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8,172 results on '"Barthe A"'

1. High-dose long-time defect evolution in tungsten studied by atomistically informed Object Kinetic Monte Carlo simulations

Author

Wu, Jintong, Balbuena, Juan-Pablo, Hu, Zhiwei, Jantunen, Ville, Barthe, Marie-France, Caturla, Maria Jose, and Granberg, Fredric

Subjects
Condensed Matter - Materials Science
Abstract

Irradiation of materials in nuclear test reactors and power plants is known to alter the properties of the material. The irradiation event happening at pico- or nanosecond time scales are affecting the evolution and properties of the material on macroscopic timescales. Classical Molecular Dynamics simulations, which can capture the cascade event, are typically limited to nanosecond time scales, resulting in high dose rates. To achieve experimental dose rates, larger-scale models like Object Kinetic Monte Carlo are used, while they lack atomistic detail. The exact evolution of cascades in the vicinity of pre-existing defects is known to affect the defects formed, and the structure and morphology of the defects produced are crucial to know for determining macroscopic material behavior. Here we introduce a novel approach to integrate full Molecular Dynamics-based cascades into Object Kinetic Monte Carlo to achieve accurate dose rates, with the atomistic level accuracy of cascade overlap in tungsten. Our study reveals that incorporating full cascades significantly influences defect concentration levels. Not only is the concentration affected, but also the cluster statistics. We observe both that the full cascade can promote vacancy clustering at low temperatures and it can split existing voids at higher temperatures. These effects are missing in conventional Object Kinetic Monte Carlo simulations. This can be especially important in more complex materials, where many cascade-overlap effects are present.

Published
2024

2. A quantitative probabilistic relational Hoare logic

Author

Avanzini, Martin, Barthe, Gilles, Davoli, Davide, and Grégoire, Benjamin

Subjects
Computer Science - Logic in Computer Science
Abstract

We introduce eRHL, a program logic for reasoning about relational expectation properties of pairs of probabilistic programs. eRHL is quantitative, i.e., its pre- and post-conditions take values in the extended non-negative reals. Thanks to its quantitative assertions, eRHL overcomes randomness alignment restrictions from prior logics, including PRHL, a popular relational program logic used to reason about security of cryptographic constructions, and apRHL, a variant of PRHL for differential privacy. As a result, eRHL is the first relational probabilistic program logic to be supported by non-trivial soundness and completeness results for all almost surely terminating programs. We show that eRHL is sound and complete with respect to program equivalence, statistical distance, and differential privacy. We also show that every PRHL judgment is valid iff it is provable in eRHL. We showcase the practical benefits of eRHL with examples that are beyond reach of PRHL and apRHL.

Published
2024

3. Gate-based quantum simulation of Gaussian bosonic circuits on exponentially many modes

Author

Barthe, Alice, Cerezo, M., Sornborger, Andrew T., Larocca, Martin, and García-Martín, Diego

Subjects
Quantum Physics, Computer Science - Computational Complexity
Abstract

We introduce a framework for simulating, on an $(n+1)$-qubit quantum computer, the action of a Gaussian Bosonic (GB) circuit on a state over $2^n$ modes. Specifically, we encode the initial bosonic state's expectation values over quadrature operators (and their covariance matrix) as an input qubit-state. This is then evolved by a quantum circuit that effectively implements the symplectic propagators induced by the GB gates. We find families of GB circuits and initial states leading to efficient quantum simulations. For this purpose, we introduce a dictionary that maps between GB and qubit gates such that particle- (non-particle-) preserving GB gates lead to real (imaginary) time evolutions at the qubit level. For the special case of particle-preserving circuits, we present a BQP-complete GB decision problem, indicating that GB evolutions of Gaussian states on exponentially many modes are as powerful as universal quantum computers. We also perform numerical simulations of an interferometer on $\sim8$ billion modes, illustrating the power of our framework., Comment: 5+14 pages, 3 figures, 1 table

Published
2024

4. Parameterized quantum circuits as universal generative models for continuous multivariate distributions

Author

Barthe, Alice, Grossi, Michele, Vallecorsa, Sofia, Tura, Jordi, and Dunjko, Vedran

Subjects
Quantum Physics
Abstract

Parameterized quantum circuits have been extensively used as the basis for machine learning models in regression, classification, and generative tasks. For supervised learning, their expressivity has been thoroughly investigated and several universality properties have been proven. However, in the case of quantum generative modelling, much less is known, especially when the task is to model distributions over continuous variables. In this work, we elucidate expectation value sampling-based models. Such models output the expectation values of a set of fixed observables from a quantum circuit into which classical random data has been uploaded. We prove the universality of such variational quantum algorithms for the generation of multivariate distributions. We explore various architectures which allow universality and prove tight bounds connecting the minimal required qubit number, and the minimal required number of measurements needed. Our results may help guide the design of future quantum circuits in generative modelling tasks.

Published
2024

5. Testing side-channel security of cryptographic implementations against future microarchitectures

Author

Barthe, Gilles, Böhme, Marcel, Cauligi, Sunjay, Chuengsatiansup, Chitchanok, Genkin, Daniel, Guarnieri, Marco, Romero, David Mateos, Schwabe, Peter, Wu, David, and Yarom, Yuval

Subjects
Computer Science - Cryptography and Security
Abstract

How will future microarchitectures impact the security of existing cryptographic implementations? As we cannot keep reducing the size of transistors, chip vendors have started developing new microarchitectural optimizations to speed up computation. A recent study (Sanchez Vicarte et al., ISCA 2021) suggests that these optimizations might open the Pandora's box of microarchitectural attacks. However, there is little guidance on how to evaluate the security impact of future optimization proposals. To help chip vendors explore the impact of microarchitectural optimizations on cryptographic implementations, we develop (i) an expressive domain-specific language, called LmSpec, that allows them to specify the leakage model for the given optimization and (ii) a testing framework, called LmTest, to automatically detect leaks under the specified leakage model within the given implementation. Using this framework, we conduct an empirical study of 18 proposed microarchitectural optimizations on 25 implementations of eight cryptographic primitives in five popular libraries. We find that every implementation would contain secret-dependent leaks, sometimes sufficient to recover a victim's secret key, if these optimizations were realized. Ironically, some leaks are possible only because of coding idioms used to prevent leaks under the standard constant-time model.

Published
2024

6. RING-NeRF : Rethinking Inductive Biases for Versatile and Efficient Neural Fields

Author

Petit, Doriand, Bourgeois, Steve, Pavel, Dumitru, Gay-Bellile, Vincent, Chabot, Florian, and Barthe, Loic

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent advances in Neural Fields mostly rely on developing task-specific supervision which often complicates the models. Rather than developing hard-to-combine and specific modules, another approach generally overlooked is to directly inject generic priors on the scene representation (also called inductive biases) into the NeRF architecture. Based on this idea, we propose the RING-NeRF architecture which includes two inductive biases : a continuous multi-scale representation of the scene and an invariance of the decoder's latent space over spatial and scale domains. We also design a single reconstruction process that takes advantage of those inductive biases and experimentally demonstrates on-par performances in terms of quality with dedicated architecture on multiple tasks (anti-aliasing, few view reconstruction, SDF reconstruction without scene-specific initialization) while being more efficient. Moreover, RING-NeRF has the distinctive ability to dynamically increase the resolution of the model, opening the way to adaptive reconstruction., Comment: This publication has been accepted at ECCV'24

Published
2023

7. OBRA: Oracle-Based, Relational, Algorithmic Type Verification

Author

Vasilenko, Elizaveta, Vazou, Niki, Barthe, Gilles, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, and Kiselyov, Oleg, editor

Published
2025
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8. RING-NeRF : Rethinking Inductive Biases for Versatile and Efficient Neural Fields

Author

Petit, Doriand, Bourgeois, Steve, Pavel, Dumitru, Gay-Bellile, Vincent, Chabot, Florian, Barthe, Loïc, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Leonardis, Aleš, editor, Ricci, Elisa, editor, Roth, Stefan, editor, Russakovsky, Olga, editor, Sattler, Torsten, editor, and Varol, Gül, editor

Published
2025
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10. Gradients and frequency profiles of quantum re-uploading models

Author

Barthe, Alice and Pérez-Salinas, Adrián

Subjects
Quantum Physics
Abstract

Quantum re-uploading models have been extensively investigated as a form of machine learning within the context of variational quantum algorithms. Their trainability and expressivity are not yet fully understood and are critical to their performance. In this work, we address trainability through the lens of the magnitude of the gradients of the cost function. We prove bounds for the differences between gradients of the better-studied data-less parameterized quantum circuits and re-uploading models. We coin the concept of {\sl absorption witness} to quantify such difference. For the expressivity, we prove that quantum re-uploading models output functions with vanishing high-frequency components and upper-bounded derivatives with respect to data. As a consequence, such functions present limited sensitivity to fine details, which protects against overfitting. We performed numerical experiments extending the theoretical results to more relaxed and realistic conditions. Overall, future designs of quantum re-uploading models will benefit from the strengthened knowledge delivered by the uncovering of absorption witnesses and vanishing high frequencies., Comment: 14 pages + 2 of references + 8 of appendix. 7+1 figures. Updated version after peer-review and acceptance in Quantum

Published
2023

11. Hyperspectral full-field quick-EXAFS imaging at the ROCK beamline for monitoring micrometre-sized heterogeneity of functional materials under process conditions

Author

Valérie Briois, Jean Paul Itié, Alain Polian, Andrew King, Aliou Sadia Traore, Eric Marceau, Ovidiu Ersen, Camille La Fontaine, Laurent Barthe, Anthony Beauvois, Olga Roudenko, and Stéphanie Belin

Subjects
quick-exafs, hyperspectral imaging, mcr-als, catalysis, electrode materials, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Crystallography, QD901-999
Abstract

Full-field transmission X-ray microscopy has been recently implemented at the hard X-ray ROCK–SOLEIL quick-EXAFS beamline, adding micrometre spatial resolution to the second time resolution characterizing the beamline. Benefiting from a beam size versatility due to the beamline focusing optics, full-field hyperspectral XANES imaging has been successfully used at the Fe K-edge for monitoring the pressure-induced spin transition of a 150 µm × 150 µm Fe(o-phen)2(NCS)2 single crystal and the charge of millimetre-sized LiFePO4 battery electrodes. Hyperspectral imaging over 2000 eV has been reported for the simultaneous monitoring of Fe and Cu speciation changes during activation of a FeCu bimetallic catalyst along a millimetre-sized catalyst bed. Strategies of data acquisition and post-data analysis using Jupyter notebooks and multivariate data analysis are presented, and the gain obtained using full-field hyperspectral quick-EXAFS imaging for studies of functional materials under process conditions in comparison with macroscopic information obtained by non-spatially resolved quick-EXAFS techniques is discussed.

Published
2024
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12. A Proposal for Automatic Demand Forecast Model Selection

Author

Garred, Wassim, Oger, Raphaël, Barthe-Delanoe, Anne-Marie, Lauras, Matthieu, Rannenberg, Kai, Editor-in-Chief, Soares Barbosa, Luís, Editorial Board Member, Carette, Jacques, Editorial Board Member, Tatnall, Arthur, Editorial Board Member, Neuhold, Erich J., Editorial Board Member, Stiller, Burkhard, Editorial Board Member, Stettner, Lukasz, Editorial Board Member, Pries-Heje, Jan, Editorial Board Member, M. Davison, Robert, Editorial Board Member, Rettberg, Achim, Editorial Board Member, Furnell, Steven, Editorial Board Member, Mercier-Laurent, Eunika, Editorial Board Member, Winckler, Marco, Editorial Board Member, Malaka, Rainer, Editorial Board Member, Camarinha-Matos, Luis M., editor, Ortiz, Angel, editor, Boucher, Xavier, editor, and Barthe-Delanoë, Anne-Marie, editor

Published
2024
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13. Towards the Integration of Conversational Agents Through a Social Media Platform to Enhance the Agility of BPM

Author

Sarr, Lala Aïcha, Ayite, Paul Komlan, Barthe-Delanoë, Anne -Marie, Bork, Dominik, Macé-Ramète, Guillaume, Benaben, Frederick, Rannenberg, Kai, Editor-in-Chief, Soares Barbosa, Luís, Editorial Board Member, Carette, Jacques, Editorial Board Member, Tatnall, Arthur, Editorial Board Member, Neuhold, Erich J., Editorial Board Member, Stiller, Burkhard, Editorial Board Member, Stettner, Lukasz, Editorial Board Member, Pries-Heje, Jan, Editorial Board Member, M. Davison, Robert, Editorial Board Member, Rettberg, Achim, Editorial Board Member, Furnell, Steven, Editorial Board Member, Mercier-Laurent, Eunika, Editorial Board Member, Winckler, Marco, Editorial Board Member, Malaka, Rainer, Editorial Board Member, Camarinha-Matos, Luis M., editor, Ortiz, Angel, editor, Boucher, Xavier, editor, and Barthe-Delanoë, Anne-Marie, editor

Published
2024
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15. Fine-tuning ClimateBert transformer with ClimaText for the disclosure analysis of climate-related financial risks

Author

Garrido-Merchán, Eduardo C., González-Barthe, Cristina, and Vaca, María Coronado

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

In recent years there has been a growing demand from financial agents, especially from particular and institutional investors, for companies to report on climate-related financial risks. A vast amount of information, in text format, can be expected to be disclosed in the short term by firms in order to identify these types of risks in their financial and non financial reports, particularly in response to the growing regulation that is being passed on the matter. To this end, this paper applies state-of-the-art NLP techniques to achieve the detection of climate change in text corpora. We use transfer learning to fine-tune two transformer models, BERT and ClimateBert -a recently published DistillRoBERTa-based model that has been specifically tailored for climate text classification-. These two algorithms are based on the transformer architecture which enables learning the contextual relationships between words in a text. We carry out the fine-tuning process of both models on the novel Clima-Text database, consisting of data collected from Wikipedia, 10K Files Reports and web-based claims. Our text classification model obtained from the ClimateBert fine-tuning process on ClimaText, outperforms the models created with BERT and the current state-of-the-art transformer in this particular problem. Our study is the first one to implement on the ClimaText database the recently published ClimateBert algorithm. Based on our results, it can be said that ClimateBert fine-tuned on ClimaText is an outstanding tool within the NLP pre-trained transformer models that may and should be used by investors, institutional agents and companies themselves to monitor the disclosure of climate risk in financial reports. In addition, our transfer learning methodology is cheap in computational terms, thus allowing any organization to perform it.

Published
2023

16. Bloch Sphere Binary Trees: A method for the visualization of sets of multi-qubit systems pure states

Author

Barthe, Alice, Grossi, Michele, Tura, Jordi, and Dunjko, Vedran

Subjects
Quantum Physics
Abstract

Understanding the evolution of a multi-qubit quantum system, or elucidating what portion of the Hilbert space is occupied by a quantum dataset becomes increasingly hard with the number of qubits. In this context, the visualisation of sets of multi-qubit pure quantum states on a single image can be helpful. However, the current approaches to visualization of this type only allow the representation of a set of single qubits (not allowing multi-qubit systems) or a just a single multi-qubit system (not suitable if we care about sets of states), sometimes with additional restrictions, on symmetry or entanglement for example. [1{3]. In this work we present a mapping that can uniquely represent a set of arbitrary multi-qubit pure states on what we call a Binary Tree of Bloch Spheres. The backbone of this technique is the combination of the Schmidt decomposition and the Bloch sphere representation. We illustrate how this can be used in the context of understanding the time evolution of quantum states, e.g. providing immediate insights into the periodicity of the system and even entanglement properties. We also provide a recursive algorithm which translates from the computational basis state representation to the binary tree of Bloch spheres representation. The algorithm was implemented together with a visualization library in Python released as open source.

Published
2023

17. Challenges and Opportunities of Content Optimization for Freeform User Interfaces

Author

Niyazov, Aziz, Zhao, Kaixing, Xu, Tao, Mellado, Nicolas, Barthe, Loic, and Serrano, Marcos

Subjects
Computer Science - Human-Computer Interaction
Abstract

While recent innovations on shape technologies allow for the creation of displays with almost unlimited form factors, current graphical user interfaces still rely on rectangular layouts and contents. This rectangular legacy hinders the progress of freeform displays, which are particularly relevant for pervasive scenarios to display interactive dynamic content where and when needed. By challenging the prevailing layout tradition on rectangular displays, freeform user interfaces raise design challenges which call for exploring the interlink between computational approaches and user interface generation and adaptation. In this position paper we report on previous work on content optimization for freeform user interfaces and anticipate the upcoming challenges and opportunities.

Published
2023

22. Formally Verifying Kyber : Episode V: Machine-Checked IND-CCA Security and Correctness of ML-KEM in EasyCrypt

Author

Almeida, José Bacelar, Arranz Olmos, Santiago, Barbosa, Manuel, Barthe, Gilles, Dupressoir, François, Grégoire, Benjamin, Laporte, Vincent, Léchenet, Jean-Christophe, Low, Cameron, Oliveira, Tiago, Pacheco, Hugo, Quaresma, Miguel, Schwabe, Peter, Strub, Pierre-Yves, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Reyzin, Leonid, editor, and Stebila, Douglas, editor

Published
2024
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23. A Social BPM Approach to Deal with Agility

Author

Eidgahi, Mehran Majidian, Araghi, Sina Namaki, Bork, Dominik, Barthe-Delanoë, Anne-Marie, Mace-Ramete, Guillaume, Benaben, Frederick, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Chbeir, Richard, editor, Benslimane, Djamal, editor, Zervakis, Michalis, editor, Manolopoulos, Yannis, editor, Ngyuen, Ngoc Thanh, editor, and Tekli, Joe, editor

Published
2024
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24. Integrating Social Media and Business Process Management: Exploring the Role of AI Agents and the Benefits for Agility

Author

Majidian Eidgahi, Mehran, Barthe-Delanoë, Anne-Marie, Bork, Dominik, Namaki Araghi, Sina, Macé-Ramète, Guillaume, Benaben, Frederick, van der Aalst, Wil, Series Editor, Ram, Sudha, Series Editor, Rosemann, Michael, Series Editor, Szyperski, Clemens, Series Editor, Guizzardi, Giancarlo, Series Editor, De Weerdt, Jochen, editor, and Pufahl, Luise, editor

Published
2024
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26. L’histoire du ralliement, du Concordat à nos jours

Author

Claude Barthe

Subjects
ralliement, liberal catholics, leo xiii, in the midst of solicitudes, cristeros, dupanloup, bernanos, droit nouveau, thesis/hypothesis, pius xi, quas primas, dignitatis humanæ, congress of malines, Philosophy. Psychology. Religion, Metaphysics, BD95-131
Abstract

Between the French Revolution and the Second Vatican Council, alongside a magisterium of anathemas against the modern world born of this Revolution and against the concessions made to political modernity by liberal Catholics, culminating in Pius IX's Quanta Cura, another operation unfolded on the part of Rome, describable as "diplomatic" in a broad sense. One thinks in particular of the instructions for rallying to the modern Republic given by Leo XIII to French Catholics in his 1892 encyclical Au milieu des sollicitudes. But there have been other acts before and since that enter into this perspective, by which the Holy See seemed to contradict, for the benefit of established liberal powers, its condemnation in principle of the institutions on which these same powers rested: the coronation of Napoleon, the "second Ralliement" of the 1920s, the abandonment of the Cristeros for "reasons of Church".

Published
2024
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27. CoqQ: Foundational Verification of Quantum Programs

Author

Zhou, Li, Barthe, Gilles, Strub, Pierre-Yves, Liu, Junyi, and Ying, Mingsheng

Subjects
Computer Science - Programming Languages
Abstract

CoqQ is a framework for reasoning about quantum programs in the Coq proof assistant. Its main components are: a deeply embedded quantum programming language, in which classic quantum algorithms are easily expressed, and an expressive program logic for proving properties of programs. CoqQ is foundational: the program logic is formally proved sound with respect to a denotational semantics based on state-of-art mathematical libraries (mathcomp and mathcomp analysis). CoqQ is also practical: assertions can use Dirac expressions, which eases concise specifications, and proofs can exploit local and parallel reasoning, which minimizes verification effort. We illustrate the applicability of CoqQ with many examples from the literature.

Published
2022

28. On Feller Continuity and Full Abstraction (Long Version)

Author

Barthe, Gilles, Crubillé, Raphaëlle, Lago, Ugo Dal, and Gavazzo, Francesco

Subjects
Computer Science - Logic in Computer Science, Computer Science - Programming Languages
Abstract

We study the nature of applicative bisimilarity in $\lambda$-calculi endowed with operators for sampling from continuous distributions. On the one hand, we show that bisimilarity, logical equivalence, and testing equivalence all coincide with contextual equivalence when real numbers can be manipulated only through continuous functions. The key ingredient towards this result is a novel notion of Feller-continuity for labelled Markov processes, which we believe of independent interest, being a broad class of LMPs for which coinductive and logically inspired equivalences coincide. On the other hand, we show that if no constraint is put on the way real numbers are manipulated, characterizing contextual equivalence turns out to be hard, and most of the aforementioned notions of equivalence are even unsound.

Published
2022

29. A Gaussian correlation inequality for plurisubharmonic functions

Author

Barthe, Franck and Cordero-Erausquin, Dario

Subjects
Mathematics - Functional Analysis, Mathematics - Probability
Abstract

A positive correlation inequality is established for circular-invariant plurisubharmonic functions, with respect to complex Gaussian measures. The main ingredients of the proofs are the Ornstein-Uhlenbeck semigroup, and another natural semigroup associated to the Gaussian $\partial$-Laplacian.

Published
2022

33. SAFE: Multi-institutional study of time to complications after robot-assisted partial nephrectomy, selection of a population eligible for outpatient management (UroCCR 90)

Author

Barthe, Flora, Bentellis, Imad, Bernhard, Jean-Christope, Bensalah, Karim, Champy, Cecile, Bruyere, Franck, Olivier, Jonathan, Audenet, Francois, Parier, Bastien, Brenier, Martin, Branger, Nicolas, Lang, Herve, Xylinas, Evanguelos, Boissier, Romain, Rouget, Benjamin, Chevallier, Daniel, Durand, Matthieu, and Ahallal, Youness

Published
2025
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34. Volumes of subset Minkowski sums and the Lyusternik region

Author

Barthe, Franck and Madiman, Mokshay

Subjects
Mathematics - Combinatorics, Mathematics - Metric Geometry
Abstract

We begin a systematic study of the region of possible values of the volumes of Minkowski subset sums of a collection of $M$ compact sets in $\mathbb{R}^d$, which we call the Lyusternik region, and make some first steps towards describing it. Our main result is that a fractional generalization of the Brunn-Minkowski-Lyusternik inequality conjectured by Bobkov et al. (2011) holds in dimension 1. Even though Fradelizi et al. (2016) showed that it fails in general dimension, we show that a variant does hold in any dimension.

Published
2021
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35. NL-Augmenter: A Framework for Task-Sensitive Natural Language Augmentation

Author

Dhole, Kaustubh D., Gangal, Varun, Gehrmann, Sebastian, Gupta, Aadesh, Li, Zhenhao, Mahamood, Saad, Mahendiran, Abinaya, Mille, Simon, Shrivastava, Ashish, Tan, Samson, Wu, Tongshuang, Sohl-Dickstein, Jascha, Choi, Jinho D., Hovy, Eduard, Dusek, Ondrej, Ruder, Sebastian, Anand, Sajant, Aneja, Nagender, Banjade, Rabin, Barthe, Lisa, Behnke, Hanna, Berlot-Attwell, Ian, Boyle, Connor, Brun, Caroline, Cabezudo, Marco Antonio Sobrevilla, Cahyawijaya, Samuel, Chapuis, Emile, Che, Wanxiang, Choudhary, Mukund, Clauss, Christian, Colombo, Pierre, Cornell, Filip, Dagan, Gautier, Das, Mayukh, Dixit, Tanay, Dopierre, Thomas, Dray, Paul-Alexis, Dubey, Suchitra, Ekeinhor, Tatiana, Di Giovanni, Marco, Goyal, Tanya, Gupta, Rishabh, Hamla, Louanes, Han, Sang, Harel-Canada, Fabrice, Honore, Antoine, Jindal, Ishan, Joniak, Przemyslaw K., Kleyko, Denis, Kovatchev, Venelin, Krishna, Kalpesh, Kumar, Ashutosh, Langer, Stefan, Lee, Seungjae Ryan, Levinson, Corey James, Liang, Hualou, Liang, Kaizhao, Liu, Zhexiong, Lukyanenko, Andrey, Marivate, Vukosi, de Melo, Gerard, Meoni, Simon, Meyer, Maxime, Mir, Afnan, Moosavi, Nafise Sadat, Muennighoff, Niklas, Mun, Timothy Sum Hon, Murray, Kenton, Namysl, Marcin, Obedkova, Maria, Oli, Priti, Pasricha, Nivranshu, Pfister, Jan, Plant, Richard, Prabhu, Vinay, Pais, Vasile, Qin, Libo, Raji, Shahab, Rajpoot, Pawan Kumar, Raunak, Vikas, Rinberg, Roy, Roberts, Nicolas, Rodriguez, Juan Diego, Roux, Claude, S., Vasconcellos P. H., Sai, Ananya B., Schmidt, Robin M., Scialom, Thomas, Sefara, Tshephisho, Shamsi, Saqib N., Shen, Xudong, Shi, Haoyue, Shi, Yiwen, Shvets, Anna, Siegel, Nick, Sileo, Damien, Simon, Jamie, Singh, Chandan, Sitelew, Roman, Soni, Priyank, Sorensen, Taylor, Soto, William, Srivastava, Aman, Srivatsa, KV Aditya, Sun, Tony, T, Mukund Varma, Tabassum, A, Tan, Fiona Anting, Teehan, Ryan, Tiwari, Mo, Tolkiehn, Marie, Wang, Athena, Wang, Zijian, Wang, Gloria, Wang, Zijie J., Wei, Fuxuan, Wilie, Bryan, Winata, Genta Indra, Wu, Xinyi, Wydmański, Witold, Xie, Tianbao, Yaseen, Usama, Yee, Michael A., Zhang, Jing, and Zhang, Yue

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Data augmentation is an important component in the robustness evaluation of models in natural language processing (NLP) and in enhancing the diversity of the data they are trained on. In this paper, we present NL-Augmenter, a new participatory Python-based natural language augmentation framework which supports the creation of both transformations (modifications to the data) and filters (data splits according to specific features). We describe the framework and an initial set of 117 transformations and 23 filters for a variety of natural language tasks. We demonstrate the efficacy of NL-Augmenter by using several of its transformations to analyze the robustness of popular natural language models. The infrastructure, datacards and robustness analysis results are available publicly on the NL-Augmenter repository (https://github.com/GEM-benchmark/NL-Augmenter)., Comment: 39 pages, repository at https://github.com/GEM-benchmark/NL-Augmenter

Published
2021

38. Magnetic reconnection as a mechanism to produce multiple protonpopulations and beams locally in the solar wind

Author

Lavraud, B., Kieokaew, R., Fargette, N., Louarn, P., Fedorov, A., André, N., Fruit, G., Génot, V., Réville, V., Rouillard, A. P., Plotnikov, I., Penou, E., Barthe, A., Prech, L., Owen, C. J., Bruno, R., Allegrini, F., Berthomier, M., Kataria, D., Livi, S., Raines, J. M., D'Amicis, R., Eastwood, J. P., Froment, C., Laker, R., Maksimovic, M., Marcucci, F., Perri, S., Perrone, D., Phan, T. D., Stansby, D., Stawarz, J., Redondo, S. Toledo, Vaivads, A., Verscharen, D., Zouganelis, I., Angelini, V., Evans, V., Horbury, T. S., and O'brien, H.

Subjects
Astrophysics - Solar and Stellar Astrophysics, Physics - Space Physics
Abstract

Context. Spacecraft observations early revealed frequent multiple proton populations in the solar wind. Decades of research on their origin have focused on processes such as magnetic reconnection in the low corona and wave-particle interactions in the corona and locally in the solar wind.Aims.This study aims to highlight that multiple proton populations and beams are also produced by magnetic reconnection occurring locally in the solar wind. Methods. We use high resolution Solar Orbiter proton velocity distribution function measurements, complemented by electron and magnetic field data, to analyze the association of multiple proton populations and beams with magnetic reconnection during a period of slow Alfv\'enic solar wind on 16 July 2020. Results. At least 6 reconnecting current sheets with associated multiple proton populations and beams, including a case of magnetic reconnection at a switchback boundary, are found during this day. This represents 2% of the measured distribution functions. We discuss how this proportion may be underestimated, and how it may depend on solar wind type and distance from the Sun. Conclusions. Although suggesting a likely small contribution, but which remains to be quantitatively assessed, Solar Orbiter observations show that magnetic reconnection must be considered as one of the mechanisms that produce multiple proton populations and beams locally in the solar wind.

Published
2021
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45. Direct evidence of substorm-related impulsive injections of electrons at Mercury

Author

Aizawa, Sae, Harada, Yuki, André, Nicolas, Saito, Yoshifumi, Barabash, Stas, Delcourt, Dominique, Sauvaud, Jean-André, Barthe, Alain, Fedorov, Andréi, Penou, Emmanuel, Yokota, Shoichiro, Miyake, Wataru, Persson, Moa, Nénon, Quentin, Rojo, Mathias, Futaana, Yoshifumi, Asamura, Kazushi, Shimoyama, Manabu, Hadid, Lina Z., Fontaine, Dominique, Katra, Bruno, Fraenz, Markus, Krupp, Norbert, Matsuda, Shoya, and Murakami, Go

Published
2023
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46. The structural landscape and diversity of Pyricularia oryzae MAX effectors revisited.

Author

Mounia Lahfa, Philippe Barthe, Karine de Guillen, Stella Cesari, Mouna Raji, Thomas Kroj, Marie Le Naour-Vernet, François Hoh, Pierre Gladieux, Christian Roumestand, Jérôme Gracy, Nathalie Declerck, and André Padilla

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Magnaporthe AVRs and ToxB-like (MAX) effectors constitute a family of secreted virulence proteins in the fungus Pyricularia oryzae (syn. Magnaporthe oryzae), which causes blast disease on numerous cereals and grasses. In spite of high sequence divergence, MAX effectors share a common fold characterized by a ß-sandwich core stabilized by a conserved disulfide bond. In this study, we investigated the structural landscape and diversity within the MAX effector repertoire of P. oryzae. Combining experimental protein structure determination and in silico structure modeling we validated the presence of the conserved MAX effector core domain in 77 out of 94 groups of orthologs (OG) identified in a previous population genomic study. Four novel MAX effector structures determined by NMR were in remarkably good agreement with AlphaFold2 (AF2) predictions. Based on the comparison of the AF2-generated 3D models we propose a classification of the MAX effectors superfamily in 20 structural groups that vary in the canonical MAX fold, disulfide bond patterns, and additional secondary structures in N- and C-terminal extensions. About one-third of the MAX family members remain singletons, without strong structural relationship to other MAX effectors. Analysis of the surface properties of the AF2 MAX models also highlights the high variability within the MAX family at the structural level, potentially reflecting the wide diversity of their virulence functions and host targets.

Published
2024
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48. Higher-order probabilistic adversarial computations: Categorical semantics and program logics

Author

Aguirre, Alejandro, Barthe, Gilles, Gaboardi, Marco, Garg, Deepak, Katsumata, Shin-ya, and Sato, Tetsuya

Subjects
Computer Science - Logic in Computer Science, Computer Science - Programming Languages
Abstract

Adversarial computations are a widely studied class of computations where resource-bounded probabilistic adversaries have access to oracles, i.e., probabilistic procedures with private state. These computations arise routinely in several domains, including security, privacy and machine learning. In this paper, we develop program logics for reasoning about adversarial computations in a higher-order setting. Our logics are built on top of a simply typed $\lambda$-calculus extended with a graded monad for probabilities and state. The grading is used to model and restrict the memory footprint and the cost (in terms of oracle calls) of computations. Under this view, an adversary is a higher-order expression that expects as arguments the code of its oracles. We develop unary program logics for reasoning about error probabilities and expected values, and a relational logic for reasoning about coupling-based properties. All logics feature rules for adversarial computations, and yield guarantees that are valid for all adversaries that satisfy a fixed resource policy. We prove the soundness of the logics in the category of quasi-Borel spaces, using a general notion of graded predicate liftings, and we use logical relations over graded predicate liftings to establish the soundness of proof rules for adversaries. We illustrate the working of our logics with simple but illustrative examples., Comment: Full version of ICFP 21 paper

Published
2021

49. Volume properties of high-dimensional Orlicz balls

Author

Barthe, Franck and Wolff, P

Subjects
Mathematics - Functional Analysis, Mathematics - Probability
Abstract

We prove asymptotic estimates for the volume of families of Orlicz balls in high dimensions. As an application, we describe a large family of Orlicz balls which verify a famous conjecture of Kannan, Lov{\'a}sz and Simonovits about spectral gaps. We also study the asymptotic independence of coordinates on uniform random vectors on Orlicz balls, as well as integrability properties of their linear functionals.

Published
2021

50. SoK: Practical Foundations for Software Spectre Defenses

Author

Cauligi, Sunjay, Disselkoen, Craig, Moghimi, Daniel, Barthe, Gilles, and Stefan, Deian

Subjects
Computer Science - Cryptography and Security, Computer Science - Programming Languages
Abstract

Spectre vulnerabilities violate our fundamental assumptions about architectural abstractions, allowing attackers to steal sensitive data despite previously state-of-the-art countermeasures. To defend against Spectre, developers of verification tools and compiler-based mitigations are forced to reason about microarchitectural details such as speculative execution. In order to aid developers with these attacks in a principled way, the research community has sought formal foundations for speculative execution upon which to rebuild provable security guarantees. This paper systematizes the community's current knowledge about software verification and mitigation for Spectre. We study state-of-the-art software defenses, both with and without associated formal models, and use a cohesive framework to compare the security properties each defense provides. We explore a wide variety of tradeoffs in the expressiveness of formal frameworks, the complexity of defense tools, and the resulting security guarantees. As a result of our analysis, we suggest practical choices for developers of analysis and mitigation tools, and we identify several open problems in this area to guide future work on grounded software defenses., Comment: To appear at Oakland '22

Published
2021

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