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2020 – today
- 2024
[c80]Chao Huang, Dejan Markovic, Chenliang Xu, Alexander Richard:
Modeling and Driving Human Body Soundfields Through Acoustic Primitives. ECCV (10) 2024: 1-17- [c79]Yi-Chiao Wu, Dejan Markovic, Steven Krenn, Israel D. Gebru, Alexander Richard:
ScoreDec: A Phase-Preserving High-Fidelity Audio Codec with a Generalized Score-Based Diffusion Post-Filter. ICASSP 2024: 361-365 - [i7]Chao Huang, Dejan Markovic, Chenliang Xu, Alexander Richard:
Modeling and Driving Human Body Soundfields through Acoustic Primitives. CoRR abs/2407.13083 (2024) - 2023
- [j46]Sumeet Singh Nagi
, Uneeb Rathore, Krutikesh Sahoo, Tim Ling, Subramanian S. Iyer, Dejan Markovic:
A 16-nm 784-Core Digital Signal Processor Array, Assembled as a 2 × 2 Dielet With 10-μm Pitch Interdielet I/O for Runtime Multiprogram Reconfiguration. IEEE J. Solid State Circuits 58(1): 111-123 (2023) - [c78]Pranay Manocha, Israel D. Gebru, Anurag Kumar, Dejan Markovic, Alexander Richard:
Nord: Non-Matching Reference Based Relative Depth Estimation from Binaural Speech. ICASSP 2023: 1-5 - [c77]Yi-Chiao Wu, Israel D. Gebru, Dejan Markovic, Alexander Richard:
Audiodec: An Open-Source Streaming High-Fidelity Neural Audio Codec. ICASSP 2023: 1-5 - [c76]Pranay Manocha, Israel Dejene Gebru, Anurag Kumar, Dejan Markovic, Alexander Richard:
Spatialization Quality Metric for Binaural Speech. INTERSPEECH 2023: 5426-5430 - [c75]Xudong Xu, Dejan Markovic, Jacob Sandakly, Todd Keebler, Steven Krenn, Alexander Richard:
Sounding Bodies: Modeling 3D Spatial Sound of Humans Using Body Pose and Audio. NeurIPS 2023 - [i6]Xudong Xu, Dejan Markovic, Jacob Sandakly, Todd Keebler, Steven Krenn, Alexander Richard:
Sounding Bodies: Modeling 3D Spatial Sound of Humans Using Body Pose and Audio. CoRR abs/2311.06285 (2023) - 2022
- [j45]Usama Anwar, Olujimi A. Ajijola, Kalyanam Shivkumar, Dejan Markovic:
Towards a Leadless Wirelessly Controlled Intravenous Cardiac Pacemaker. IEEE Trans. Biomed. Eng. 69(10): 3074-3086 (2022) - [c74]Karren Yang, Dejan Markovic, Steven Krenn, Vasu Agrawal, Alexander Richard:
Audio-Visual Speech Codecs: Rethinking Audio-Visual Speech Enhancement by Re-Synthesis. CVPR 2022: 8217-8227 - [c73]Wen-Chin Huang, Dejan Markovic, Alexander Richard, Israel Dejene Gebru, Anjali Menon:
End-to-End Binaural Speech Synthesis. INTERSPEECH 2022: 1218-1222 - [c72]Dejan Markovic, Alexandre Défossez, Alexander Richard:
Implicit Neural Spatial Filtering for Multichannel Source Separation in the Waveform Domain. INTERSPEECH 2022: 1806-1810 - [c71]Uneeb Rathore, Sumeet Singh Nagi, Subramanian S. Iyer, Dejan Markovic:
A 16nm 785GMACs/J 784-Core Digital Signal Processor Array With a Multilayer Switch Box Interconnect, Assembled as a 2×2 Dielet with 10μm-Pitch Inter-Dielet I/O for Runtime Multi-Program Reconfiguration. ISSCC 2022: 52-54 - [i5]Karren Yang, Dejan Markovic, Steven Krenn, Vasu Agrawal, Alexander Richard:
Audio-Visual Speech Codecs: Rethinking Audio-Visual Speech Enhancement by Re-Synthesis. CoRR abs/2203.17263 (2022) - [i4]Dejan Markovic, Alexandre Défossez, Alexander Richard:
Implicit Neural Spatial Filtering for Multichannel Source Separation in the Waveform Domain. CoRR abs/2206.15423 (2022) - [i3]Wen-Chin Huang, Dejan Markovic, Alexander Richard, Israel Dejene Gebru, Anjali Menon:
End-to-End Binaural Speech Synthesis. CoRR abs/2207.03697 (2022) - [i2]Camille Noufi, Dejan Markovic, Peter Dodds:
Reconstructing the Dynamic Directivity of Unconstrained Speech. CoRR abs/2209.04473 (2022) - 2021
- [j44]Friedel Gerfers, Ping-Hsuan Hsieh, Dejan Markovic, Jun Deguchi, Eric Karl:
Introduction to the Special Issue on the 2020 IEEE International Solid-State Circuits Conference (ISSCC). IEEE J. Solid State Circuits 56(1): 3-6 (2021) - [c70]Israel D. Gebru, Dejan Markovic, Alexander Richard, Steven Krenn, Gladstone Alexander Butler, Fernando De la Torre, Yaser Sheikh:
Implicit HRTF Modeling Using Temporal Convolutional Networks. ICASSP 2021: 3385-3389 - [c69]Alexander Richard, Dejan Markovic, Israel D. Gebru, Steven Krenn, Gladstone Alexander Butler, Fernando De la Torre, Yaser Sheikh:
Neural Synthesis of Binaural Speech From Mono Audio. ICLR 2021 - [c68]Sumeet Singh Nagi, Dejan Markovic:
A Multi-Domain Architectural Efficiency Metric. SiPS 2021: 265-270 - 2020
- [j43]Alireza Yousefi, Asad A. Abidi, Dejan Markovic:
Analysis and Design of a Robust, Low-Power, Inductively Coupled LSK Data Link. IEEE J. Solid State Circuits 55(9): 2583-2596 (2020) - [j42]Parinaz Abiri, Alireza Yousefi, Arash Abiri, Varun Gudapati, Yichen Ding, Kim-Lien Nguyen, Ahmad Abiri, Dejan Markovic, Yu-Chong Tai, Tzung K. Hsiai:
A Multi-Dimensional Analysis of a Novel Approach for Wireless Stimulation. IEEE Trans. Biomed. Eng. 67(12): 3307-3316 (2020)
2010 – 2019
- 2019
- [j41]Jiacheng Pan, Asad A. Abidi, Wenlong Jiang, Dejan Markovic:
Simultaneous Transmission of Up To 94-mW Self-Regulated Wireless Power and Up To 5-Mb/s Reverse Data Over a Single Pair of Coils. IEEE J. Solid State Circuits 54(4): 1003-1016 (2019) - [j40]Dejan Rozgic, Vahagn Hokhikyan, Wenlong Jiang, Ippei Akita, Sina Basir-Kazeruni, Hariprasad Chandrakumar, Dejan Markovic:
A 0.338 cm3, Artifact-Free, 64-Contact Neuromodulation Platform for Simultaneous Stimulation and Sensing. IEEE Trans. Biomed. Circuits Syst. 13(1): 38-55 (2019) - [c67]Federico Borra, Israel Dejene Gebru, Dejan Markovic:
Soundfield Reconstruction in Reverberant Environments Using Higher-order Microphones and Impulse Response Measurements. ICASSP 2019: 281-285 - [c66]Federico Borra, Steven Krenn, Israel Dejene Gebru, Dejan Markovic:
1ST-Order Microphone Array System for Large Area Sound Field Recording and Reconstruction: Discussion and Preliminary Results. WASPAA 2019: 378-382 - 2018
- [j39]Yuta Toriyama, Dejan Markovic:
A 2.267-Gb/s, 93.7-pJ/bit Non-Binary LDPC Decoder With Logarithmic Quantization and Dual-Decoding Algorithm Scheme for Storage Applications. IEEE J. Solid State Circuits 53(8): 2378-2388 (2018) - [j38]Hariprasad Chandrakumar, Dejan Markovic:
A 15.2-ENOB 5-kHz BW 4.5-µW Chopped CT ΔΣ-ADC for Artifact-Tolerant Neural Recording Front Ends. IEEE J. Solid State Circuits 53(12): 3470-3483 (2018) - [c65]Antonio Canclini, Dejan Markovic, Martin Schneider, Fabio Antonacci, Emanuël Anco Peter Habets, Andreas Walther, Augusto Sarti:
A Weighted Least Squares Beam Shaping Technique for Sound Field Control. ICASSP 2018: 6812-6816 - [c64]Dejan Markovic, Masato Motomura, Byeong-Gyu Nam:
Session 13 overview: Machine learning and signal processing: Digital architectures and systems subcommittee. ISSCC 2018: 214-215 - [c63]Hariprasad Chandrakumar, Dejan Markovic:
A 15.2-ENOB continuous-time ΔΣ ADC for a 200mVpp-linear-input-range neural recording front-end. ISSCC 2018: 232-234 - [c62]Jiacheng Pan, Asad A. Abidi, Wenlong Jiang, Dejan Rozgic, Dejan Markovic:
Self-Regulated Wireless Power and Simultaneous 5MB/S Reverse Data over One Pair of Coils. VLSI Circuits 2018: 193-194 - 2017
- [b2]Veljko Milutinovic, Jakob Salom, Dragan Veljovic, Nenad Korolija, Dejan Markovic, Luka Petrovic:
DataFlow Supercomputing Essentials - Research, Development and Education. Computer Communications and Networks, Springer 2017, ISBN 978-3-319-66127-8, pp. 3-147 - [j37]Dennis Sylvester, Dejan Markovic, Roman Genov, Atsushi Kawasumi, Subhasish Mitra:
Introduction to the January Special Issue on the 2016 IEEE International Solid-State Circuits Conference. IEEE J. Solid State Circuits 52(1): 3-7 (2017) - [j36]Wenlong Jiang, Vahagn Hokhikyan, Hariprasad Chandrakumar, Vaibhav Karkare, Dejan Markovic:
A ±50-mV Linear-Input-Range VCO-Based Neural-Recording Front-End With Digital Nonlinearity Correction. IEEE J. Solid State Circuits 52(1): 173-184 (2017) - [j35]Hariprasad Chandrakumar, Dejan Markovic:
A High Dynamic-Range Neural Recording Chopper Amplifier for Simultaneous Neural Recording and Stimulation. IEEE J. Solid State Circuits 52(3): 645-656 (2017) - [j34]Hariprasad Chandrakumar, Dejan Markovic:
An 80-mVpp Linear-Input Range, 1.6- $\text{G}\Omega $ Input Impedance, Low-Power Chopper Amplifier for Closed-Loop Neural Recording That Is Tolerant to 650-mVpp Common-Mode Interference. IEEE J. Solid State Circuits 52(11): 2811-2828 (2017) - [j33]Dejan Rozgic, Dejan Markovic:
A Miniaturized 0.78-mW/cm2 Autonomous Thermoelectric Energy-Harvesting Platform for Biomedical Sensors. IEEE Trans. Biomed. Circuits Syst. 11(4): 773-783 (2017) - [c61]Ahmed Alzuhair, Dejan Markovic:
A 216 nW/channel DSP engine for triggering theta phase-locked brain stimulation. BioCAS 2017: 1-4 - [c60]Dejan Rozgic, Vahagn Hokhikyan, Wenlong Jiang, Sina Basir-Kazeruni, Hariprasad Chandrakumar, Weiyu Leng, Dejan Markovic:
A true full-duplex 32-channel 0.135cm3 neural interface. BioCAS 2017: 1-4 - [c59]Jiacheng Pan, Asad A. Abidi, Dejan Rozgic, Hariprasad Chandrakumar, Dejan Markovic:
22.7 An inductively-coupled wireless power-transfer system that is immune to distance and load variations. ISSCC 2017: 382-383 - [c58]Hariprasad Chandrakumar, Dejan Markovic:
27.1 A 2.8µW 80mVpp-linear-input-range 1.6GΩ-input impedance bio-signal chopper amplifier tolerant to common-mode interference up to 650mVpp. ISSCC 2017: 448-449 - [c57]Sina Basir-Kazeruni, Stefan Vlaski, Hawraa Salami, Ali H. Sayed, Dejan Markovic:
A blind Adaptive Stimulation Artifact Rejection (ASAR) engine for closed-loop implantable neuromodulation systems. NER 2017: 186-189 - [i1]Matthew Hardy, Larry Masinter, Dejan Markovic, Duff Johnson, Martin Bailey:
The application/pdf Media Type. RFC 8118: 1-12 (2017) - 2016
- [j32]Predrag Ralevic, Momcilo Dobrodolac, Dejan Markovic:
Using a nonparametric technique to measure the cost efficiency of postal delivery branches. Central Eur. J. Oper. Res. 24(3): 637-657 (2016) - [j31]Fengbo Ren, Dejan Markovic:
A Configurable 12-237 kS/s 12.8 mW Sparse-Approximation Engine for Mobile Data Aggregation of Compressively Sampled Physiological Signals. IEEE J. Solid State Circuits 51(1): 68-78 (2016) - [j30]Dejan Markovic, Fabio Antonacci, Lucio Bianchi, Stefano Tubaro, Augusto Sarti:
Extraction of Acoustic Sources Through the Processing of Sound Field Maps in the Ray Space. IEEE ACM Trans. Audio Speech Lang. Process. 24(12): 2481-2494 (2016) - [j29]Dejan Markovic, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
3D Beam Tracing Based on Visibility Lookup for Interactive Acoustic Modeling. IEEE Trans. Vis. Comput. Graph. 22(10): 2262-2274 (2016) - [c56]Cheng C. Wang, Dejan Markovic:
Reconfigure your RTL with EFLX join the SoC revolution. Hot Chips Symposium 2016: 1-5 - [c55]Lucio Bianchi, V. Baldini Anastasio, Dejan Markovic, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
A linear operator for the computation of soundfield maps. ICASSP 2016: 410-414 - [c54]Hariprasad Chandrakumar, Dejan Markovic:
5.5 A 2µW 40mVpp linear-input-range chopper- stabilized bio-signal amplifier with boosted input impedance of 300MΩ and electrode-offset filtering. ISSCC 2016: 96-97 - [c53]Wenlong Jiang, Vahagn Hokhikyan, Hariprasad Chandrakumar, Vaibhav Karkare, Dejan Markovic:
28.6 A ±50mV linear-input-range VCO-based neural-recording front-end with digital nonlinearity correction. ISSCC 2016: 484-485 - [c52]Dejan Markovic, Antoine Dupret, Atsuki Inoue:
ES2: Computing architectures paving the path to power efficiency. ISSCC 2016: 517 - [c51]Dejan Markovic, Jigyasa Popat, Fabio Antonacci, Augusto Sarti, T. Kishore Kumar:
An informed separation algorithm based on sound field mapping for speech recognition systems. IWAENC 2016: 1-5 - [c50]Richard Dorrance, Dejan Markovic:
A 190GFLOPS/W DSP for energy-efficient sparse-BLAS in embedded IoT. VLSI Circuits 2016: 1-2 - 2015
- [j28]Ramesh Harjani, Danijela Cabric, Dejan Markovic, Brian M. Sadler, Rakesh Kumar Palani, Anindya Saha, Hundo Shin, Eric Rebeiz, Sina Basir-Kazeruni, Fang-Li Yuan:
Wideband blind signal classification on a battery budget. IEEE Commun. Mag. 53(10): 173-181 (2015) - [j27]Fang-Li Yuan, Cheng C. Wang, Tsung-Han Yu, Dejan Markovic:
A Multi-Granularity FPGA With Hierarchical Interconnects for Efficient and Flexible Mobile Computing. IEEE J. Solid State Circuits 50(1): 137-149 (2015) - [j26]Dejan Markovic, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
Multiview Soundfield Imaging in the Projective Ray Space. IEEE ACM Trans. Audio Speech Lang. Process. 23(6): 1054-1067 (2015) - [j25]Hariprasad Chandrakumar, Dejan Markovic:
A Simple Area-Efficient Ripple-Rejection Technique for Chopped Biosignal Amplifiers. IEEE Trans. Circuits Syst. II Express Briefs 62-II(2): 189-193 (2015) - [j24]Chenxin Zhang, Liang Liu, Dejan Markovic, Viktor Öwall:
A Heterogeneous Reconfigurable Cell Array for MIMO Signal Processing. IEEE Trans. Circuits Syst. I Regul. Pap. 62-I(3): 733-742 (2015) - [j23]Stephen Richardson, Dejan Markovic, Andrew Danowitz, John S. Brunhaver, Mark Horowitz:
Building Conflict-Free FFT Schedules. IEEE Trans. Circuits Syst. I Regul. Pap. 62-I(4): 1146-1155 (2015) - [c49]Hundo Shin, Rakesh Kumar Palani, Anindya Saha, Fang-Li Yuan, Dejan Markovic, Ramesh Harjani:
An eight channel analog-FFT based 450MS/s hybrid filter bank ADC with improved SNDR for multi-band signals in 40nm CMOS. CICC 2015: 1-4 - [c48]Fengbo Ren, Dejan Markovic:
18.5 A configurable 12-to-237KS/s 12.8mW sparse-approximation engine for mobile ExG data aggregation. ISSCC 2015: 1-3 - [c47]Fang-Li Yuan, Rakesh Kumar Palani, Sina Basir-Kazeruni, Hundo Shin, Anindya Saha, Ramesh Harjani, Dejan Markovic:
A throughput-agnostic 11.9-13.6GOPS/mW multi-signal classification SoC for cognitive radios in 40nm CMOS. VLSIC 2015: 150- - [c46]Dejan Rozgic, Dejan Markovic:
A 0.78mW/cm2 autonomous thermoelectric energy-harvester for biomedical sensors. VLSIC 2015: 278- - [c45]Dejan Markovic, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
Resolution issues in soundfield imaging: A multiresolution approach to multiple source localization. WASPAA 2015: 1-5 - 2014
- [j22]Fengbo Ren, Chenxin Zhang, Liang Liu, Wenyao Xu, Viktor Öwall, Dejan Markovic:
A Square-Root-Free Matrix Decomposition Method for Energy-Efficient Least Square Computation on Embedded Systems. IEEE Embed. Syst. Lett. 6(4): 73-76 (2014) - [j21]Antonio Canclini, Dejan Markovic, Lucio Bianchi, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
A Robust Geometric Approach to Room Compensation for Sound Field Rendering. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 97-A(9): 1884-1892 (2014) - [j20]Dejan Markovic, Konrad Kowalczyk, Fabio Antonacci, Christian Hofmann, Augusto Sarti, Walter Kellermann:
Estimation of Acoustic Reflection Coefficients Through Pseudospectrum Matching. IEEE ACM Trans. Audio Speech Lang. Process. 22(1): 125-137 (2014) - [j19]Eric Rebeiz, Fang-Li Yuan, Paulo Urriza, Dejan Markovic, Danijela Cabric:
Energy-Efficient Processor for Blind Signal Classification in Cognitive Radio Networks. IEEE Trans. Circuits Syst. I Regul. Pap. 61-I(2): 587-599 (2014) - [c44]Yuta Toriyama, Behzad Amiri, Lara Dolecek, Dejan Markovic:
Field-order based hardware cost analysis of non-binary LDPC decoders. ACSSC 2014: 2045-2049 - [c43]Vaibhav Karkare, Hariprasad Chandrakumar, Dejan Rozgic, Dejan Markovic:
Robust, reconfigurable, and power-efficient biosignal recording systems. CICC 2014: 1-8 - [c42]Antonio Canclini, Dejan Markovic, Lucio Bianchi, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
A geometrical approach to room compensation for sound field rendering applications. EUSIPCO 2014: 1108-1112 - [c41]Richard Dorrance, Fengbo Ren, Dejan Markovic:
A scalable sparse matrix-vector multiplication kernel for energy-efficient sparse-blas on FPGAs. FPGA 2014: 161-170 - [c40]Yuta Toriyama, Behzad Amiri, Lara Dolecek, Dejan Markovic:
Logarithmic quantization scheme for reduced hardware cost and improved error floor in non-binary LDPC decoders. GLOBECOM 2014: 3162-3167 - [c39]Cheng C. Wang, Fang-Li Yuan, Tsung-Han Yu, Dejan Markovic:
27.5 A multi-granularity FPGA with hierarchical interconnects for efficient and flexible mobile computing. ISSCC 2014: 460-461 - [c38]Fang-Li Yuan, Dejan Markovic:
A 13.1GOPS/mW 16-core processor for software-defined radios in 40nm CMOS. VLSIC 2014: 1-2 - [c37]Fang-Li Yuan, Tsung-Han Yu, Dejan Markovic:
A 500MHz blind classification processor for cognitive radios in 40nm CMOS. VLSIC 2014: 1-2 - 2013
- [b1]Dejan Markovic:
Elaborazione plenacustica nello spazio dei raggi : modellazione e analisi delle scene acustiche. Polytechnic University of Milan, Italy, 2013 - [j18]Vaibhav Karkare, Sarah Gibson, Dejan Markovic:
A 75-µW, 16-Channel Neural Spike-Sorting Processor With Unsupervised Clustering. IEEE J. Solid State Circuits 48(9): 2230-2238 (2013) - [j17]Dejan Markovic, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
Soundfield Imaging in the Ray Space. IEEE ACM Trans. Audio Speech Lang. Process. 21(12): 2493-2505 (2013) - [j16]Fengbo Ren, Henry Park, Chih-Kong Ken Yang, Dejan Markovic:
Reference Calibration of Body-Voltage Sensing Circuit for High-Speed STT-RAMs. IEEE Trans. Circuits Syst. I Regul. Pap. 60-I(11): 2932-2939 (2013) - [c36]Fengbo Ren, Richard Dorrance, Wenyao Xu, Dejan Markovic:
A single-precision compressive sensing signal reconstruction engine on FPGAs. FPL 2013: 1-4 - [c35]Stephen Richardson, Ofer Shacham, Dejan Markovic, Mark Horowitz:
An area-efficient minimum-time FFT schedule using single-ported memory. VLSI-SoC 2013: 39-44 - [c34]Lucio Bianchi, Dejan Markovic, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
Deconvolution of plenacoustic images. WASPAA 2013: 1-4 - [c33]Dejan Markovic, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
Estimation of room dimensions from a single impulse response. WASPAA 2013: 1-4 - 2012
- [j15]Rashmi Nanda, Dejan Markovic:
Digitally intensive receiver design: opportunities and challenges. IEEE Des. Test 29(6): 19-26 (2012) - [j14]Chia-Hsiang Yang, Tsung-Han Yu, Dejan Markovic:
Power and Area Minimization of Reconfigurable FFT Processors: A 3GPP-LTE Example. IEEE J. Solid State Circuits 47(3): 757-768 (2012) - [j13]Tsung-Han Yu, Chia-Hsiang Yang, Danijela Cabric, Dejan Markovic:
A 7.4-mW 200-MS/s Wideband Spectrum Sensing Digital Baseband Processor for Cognitive Radios. IEEE J. Solid State Circuits 47(9): 2235-2245 (2012) - [j12]Sarah Gibson, Jack W. Judy, Dejan Markovic:
Spike Sorting: The First Step in Decoding the Brain: The first step in decoding the brain. IEEE Signal Process. Mag. 29(1): 124-143 (2012) - [c32]Rashmi Nanda, Dejan Markovic:
ΣΔ modulators for low-power digitally intensive radio transmitters. ACSCC 2012: 109-113 - [c31]Antonio Canclini, Dejan Markovic, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
A room-compensated virtual surround system exploiting early reflections in a reverberant room. EUSIPCO 2012: 1029-1033 - [c30]Seong Joong Kim, Bumman Kim, Sangwook Nam, Dejan Markovic, Sang-Gug Lee, Jaesup Lee:
Challenges and directions of ultra low energy wireless sensor nodes for biosignal monitoring. ISCAS 2012: 986-989 - [c29]Fengbo Ren, Henry Park, Richard Dorrance, Yuta Toriyama, Chih-Kong Ken Yang, Dejan Markovic:
A body-voltage-sensing-based short pulse reading circuit for spin-torque transfer RAMs (STT-RAMs). ISQED 2012: 275-282 - [c28]Dejan Markovic, Christian Hofmann, Fabio Antonacci, Konrad Kowalczyk, Augusto Sarti, Walter Kellermann:
Reflection Coefficient Estimation by Pseudospectrum Matching. IWAENC 2012 - [c27]Dejan Markovic, G. Sandrini, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
Plenacoustic Imaging in the Ray Space. IWAENC 2012 - [c26]Yun-Yen ChenWu, Hsi-Pin Ma, Chaitali Biswas, Dejan Markovic:
Universal architecture prototype for patient-centric medical environment. VLSI-DAT 2012: 1-4 - 2011
- [j11]Rashmi Nanda, Dejan Markovic:
Energy-Efficient Retiming and Scheduling of Datapath-Dominant Digital Systems. J. Low Power Electron. 7(3): 341-349 (2011) - [j10]Matthew Spencer, Fred Chen, Cheng C. Wang, Rhesa Nathanael, Hossein Fariborzi, Abhinav Gupta, Hei Kam, Vincent Pott, Jaeseok Jeon, Tsu-Jae King Liu, Dejan Markovic, Elad Alon, Vladimir Stojanovic:
Demonstration of Integrated Micro-Electro-Mechanical Relay Circuits for VLSI Applications. IEEE J. Solid State Circuits 46(1): 308-320 (2011) - [j9]Vaibhav Karkare, Sarah Gibson, Dejan Markovic:
A 130- μ W, 64-Channel Neural Spike-Sorting DSP Chip. IEEE J. Solid State Circuits 46(5): 1214-1222 (2011) - [j8]Tsung-Han Yu, Oussama Sekkat, Santiago Rodriguez-Parera, Dejan Markovic, Danijela Cabric:
A Wideband Spectrum-Sensing Processor With Adaptive Detection Threshold and Sensing Time. IEEE Trans. Circuits Syst. I Regul. Pap. 58-I(11): 2765-2775 (2011) - [c25]Rashmi Nanda, Henry Chen, Dejan Markovic:
A low-power digital front-end direct-sampling receiver for flexible radios. A-SSCC 2011: 377-380 - [c24]Zainul Charbiwala, Vaibhav Karkare, Sarah Gibson, Dejan Markovic, Mani B. Srivastava:
Compressive Sensing of Neural Action Potentials Using a Learned Union of Supports. BSN 2011: 53-58 - [c23]Tsung-Han Yu, Chia-Hsiang Yang, Dejan Markovic, Danijela Cabric:
An Energy-Efficient VLSI Architecture for Cognitive Radio Wideband Spectrum Sensing. GLOBECOM 2011: 1-6 - [c22]Fang-Li Yuan, Chia-Hsiang Yang, Dejan Markovic:
A Hardware-Efficient VLSI Architecture for Hybrid Sphere-MCMC Detection. GLOBECOM 2011: 1-6 - [c21]Sarah Gibson, Victoria Wang, Dejan Markovic:
Effects of quantization on neural spike sorting. ISCAS 2011: 2099-2102 - [c20]Richard Dorrance, Fengbo Ren, Yuta Toriyama, Amr Amin Hafez, Chih-Kong Ken Yang, Dejan Markovic:
Scalability and design-space analysis of a 1T-1MTJ memory cell. NANOARCH 2011: 32-36 - [c19]Henry Park, Richard Dorrance, Amr Amin Hafez, Fengbo Ren, Dejan Markovic, Chih-Kong Ken Yang:
Analysis of STT-RAM cell design with multiple MTJs per access. NANOARCH 2011: 53-58 - [c18]Paolo Annibale, Fabio Antonacci, Paolo Bestagini, Alessio Brutti, Antonio Canclini, Luca Cristoforetti, Emanuël Anco Peter Habets, Walter Kellermann, Konrad Kowalczyk, Anthony Lombard, Edwin Mabande, Dejan Markovic, Patrick A. Naylor, Maurizio Omologo, Rudolf Rabenstein, Augusto Sarti, Piergiorgio Svaizer, Mark R. P. Thomas:
The SCENIC Project: Environment-aware Sound Sensing and Rendering. FET 2011: 150-152 - 2010
- [j7]Dejan Markovic, Cheng C. Wang, Louis P. Alarcón, Tsung-Te Liu, Jan M. Rabaey:
Ultralow-Power Design in Near-Threshold Region. Proc. IEEE 98(2): 237-252 (2010) - [c17]Hossein Fariborzi, Matthew Spencer, Vaibhav Karkare, Jaeseok Jeon, Rhesa Nathanael, Chengcheng Wang, Fred Chen, Hei Kam, Vincent Pott, Tsu-Jae King Liu, Elad Alon, Vladimir Stojanovic, Dejan Markovic:
Analysis and demonstration of MEM-relay power gating. CICC 2010: 1-4 - [c16]Tsung-Han Yu, Santiago Rodriguez-Parera, Dejan Markovic, Danijela Cabric:
Cognitive Radio Wideband Spectrum Sensing Using Multitap Windowing and Power Detection with Threshold Adaptation. ICC 2010: 1-6 - [c15]Fred Chen, Matthew Spencer, Rhesa Nathanael, Chengcheng Wang, Hossein Fariborzi, Abhinav Gupta, Hei Kam, Vincent Pott, Jaeseok Jeon, Tsu-Jae King Liu, Dejan Markovic, Vladimir Stojanovic, Elad Alon:
Demonstration of integrated micro-electro-mechanical switch circuits for VLSI applications. ISSCC 2010: 150-151 - [c14]Dejan Markovic, Antonio Canclini, Fabio Antonacci, Augusto Sarti, Stefano Tubaro:
Visibility-based beam tracing for soundfield rendering. MMSP 2010: 40-45
2000 – 2009
- 2009
- [j6]Cheng C. Wang, Dejan Markovic:
Delay Estimation and Sizing of CMOS Logic Using Logical Effort With Slope Correction. IEEE Trans. Circuits Syst. II Express Briefs 56-II(8): 634-638 (2009) - [j5]Chia-Hsiang Yang, Dejan Markovic:
A Flexible DSP Architecture for MIMO Sphere Decoding. IEEE Trans. Circuits Syst. I Regul. Pap. 56-I(10): 2301-2314 (2009) - [c13]Chia-Hsiang Yang, Dejan Markovic:
A 2.89mW 50GOPS 16×16 16-core MIMO sphere decoder in 90nm CMOS. ESSCIRC 2009: 344-347 - 2008
- [c12]Chia-Hsiang Yang, Dejan Markovic:
A Multi-Core Sphere Decoder VLSI Architecture for MIMO Communications. GLOBECOM 2008: 3297-3301 - [c11]Chia-Hsiang Yang, Dejan Markovic:
A Flexible VLSI Architecture for Extracting Diversity and Spatial Multiplexing Gains in MIMO Channels. ICC 2008: 725-731 - [c10]Victoria Wang, Dejan Markovic:
Linear analysis of random process variability. ICCAD 2008: 292-296 - [c9]Fred Chen, Hei Kam, Dejan Markovic, Tsu-Jae King Liu, Vladimir Stojanovic, Elad Alon:
Integrated circuit design with NEM relays. ICCAD 2008: 750-757 - [c8]Victoria Wang, Kanak Agarwal, Sani R. Nassif, Kevin J. Nowka, Dejan Markovic:
A Design Model for Random Process Variability. ISQED 2008: 734-737 - 2007
- [j4]Dejan Markovic, Borivoje Nikolic, Robert W. Brodersen:
Power and Area Minimization for Multidimensional Signal Processing. IEEE J. Solid State Circuits 42(4): 922-934 (2007) - [c7]Dejan Markovic, Chen Chang, Brian C. Richards, Hayden Kwok-Hay So, Borivoje Nikolic, Robert W. Brodersen:
ASIC Design and Verification in an FPGA Environment. CICC 2007: 737-740 - 2006
- [c6]Dejan Markovic, Borivoje Nikolic, Robert W. Brodersen:
Power and Area Efficient VLSI Architectures for Communication Signal Processing. ICC 2006: 3223-3228 - 2005
- [j3]Huifang Qin, Yu Cao, Dejan Markovic, Andrei Vladimirescu, Jan M. Rabaey:
Standby supply voltage minimization for deep sub-micron SRAM. Microelectron. J. 36(9): 789-800 (2005) - 2004
- [j2]Dejan Markovic, Vladimir Stojanovic, Borivoje Nikolic, Mark A. Horowitz, Robert W. Brodersen:
Methods for true energy-performance optimization. IEEE J. Solid State Circuits 39(8): 1282-1293 (2004) - [c5]Huifang Qin, Yu Cao, Dejan Markovic, Andrei Vladimirescu, Jan M. Rabaey:
SRAM Leakage Suppression by Minimizing Standby Supply Voltage. ISQED 2004: 55-60 - 2002
- [j1]W. Rhett Davis, Ning Zhang, Kevin Camera, Dejan Markovic, Tina Smilkstein, M. Josie Ammer, Engling Yeo, Stephanie Augsburger, Borivoje Nikolic, Robert W. Brodersen:
A design environment for high-throughput low-power dedicated signal processing systems. IEEE J. Solid State Circuits 37(3): 420-431 (2002) - [c4]Robert W. Brodersen, Mark Horowitz, Dejan Markovic, Borivoje Nikolic, Vladimir Stojanovic:
Methods for true power minimization. ICCAD 2002: 35-42 - 2001
- [c3]W. Rhett Davis, Ning Zhang, Kevin Camera, Fred Chen, Dejan Markovic, Nathan Chan, Borivoje Nikolic, Robert W. Brodersen:
A design environment for high throughput, low power dedicated signal processing systems. CICC 2001: 545-548 - [c2]Dejan Markovic, Borivoje Nikolic, Robert W. Brodersen:
Analysis and design of low-energy flip-flops. ISLPED 2001: 52-55
1990 – 1999
- 1997
- [c1]Dejan Markovic, Jack R. Hagemeister, C. S. Raghavendra, Sanjay Bhansali:
Semi-automatic Generation of Parallelizable Patterns from Source Code Examples. WPC 1997: 50-59
Coauthor Index
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