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ORCIDLorenzo Codecasa
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2020 – today
- 2024
[j32]Federico Moro
, Lorenzo Codecasa, Artem Napov:
Linear-Time Solution of 3D Magnetostatics With Aggregation-Based Algebraic Multigrid Solvers. IEEE Access 12: 151693-151709 (2024)- [j31]Markus Wess, Bernard Kapidani, Lorenzo Codecasa, Joachim Schöberl:
Mass lumping the dual cell method to arbitrary polynomial degree for acoustic and electromagnetic waves. J. Comput. Phys. 513: 113196 (2024) - [c9]Ciro Scognamillo, Antonio Pio Catalano, Lorenzo Codecasa, Alberto Castellazzi, Vincenzo d'Alessandro:
Enhancing Electrical Ruggedness in Double-Sided Cooled Power Modules. PRIME 2024: 1-4 - 2023
- [i3]Markus Wess, Bernard Kapidani, Lorenzo Codecasa, Joachim Schöberl:
Mass lumping the dual cell method to arbitrary polynomial degree for acoustic and electromagnetic waves. CoRR abs/2312.14716 (2023) - 2022
- [j30]Federico Moro, Artem Napov, Matti Pellikka, Jasmin Smajic, Lorenzo Codecasa:
Fast Solution of 3-D Eddy-Current Problems in Multiply Connected Domains by a, v-φ and t-φ Formulations With Multigrid-Based Algorithm for Cohomology Generation. IEEE Access 10: 112416-112432 (2022) - [c8]Ciro Scognamillo, Antonio Pio Catalano, Vincenzo d'Alessandro, Lorenzo Codecasa, Alberto Castellazzi:
Defect Detection in Double-Sided Cooled Power Modules by Structure Functions. PRIME 2022: 17-20 - 2021
- [j29]Federico Moro, Lorenzo Codecasa:
Domain Decomposition With Non-Conforming Polyhedral Grids. IEEE Access 9: 1465-1481 (2021) - [j28]Federico Moro, Artem Napov, Lorenzo Codecasa:
A Hybrid a-φ Cell Method for Solving Eddy-Current Problems in 3-D Multiply-Connected Domains. IEEE Access 9: 158247-158260 (2021) - [j27]Bernard Kapidani, Lorenzo Codecasa, Joachim Schöberl:
An arbitrary-order Cell Method with block-diagonal mass-matrices for the time-dependent 2D Maxwell equations. J. Comput. Phys. 433: 110184 (2021) - 2020
- [j26]Federico Moro, Jasmin Smajic, Lorenzo Codecasa:
A Novel h-φ Approach for Solving Eddy-Current Problems in Multiply Connected Regions. IEEE Access 8: 170659-170671 (2020) - [j25]Vincenzo Cirimele, Riccardo Torchio, Juan Luis Villa, Fabio Freschi, Piergiorgio Alotto, Lorenzo Codecasa, Luca di Rienzo:
Uncertainty Quantification for SAE J2954 Compliant Static Wireless Charge Components. IEEE Access 8: 171489-171501 (2020) - [i2]Bernard Kapidani, Lorenzo Codecasa, Joachim Schöberl:
An arbitrary-order Cell Method with block-diagonal mass-matrices for the time-dependent 2D Maxwell equations. CoRR abs/2001.07544 (2020)
2010 – 2019
- 2019
- [j24]Riccardo Torchio, Lorenzo Codecasa, Luca di Rienzo, Federico Moro:
Fast Uncertainty Quantification in Low Frequency Electromagnetic Problems by an Integral Equation Method Based on Hierarchical Matrix Compression. IEEE Access 7: 163919-163932 (2019) - [j23]Federico Moro, Daniele Desideri, Alberto Doria, Alvise Maschio, Cristian Medé, Lorenzo Codecasa:
A face-smoothed cell method for static and dynamic piezoelectric coupled problems on polyhedral meshes. J. Comput. Phys. 386: 84-109 (2019) - [j22]Federico Bizzarri, Angelo Maurizio Brambilla, Lorenzo Codecasa:
Shooting by a Two-Step Galerkin Method. IEEE Trans. Circuits Syst. I Regul. Pap. 66-I(1): 383-390 (2019) - 2018
- [j21]Lorenzo Codecasa, Robin Bornoff, James Dyson, Vincenzo d'Alessandro, Alessandro Magnani, Niccolò Rinaldi:
Versatile MOR-based boundary condition independent compact thermal models with multiple heat sources. Microelectron. Reliab. 87: 194-205 (2018) - [j20]Brice Rogié, Lorenzo Codecasa, Eric Monier-Vinard, Valentin Bissuel, Najib Laraqi, Olivier Daniel, Dario D'Amore, Alessandro Magnani, Vincenzo d'Alessandro, Niccolò Rinaldi:
Multi-port dynamic compact thermal models of dual-chip package using model order reduction and metaheuristic optimization. Microelectron. Reliab. 87: 222-231 (2018) - [j19]Lorenzo Codecasa, Márta Rencz:
To the special issue constructed from the selected papers of Thermal investigations of integrated circuits and systems, THERMINIC'17. Microelectron. Reliab. 91: 128 (2018) - [c7]Federico Bizzarri, Angelo Brambilla, Lorenzo Codecasa, Sergio Callegari:
On the Benefit of Adopting Saturable Inductors in Switching-Mode Power-Supplies: A Case Study. ISCAS 2018: 1-5 - 2017
- [j18]Vincenzo d'Alessandro, Antonio Pio Catalano, Alessandro Magnani, Lorenzo Codecasa, Niccolò Rinaldi, Brian Moser, Peter J. Zampardi:
Simulation comparison of InGaP/GaAs HBT thermal performance in wire-bonding and flip-chip technologies. Microelectron. Reliab. 78: 233-242 (2017) - [j17]Lorenzo Codecasa, Vincenzo d'Alessandro, Alessandro Magnani, Niccolò Rinaldi, Andre G. Metzger, Robin Bornoff, John Parry:
Partition-based approach to parametric dynamic compact thermal modeling. Microelectron. Reliab. 79: 361-370 (2017) - [j16]Lorenzo Codecasa, Vincenzo d'Alessandro, Alessandro Magnani, Niccolò Rinaldi:
3-D thermal models calibration by parametric dynamic compact thermal models. Microelectron. Reliab. 79: 371-379 (2017) - [c6]Antonio Pio Catalano, Michele Riccio, Lorenzo Codecasa, Alessandro Magnani, Gianpaolo Romano, Vincenzo d'Alessandro, Luca Maresca, Nils Rinaldi, Giovanni Breglio, Andrea Irace:
Model-Order Reduction Procedure for Fast Dynamic Electrothermal Simulation of Power Converters. ApplePies 2017: 81-87 - 2016
- [j15]Vincenzo d'Alessandro, Alessandro Magnani, Lorenzo Codecasa, Niccolò Rinaldi, Klaus Aufinger:
Advanced thermal simulation of SiGe: C HBTs including back-end-of-line. Microelectron. Reliab. 67: 38-45 (2016) - [j14]Federico Bizzarri, Angelo Brambilla, Lorenzo Codecasa:
Harmonic Balance Based on Two-Step Galerkin Method. IEEE Trans. Circuits Syst. I Regul. Pap. 63-I(9): 1476-1486 (2016) - 2015
- [j13]Lorenzo Codecasa, Vincenzo d'Alessandro, Alessandro Magnani, Niccolò Rinaldi:
Structure-preserving approach to multi-port dynamic compact models of nonlinear heat conduction. Microelectron. J. 46(12): 1129-1137 (2015) - [c5]Federico Bizzarri, Angelo Brambilla, Lorenzo Codecasa:
Reduction of harmonic balance equations through Galerkin's method. ECCTD 2015: 1-4 - [i1]Silvano Chialina, Matteo Cicuttin, Lorenzo Codecasa, Giovanni Solari, Ruben Specogna, Francesco Trevisan:
Modeling of anechoich chambers with equivalent materials and equivalent sources. CoRR abs/1511.08410 (2015) - 2014
- [j12]Lorenzo Codecasa:
Nonlinear dynamic compact thermal models by structure-preserving projection. Microelectron. J. 45(12): 1764-1769 (2014) - [j11]Lorenzo Codecasa, Luca di Rienzo:
Compact thermal models for stochastic thermal analysis. Microelectron. J. 45(12): 1770-1776 (2014) - [j10]Lorenzo Codecasa:
Compact electro-thermal models of interconnects. Microelectron. J. 45(12): 1777-1785 (2014) - 2012
- [j9]Lorenzo Codecasa:
Novel Feedback Theory of Electric Circuits - Part I: Cut-Based Decomposition. IEEE Trans. Circuits Syst. I Regul. Pap. 59-I(7): 1491-1504 (2012) - [j8]Lorenzo Codecasa:
Novel Feedback Theory of Electric Circuits - Part II: Loop Invariants. IEEE Trans. Circuits Syst. I Regul. Pap. 59-I(7): 1505-1518 (2012) - 2010
- [j7]Lorenzo Codecasa, Ruben Specogna, Francesco Trevisan:
A new set of basis functions for the discrete geometric approach. J. Comput. Phys. 229(19): 7401-7410 (2010)
2000 – 2009
- 2009
- [j6]N. Spennagallo, Lorenzo Codecasa, Dario D'Amore, Paolo Maffezzoni:
Evaluating the effects of temperature gradients and currents nonuniformity in on-chip interconnects. Microelectron. J. 40(7): 1154-1159 (2009) - [j5]Paolo Maffezzoni, Lorenzo Codecasa, Dario D'Amore:
Modeling and Simulation of a Hybrid Photovoltaic Module Equipped With a Heat-Recovery System. IEEE Trans. Ind. Electron. 56(11): 4311-4318 (2009) - 2008
- [c4]Paolo Maffezzoni, Lorenzo Codecasa, Dario D'Amore, Mauro Santomauro:
Semi-implicit integration method for the time-domain simulation of thermal responses. ISCAS 2008: 816-819 - [c3]Paolo Maffezzoni, Lorenzo Codecasa, Dario D'Amore, Mauro Santomauro:
Steady-state analysis of strongly nonlinear Oscillators By Means of Runge-Kutta Methods. ISCAS 2008: 1308-1311 - 2007
- [j4]Lorenzo Codecasa, Francesco Trevisan:
Constitutive equations for discrete electromagnetic problems over polyhedral grids. J. Comput. Phys. 225(2): 1894-1918 (2007) - [j3]Paolo Maffezzoni, Lorenzo Codecasa, Dario D'Amore:
Time-Domain Simulation of Nonlinear Circuits Through Implicit Runge-Kutta Methods. IEEE Trans. Circuits Syst. I Regul. Pap. 54-I(2): 391-400 (2007) - [c2]Paolo Maffezzoni, Lorenzo Codecasa, Dario D'Amore, Mauro Santomauro:
Closed-Form expression of frequency pulling in unlocked-driven nonlinear oscillators. ECCTD 2007: 914-917 - 2006
- [j2]Paolo Maffezzoni, Lorenzo Codecasa, Dario D'Amore:
Event-Driven Time-Domain Simulation of Closed-Loop Switched Circuits. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 25(11): 2413-2426 (2006) - [c1]Lorenzo Codecasa, Dario D'Amore, Paolo Maffezzoni:
Parametric compact models by directional moment matching. ISCAS 2006 - 2004
- [j1]Lorenzo Codecasa:
Electro-thermal chaotic oscillations of paralleled bipolar transistors. Microelectron. J. 35(10): 859-868 (2004)
Coauthor Index
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