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ORCIDKlaus Hofmann
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2020 – today
- 2024
[j7]Julian Peters
, Nathanael Mirbach, Felix Herbst, David Riehl, Mario Kupnik, Klaus Hofmann, Sven Matthiesen:
Overcoming Conflicts of Objectives Between Sensory and Mechanical Domain in the Development of Sensor-Integrating Machine Elements Using the Example of Bolts. IEEE Access 12: 93975-93992 (2024)- 2023
- [c95]Dominic Korner, Andreas Kramer, Klaus Hofmann, Felix Hausch:
Standalone Area Optimized ASIC Tag Powered and Programmable by Light for Identification of Novel Drug Candidates. DDECS 2023: 150-154 - [c94]David Riehl, Ferdinand Keil, Klaus Hofmann:
From breadboard to complex electronic systems - introducing a heterogenous group of undergrad students to design and analysis of electronic circuits. FIE 2023: 1-5 - [c93]Anna Pfendler, Ferdinand Keil, Jutta Hanson, Klaus Hofmann:
How to Inspire Girls for STEM Studies Through a Series of Consecutive Multi-Day Hands-On Labs. GECon 2023: 1-5 - [c92]Markus Graber, Klaus Hofmann:
Flexible Routing to Overcome the Embedding Bottleneck of Oscillator-based Ising Machines. ICECS 2023: 1-4 - [c91]Markus Graber, Klaus Hofmann:
A Coupled Oscillator Network to Solve Combinatorial Optimization Problems with Over 95% Accuracy. ISCAS 2023: 1-5 - [c90]Niladri Bhattacharjee, Maximilian Reuter, Klaus Hofmann, Thomas Mikolajick, Jens Trommer:
Single Transistor Analog Building Blocks: Exploiting Back-Bias Reconfigurable Devices. NEWCAS 2023: 1-5 - [c89]Johannes Pfau, Jiro Hernandez, Maximilian Reuter, Klaus Hofmann, Jürgen Becker:
Co-Simulating Region-Based Dynamic Voltage Scaling for FPGA Architecture Design. NorCAS 2023: 1-7 - [c88]Markus Graber, Klaus Hofmann:
An Enhanced 1440 Coupled CMOS Oscillator Network to Solve Combinatorial Optimization Problems. SOCC 2023: 1-6 - 2022
- [j6]Xiang Ding, Liang Zhang, Wenfeng Liu, Dongbai Yi, Yingjiang Ma, Klaus Hofmann:
A Pattern Extraction Based Background Calibration Technique for SAR ADCs. IEEE Trans. Circuits Syst. II Express Briefs 69(1): 10-14 (2022) - [c87]Markus Graber, Klaus Hofmann:
Analysis and Design of Oscillator Coupling for Solving Combinatorial Optimization Problems. ICECS 2022 2022: 1-4 - [c86]Felix Herbst, Romol Chadda, Claas Hartmann, Julian Peters, David Riehl, Thomas Gwosch, Klaus Hofmann, Sven Matthiesen, Mario Kupnik:
Multi-axis Force Sensor for Sensor-integrating Bolts. IEEE SENSORS 2022: 1-4 - [c85]Maximilian Reuter, Dakyung Lee, David Riehl, Klaus Hofmann:
Quick Compact Model Development Through Slow Transient Simulation: An Alternative Approach to Table Models for Emerging Nanodevices. NEWCAS 2022: 485-489 - [c84]Markus Graber, Klaus Hofmann:
A Versatile & Adjustable 400 Node CMOS Oscillator Based Ising Machine to Investigate and Optimize the Internal Computing Principle. SOCC 2022: 1-6 - 2021
- [j5]Eman Azab, Yasser G. Hegazy, Hansjoerg Reeg, Marcus Schwickert, Klaus Hofmann:
Tunneling Magnetoresistance DC Current Transformer for Ion Beam Diagnostics. Sensors 21(9): 3043 (2021) - [j4]Maximilian Reuter, Johannes Pfau, Tillmann A. Krauss, Jürgen Becker, Klaus Hofmann:
From MOSFETs to Ambipolar Transistors: Standard Cell Synthesis for the Planar RFET Technology. IEEE Trans. Circuits Syst. I Regul. Pap. 68(1): 114-125 (2021) - [c83]Ferdinand Keil, David Riehl, Klaus Hofmann:
Converting an Undergrad-Lab to an Interactive E-Learning Experience That Enables Student Teamwork. FIE 2021: 1-5 - [c82]Lukas Mennicke, Klaus Hofmann:
Pulse Oximetry - Teaching basic Electronic Sensor Signal Processing in a Medical Context. FIE 2021: 1-4 - [c81]Bettina M. J. Kern, Andreas Baumann, Thomas E. Kolb, Katharina Sekanina, Klaus Hofmann, Tanja Wissik, Julia Neidhardt:
A Review and Cluster Analysis of German Polarity Resources for Sentiment Analysis. LDK 2021: 37:1-37:17 - [c80]Andreas Baumann, Klaus Hofmann, Bettina M. J. Kern, Anna Marakasova, Julia Neidhardt, Tanja Wissik:
Exploring Causal Relationships Among Emotional and Topical Trajectories in Political Text Data. LDK 2021: 38:1-38:8 - [c79]Eman Azab, Tarek Eldahrawy, Yasser G. Hegazy, Klaus Hofmann:
Design of Fast-Settling 40-dB VGA for Closed-loop Current Monitoring System. NEWCAS 2021: 1-4 - 2020
- [j3]Nico Angeli, Klaus Hofmann:
Low-Power All-Digital Multiphase DLL Design Using a Scalable Phase-to-Digital Converter. IEEE Trans. Circuits Syst. I Fundam. Theory Appl. 67-I(4): 1158-1168 (2020) - [j2]Nico Angeli, Klaus Hofmann:
Fast Digital Clock Calibration of a Differential 6.4 Gb/s/pin Bidirectional Asymmetric Memory Interface. IEEE Trans. Circuits Syst. 67-II(11): 2387-2391 (2020) - [c78]Johannes Pfau, Maximilian Reuter, Klaus Hofmann, Jürgen Becker:
Designing Universal Logic Module FPGA Architectures for Use With Ambipolar Transistor Technology. FPT 2020: 165-173 - [c77]Santhosh Shetty Chowdary, Mohamed A. Abd El Ghany, Klaus Hofmann:
IoT based Wireless Energy Efficient Smart Metering System Using ZigBee in Smart Cities. IoTSMS 2020: 1-4 - [c76]Maximilian Reuter, Johannes Pfau, Tillmann A. Krauss, Mahdi Moradinasab, Udo Schwalke, Jürgen Becker, Klaus Hofmann:
Towards Ambipolar Planar Devices: The DeFET Device in Area Constrained XOR Applications. LASCAS 2020: 1-4 - [c75]Oliver Bachmann, Klaus Hofmann:
A novel Approach for Extending the Bandwidth Limitation of Tracking-ADCs. MOCAST 2020: 1-4 - [c74]Sandy A. Wasif, Salma Hesham, Diana Goehringer, Klaus Hofmann, Mohamed A. Abd El Ghany:
Energy Efficient Synchronous - Asynchronous Circuit-Switched NoC. MOCAST 2020: 1-4
2010 – 2019
- 2019
- [c73]Sreekesh Lakshminarayanan, Klaus Hofmann:
A Wideband Large Dynamic Range Logarithmic RF Power Detector With 50 mV Input Offset Cancellation Range. APCCAS 2019: 85-88 - [c72]Maximilian Reuter, Tillmann A. Krauss, Mahdi Moradinasab, Johannes Pfau, Udo Schwalke, Jürgen Becker, Klaus Hofmann:
From MOSFETs to Ambipolar Transistors: A Static DeFET Inverter Cell for SOI. APCCAS 2019: 113-116 - [c71]Katrin Hirmer, Klaus Hofmann:
Predicting Interferences of Switching High Voltage Devices on Mixed-Signal Designs. ICECS 2019: 354-357 - [c70]Nico Angeli, Oliver Bachmann, Klaus Hofmann:
A 2.5 GHz All-Digital Multiphase DLL and Phase Shifter in 65 nm CMOS using a Scalable Phase-to-Digital Converter. ISCAS 2019: 1-5 - [c69]Katrin Hirmer, Klaus Hofmann:
Substrate Coupling in a Fully Integrated Three-State High Voltage Inverter. NEWCAS 2019: 1-4 - [c68]Nico Angeli, Klaus Hofmann:
An All-Digital Duty-Cycle Corrector for Parallel High-Speed I/O Links. NORCAS 2019: 1-6 - [c67]Johannes Pfau, Maximilian Reuter, Tanja Harbaum, Klaus Hofmann, Jürgen Becker:
A Hardware Perspective on the ChaCha Ciphers: Scalable Chacha8/12/20 Implementations Ranging from 476 Slices to Bitrates of 175 Gbit/s. SoCC 2019: 294-299 - [c66]Sreekesh Lakshminarayanan, Klaus Hofmann:
A Digitally Controllable Passive Variable Slope Gain Equalizer for Wideband Radio Frequency System-on-Chip Applications. SoCC 2019: 461-465 - [i2]Katrin Hirmer, Thorben Casper, Sebastian Schöps, Klaus Hofmann:
3D Field Simulation Model for Bond Wire On-Chip Inductors Validated by Measurements. CoRR abs/1910.06831 (2019) - 2018
- [c65]Omar Farag, Mariam Mohamed, Mohamed A. Abd El-Ghany, Klaus Hofmann:
Integrated Sensors for Early Breast Cancer Diagnostics. DDECS 2018: 153-157 - [c64]Nico Angeli, Klaus Hofmann:
A Low-Power and Area-Efficient Digitally Controlled Shunt-Capacitor Delay Element for High-Resolution Delay Lines. ICECS 2018: 717-720 - [c63]Esraa Ragab, Mohamed A. Abd El Ghany, Klaus Hofmann:
DDR2 Memory Controller for Multi-core Systems with AMBA AXI Interface. ICM 2018: 224-227 - [c62]Nico Angeli, Klaus Hofmann:
A Scalable Fully Synthesized Phase-to-Digital Converter for Phase and Duty-Cycle Measurement of High-Speed Clocks. ISCAS 2018: 1-5 - [c61]Xiang Ding, Klaus Hofmann, Liang Zhang, Dongbai Yi, Yingjiang Ma:
Redundant Double Conversion based Digital Background Calibration of SAR ADC with Convergence Acceleration and Assistance. MIXDES 2018: 192-197 - 2017
- [c60]Mostafa A. Foda, Mohamed A. Abd El-Ghany, Klaus Hofmann:
Efficient polynomial regression algorithm for LTE turbo decoding. ICECS 2017: 264-269 - [c59]Ali A. Aboughaly, Danyal Iqbal, Mohamed A. Abd El Ghany, Klaus Hofmann:
NICBPM: Non-invasive cuff-less blood pressure monitor. ICM 2017: 1-4 - [c58]Sreekesh Lakshminarayanan, Klaus Hofmann:
A wideband RF power detector with -56 dB sensitivity and 64 dB dynamic range in SiGe BiCMOS technology. ISCAS 2017: 1-4 - [i1]Tuomo von Lerber, Matti Lassas, Quang Trung Le, Vladimir Lyubopytov, Arkadi Chipouline, Klaus Hofmann, Franko Küppers:
Optical computing by injection-locked lasers. CoRR abs/1709.07900 (2017) - 2016
- [c57]Yong Hu, Stefan Dessloch, Klaus Hofmann:
Temporal View Maintenance in Wide-Column Stores with Attribute-Timestamping Model. ADBIS 2016: 243-257 - [c56]Harshad Dhotre, Mehdi Dehbashi, Ulrike Pfannkuchen, Klaus Hofmann:
Automated Optimization of Scan Chain Structure for Test Compression-Based Designs. ATS 2016: 185-190 - [c55]Michael S. Saleab, Mohamed A. Abd El-Ghany, Ramez M. Toma, Klaus Hofmann:
Real-time sleep detection and warning system to ensure driver's safety based on EEG. DDECS 2016: 231-236 - [c54]Adnan Assar, Klaus Hofmann:
A hardware implementation of the TCP protocol applying TCP-BIC and TCP-CUBIC standards. ICM 2016: 37-40 - [c53]Klaus Hofmann, Tu Darmstadt:
The long way to power efficient, high performance DRAMs. PATMOS 2016: 289-290 - [c52]Eman A. Soliman, Klaus Hofmann, Hansjoerg Reeg, Marcus Schwickert:
Noise study of open-loop direct current-current transformer using magneto-resistance sensors. SAS 2016: 1-5 - 2015
- [c51]Thomas Hollstein, Siavoosh Payandeh Azad, Thilo Kogge, Haoyuan Ying, Klaus Hofmann:
NoCDepend: A Flexible and Scalable Dependability Technique for 3D Networks-on-Chip. DDECS 2015: 75-78 - [c50]Mohamed A. Abd El-Ghany, Michael S. Saleab, Ramez M. Toma, Klaus Hofmann:
Efficient wearable real-time vital signs monitoring system. ICECS 2015: 217-220 - [c49]Ali Ahmed, Salma Hesham, Mohamed A. Abd El Ghany, Diana Göhringer, Klaus Hofmann:
Online bicast allocation algorithm for contention-free-routing NoCs. ICECS 2015: 324-327 - [c48]Alex Schönberger, Klaus Hofmann:
Analysis of asymmetric 3D DRAM architecture in combination with L2 cache size reduction. HPCS 2015: 123-128 - 2014
- [c47]Jing Ning, Klaus Hofmann:
A 120V high voltage DAC array for a tunable antenna in communication system. DDECS 2014: 65-70 - [c46]Harish Balasubramaniam, Klaus Hofmann:
Analysis of current conveyor non-idealities for implementation as integrator in delta sigma modulators. DDECS 2014: 89-92 - [c45]Salma Hesham, Mohamed A. Abd El Ghany, Klaus Hofmann:
High throughput architecture for the Advanced Encryption Standard Algorithm. DDECS 2014: 167-170 - [c44]Lufei Shen, Ferdinand Keil, Klaus Hofmann:
Stabilization methods for integrated high voltage charge pumps. DDECS 2014: 226-229 - [c43]Haoyuan Ying, Klaus Hofmann, Thomas Hollstein:
Dynamic quadrant partitioning adaptive routing algorithm for irregular reduced vertical link density topology 3-Dimensional Network-on-Chips. HPCS 2014: 516-522 - [c42]Yuan Fang, Jonas Bargon, Ashok Jaiswal, Klaus Hofmann:
A low-jitter clock and data recovery for GDDR5 interface trainings. ICICDT 2014: 1-4 - [c41]Alex Schönberger, Klaus Hofmann:
Fast Memory Region: 3D DRAM memory concept evaluated for JPEG2000 algorithm. ISSoC 2014: 1-4 - [c40]Alex Schönberger, Klaus Hofmann:
3DMemory - Memory usage analysis tool. MECO 2014: 81-85 - [c39]Harish Balasubramaniam, Klaus Hofmann:
Robust design methodology for switched capacitor delta sigma modulators based on current conveyors. NEWCAS 2014: 277-280 - [c38]Abdelrahman H. Radwan, Ahmad M. Marzouk, Mohamed A. Abd El-Ghany, Klaus Hofmann:
An efficient maximum power point tracking algorithm for solar PV panels. NORCHIP 2014: 1-4 - [c37]Kris Heid, Haoyuan Ying, Christian Hochberger, Klaus Hofmann:
LatEst: Latency estimation and high speed evaluation for wormhole switched Networks-on-Chip. ReCoSoC 2014: 1-7 - [c36]Haoyuan Ying, Thomas Hollstein, Klaus Hofmann:
A hardware/software co-design reconfigurable Network-on-Chip FPGA emulation method. ReCoSoC 2014: 1-8 - [c35]Ashok Jaiswal, Dominik walk, Yuan Fang, Klaus Hofmann:
Low-power high-speed on-chip asynchronous Wave-pipelined CML SerDes. SoCC 2014: 5-10 - [c34]Boris Traskov, Ulrich Langenbach, Klaus Hofmann, Peter Gregorius:
Hardware architecture of an Internet Protocol Version 6 processor. SoCC 2014: 198-203 - 2013
- [j1]Haoyuan Ying, Ashok Jaiswal, Thomas Hollstein, Klaus Hofmann:
Deadlock-free generic routing algorithms for 3-dimensional Networks-on-Chip with reduced vertical link density topologies. J. Syst. Archit. 59(7): 528-542 (2013) - [c33]Haoyuan Ying, Thomas Hollstein, Klaus Hofmann:
Fast and optimized task allocation method for low vertical link density 3-dimensional networks-on-chip based many core systems. DATE 2013: 1777-1782 - [c32]Mohamed A. Wanas, Mohamed A. Abd El-Ghany, Klaus Hofmann:
Hybrid Mesh-Ring wireless NoC for multi-core system. DDECS 2013: 295-296 - [c31]Yuan Fang, Ling Chen, Ashok Jaiswal, Klaus Hofmann, Peter Gregorius:
Adaptive Equalizer Training for High-Speed Low-Power Communication Systems. DSD 2013: 745-751 - [c30]Ashok Jaiswal, Yuan Fang, Peter Gregorius, Klaus Hofmann:
Adaptive Low-Power Synchronization Technique for Multiple Source-Synchronous Clocks in High-Speed Communication Systems. DSD 2013: 752-758 - [c29]Lufei Shen, Klaus Hofmann:
Design strategies for integrated high voltage charge pumps. ECCTD 2013: 1-4 - [c28]Ulrich Langenbach, A. Berthe, Boris Traskov, S. Weide, Klaus Hofmann, Peter Gregorius:
A 10 GbE TCP/IP hardware stack as part of a protocol acceleration platform. ICCE-Berlin 2013: 381-384 - [c27]Yuan Fang, Uzair Muhammad, Ashok Jaiswal, Klaus Hofmann:
Low-power design of hybrid digital impedance calibration for process, voltage, temperature compensations. ICECS 2013: 37-40 - [c26]Yuan Fang, Ling Chen, Ashok Jaiswal, Klaus Hofmann:
Transmitter equalizer training based on pilot signal and peak detection. ICECS 2013: 377-380 - [c25]Ayman A. Salem, Mohamed A. Abd El-Ghany, Klaus Hofmann:
Performability measurement of coding algorithms for network on chip. ICECS 2013: 691-694 - [c24]Haoyuan Ying, Thomas Hollstein, Klaus Hofmann:
GSNoC - The comprehensive design platform for 3-dimensional Networks-on-Chip based many core embedded systems. HPCS 2013: 217-223 - [c23]Jing Ning, Klaus Hofmann:
A integrated high voltage controller for a reconfigurable antenna array. NORCHIP 2013: 1-4 - [c22]Lufei Shen, Klaus Hofmann:
Advanced clock schemes with dead time techniques for high voltage charge pumps. SoCC 2013: 166-171 - [c21]Ashok Jaiswal, Yuan Fang, Kashif Nawaz, Klaus Hofmann:
A wide range programmable duty cycle corrector. SoCC 2013: 192-196 - [c20]Ayman A. Salem, Mohamed A. Abd El-Ghany, Klaus Hofmann:
Coding algorithms for network on a chip. SoCC 2013: 216-221 - [c19]Yuan Fang, Ashok Jaiswal, Klaus Hofmann:
Low-power signal integrity trainings for multi-clock source-synchronous memory systems. SoCC 2013: 319-324 - [c18]Erick Gonzalez-Rodriguez, Holger Maune, Lufei Shen, Ibrahim A. Shah, Dirk Dahlhaus, Klaus Hofmann, Rolf Jakoby:
Reconfigurable radio frontends for cooperative sensor networks: Tasks and challenges. SPAWC 2013: 515-519 - 2012
- [c17]Haoyuan Ying, Ashok Jaiswal, Mohamed A. Abd El-Ghany, Thomas Hollstein, Klaus Hofmann:
A simulation framework for 3-dimension Networks-on-chip with different vertical channel density configurations. DDECS 2012: 83-88 - [c16]Klaus Hofmann:
Network-on-Chip: Challenges for the interconnect and I/O-architecture. HPCS 2012: 252-253 - [c15]Philip Gottschling, Haoyuan Ying, Klaus Hofmann:
GSNOC UI - A comfortable graphical user interface for advanced design and evaluation of 3-dimensional scalable Networks-on-Chip. HPCS 2012: 261-267 - [c14]Haoyuan Ying, Ashok Jaiswal, Klaus Hofmann:
Deadlock-free routing algorithms for 3-dimension Networks-on-Chip with reduced vertical channel density topologies. HPCS 2012: 268-274 - [c13]Erick Gonzalez-Rodriguez, Holger Maune, Yuliang Zheng, Lufei Shen, Ibrahim Asghar Shah, Klaus Hofmann, Dirk Dahlhaus, Rolf Jakoby:
Impact of group delay on tunable impedance matching networks based on Barium-Strontium-Titanate varactors. ISSSE 2012: 1-5 - [c12]Haoyuan Ying, Kris Heid, Thomas Hollstein, Klaus Hofmann:
A genetic algorithm based optimization method for low vertical link density 3-dimensional Networks-on-Chip many core systems. NORCHIP 2012: 1-4 - [c11]Deena M. Zamzam, Mohamed A. Abd El-Ghany, Klaus Hofmann:
Performability of error control schemes for NOC interconnects. NORCHIP 2012: 1-5 - [c10]Haoyuan Ying, Thomas Hollstein, Klaus Hofmann:
Communication-centric high level synthesis metrics for low vertical channel density 3-dimensional Networks-on-Chip. ReCoSoC 2012: 1-6 - 2011
- [c9]Haoyuan Ying, Ashok Jaiswal, Thomas Hollstein, Klaus Hofmann:
A Fast Congestion-Aware Flow Control Mechanism for ID-Based Networks-on-Chip with Best-Effort Communication. DSD 2011: 63-70 - [c8]Harish Balasubramaniam, Klaus Hofmann:
Design of digitally assisted 1.5b/stage pipeline ADCs using fully differential current conveyors. ECCTD 2011: 873-876 - [c7]Deena M. Zamzam, Mohamed A. Abd El-Ghany, Klaus Hofmann, Mohammad Ismail:
Highly reliable and power efficient NOC interconnects. NORCHIP 2011: 1-4 - [c6]Thomas Hollstein, Faizal Arya Samman, Ashok Jaiswal, Haoyuan Ying, Manfred Glesner, Klaus Hofmann:
Invited paper: Design criteria for dependable System-on-Chip architectures. ReCoSoC 2011: 1-6
1990 – 1999
- 1999
- [c5]Bernard Courtois, Jean-Michel Karam, Salvador Mir, Marcelo Lubaszewski, Vladimír Székely, Márta Rencz, Klaus Hofmann, Manfred Glesner:
Design and Test of MEMs. VLSI Design 1999: 270- - 1997
- [b1]Klaus Hofmann:
Differential model generation for microsystem components using analog hardware description languages. Darmstadt University of Technology, 1997, pp. 1-225 - [c4]Jean-Michel Karam, Bernard Courtois, Hicham Boutamine, P. Drake, András Poppe, Vladimír Székely, Márta Rencz, Klaus Hofmann, Manfred Glesner:
CAD and Foundries for Microsystems. DAC 1997: 674-679 - [c3]Klaus Hofmann, Manfred Glesner, Nicu Sebe, Anca Manuela Manolescu, Santiago Marco, Josep Samitier, Jean-Michel Karam, Bernard Courtois:
Generation of the HDL-A-model of a micromembrane from its finite-element-description. ED&TC 1997: 108-112 - 1996
- [c2]Jean-Michel Karam, Bernard Courtois, András Poppe, Klaus Hofmann, Márta Rencz, Manfred Glesner, Vladimír Székely:
Applied design and analysis of microsystems. ED&TC 1996: 528-532 - 1992
- [c1]Ralf Knirsch, Klaus Hofmann:
An Improved Parallel Algorithm for the Solution of Molecular Dynamics Problems on MIMD Multiprocessors. CONPAR 1992: 829-830
Coauthor Index
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