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Giuseppe Iannaccone
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- affiliation: University of Pisa, Italy
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Journal Articles
- 2024
- [j34]Christian Sbrana, Alessandro Catania, Maksym Paliy, Stefano Di Pascoli, Sebastiano Strangio, Massimo Macucci, Giuseppe Iannaccone:
Design Criteria of High-Temperature Integrated Circuits Using Standard SOI CMOS Process up to 300°C. IEEE Access 12: 57236-57249 (2024) - [j33]Derek Abbott, Sonia Aissa, Anuradha Annaswamy, Nirwan Ansari, Jun Cai, Kun-Shan Chen, Yixin Chen, J.-C. Chiao, Ayman El-Baz, Shaikh Fattah, Hoay Gooi, Maya B. Gokhale, Chih-Lin I, Giuseppe Iannaccone, Yumi Iwashita, Bruce Jacob, Abbas Jamalipour, Bahram Javidi, Weihua Jiang, Okyay Kaynak, Hulya Kirkici, Germano Lambert-Torres, Shengtao Li, Michal Mrozowski, Michele Nappi, Dalma Novak, Hugo Proença, Yi Qian, Zhihua Qu, Susanto Rahardja, Mehrdad Saif, Ali Serpengüzel, Peter H. Siegel, Ashitey Trebi-Ollennu, Daniela Tuninetti, Ge Wang, Keith A. Wear, Andreas Weisshaar, C. Patrick Yue, Enrico Zio:
Editor-in-Chief. IEEE Access 12: i-xi (2024) - 2022
- [j32]Tommaso Rizzo, Sebastiano Strangio, Giuseppe Iannaccone:
Time Domain Analog Neuromorphic Engine Based on High-Density Non-Volatile Memory in Single-Poly CMOS. IEEE Access 10: 49154-49166 (2022) - [j31]Benjamin Zambrano, Sebastiano Strangio, Tommaso Rizzo, Esteban Garzón, Marco Lanuzza, Giuseppe Iannaccone:
All-Analog Silicon Integration of Image Sensor and Neural Computing Engine for Image Classification. IEEE Access 10: 94417-94430 (2022) - 2021
- [j30]Giuseppe Iannaccone, Christian Sbrana, Iacopo Morelli, Sebastiano Strangio:
Power Electronics Based on Wide-Bandgap Semiconductors: Opportunities and Challenges. IEEE Access 9: 139446-139456 (2021) - 2020
- [j29]Maksym Paliy, Sebastiano Strangio, Piero Ruiu, Tommaso Rizzo, Giuseppe Iannaccone:
Analog Vector-Matrix Multiplier Based on Programmable Current Mirrors for Neural Network Integrated Circuits. IEEE Access 8: 203525-203537 (2020) - 2018
- [j28]Felice Crupi, Raffaele De Rose, Maksym Paliy, Marco Lanuzza, Mattia Perna, Giuseppe Iannaccone:
A portable class of 3-transistor current references with low-power sub-0.5 V operation. Int. J. Circuit Theory Appl. 46(4): 779-795 (2018) - [j27]Francesca Cucchi, Stefano Di Pascoli, Giuseppe Iannaccone:
Variability-aware design of a bandgap voltage reference with 0.18% standard deviation and 68 nW power consumption. Int. J. Circuit Theory Appl. 46(11): 1985-1999 (2018) - 2017
- [j26]Marco Lanuzza, Felice Crupi, Sandro Rao, Raffaele De Rose, Giuseppe Iannaccone:
Low energy/delay overhead level shifter for wide-range voltage conversion. Int. J. Circuit Theory Appl. 45(11): 1637-1646 (2017) - [j25]Marco Lanuzza, Felice Crupi, Sandro Rao, Raffaele De Rose, Sebastiano Strangio, Giuseppe Iannaccone:
An Ultralow-Voltage Energy-Efficient Level Shifter. IEEE Trans. Circuits Syst. II Express Briefs 64-II(1): 61-65 (2017) - 2015
- [j24]Luca Magnelli, Felice Crupi, Pasquale Corsonello, Giuseppe Iannaccone:
A sub-1 V nanopower temperature-compensated sub-threshold CMOS voltage reference with 0.065%/V line sensitivity. Int. J. Circuit Theory Appl. 43(4): 421-426 (2015) - [j23]Elisa Spano, Luca Niccolini, Stefano Di Pascoli, Giuseppe Iannaccone:
Last-Meter Smart Grid Embedded in an Internet-of-Things Platform. IEEE Trans. Smart Grid 6(1): 468-476 (2015) - [j22]Domenico Albano, Felice Crupi, Francesca Cucchi, Giuseppe Iannaccone:
A Sub-kT/q Voltage Reference Operating at 150 mV. IEEE Trans. Very Large Scale Integr. Syst. 23(8): 1547-1551 (2015) - 2014
- [j21]Luca Magnelli, Francesco A. Amoroso, Felice Crupi, Gregorio Cappuccino, Giuseppe Iannaccone:
Design of a 75-nW, 0.5-V subthreshold complementary metal-oxide-semiconductor operational amplifier. Int. J. Circuit Theory Appl. 42(9): 967-977 (2014) - [j20]Domenico Albano, Felice Crupi, Francesca Cucchi, Giuseppe Iannaccone:
A picopower temperature-compensated, subthreshold CMOS voltage reference. Int. J. Circuit Theory Appl. 42(12): 1306-1318 (2014) - 2013
- [j19]Muthupandian Cheralathan, Esteban Contreras, Joaquín Alvarado, Antonio Cerdeira, Giuseppe Iannaccone, Enrico Sangiorgi, Benjamín Iñíguez:
Implementation of nanoscale double-gate CMOS circuits using compact advanced transport models. Microelectron. J. 44(2): 80-85 (2013) - [j18]Gianluca Fiori, Giuseppe Iannaccone:
Multiscale Modeling for Graphene-Based Nanoscale Transistors. Proc. IEEE 101(7): 1653-1669 (2013) - 2011
- [j17]Luca Magnelli, Felice Crupi, Pasquale Corsonello, Calogero Pace, Giuseppe Iannaccone:
A 2.6 nW, 0.45 V Temperature-Compensated Subthreshold CMOS Voltage Reference. IEEE J. Solid State Circuits 46(2): 465-474 (2011) - [j16]Stefano Stanzione, Daniele Puntin, Giuseppe Iannaccone:
CMOS Silicon Physical Unclonable Functions Based on Intrinsic Process Variability. IEEE J. Solid State Circuits 46(6): 1456-1463 (2011) - 2010
- [j15]Byung-Gon Chun, Gianluca Iannaccone, Giuseppe Iannaccone, Randy H. Katz, Gunho Lee, Luca Niccolini:
An energy case for hybrid datacenters. ACM SIGOPS Oper. Syst. Rev. 44(1): 76-80 (2010) - 2008
- [j14]Francesco Marraccini, Giuseppe de Vita, Stefano Di Pascoli, Giuseppe Iannaccone:
Low-voltage nanopower clock generator for RFID applications. Microelectron. J. 39(12): 1736-1739 (2008) - [j13]Stefano Di Pascoli, Giuseppe Iannaccone:
Noise and reliability in simulated thin metal films. Microelectron. Reliab. 48(7): 1015-1020 (2008) - 2007
- [j12]Massimo Macucci, Paolo Marconcini, Giuseppe Iannaccone:
Equivalent resistance and noise of cascaded mesoscopic cavities. Int. J. Circuit Theory Appl. 35(3): 295-304 (2007) - [j11]Giuseppe de Vita, Giuseppe Iannaccone:
A Sub-1-V, 10 ppm/°C, Nanopower Voltage Reference Generator. IEEE J. Solid State Circuits 42(7): 1536-1542 (2007) - 2006
- [j10]Giuseppe de Vita, F. Bellatalla, Giuseppe Iannaccone:
Ultra-low power PSK backscatter modulator for UHF and microwave RFID transponders. Microelectron. J. 37(7): 627-629 (2006) - [j9]Giuseppe de Vita, Giuseppe Iannaccone:
Ultra-low-power temperature compensated voltage reference generator. Microelectron. J. 37(10): 1072-1079 (2006) - 2005
- [j8]Giuseppe Iannaccone:
Perspectives and challenges in nanoscale device modeling. Microelectron. J. 36(7): 614-618 (2005) - 2004
- [j7]A. Nannipieri, Giuseppe Iannaccone, Felice Crupi:
Extraction of the trap distribution responsible for SILCs in MOS structures from the measurements and simulations of DC and noise properties. Microelectron. Reliab. 44(9-11): 1497-1501 (2004) - 2002
- [j6]M. R. Carriero, Stefano Di Pascoli, Giuseppe Iannaccone:
Simulation of failure time distributions of metal lines under electromigration. Microelectron. Reliab. 42(9-11): 1469-1472 (2002) - 2001
- [j5]Massimo Macucci, Giuseppe Iannaccone, S. Francaviglia, B. Pellegrini:
Semiclassical simulation of quantum cellular automaton circuits. Int. J. Circuit Theory Appl. 29(1): 37-47 (2001) - [j4]M. Gattobigio, Massimo Macucci, Giuseppe Iannaccone:
Detection of Quantum Cellular Automaton Action in Silicon-on-insulator Cells. VLSI Design 13(1-4): 419-424 (2001) - [j3]Ettore Amirante, Giuseppe Iannaccone, B. Pellegrini:
Three-dimensional Statistical Modeling of the Effects of the Random Distribution of Dopants in Deep Sub-micron nMOSFETs. VLSI Design 13(1-4): 425-429 (2001) - [j2]Giuseppe Iannaccone, S. Gennai:
Program, Erase and Retention Times of Thin-oxide Flash-EEPROMs. VLSI Design 13(1-4): 431-434 (2001) - 1998
- [j1]Giuseppe Iannaccone, Massimo Macucci, B. Pellegrini:
Modeling of Shot Noise in Resonant Tunneling Structures. VLSI Design 8(1-4): 449-453 (1998)
Conference and Workshop Papers
- 2023
- [c24]Gabriele Bandini, Alice Buffi, Mirko Marracci, Bernardo Tellini, Tommaso Rizzo, Massimo Macucci, Sebastiano Strangio, Giuseppe Iannaccone:
Electromagnetic Design of an Inductive Wireless Power Transfer System for Endoscopic Capsule. I2MTC 2023: 1-6 - 2022
- [c23]Chiara Bonsignori, Carlo Puliafito, Antonio Virdis, Enzo Mingozzi, Giuseppe Iannaccone:
Integrating Mobile IoT Devices into the Arrowhead Framework Using Web of Things. CCNC 2022: 1-6 - [c22]Tommaso Rizzo, Alessandro Catania, Gabriele Bertolacci, Sebastiano Strangio, Giuseppe Iannaccone:
A 6.78 MHz Maximum Efficiency Tracking Active Rectifier with Load Modulation Control for Wireless Power Transfer to Implantable Medical Devices. ICECS 2022 2022: 1-4 - 2021
- [c21]Daniel S. Schneider, Eros Reato, Leonardo Lucchesi, Zhenyu Wang, Agata Piacetini, Jens Bolten, Damiano Marian, Enrique G. Marin, Aleksandra Radenovic, Zhenxing Wang, Gianluca Fiori, Andras Kis, Giuseppe Iannaccone, Daniel Neumaier, Max Christian Lemme:
MoS2/graphene Lateral Heterostructure Field Effect Transistors. DRC 2021: 1-2 - [c20]Damiano Marian, David Soriano, Enrique G. Marin, Giuseppe Iannaccone, Gianluca Fiori:
Electric-field controlled spin transport in bilayer CrI3. ESSCIRC 2021: 59-62 - [c19]Damiano Marian, David Soriano, Enrique G. Marin, Giuseppe Iannaccone, Gianluca Fiori:
Electric-field controlled spin transport in bilayer CrI3. ESSDERC 2021: 59-62 - 2019
- [c18]Francesca Cucchi, Stefano Di Pascoli, Giuseppe Iannaccone:
Stability and Startup of Non Linear Loop Circuits. ApplePies 2019: 463-468 - 2018
- [c17]Luca Sayadi, Giuseppe Iannaccone, Sebastien Sicre, Simone Lavanga, Gianluca Fiori, Oliver Haeberlen, Gilberto Curatola:
Charge Injection in Normally-Off p-GaN Gate AlGaN/GaN-on-Si HFETs. ESSDERC 2018: 18-21 - [c16]Raffaele De Rose, Felice Crupi, Maksym Paliy, Marco Lanuzza, Giuseppe Iannaccone:
Design of a 3T current reference for low-voltage, low-power operation. ICICDT 2018: 13-16 - 2017
- [c15]Luca Intaschi, Paolo Bruschi, Giuseppe Iannaccone, Francesco Dalena:
A 220-mV input, 8.6 step-up voltage conversion ratio, 10.45-μW output power, fully integrated switched-capacitor converter for energy harvesting. CICC 2017: 1-4 - 2015
- [c14]Elisa Spano, Stefano Di Pascoli, Giuseppe Iannaccone:
Internet-of-things infrastructure as a platform for distributed measurement applications. I2MTC 2015: 1927-1932 - 2013
- [c13]Elisa Spano, Stefano Di Pascoli, Giuseppe Iannaccone:
An intragrid implementation embedded in an Internet of Things platform. CAMAD 2013: 134-138 - [c12]Ying-Yu Chen, Artem Rogachev, Amit Sangai, Giuseppe Iannaccone, Gianluca Fiori, Deming Chen:
A SPICE-compatible model of graphene nano-ribbon field-effect transistors enabling circuit-level delay and power analysis under process variation. DATE 2013: 1789-1794 - 2012
- [c11]Valentina Bonfiglio, Giuseppe Iannaccone:
Sensitivity-based investigation of threshold voltage variability in 32-nm flash memory cells. ESSDERC 2012: 117-120 - [c10]Francesca Cucchi, Stefano Di Pascoli, Giuseppe Iannaccone:
Variability-aware design of 55 nA current reference with 1.4% standard deviation and 290 nW power consumption. NORCHIP 2012: 1-4 - 2010
- [c9]Xuebei Yang, Gianluca Fiori, Giuseppe Iannaccone, Kartik Mohanram:
Semi-analytical model for schottky-barrier carbon nanotube and graphene nanoribbon transistors. ACM Great Lakes Symposium on VLSI 2010: 233-238 - 2008
- [c8]Daniele Puntin, Stefano Stanzione, Giuseppe Iannaccone:
CMOS unclonable system for secure authentication based on device variability. ESSCIRC 2008: 130-133 - 2007
- [c7]Giuseppe de Vita, Francesco Marraccini, Giuseppe Iannaccone:
Low-Voltage Low-Power CMOS Oscillator with Low Temperature and Process Sensitivity. ISCAS 2007: 2152-2155 - [c6]Giuseppe de Vita, Giuseppe Iannaccone:
A 109 nW, 44 ppm/°C CMOS Current Reference with Low Sensitivity to Process Variations. ISCAS 2007: 3804-3807 - [c5]Giuseppe de Vita, Giuseppe Iannaccone:
A Voltage Regulator for Subthreshold Logic with Low Sensitivity to Temperature and Process Variations. ISSCC 2007: 530-620 - 2006
- [c4]Giuseppe de Vita, Giuseppe Iannaccone:
Ultra-low-power flash memory in standard 0.35µm CMOS for passive microwave RFID transponders. ISCAS 2006 - 2005
- [c3]Giuseppe de Vita, Giuseppe Iannaccone:
An ultra-low-power, temperature compensated voltage reference generator. CICC 2005: 751-754 - [c2]Giuseppe de Vita, Giuseppe Iannaccone:
Ultra low power RF section of a passive microwave RFID transponder in 0.35µm BiCMOS. ISCAS (5) 2005: 5075-5078 - 2003
- [c1]Jürgen Fischer, Ettore Amirante, Francesco Randazzo, Giuseppe Iannaccone, Doris Schmitt-Landsiedel:
Reduction of the Energy Consumption in Adiabatic Gates by Optimal Transistor Sizing. PATMOS 2003: 309-318
Informal and Other Publications
- 2022
- [i1]Benjamin Zambrano, Esteban Garzón, Sebastiano Strangio, Giuseppe Iannaccone, Marco Lanuzza:
A 0.6V$-$1.8V Compact Temperature Sensor with 0.24°C Resolution, $\pm$1.4°C Inaccuracy and 1.06nJ per Conversion. CoRR abs/2209.00815 (2022)
Coauthor Index
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