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ORCIDJoachim Neves Rodrigues
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2020 – today
- 2022
[c42]Baktash Behmanesh
, Joachim Rodrigues, Henrik Sjöland:
An 88% fractional bandwidth reconfigurable power amplifier for NB-IoT and LTE-M in 22 nm CMOS FDSOI. NorCAS 2022: 1-4- 2021
- [c41]Masoud Nouripayam, Joachim Rodrigues, Xiao Luo, Tom Johansson, Babak Mohammadi:
A Low-Voltage 6T Dual-Port Configured SRAM with Wordline Boost in 28 nm FD-SOI. ESSCIRC 2021: 459-462 - [c40]Masoud Nouripayam, Arturo Prieto, Vignajeth Kuttuva Kishorelal, Joachim Rodrigues:
An Energy-Efficient Near-Memory Computing Architecture for CNN Inference at Cache Level. ICECS 2021: 1-4
2010 – 2019
- 2018
- [j14]Shahzad Asif, Oskar Andersson, Joachim Neves Rodrigues, Yinan Kong:
65-nm CMOS low-energy RNS modular multiplier for elliptic-curve cryptography. IET Comput. Digit. Tech. 12(2): 62-67 (2018) - [j13]Babak Mohammadi, Oskar Andersson, Joseph Nguyen, Lorenzo Ciampolini, Andreia Cathelin, Joachim Neves Rodrigues:
A 128 kb 7T SRAM Using a Single-Cycle Boosting Mechanism in 28-nm FD-SOI. IEEE Trans. Circuits Syst. I Regul. Pap. 65-I(4): 1257-1268 (2018) - 2017
- [c39]Hemanth Prabhu, Joachim Neves Rodrigues, Liang Liu, Ove Edfors:
3.6 A 60pJ/b 300Mb/s 128×8 Massive MIMO precoder-detector in 28nm FD-SOI. ISSCC 2017: 60-61 - 2016
- [j12]Oskar Andersson, Babak Mohammadi, Pascal Meinerzhagen, Andreas Burg, Joachim Neves Rodrigues:
Ultra Low Voltage Synthesizable Memories: A Trade-Off Discussion in 65 nm CMOS. IEEE Trans. Circuits Syst. I Regul. Pap. 63-I(6): 806-817 (2016) - [c38]Babak Mohammadi, Oskar Andersson, Xiao Luo, Masoud Nouripayam, Joachim Neves Rodrigues:
An area efficient single-cycle xVDD sub-Vth on-chip boost scheme in 28 nm FD-SOI. A-SSCC 2016: 229-232 - [c37]Babak Mohammadi, Oskar Andersson, Joseph Nguyen, Lorenzo Ciampolini, Andreia Cathelin, Joachim Neves Rodrigues:
A 128 kb single-bitline 8.4 fJ/bit 90MHz at 0.3V 7T sense-amplifierless SRAM in 28 nm FD-SOI. ESSCIRC 2016: 429-432 - [c36]Alen Bardizbanyan, Oskar Andersson, Joachim Neves Rodrigues, Per Larsson-Edefors:
Logic filter cache for wide-VDD-range processors. ICECS 2016: 376-379 - [i1]Nafiseh Seyed Mazloum, Joachim Neves Rodrigues, Oskar Andersson, Anders Nejdel, Ove Edfors:
Improving practical sensitivity of energy optimized wake-up receivers: proof of concept in 65nm CMOS. CoRR abs/1605.00113 (2016) - 2015
- [j11]Hossein Hosseini-Nejad, Abumoslem Jannesari, Amir M. Sodagar, Joachim Neves Rodrigues:
A 128-channel discrete cosine transform-based neural signal processor for implantable neural recording microsystems. Int. J. Circuit Theory Appl. 43(4): 489-501 (2015) - [j10]Isael Diaz, Chenxin Zhang, Lieven Hollevoet, Jim Svensson, Joachim Neves Rodrigues, Leif R. Wilhelmsson, Thomas Olsson, Liesbet Van der Perre, Viktor Öwall:
A new digital front-end for flexible reception in software defined radio. Microprocess. Microsystems 39(8): 889-900 (2015) - [j9]Oskar Andersson, Ki H. Chon, Leif Sörnmo, Joachim Neves Rodrigues:
A 290 mV Sub-V𝕋 ASIC for Real-Time Atrial Fibrillation Detection. IEEE Trans. Biomed. Circuits Syst. 9(3): 377-386 (2015) - [c35]Hemanth Prabhu, Joachim Neves Rodrigues, Liang Liu, Ove Edfors:
Algorithm and hardware aspects of pre-coding in massive MIMO systems. ACSSC 2015: 1144-1148 - [c34]Babak Mohammadi, Joachim Neves Rodrigues:
Ultra low energy and area efficient charge pump with automatic clock controller in 65 nm CMOS. A-SSCC 2015: 1-4 - [c33]Hemanth Prabhu, Fredrik Rusek, Joachim Neves Rodrigues, Ove Edfors:
High throughput constant envelope pre-coder for massive MIMO systems. ISCAS 2015: 1502-1505 - [c32]Oskar Andersson, Joachim Neves Rodrigues:
A 400 mV atrial fibrillation detector with 0.56 pJ/operation in 65nm CMOS. ISCAS 2015: 2628-2631 - [c31]Siyu Tan, Yun Miao, Mattias Palm, Joachim Rodrigues, Pietro Andreani:
Digital background calibration in continuous-time delta-sigma analog to digital converters. NORCAS 2015: 1-4 - 2014
- [c30]Oskar Andersson, Babak Mohammadi, Pascal Andreas Meinerzhagen, Joachim Neves Rodrigues:
A 35 fJ/bit-access sub-VT memory using a dual-bit area-optimized standard-cell in 65 nm CMOS. ESSCIRC 2014: 243-246 - [c29]Peter Nilsson, Pietro Andreani, Krzysztof Kuchcinski, Joachim Rodrigues, Henrik Sjöland, Markus Törmänen, Lars-Erik Wernersson, Viktor Öwall:
Lessons from ten years of the international master's program in System-on-Chip. EWME 2014: 187-192 - [c28]Babak Mohammadi, Joachim Neves Rodrigues:
A 65 nm single stage 28 fJ/cycle 0.12 to 1.2V level-shifter. ISCAS 2014: 990-993 - [c27]Hemanth Prabhu, Ove Edfors, Joachim Neves Rodrigues, Liang Liu, Fredrik Rusek:
Hardware efficient approximative matrix inversion for linear pre-coding in massive MIMO. ISCAS 2014: 1700-1703 - [c26]Hemanth Prabhu, Ove Edfors, Joachim Neves Rodrigues, Liang Liu, Fredrik Rusek:
A low-complex peak-to-average power reduction scheme for OFDM based massive MIMO systems. ISCCSP 2014: 114-117 - [c25]Henrik Sjöland, John B. Anderson, Carl Bryant, Rohit Chandra, Ove Edfors, Anders J. Johansson, Nafiseh Seyed Mazloum, Reza Meraji, Peter Nilsson, Dejan Radjen, Joachim Neves Rodrigues, S. M. Yasser Sherazi, Viktor Öwall:
Ultra low power transceivers for wireless sensors and body area networks. ISMICT 2014: 1-5 - 2013
- [j8]S. M. Yasser Sherazi, Joachim Neves Rodrigues, Omer Can Akgun, Henrik Sjöland, Peter Nilsson:
Ultra low energy design exploration of digital decimation filters in 65 nm dual-VT CMOS in the sub-VT domain. Microprocess. Microsystems 37(4-5): 494-504 (2013) - [c24]Oskar Andersson, Babak Mohammadi, Pascal Meinerzhagen, Andreas Burg, Joachim Neves Rodrigues:
Dual-VT 4kb sub-VT memories with <1 pW/bit leakage in 65 nm CMOS. ESSCIRC 2013: 197-200 - [c23]Isael Diaz, Chenxin Zhang, Lieven Hollevoet, Jim Svensson, Joachim Neves Rodrigues, Leif R. Wilhelmsson, Thomas Olsson, Liesbet Van der Perre, Viktor Öwall:
Nex generation digital front-end for multi-standard concurrent reception. NORCHIP 2013: 1-6 - [c22]Christoph Thomas Muller, Steffen Malkowsky, Oskar Andersson, Babak Mohammadi, Jens Sparsø, Joachim Neves Rodrigues:
A 65-nm CMOS area optimized de-synchronization flow for sub-VT designs. VLSI-SoC 2013: 380-385 - [c21]Hemanth Prabhu, Joachim Neves Rodrigues, Ove Edfors, Fredrik Rusek:
Approximative matrix inverse computations for very-large MIMO and applications to linear pre-coding systems. WCNC 2013: 2710-2715 - 2012
- [j7]Henrik Sjöland, John B. Anderson, Carl Bryant, Rohit Chandra, Ove Edfors, Anders J. Johansson, Nafiseh Seyed Mazloum, Reza Meraji, Peter Nilsson, Dejan Radjen, Joachim Neves Rodrigues, S. M. Yasser Sherazi, Viktor Öwall:
A Receiver Architecture for Devices in Wireless Body Area Networks. IEEE J. Emerg. Sel. Topics Circuits Syst. 2(1): 82-95 (2012) - [j6]Omer Can Akgun, Joachim Neves Rodrigues, Yusuf Leblebici, Viktor Öwall:
High-Level Energy Estimation in the Sub-V$_{{\rm T}}$ Domain: Simulation and Measurement of a Cardiac Event Detector. IEEE Trans. Biomed. Circuits Syst. 6(1): 15-27 (2012) - [j5]Chris Winstead, Joachim Neves Rodrigues:
Ultra-Low-Power Error Correction Circuits: Technology Scaling and Sub-VT Operation. IEEE Trans. Circuits Syst. II Express Briefs 59-II(12): 913-917 (2012) - [c20]Pascal Andreas Meinerzhagen, Oskar Andersson, Babak Mohammadi, S. M. Yasser Sherazi, Andreas Peter Burg, Joachim Neves Rodrigues:
A 500 fW/bit 14 fJ/bit-access 4kb standard-cell based sub-VT memory in 65nm CMOS. ESSCIRC 2012: 321-324 - [c19]S. M. Yasser Sherazi, Peter Nilsson, Henrik Sjöland, Joachim Neves Rodrigues:
A 100-fJ/cycle sub-VT decimation filter chain in 65 nm CMOS. ICECS 2012: 448-451 - [c18]Jeremy Constantin, Ahmed Yasir Dogan, Oskar Andersson, Pascal Andreas Meinerzhagen, Joachim Neves Rodrigues, David Atienza, Andreas Burg:
An Ultra-Low-Power Application-Specific Processor with Sub-VT Memories for Compressed Sensing. VLSI-SoC (Selected Papers) 2012: 88-106 - [c17]Jeremy Constantin, Ahmed Yasir Dogan, Oskar Andersson, Pascal Andreas Meinerzhagen, Joachim Neves Rodrigues, David Atienza, Andreas Burg:
TamaRISC-CS: An ultra-low-power application-specific processor for compressed sensing. VLSI-SoC 2012: 159-164 - 2011
- [j4]Pascal Andreas Meinerzhagen, S. M. Yasser Sherazi, Andreas Peter Burg, Joachim Neves Rodrigues:
Benchmarking of Standard-Cell Based Memories in the Sub- VT Domain in 65-nm CMOS Technology. IEEE J. Emerg. Sel. Topics Circuits Syst. 1(2): 173-182 (2011) - [j3]Omer Can Akgun, Joachim Neves Rodrigues, Jens Sparsø:
Energy-minimum sub-threshold self-timed circuits using current-sensing completion detection. IET Comput. Digit. Tech. 5(4): 342-353 (2011) - [c16]Pascal Andreas Meinerzhagen, Oskar Andersson, S. M. Yasser Sherazi, Andreas Peter Burg, Joachim Neves Rodrigues:
Synthesis strategies for sub-VT systems. ECCTD 2011: 552-555 - [c15]S. M. Yasser Sherazi, Peter Nilsson, Omer Can Akgun, Henrik Sjöland, Joachim Neves Rodrigues:
Design exploration of a 65 nm Sub-VT CMOS digital decimation filter chain. ISCAS 2011: 837-840 - [c14]Chenxin Zhang, Isael Diaz, Per Andersson, Joachim Neves Rodrigues, Viktor Öwall:
Reconfigurable cell array for concurrent support of multiple radio standards by flexible mapping. ISCAS 2011: 1696-1699 - [c13]Oskar Andersson, S. M. Yasser Sherazi, Joachim Neves Rodrigues:
Impact of switching activity on the energy minimum voltage for 65 nm sub-VT CMOS. NORCHIP 2011: 1-4 - [c12]Hemanth Prabhu, Sherine Thomas, Joachim Neves Rodrigues, Thomas Olsson, Anders Carlsson:
A GALS ASIC implementation from a CAL dataflow description. NORCHIP 2011: 1-4 - [c11]Isael Diaz, Balaji Sathyanarayanan, Alirad Malek, Farzad Foroughi, Joachim Neves Rodrigues:
Highly scalable implementation of a robust MMSE channel estimator for OFDM multi-standard environment. SiPS 2011: 311-315 - 2010
- [j2]Matthias Kamuf, Joachim Neves Rodrigues, John B. Anderson, Viktor Öwall:
Design and measurement of a variable-rate Viterbi decoder in 130-nm digital CMOS. Microprocess. Microsystems 34(5): 129-137 (2010) - [c10]Omer Can Akgun, Joachim Neves Rodrigues, Jens Sparsø:
Minimum-Energy Sub-threshold Self-Timed Circuits: Design Methodology and a Case Study. ASYNC 2010: 41-51 - [c9]Michal Stala, Can Bilgin, Rakesh Gangarajaiah, Joachim Neves Rodrigues:
Hardware Implementation of an Iterative Sampling Rate Converter for Wireless Communication. GLOBECOM 2010: 1-6 - [c8]Isael Diaz, Leif R. Wilhelmsson, Joachim Neves Rodrigues, Johan Löfgren, Thomas Olsson, Viktor Öwall:
A sign-bit auto-correlation architecture for fractional frequency offset estimation in OFDM. ISCAS 2010: 3765-3768 - [c7]Joachim Neves Rodrigues, Omer Can Akgun, Viktor Öwall:
A < 1 pJ sub-VT cardiac event detector in 65 nm LL-HVT CMOS. VLSI-SoC 2010: 253-258
2000 – 2009
- 2009
- [c6]Joachim Neves Rodrigues, Omer Can Akgun, Puneet Acharya, Adolfo de la Calle, Yusuf Leblebici, Viktor Öwall:
Energy Dissipation Reduction of a Cardiac Event Detector in the Sub-Vt Domain By Architectural Folding. PATMOS 2009: 347-356 - 2005
- [j1]Joachim Neves Rodrigues, Thomas Olsson, Leif Sörnmo, Viktor Öwall:
Digital implementation of a wavelet-based event detector for cardiac pacemakers. IEEE Trans. Circuits Syst. I Regul. Pap. 52-I(12): 2686-2698 (2005) - [c5]Joachim Neves Rodrigues, Thomas Olsson, Leif Sörnmo, Viktor Öwall:
A dual-mode wavelet based R-wave detector using single-Vt for leakage reduction [cardiac pacemaker applications]. ISCAS (2) 2005: 1330-1333 - [c4]Hugo Hedberg, Joachim Neves Rodrigues, Fredrik Kristensen, Henrik Svensson, Matthias Kamuf, Viktor Öwall:
Teaching Digital ASIC Design to Students with Heterogeneous Previous Knowledge. MSE 2005: 15-16 - [c3]Joachim Neves Rodrigues, Matthias Kamuf, Hugo Hedberg, Viktor Öwall:
A Manual on ASIC Front to Back End Design Flow. MSE 2005: 75-76 - 2004
- [c2]Joachim Neves Rodrigues, Viktor Öwall, Leif Sörnmo:
A wavelet based R-wave detector for cardiac pacemakers in 0.35 CMOS technology. ISCAS (4) 2004: 13-16 - 2001
- [c1]Joachim Neves Rodrigues, Viktor Öwall, Leif Sörnmo:
QRS detection for pacemakers in a noisy environment using a time lagged artificial neural network. ISCAS (3) 2001: 596-599
Coauthor Index
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