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ORCIDDaniel Oliveira 0002
Person information
- affiliation: Federal University of Parana, Curitiba, Brazil
Other persons with the same name
- Daniel de Oliveira 0001
![[0000-0001-9346-7651]](https://dblp.org/img/orcid-mark.12x12.png "0000-0001-9346-7651")
(aka: Daniel C. M. de Oliveira, Daniel Cardoso Moraes de Oliveira, Daniel Oliveira 0001) — Fluminense Federal University (UFF), Institute of Computing, Niterói, RJ, Brazil (and 1 more) - Daniel Oliveira 0003 (aka: Daniel José da Cunha Oliveira) — University of Minho, Centro ALGORITMI, Portugal
- Daniel Oliveira 0004 — University of Beira Interior, Covilha, Portugal
- Daniel Oliveira 0005 (aka: Daniel Tenório Martins de Oliveira) — Pontifical Catholic University of Rio de Janeiro, Informatics Department, Brazil
- Daniel Oliveira 0006 — Institute of Electronics and Telematics Engineering of Aveiro (IEETA), Portugal
- Daniel Oliveira 0007 — Federal University of Amazonas, Manaus, Brasil
- Daniel Oliveira 0008 — Coimbra Polytechnic - ISEC, Portugal
- Daniel M. de Oliveira (aka: Daniel Oliveira 0009) — Federal University of Bahia, Salvador, Brazil
- Daniel Oliveira 0010 — Fluminense Federal University, Niteroi, RJ, Brazil
- Daniel Oliveira 0011 — Instituto Superior Técnico, Department of Mathematics, Lisbon, Portugal
- Daniel Oliveira 0012 — University of Minho, Department of Information Systems, Braga, Portugal
- Daniel Oliveira 0013 — INESC-ID, Lisbon, Portugal (and 1 more)
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2020 – today
- 2024
[j4]Daniel Oliveira, Edoardo Giusto, Betis Baheri, Qiang Guan, Bartolomeo Montrucchio, Paolo Rech:
A Systematic Methodology to Compute the Quantum Vulnerability Factors for Quantum Circuits. IEEE Trans. Dependable Secur. Comput. 21(4): 2631-2644 (2024)- 2023
- [d1]Daniel Oliveira, Edoardo Giusto, Betis Baheri, Qiang Guan, Bartolomeo Montrucchio, Paolo Rech:
Dataset for A Systematic Methodology to Compute the Quantum Vulnerability Factors for Quantum Circuits. IEEE DataPort, 2023
- 2022
- [c20]Daniel Oliveira, Edoardo Giusto, Emanuele Dri, Nadir Casciola, Betis Baheri, Qiang Guan, Bartolomeo Montrucchio, Paolo Rech:
QuFI: a Quantum Fault Injector to Measure the Reliability of Qubits and Quantum Circuits. DSN 2022: 137-149 - [c19]Nadir Casciola, Edoardo Giusto, Emanuele Dri, Daniel Oliveira, Paolo Rech, Bartolomeo Montrucchio:
Understanding the Impact of Cutting in Quantum Circuits Reliability to Transient Faults. IOLTS 2022: 1-7 - [i2]Daniel Oliveira, Edoardo Giusto, Emanuele Dri, Nadir Casciola, Betis Baheri, Qiang Guan, Bartolomeo Montrucchio, Paolo Rech:
QuFI: a Quantum Fault Injector to Measure the Reliability of Qubits and Quantum Circuits. CoRR abs/2203.07183 (2022) - 2021
- [j3]Daniel Oliveira, Sean Blanchard, Nathan DeBardeleben, Fernando Fernandes dos Santos, Gabriel Piscoya Dávila, Philippe O. A. Navaux, Andrea Favalli, Opale Schappert, Stephen Wender, Carlo Cazzaniga, Christopher Frost, Paolo Rech:
Thermal neutrons: a possible threat for supercomputer reliability. J. Supercomput. 77(2): 1612-1634 (2021) - [i1]Daniel Oliveira, Edoardo Giusto, Betis Baheri, Qiang Guan, Bartolomeo Montrucchio, Paolo Rech:
A Systematic Methodology to Compute the Quantum Vulnerability Factors for Quantum Circuits. CoRR abs/2111.07085 (2021) - 2020
- [c18]Daniel Oliveira, Sean Blanchard, Nathan DeBardeleben, Fermando Santos, Gabriel Piscoya Dávila, Philippe Olivier Alexandre Navaux, Stephen Wender, Carlo Cazzaniga, Christopher Frost, Robert C. Baumann, Paolo Rech:
An Overview of the Risk Posed by Thermal Neutrons to the Reliability of Computing Devices. DSN (Supplements) 2020: 92-97 - [c17]Daniel Oliveira, Sean Blanchard, Nathan DeBardeleben, Fernando Fernandes dos Santos, Gabriel Piscoya Dávila, Philippe O. A. Navaux, Carlo Cazzaniga, Christopher Frost, Robert C. Baumann, Paolo Rech:
Thermal Neutrons: a Possible Threat for Supercomputers and Safety Critical Applications. ETS 2020: 1-6
2010 – 2019
- 2019
- [c16]Francis B. Moreira, Daniel A. G. de Oliveira, Philippe O. A. Navaux:
SPADA: a statistical program attack detection analysis. CF 2019: 50-58 - [c15]Gabriel Piscoya Davila, Daniel Oliveira, Philippe O. A. Navaux, Paolo Rech:
Identifying the Most Reliable Collaborative Workload Distribution in Heterogeneous Devices. DATE 2019: 1325-1330 - [c14]Daniel Oliveira, Philippe O. A. Navaux, Paolo Rech:
Increasing the Efficiency and Efficacy of Selective-Hardening for Parallel Applications. DFT 2019: 1-6 - [c13]Fernando Fernandes dos Santos, Caio B. Lunardi, Daniel Oliveira, Fabiano Libano, Paolo Rech:
Reliability Evaluation of Mixed-Precision Architectures. HPCA 2019: 238-249 - [c12]Gabriel Piscoya Davila, Daniel Oliveira, Philippe O. A. Navaux, Paolo Rech:
Impact of Workload Distribution on Energy Consumption, Performance, and Reliability of Heterogeneous Devices. PDP 2019: 166-173 - 2018
- [j2]Vinicius Fratin, Daniel Oliveira, Philippe O. A. Navaux, Luigi Carro, Paolo Rech:
Energy-Delay-FIT Product to compare processors and algorithm implementations. Microelectron. Reliab. 84: 112-120 (2018) - [c11]Vinicius Fratin, Daniel Oliveira, Caio B. Lunardi, Fernando Santos, Gennaro Severino Rodrigues, Paolo Rech:
Code-Dependent and Architecture-Dependent Reliability Behaviors. DSN 2018: 13-26 - [c10]Daniel Oliveira, Francis Birck Moreira, Paolo Rech, Philippe Olivier Alexandre Navaux:
Predicting the Reliability Behavior of HPC Applications. SBAC-PAD 2018: 124-131 - [c9]Lukás Sekanina, Zdenek Vasícek, Alberto Bosio, Marcello Traiola, Paolo Rech, Daniel Oliveira, Fernando Fernandes, Stefano Di Carlo:
Special session: How approximate computing impacts verification, test and reliability. VTS 2018: 1 - 2017
- [c8]Daniel Oliveira, Vinicius Fratin, Philippe Olivier Alexandre Navaux, Israel Koren, Paolo Rech:
CAROL-FI: an Efficient Fault-Injection Tool for Vulnerability Evaluation of Modern HPC Parallel Accelerators. Conf. Computing Frontiers 2017: 295-298 - [c7]Daniel Alfonso Gonçalves de Oliveira, Laércio Lima Pilla, Mauricio Hanzich, Vinicius Fratin, Fernando Fernandes, Caio B. Lunardi, José María Cela, Philippe Olivier Alexandre Navaux, Luigi Carro, Paolo Rech:
Radiation-Induced Error Criticality in Modern HPC Parallel Accelerators. HPCA 2017: 577-588 - [c6]Daniel Oliveira, Laércio Lima Pilla, Nathan DeBardeleben, Sean Blanchard, Heather Quinn, Israel Koren, Philippe O. A. Navaux, Paolo Rech:
Experimental and analytical study of Xeon Phi reliability. SC 2017: 28 - 2016
- [j1]Daniel Alfonso Gonçalves de Oliveira, Laércio Lima Pilla, Thiago Santini, Paolo Rech:
Evaluation and Mitigation of Radiation-Induced Soft Errors in Graphics Processing Units. IEEE Trans. Computers 65(3): 791-804 (2016) - 2015
- [c5]Devesh Tiwari, Saurabh Gupta, James H. Rogers, Don Maxwell, Paolo Rech, Sudharshan S. Vazhkudai, Daniel Oliveira, Dave Londo, Nathan DeBardeleben, Philippe Olivier Alexandre Navaux, Luigi Carro, Arthur S. Bland:
Understanding GPU errors on large-scale HPC systems and the implications for system design and operation. HPCA 2015: 331-342 - [c4]Daniel Alfonso Gonçalves de Oliveira, Laércio Lima Pilla, Caio B. Lunardi, Luigi Carro, Philippe O. A. Navaux, Paolo Rech:
The Path to Exascale: Code Optimizations and Hardening Solutions Reliability. FTXS@HPDC 2015: 55-62 - 2014
- [c3]Daniel A. G. de Oliveira, Paolo Rech, Laércio Lima Pilla, Philippe Olivier Alexandre Navaux, Luigi Carro:
GPGPUs ECC efficiency and efficacy. DFT 2014: 209-215 - [c2]Daniel A. G. de Oliveira, Caio B. Lunardi, Laércio Lima Pilla, Paolo Rech, Philippe Olivier Alexandre Navaux, Luigi Carro:
Radiation Sensitivity of High Performance Computing Applications on Kepler-Based GPGPUs. DSN 2014: 732-737 - 2012
- [c1]Edson L. Padoin, Daniel A. G. de Oliveira, Pedro Velho, Philippe Olivier Alexandre Navaux:
Evaluating Performance and Energy on ARM-based Clusters for High Performance Computing. ICPP Workshops 2012: 165-172
Coauthor Index
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