thomas Stieglitz, Maurits Ortmanns:
NeuroBus - Architecture and Communication Bus for an Ultra-Flexible Neural Interface. ISCAS 2023: 1-5 - 2022
- [j17]Mohamed A. Mokhtar, Ahmed Abdelaal, Markus Sporer, Joachim Becker, John G. Kauffman, Maurits Ortmanns:
A 0.9-V DAC-Calibration-Free Continuous-Time Incremental Delta-Sigma Modulator Achieving 97-dB SFDR at 2 MS/s in 28-nm CMOS. IEEE J. Solid State Circuits 57(11): 3407-3417 (2022) - [c54]Markus Sporer, Stefan Reich, Holger Mandry, Joachim Becker, Maurits Ortmanns:
A Wireless Headstage Prototype Based on a Neurorecorder IC. BioCAS 2022: 65-69 - [c53]Stefan Reich, Markus Sporer, Joachim Becker, Stefan B. Rieger, Martin Schüttler, Maurits Ortmanns:
A 32-ch Neuromodulator with redundant Voltage Monitors avoiding Blocking Capacitors. ESSCIRC 2022: 201-204 - [c52]Bjoern Driemeyer, Holger Mandry, David-Peter Wiens, Joachim Becker, Maurits Ortmanns:
PUF-Entropy Extraction of DAC Intersymbol-Interference using Continuous-Time Delta-Sigma ADCs. ICECS 2022 2022: 1-4 - 2021
- [j16]Stefan Reich, Markus Sporer, Michael Haas, Joachim Becker, Martin Schüttler, Maurits Ortmanns:
A High-Voltage Compliance, 32-Channel Digitally Interfaced Neuromodulation System on Chip. IEEE J. Solid State Circuits 56(8): 2476-2487 (2021) - [j15]Stefan Reich, Markus Sporer, Michael Haas, Joachim Becker, Martin Schüttler, Maurits Ortmanns:
Erratum to "A High-Voltage Compliance, 32-Channel Digitally Interfaced Neuromodulation System-on-Chip". IEEE J. Solid State Circuits 56(10): 3203 (2021) - [j14]Mahdi Rajabzadeh, Matthias Häberle, Joachim Becker, Maurits Ortmanns:
Comparison Study of DAC Realizations in Current Input CTΣΔ Modulators. IEEE Trans. Circuits Syst. II Express Briefs 68(1): 111-115 (2021) - [c51]Mohamed A. Mokhtar, Ahmed Abdelaal, Markus Sporer, Joachim Becker, John G. Kauffman, Maurits Ortmanns:
A 0.9-V Calibration-Free 97dB-SFDR 2-MS/s Continuous Time Incremental Delta-Sigma ADC Utilizing Variable Bit Width Quantizer in 28nm CMOS. CICC 2021: 1-2 - [c50]Holger Mandry, Sven Müelich, Joachim Becker, Robert F. H. Fischer, Maurits Ortmanns:
Using Polynomial Interpolation for Reproducing Multi-Valued Responses of Physical Unclonable Functions on FPGAs. ISCAS 2021: 1-5 - 2020
- [j13]Holger Mandry, Andreas Herkle, Sven Müelich, Joachim Becker, Robert F. H. Fischer, Maurits Ortmanns:
Normalization and Multi-Valued Symbol Extraction From RO-PUFs for Enhanced Uniform Probability Distributions. IEEE Trans. Circuits Syst. 67-II(12): 3372-3376 (2020) - [c49]Andreas Herkle, Holger Mandry, Joachim Becker, Maurits Ortmanns:
Live Demonstration: Generating FPGA Fingerprints Utilizing Full-Chip Characterization with Ring-Oscillator PUFs. ISCAS 2020: 1 - [c48]Andreas Herkle, Holger Mandry, Stefan Reich, Markus Sporer, Joachim Becker, Maurits Ortmanns:
Extracting Weak PUFs from Differential Nonlinearity of Digital-to-Analog Converters. ISCAS 2020: 1-5 - [c47]Andreas Herkle, Philipp Rossak, Holger Mandry, Joachim Becker, Maurits Ortmanns:
Comparison of Measurement and Readout Strategies for RO-PUFs on Xilinx Zynq-7000 SoC FPGAs. ISCAS 2020: 1-5
2010 – 2019
- 2019
- [c46]Andreas Herkle, Holger Mandry, Joachim Becker, Maurits Ortmanns:
In-depth Analysis and Enhancements of RO-PUFs with a Partial Reconfiguration Framework on Xilinx Zynq-7000 SoC FPGAs. HOST 2019: 238-247 - [c45]Holger Mandry, Andreas Herkle, Ludwig Kürzinger, Sven Müelich, Joachim Becker, Robert F. H. Fischer, Maurits Ortmanns:
Modular PUF Coding Chain with High-Speed Reed-Muller Decoder. ISCAS 2019: 1-5 - 2018
- [j12]Ahmad AlMarashli, Jens Anders, Joachim Becker, Maurits Ortmanns:
A Nyquist Rate SAR ADC Employing Incremental Sigma Delta DAC Achieving Peak SFDR = 107 dB at 80 kS/s. IEEE J. Solid State Circuits 53(5): 1493-1507 (2018) - [j11]Lishan Lv, Ankesh Jain, Xiong Zhou, Joachim Becker, Qiang Li, Maurits Ortmanns:
A 0.4-V Gm-C Proportional-Integrator-Based Continuous-Time ΔΣ Modulator With 50-kHz BW and 74.4-dB SNDR. IEEE J. Solid State Circuits 53(11): 3256-3267 (2018) - [c44]Jiazuo Chi, Ankesh Jain, Jens Sauerbrey, Joachim Becker, Maurits Ortmanns:
Interferer Induced Jitter Reduction in Bandpass CT ΣΔ Modulators for Receiver Applications. ISCAS 2018: 1-4 - [c43]Andreas Herkle, Joachim Becker, Maurits Ortmanns:
An Arbiter PUF employing eye-opening oscillation for improved noise suppression. ISCAS 2018: 1-5 - [c42]Mahdi Rajabzadeh, Denis Djekic, Matthias Haeberle, Joachim Becker, Jens Anders, Maurits Ortmanns:
Comparison Study of Integrated Potentiostats: Resistive-TIA, Capacitive-TIA, CT ΣΔ Modulator. ISCAS 2018: 1-5 - 2017
- [c41]Joachim Becker, David Pellhammer, Patrick Preisner, Julia C. Gloggler, Bernd G. Lapatki, Maurits Ortmanns:
An implant for wireless in situ measurement of lip pressure with 12 sensors. BioCAS 2017: 1-4 - [c40]Mahdi Rajabzadeh, Joachim Becker, Maurits Ortmanns:
Evaluation of single-bit sigma-delta modulator DAC for electrical impedance spectroscopy. BioCAS 2017: 1-4 - [c39]Matteo Pagin, Joachim Becker, Maurits Ortmanns:
Evaluation of spike sorting and compression for digitally reconfigurable non-uniform quantization. NEWCAS 2017: 177-180 - 2016
- [j10]Rudolf Ritter, John G. Kauffman, Joachim Becker, Maurits Ortmanns:
A 10 MHz Bandwidth, 70 dB SNDR Continuous Time Delta-Sigma Modulator With Digitally Improved Reconfigurable Blocker Rejection. IEEE J. Solid State Circuits 51(3): 660-670 (2016) - [j9]Andreas Herkle, Joachim Becker, Maurits Ortmanns:
Exploiting Weak PUFs From Data Converter Nonlinearity - E.g., A Multibit CT ΔΣ Modulator. IEEE Trans. Circuits Syst. I Regul. Pap. 63-I(7): 994-1004 (2016) - [c38]Jonas Handwerker, M. Eder, M. Tibiletti, Volker Rasche, Klaus Scheffler, Joachim Becker, Maurits Ortmanns, Jens Anders:
An array of fully-integrated quadrature TX/RX NMR field probes for MRI trajectory mapping. ESSCIRC 2016: 217-220 - [c37]Joachim Becker, Jens Anders, Maurits Ortmanns:
A continuous-time field programmable analog array with 1 GHz GBW. ICECS 2016: 209-212 - [c36]Andreas Herkle, Markus Schuster, Joachim Becker, Maurits Ortmanns:
Enhanced Arbiter PUFs using custom sized structures for reduced noise sensitivity. ICECS 2016: 568-571 - 2015
- [c35]Chao Chu, Jens Anders, Joachim Becker, Maurits Ortmanns:
Finite GBW compensation technique for CT ΔΣ modulators with differentiator based ELD compensation. NEWCAS 2015: 1-4 - 2014
- [j8]John G. Kauffman, Pascal Witte, Matthias Lehmann, Joachim Becker, Yiannos Manoli, Maurits Ortmanns:
A 72 dB DR, CT ΔΣ Modulator Using Digitally Estimated, Auxiliary DAC Linearization Achieving 88 fJ/conv-step in a 25 MHz BW. IEEE J. Solid State Circuits 49(2): 392-404 (2014) - [j7]Timon Brückner, Christoph Zorn, Jens Anders, Joachim Becker, Wolfgang Mathis, Maurits Ortmanns:
A GPU-Accelerated Web-Based Synthesis Tool for CT Sigma-Delta Modulators. IEEE Trans. Circuits Syst. I Regul. Pap. 61-I(5): 1429-1441 (2014) - [j6]Matthias Lorenz, Rudolf Ritter, Joachim Becker, Maurits Ortmanns:
A Genetic Algorithm for the Estimation of Nonidealities in Continuous-Time Sigma-Delta Modulators. IEEE Trans. Circuits Syst. II Express Briefs 61-II(6): 388-392 (2014) - [c34]Tianyi Liu, Ulrich Bihr, Joachim Becker, Jens Anders, Maurits Ortmanns:
Live demonstration: In vivo verification of a 100 Mbps transcutaneous optical telemetric link. BioCAS 2014: 186 - [c33]Tianyi Liu, Ulrich Bihr, Joachim Becker, Jens Anders, Maurits Ortmanns:
In vivo verification of a 100 Mbps transcutaneous optical telemetric link. BioCAS 2014: 580-583 - [c32]Ulrich Bihr, Jens Anders, J. Rickert, Martin Schuettler, A. Moeller, K. H. Boven, Joachim Becker, Maurits Ortmanns:
A neural recorder IC with HV input multiplexer for voltage and current stimulation with 18V compliance. ESSCIRC 2014: 103-106 - [c31]Chao Chu, John G. Kauffman, Jens Anders, Joachim Becker, Maurits Ortmanns, Michael Epp, Sebastien Chartier:
A 1.92-GS/s CT ΔΣ modulator with 70-db DR and 78-db SFDR in 15-MHz bandwidth. NEWCAS 2014: 480-483 - 2013
- [c30]Ulrich Bihr, Thomas Ungru, Hongcheng Xu, Jens Anders, Joachim Becker, Maurits Ortmanns:
A bidirectional neural interface with a HV stimulator and a LV neural amplifier. ISCAS 2013: 401-404 - [c29]Hongcheng Xu, Ulrich Bihr, Joachim Becker, Maurits Ortmanns:
A multi-channel neural stimulator with resonance compensated inductive receiver and closed-loop smart power management. ISCAS 2013: 638-641 - [c28]Chao Chu, Timon Brückner, John G. Kauffman, Jens Anders, Joachim Becker, Maurits Ortmanns:
Analysis and design of high speed/high linearity continuous time delta-sigma modulator. ISCAS 2013: 1268-1271 - [c27]John G. Kauffman, Rudolf Ritter, Chao Chu, Joachim Becker, Maurits Ortmanns:
Low power quantizer design in CT Delta Sigma modulators. ISCAS 2013: 1990-1993 - 2012
- [j5]Emilia Noorsal, Kriangkrai Sooksood, Hongcheng Xu, Ralf Hornig, Joachim Becker, Maurits Ortmanns:
A Neural Stimulator Frontend With High-Voltage Compliance and Programmable Pulse Shape for Epiretinal Implants. IEEE J. Solid State Circuits 47(1): 244-256 (2012) - [j4]Timon Brückner, Matthias Lorenz, Christoph Zorn, Joachim Becker, Wolfgang Mathis, Maurits Ortmanns:
Hardware-Accelerated Simulation Environment for CT Sigma-Delta Modulators Using an FPGA. IEEE Trans. Circuits Syst. II Express Briefs 59-II(8): 471-475 (2012) - [c26]Emilia Noorsal, Kriangkrai Sooksood, Ulrich Bihr, Joachim Becker, Maurits Ortmanns:
Distributed clock gating for power reduction of a programmable waveform generator for neural stimulation. EMBC 2012: 3878-3881 - [c25]Hongcheng Xu, Emilia Noorsal, Kriangkrai Sooksood, Joachim Becker, Maurits Ortmanns:
A multichannel neurostimulator with transcutaneous closed-loop power control and self-adaptive supply. ESSCIRC 2012: 309-312 - [c24]Pascal Witte, John G. Kauffman, Timon Brückner, Joachim Becker, Maurits Ortmanns:
An error estimation technique for lowpass and bandpass ΣΔ ADC feedback DACs using a residual test signal. ISCAS 2012: 73-76 - [c23]Ali Zahabi, Farabi Ibne Jamal, Joachim Becker, Muhammad Anis, Maurits Ortmanns:
Digitally-switched resonators for bandpass integrated transmission line ΣΔ modulators. ISCAS 2012: 297-300 - [c22]Pascal Witte, John G. Kauffman, Joachim Becker, Yiannos Manoli, Maurits Ortmanns:
A 72dB-DR ΔΣ CT modulator using digitally estimated auxiliary DAC linearization achieving 88fJ/conv in a 25MHz BW. ISSCC 2012: 154-156 - [c21]Daniel Angele, Martin Stein, John G. Kauffman, Maurits Ortmanns, Joachim Becker:
A reconfigurable Continuous-Time ΔΣ-ADC using a digitally programmable gm-C array. MWSCAS 2012: 810-813 - 2011
- [j3]John G. Kauffman, Pascal Witte, Joachim Becker, Maurits Ortmanns:
An 8.5 mW Continuous-Time ΔΣ Modulator With 25 MHz Bandwidth Using Digital Background DAC Linearization to Achieve 63.5 dB SNDR and 81 dB SFDR. IEEE J. Solid State Circuits 46(12): 2869-2881 (2011) - [j2]Pascal Witte, John G. Kauffman, Joachim Becker, Maurits Ortmanns:
A Correlation-Based Background Error Estimation Technique for Bandpass Delta-Sigma ADC DACs. IEEE Trans. Circuits Syst. II Express Briefs 58-II(11): 748-752 (2011) - [c20]Jörg Henkel, Lars Bauer, Joachim Becker, Oliver Bringmann, Uwe Brinkschulte, Samarjit Chakraborty, Michael Engel, Rolf Ernst, Hermann Härtig, Lars Hedrich, Andreas Herkersdorf, Rüdiger Kapitza, Daniel Lohmann, Peter Marwedel, Marco Platzner, Wolfgang Rosenstiel, Ulf Schlichtmann, Olaf Spinczyk, Mehdi Baradaran Tahoori, Jürgen Teich, Norbert Wehn, Hans-Joachim Wunderlich:
Design and architectures for dependable embedded systems. CODES+ISSS 2011: 69-78 - [c19]Steffen Lange, Hongcheng Xu, Christian Lang, Holger Pless, Joachim Becker, Hans-Jürgen Tiedkte, Eckhard Hennig, Maurits Ortmanns:
An AC-powered optical receiver consuming 270μW for transcutaneous 2Mb/s data transfer. ISSCC 2011: 304-306 - [c18]Kriangkrai Sooksood, Emilia Noorsal, Joachim Becker, Maurits Ortmanns:
A neural stimulator front-end with arbitrary pulse shape, HV compliance and adaptive supply requiring 0.05mm2 in 0.35μm HVCMOS. ISSCC 2011: 306-308 - [c17]John G. Kauffman, Pascal Witte, Joachim Becker, Maurits Ortmanns:
An 8mW 50MS/s CT ΔΣ modulator with 81dB SFDR and digital background DAC linearization. ISSCC 2011: 472-474
2000 – 2009
- 2009
- [c16]Fabian Henrici, Joachim Becker, Stanis Trendelenburg, Daniel DeDorigo, Maurits Ortmanns, Yiannos Manoli:
A Field Programmable Analog Array using Floating Gates for High Resolution Tuning. ISCAS 2009: 265-268 - 2008
- [j1]Joachim Becker, Fabian Henrici, Stanis Trendelenburg, Maurits Ortmanns, Yiannos Manoli:
A Field-Programmable Analog Array of 55 Digitally Tunable OTAs in a Hexagonal Lattice. IEEE J. Solid State Circuits 43(12): 2759-2768 (2008) - [c15]Stanis Trendelenburg, Joachim Becker, Fabian Henrici, Yiannos Manoli:
A GP algorithm for efficient synthesis of GM-C filters on a hexagonal FPAA structure. GECCO 2008: 295-296 - [c14]Joachim Becker, Fabian Henrici, Stanis Trendelenburg, Yiannos Manoli:
A rapid prototyping environment for high-speed reconfigurable analog signal processing. IPDPS 2008: 1-4 - [c13]Joachim Becker, Fabian Henrici, Stanis Trendelenburg, Maurits Ortmanns, Yiannos Manoli:
A hexagonal Field Programmable Analog Array consisting of 55 digitally tunable OTAs. ISCAS 2008: 2897-2900 - [c12]Joachim Becker, Fabian Henrici, Stanis Trendelenburg, Maurits Ortmanns, Yiannos Manoli:
A Continuous-Time Hexagonal Field-Programmable Analog Array in 0.13μm CMOS with 186MHz GBW. ISSCC 2008: 70-71 - 2007
- [c11]Joachim Becker, Stanis Trendelenburg, Fabian Henrici, Yiannos Manoli:
A field programmable Gm-C filter array (FPAA) for online adaptation to environmental changes. AHS 2007: 547-553 - [c10]Joachim Becker, Stanis Trendelenburg, Fabian Henrici, Yiannos Manoli:
Synthesis of analog filters on an evolvable hardware platform using a genetic algorithm. GECCO 2007: 190-197 - [c9]Fabian Henrici, Joachim Becker, Alexander Buhmann, Maurits Ortmanns, Yiannos Manoli:
A Continuous-Time Field Programmable Analog Array Using Parasitic Capacitance Gm-C Filters. ISCAS 2007: 2236-2239 - [c8]Joachim Becker, Stanis Trendelenburg, Yiannos Manoli:
A Unified Environment for Design Entry and 3D Animation of Analog Circuits Schematics. MSE 2007: 17-18 - 2006
- [c7]Joachim Becker, Yiannos Manoli:
Synthesis of Analog Filters on a Continuous-Time FPAA Using a Genetic Algorithm. FPL 2006: 1-4 - 2005
- [c6]Joachim Becker, Fabian Henrici, Yiannos Manoli:
System-Level Analog Simulation of a Mixed-Signal Continuous-Time Field Programmable Analog Array. IWSOC 2005: 434-438 - 2004
- [c5]Joachim Becker, Yiannos Manoli:
A new architecture of field programmable analog arrays for reconfigurable instantiation of continuous-time filters. FPT 2004: 367-370 - [c4]Joachim Becker, Yiannos Manoli:
A continuous-time field programmable analog array (FPAA) consisting of digitally reconfigurable GM-cells. ISCAS (1) 2004: 1092-1095 - 2001
- [c3]Jörg Langeheine, Joachim Becker, Simon Fölling, Karlheinz Meier, Johannes Schemmel:
A Cmos Fpta Chip For Intrinsic Hardware Evolution Of Analog Electronic Circuits. Evolvable Hardware 2001: 172-175 - [c2]Jörg Langeheine, Joachim Becker, Simon Fölling, Karlheinz Meier, Johannes Schemmel:
Initial Studies of a New VLSI Field Programmable Transistor Array. ICES 2001: 62-73
1990 – 1999
- 1998
- [c1]Joachim Becker, Martin Rumpf:
Visualization of Time-Dependent Velocity Fields by Texture Transport. Visualization in Scientific Computing 1998: 91-101
Coauthor Index
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