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1. Security and RAS in the Computing Continuum

Author

Alonso, Martí, Andreu, David, Canal, Ramon, Di Carlo, Stefano, Chatzopoulos, Odysseas, Chenet, Cristiano, Costa, Juanjo, Girones, Andreu, Gizopoulos, Dimitris, Papadimitriou, George, Morancho, Enric, Otero, Beatriz, and Savino, Alessandro

Subjects
Computer Science - Cryptography and Security, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Security and RAS are two non-functional requirements under focus for current systems developed for the computing continuum. Due to the increased number of interconnected computer systems across the continuum, security becomes especially pervasive at all levels, from the smallest edge device to the high-performance cloud at the other end. Similarly, RAS (Reliability, Availability, and Serviceability) ensures the robustness of a system towards hardware defects. Namely, making them reliable, with high availability and design for easy service. In this paper and as a result of the Vitamin-V EU project, the authors detail the comprehensive approach to malware and hardware attack detection; as well as, the RAS features envisioned for future systems across the computing continuum.

Published
2024

2. Do heavy Monopoles hide from us ?

Author

Fanchiotti, Huner, Canal, C. A. García, and Vento, Vicente

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

Dirac showed that the existence of one magnetic pole in the universe could offer an explanation of the discrete nature of the electric charge. Magnetic poles appear naturally in most grand unified theories. Their discovery would be of greatest importance for particle physics and cosmology. The intense experimental search carried thus far has not met with success. In order to understand this lack of success we studied monopolium a monopole anti-monopole bound state with properties very different from monopoles in which monopoles could be hiding. In here, we propose another mechanism, namely that magnetic poles bind deeply with some neutral states hiding in this way some of the properties of the free monopoles. We study different scenarios of these systems and analyze their detectability. In particular, one scenario is very interesting because it leads to a light state, an analog of an electron with magnetic instead of electric charge, which we call magnetron., Comment: 9 pages, 4 figures

Published
2024

3. A Decision-driven Methodology for Designing Uncertainty-aware AI Self-Assessment

Author

Canal, Gregory, Leung, Vladimir, Sage, Philip, Heim, Eric, and Wang, I-Jeng

Subjects
Statistics - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Artificial intelligence (AI) has revolutionized decision-making processes and systems throughout society and, in particular, has emerged as a significant technology in high-impact scenarios of national interest. Yet, despite AI's impressive predictive capabilities in controlled settings, it still suffers from a range of practical setbacks preventing its widespread use in various critical scenarios. In particular, it is generally unclear if a given AI system's predictions can be trusted by decision-makers in downstream applications. To address the need for more transparent, robust, and trustworthy AI systems, a suite of tools has been developed to quantify the uncertainty of AI predictions and, more generally, enable AI to "self-assess" the reliability of its predictions. In this manuscript, we categorize methods for AI self-assessment along several key dimensions and provide guidelines for selecting and designing the appropriate method for a practitioner's needs. In particular, we focus on uncertainty estimation techniques that consider the impact of self-assessment on the choices made by downstream decision-makers and on the resulting costs and benefits of decision outcomes. To demonstrate the utility of our methodology for self-assessment design, we illustrate its use for two realistic national-interest scenarios. This manuscript is a practical guide for machine learning engineers and AI system users to select the ideal self-assessment techniques for each problem.

Published
2024

4. Genomic Language Models: Opportunities and Challenges

Author

Benegas, Gonzalo, Ye, Chengzhong, Albors, Carlos, Li, Jianan Canal, and Song, Yun S.

Subjects
Quantitative Biology - Genomics, Computer Science - Machine Learning, Statistics - Machine Learning, 92-08, 92B20, 68T50, 68T07
Abstract

Large language models (LLMs) are having transformative impacts across a wide range of scientific fields, particularly in the biomedical sciences. Just as the goal of Natural Language Processing is to understand sequences of words, a major objective in biology is to understand biological sequences. Genomic Language Models (gLMs), which are LLMs trained on DNA sequences, have the potential to significantly advance our understanding of genomes and how DNA elements at various scales interact to give rise to complex functions. To showcase this potential, we highlight key applications of gLMs, including functional constraint prediction, sequence design, and transfer learning. Despite notable recent progress, however, developing effective and efficient gLMs presents numerous challenges, especially for species with large, complex genomes. Here, we discuss major considerations for developing and evaluating gLMs., Comment: Review article; 26 pages, 3 figures, 1 table

Published
2024

5. Threat analysis and adversarial model for Smart Grids

Author

Ríos, Javier Sande, Sánchez, Jesús Canal, Hernandez, Carmen Manzano, and Pastrana, Sergio

Subjects
Computer Science - Cryptography and Security
Abstract

The power grid is a critical infrastructure that allows for the efficient and robust generation, transmission, delivery and consumption of electricity. In the recent years, the physical components have been equipped with computing and network devices, which optimizes the operation and maintenance of the grid. The cyber domain of this smart power grid opens a new plethora of threats, which adds to classical threats on the physical domain. Accordingly, different stakeholders including regulation bodies, industry and academy, are making increasing efforts to provide security mechanisms to mitigate and reduce cyber-risks. Despite these efforts, there have been various cyberattacks that have affected the smart grid, leading in some cases to catastrophic consequences, showcasing that the industry might not be prepared for attacks from high profile adversaries. At the same time, recent work shows a lack of agreement among grid practitioners and academic experts on the feasibility and consequences of academic-proposed threats. This is in part due to inadequate simulation models which do not evaluate threats based on attackers full capabilities and goals. To address this gap, in this work we first analyze the main attack surfaces of the smart grid, and then conduct a threat analysis from the adversarial model perspective, including different levels of knowledge, goals, motivations and capabilities. To validate the model, we provide real-world examples of the potential capabilities by studying known vulnerabilities in critical components, and then analyzing existing cyber-attacks that have affected the smart grid, either directly or indirectly., Comment: Presented at the Workshop on Attackers and Cyber-Crime Operations (WACCO). More details available at https://wacco-workshop.org

Published
2024

6. Vitamin-V: Expanding Open-Source RISC-V Cloud Environments

Author

Canal, Ramon, Di Carlo, Stefano, Gizopoulos, Dimitris, Scionti, Alberto, Lubrano, Francesco, Berral, Josep-Lluís, Call, Aaron, Marron, Diego, Nikas, Konstantinos, Pnevmatikatos, Dionisios, Raho, Daniel, Rigo, Alvise, Papaefstathiou, Yannis, Arnau, José María, and Arelakis, Angelos

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Among the key contributions of Vitamin-V (2023-2025 Horizon Europe project), we develop a complete RISC-V open-source software stack for cloud services with comparable performance to the cloud-dominant x86 counterpart. In this paper, we detail the software suites and applications ported plus the three cloud setups under evaluation., Comment: RISC-V Summit Europe 2024, 24-28 June 2024

Published
2024

7. Hypervisor Extension for a RISC-V Processor

Author

Gauchola, Jaume, Costa, JuanJosé, Morancho, Enric, Canal, Ramon, Carril, Xavier, Doblas, Max, Otero, Beatriz, Pajuelo, Alex, Rodríguez, Eva, Salamero, Javier, and Verdú, Javier

Subjects
Computer Science - Hardware Architecture
Abstract

This paper describes our experience implementing a Hypervisor extension for a 64-bit RISC-V processor. We describe the design process and the main required parts with a brief explanation of each one., Comment: RISC-V Summit Europe 2023, June 5-9, 2023

Published
2024

8. The SDSS-V Local Volume Mapper (LVM): Scientific Motivation and Project Overview

Author

Drory, Niv, Blanc, Guillermo A., Kreckel, Kathryn, Sanchez, Sebastian F., Mejia-Narvaez, Alfredo, Johnston, Evelyn J., Jones, Amy M., Pellegrini, Eric W., Konidaris, Nicholas P., Herbst, Tom, Sanchez-Gallego, Jose, Kollmeier, Juna A., de Almeida, Florence, Barrera-Ballesteros, Jorge K., Bizyaev, Dmitry, Brownstein, Joel R., Saguer, Mar Canal i, Cherinka, Brian, Cioni, Maria-Rosa L., Congiu, Enrico, Cosens, Maren, Dias, Bruno, Donor, John, Egorov, Oleg, Egorova, Evgeniia, Froning, Cynthia S., Garcia, Pablo, Glover, Simon C. O., Greve, Hannah, Haeberle, Maximilian, Hoy, Kevin, Ibarra, Hector, Li, Jing, Klessen, Ralf S., Krishnarao, Dhanesh, Kumari, Nimisha, Long, Knox S., Mendez-Delgado, Jose Eduardo, Popa, Silvia Anastasia, Ramirez, Solange, Rix, Hans-Walter, Sanchez, Aurora Mata, Sankrit, Ravi, Sattler, Natascha, Sayres, Conor, Singh, Amrita, Stringfellow, Guy, Wachter, Stefanie, Watkins, Elizabeth Jayne, Wong, Tony, and Wofford, Aida

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We present the Sloan Digital Sky Survey V (SDSS-V) Local Volume Mapper (LVM). The LVM is an integral-field spectroscopic survey of the Milky Way, Magellanic Clouds, and of a sample of local volume galaxies, connecting resolved pc-scale individual sources of feedback to kpc-scale ionized interstellar medium (ISM) properties. The 4-year survey covers the southern Milky Way disk at spatial resolutions of 0.05 to 1 pc, the Magellanic Clouds at 10 pc resolution, and nearby large galaxies at larger scales totaling $>4300$ square degrees of sky, and more than 55M spectra. It utilizes a new facility of alt-alt mounted siderostats feeding 16 cm refractive telescopes, lenslet-coupled fiber-optics, and spectrographs covering 3600-9800A at R ~ 4000. The ultra-wide field IFU has a diameter of 0.5 degrees with 1801 hexagonally packed fibers of 35.3 arcsec apertures. The siderostats allow for a completely stationary fiber system, avoiding instability of the line spread function seen in traditional fiber feeds. Scientifically, LVM resolves the regions where energy, momentum, and chemical elements are injected into the ISM at the scale of gas clouds, while simultaneously charting where energy is being dissipated (via cooling, shocks, turbulence, bulk flows, etc.) to global scales. This combined local and global view enables us to constrain physical processes regulating how stellar feedback operates and couples to galactic kinematics and disk-scale structures, such as the bar and spiral arms, as well as gas in- and out-flows., Comment: 29 pages, 12 figures, accepted for publication in The Astronomical Journal

Published
2024

9. A shared compilation stack for distributed-memory parallelism in stencil DSLs

Author

Bisbas, George, Lydike, Anton, Bauer, Emilien, Brown, Nick, Fehr, Mathieu, Mitchell, Lawrence, Rodriguez-Canal, Gabriel, Jamieson, Maurice, Kelly, Paul H. J., Steuwer, Michel, and Grosser, Tobias

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Mathematical Software
Abstract

Domain Specific Languages (DSLs) increase programmer productivity and provide high performance. Their targeted abstractions allow scientists to express problems at a high level, providing rich details that optimizing compilers can exploit to target current- and next-generation supercomputers. The convenience and performance of DSLs come with significant development and maintenance costs. The siloed design of DSL compilers and the resulting inability to benefit from shared infrastructure cause uncertainties around longevity and the adoption of DSLs at scale. By tailoring the broadly-adopted MLIR compiler framework to HPC, we bring the same synergies that the machine learning community already exploits across their DSLs (e.g. Tensorflow, PyTorch) to the finite-difference stencil HPC community. We introduce new HPC-specific abstractions for message passing targeting distributed stencil computations. We demonstrate the sharing of common components across three distinct HPC stencil-DSL compilers: Devito, PSyclone, and the Open Earth Compiler, showing that our framework generates high-performance executables based upon a shared compiler ecosystem.

Published
2024

16. Are Large Language Models Aligned with People's Social Intuitions for Human-Robot Interactions?

Author

Wachowiak, Lennart, Coles, Andrew, Celiktutan, Oya, and Canal, Gerard

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Human-Computer Interaction
Abstract

Large language models (LLMs) are increasingly used in robotics, especially for high-level action planning. Meanwhile, many robotics applications involve human supervisors or collaborators. Hence, it is crucial for LLMs to generate socially acceptable actions that align with people's preferences and values. In this work, we test whether LLMs capture people's intuitions about behavior judgments and communication preferences in human-robot interaction (HRI) scenarios. For evaluation, we reproduce three HRI user studies, comparing the output of LLMs with that of real participants. We find that GPT-4 strongly outperforms other models, generating answers that correlate strongly with users' answers in two studies $\unicode{x2014}$ the first study dealing with selecting the most appropriate communicative act for a robot in various situations ($r_s$ = 0.82), and the second with judging the desirability, intentionality, and surprisingness of behavior ($r_s$ = 0.83). However, for the last study, testing whether people judge the behavior of robots and humans differently, no model achieves strong correlations. Moreover, we show that vision models fail to capture the essence of video stimuli and that LLMs tend to rate different communicative acts and behavior desirability higher than people., Comment: Accepted at IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), 2024

Published
2024

17. Time series segmentation for recognition of epileptiform patterns recorded via Microelectrode Arrays in vitro

Author

Galeote-Checa, Gabriel, Panuccio, Gabriella, Canal-Alonso, Angel, Serrano-Gotarredona, Teresa, and Barranco, Bernabe Linares

Subjects
Electrical Engineering and Systems Science - Signal Processing, Quantitative Biology - Neurons and Cognition
Abstract

Epilepsy is a prevalent neurological disorder that affects approximately 1% of the global population. Around 30-40% of patients do not respond to pharmacological treatment, leading to a significant negative impact on their quality of life. Closed-loop deep brain stimulation (DBS) is a promising treatment for individuals who do not respond to medical therapy. To achieve effective seizure control, algorithms play an important role in identifying relevant electrographic biomarkers from local field potentials (LFPs) to determine the optimal stimulation timing. In this regard, the detection and classification of events from ongoing brain activity, while achieving low power through computationally unexpensive implementations, represents a major challenge in the field. To address this challenge, we here present two lightweight algorithms, the ZdensityRODE and the AMPDE, for identifying relevant events from LFPs by utilizing semantic segmentation, which involves extracting different levels of information from the LFP and relevant events from it. The algorithms performance was validated against epileptiform activity induced by 4-minopyridine in mouse hippocampus-cortex (CTX) slices and recorded via microelectrode array, as a case study. The ZdensityRODE algorithm showcased a precision and recall of 93% for ictal event detection and 42% precision for interictal event detection, while the AMPDE algorithm attained a precision of 96% and recall of 90% for ictal event detection and 54% precision for interictal event detection. While initially trained specifically for detection of ictal activity, these algorithms can be fine-tuned for improved interictal detection, aiming at seizure prediction. Our results suggest that these algorithms can effectively capture epileptiform activity; their light weight opens new possibilities for real-time seizure detection and seizure prediction and control., Comment: submitted to Plos One

Published
2024

25. Stencil-HMLS: A multi-layered approach to the automatic optimisation of stencil codes on FPGA

Author

Rodriguez-Canal, Gabriel, Brown, Nick, Jamieson, Maurice, Bauer, Emilien, Lydike, Anton, and Grosser, Tobias

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Performance, Computer Science - Programming Languages
Abstract

The challenges associated with effectively programming FPGAs have been a major blocker in popularising reconfigurable architectures for HPC workloads. However new compiler technologies, such as MLIR, are providing new capabilities which potentially deliver the ability to extract domain specific information and drive automatic structuring of codes for FPGAs. In this paper we explore domain specific optimisations for stencils, a fundamental access pattern in scientific computing, to obtain high performance on FPGAs via automated code structuring. We propose Stencil-HMLS, a multi-layered approach to automatic optimisation of stencil codes and introduce the HLS dialect, which brings FPGA programming into the MLIR ecosystem. Using the PSyclone Fortran DSL, we demonstrate an improvement of 14-100$\times$ with respect to the next best performant state-of-the-art tool. Furthermore, our approach is 14 to 92 times more energy efficient than the next most energy efficient approach., Comment: Author accepted version which appears in ACM Workshops of The International Conference on High Performance Computing, Network, Storage, and Analysis (SC-W 2023)

Published
2023
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26. Network analysis of influential risk factors in adolescent suicide attempters

Author

Fernandez-Fernandez, Jennifer, Jiménez-Treviño, Luis, Andreo-Jover, Jorge, Ayad-Ahmed, Wala, Bascarán, Teresa Bobes, Canal-Rivero, Manuel, Cebria, Annabel, Crespo-Facorro, Benedicto, De la Torre-Luque, Alejandro, Diaz-Marsa, Marina, Gonzalez-Pinto, Ana, Gomez, Sandra, Grande, Iría, Iglesias, Noelia, Ortin, Francisco, March, Katya, Palao, Angela, Pérez-Díez, Iván, Pérez-Guerra, Carla, Ruiz-Veguilla, Miguel, Vieta, Eduard, Perez-Sola, Victor, and Saiz, Pilar Alejandra

Published
2024
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32. Network analysis of influential risk factors in adolescent suicide attempters

Author

Jennifer Fernandez-Fernandez, Luis Jiménez-Treviño, Jorge Andreo-Jover, Wala Ayad-Ahmed, Teresa Bobes Bascarán, Manuel Canal-Rivero, Annabel Cebria, Benedicto Crespo-Facorro, Alejandro De la Torre-Luque, Marina Diaz-Marsa, Ana Gonzalez-Pinto, Sandra Gomez, Iría Grande, Noelia Iglesias, Francisco Ortin, Katya March, Angela Palao, Iván Pérez-Díez, Carla Pérez-Guerra, Miguel Ruiz-Veguilla, Eduard Vieta, Victor Perez-Sola, and Pilar Alejandra Saiz

Subjects
Adolescent, Suicide, Network analysis, Risk factors, Depression, Trauma, Pediatrics, RJ1-570, Psychiatry, RC435-571
Abstract

Abstract Objective This study aims to investigate the interrelationship of risk factors for suicidal behaviour and their influence on attempt severity in a sample of adolescents who have recently attempted suicide. For it a network analyse was performed. Method Data from a sample of adolescents from 12 to 17 years of age with documented suicide attempts were collected and analysed in the context of a larger study conducted in Spain called SURVIVE. Several factors were examined including age, sex, depression, trauma, impulsivity, and substance abuse. Graph analysis was performed to identify relationships and centrality measures among these factors. Results A total of 267 participants were enrolled: 233 females and 34 males with a mean age of 15.00 years (SD = 1.52). The results indicate that age and sex do not have a notable relationship with attempt severity in adolescents. Emotional and behavioural difficulties, measured by the Strengths and Difficulties Questionnaire (SDQ), have the greatest influence on other variables. Depression and childhood trauma show varying degrees of association with suicidal behaviour, as does motor impulsivity. Substance use does not appear to be strongly related to suicide attempt severity. The number of suicide attempts is strongly correlated with emotional and behavioural difficulties, depression, and childhood trauma. Lethality of suicide attempts and intensity of suicidal ideation do not show significant associations with the other variables. Conclusion This study identifies significant risk factors for adolescent suicide. Emotional and behavioural symptoms, depression, and childhood trauma are strongly linked to suicidal behaviour. However, age, sex, and substance abuse show minimal correlation. Assessing emotional difficulties and depressive symptoms using specific questionnaires could be crucial in evaluating suicidal behaviour in adolescents.

Published
2024
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33. 'I’ve never thought about it this way': the process and positive implications of co-creation on teacher education about prevention of gender-based violence

Author

Lidia Puigvert, Aitor Alzaga, Elena Duque, Daniela Ferreira, Josep Maria Canal, Joan Bellavista, Sara Carbonell, Luis Miralles, and Pedro Juan Coronado Albalete

Subjects
Co-creation, teacher education, scientific evidence, gender violence, social impact, Education (General), L7-991
Abstract

The scientific literature has shown evidence of how, given the increase in gender violence at an early age, didactic materials on its prevention should be based on scientific evidence. However, how scientific evidence is built upon social impact and co-creation is not considered in education as much as it is in other disciplines. In the framework of the TeachXevidence project (101096234 ref), a co-creation process of didactic materials for primary and secondary education teachers was conducted to fill this gap. For this purpose, the communicative methodology has been followed, a Transnational Project Meeting and three teacher education pilot seminars that involved in dialogue 77 people in Spain and Portugal, both researchers, teachers and teacher trainers were implemented. Results show a) how materials were discussed and didactic built and b) the positive implications of such dialogue and co-creation on the awareness and reflection of teachers about the co-created didactic materials.

Published
2024
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34. The Costs of Multimodal Metaphors: Comparing ERPs to Figurative Expressions in Verbal and Verbo-Pictorial Formats

Author

Valentina Bambini, Giacomo Ranieri, Luca Bischetti, Biagio Scalingi, Chiara Bertini, Irene Ricci, Walter Schaeken, and Paolo Canal

Abstract

Psycholinguistic research on metaphor has focused on verbal material. Yet, metaphors frequently occur in a multimodal format, blending words and pictures to convey meaning. Here we compared verbal and multimodal metaphors by using item pairs where stimulus one was always a word (e.g., "language" in the metaphorical conditions and "river" in the literal conditions) and stimulus two was either a word ("bridge") or a picture (the image of a bridge). The two types of metaphors elicited a similar N400 effect compared to literal pairs; at later latencies, visual metaphors were associated with a more pronounced negativity compared to literal pictures, whereas no effect was observed in the verbal domain. These findings indicate that both visual and verbal metaphors recruit conceptual operations reflected in the N400, but for visual metaphors, elaboration lasts longer. This difference in time course was driven by the low number of alternative interpretations and their closedness, pointing to the costs, rather than the facilitation, of integrating visual signs at an abstract level of representation.

Published
2024
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35. Fortran High-Level Synthesis: Reducing the barriers to accelerating HPC codes on FPGAs

Author

Rodriguez-Canal, Gabriel, Brown, Nick, Dykes, Tim, Jones, Jessica R., and Haus, Utz-Uwe

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

In recent years the use of FPGAs to accelerate scientific applications has grown, with numerous applications demonstrating the benefit of FPGAs for high performance workloads. However, whilst High Level Synthesis (HLS) has significantly lowered the barrier to entry in programming FPGAs by enabling programmers to use C++, a major challenge is that most often these codes are not originally written in C++. Instead, Fortran is the lingua franca of scientific computing and-so it requires a complex and time consuming initial step to convert into C++ even before considering the FPGA. In this paper we describe work enabling Fortran for AMD Xilinx FPGAs by connecting the LLVM Flang front end to AMD Xilinx's LLVM back end. This enables programmers to use Fortran as a first-class language for programming FPGAs, and as we demonstrate enjoy all the tuning and optimisation opportunities that HLS C++ provides. Furthermore, we demonstrate that certain language features of Fortran make it especially beneficial for programming FPGAs compared to C++. The result of this work is a lowering of the barrier to entry in using FPGAs for scientific computing, enabling programmers to leverage their existing codebase and language of choice on the FPGA directly., Comment: Author accepted version to appear in 33rd International Conference on Field-Programmable Logic and Applications

Published
2023

36. SafeLS: Toward Building a Lockstep NOEL-V Core

Author

Sarraseca, Marcel, Alcaide, Sergi, Fuentes, Francisco, Rodriguez, Juan Carlos, Chang, Feng, Lasfar, Ilham, Canal, Ramon, Cazorla, Francisco J., and Abella, Jaume

Subjects
Computer Science - Hardware Architecture, B.8.1, C.3
Abstract

Safety-critical systems such as those in automotive, avionics and space, require appropriate safety measures to avoid silent data corruption upon random hardware errors such as those caused by radiation and other types of electromagnetic interference. Those safety measures must be able to prevent faults from causing the so-called common cause failures (CCFs), which occur when a fault produces identical errors in redundant elements so that comparison fails to detect the errors and a failure arises. The usual solution to avoid CCFs in CPU cores is using lockstep cores, so that two cores execute the same flow of instructions, but with some time staggering so that their state is never identical and faults can only lead to different errors, which are then detectable by means of comparison. This paper extends Gaisler's RISC-V NOEL-V core with lockstep; and presents future prospects for its use and distribution., Comment: Abstract presented at the RISC-V Summit, June 2023, Barcelona (Spain)

Published
2023

37. Gauging the cosmic ray muon puzzle with the Forward Physics Facility

Author

Sciutto, Sergio J., Anchordoqui, Luis A., Canal, Carlos Garcia, Kling, Felix, and Soriano, Jorge F.

Subjects
High Energy Physics - Phenomenology
Abstract

We investigate the observed muon deficit in air shower simulations when compared to ultrahigh-energy cosmic ray (UHECR) data. Gleaned from the observed enhancement of strangeness production in ALICE data, the associated $\pi \leftrightarrow K$ swap is taken as a cornerstone to resolve the muon puzzle via its corresponding impact on the shower evolution. We develop a phenomenological model in terms of the $\pi \leftrightarrow K$ swapping probability $F_s$. We provide a parametrization of $F_s (E^{\rm (proj)}, \eta)$ that can accommodate the UHECR data, where $E^{\rm (proj)}$ is the projectile energy and $\eta$ the pseudorapidity. We also explore a future game plan for model improvement using the colossal amount of data to be collected by LHC neutrino detectors at the Forward Physics Facility (FPF). We calculate the corresponding sensitivity to $F_s$ and show that the FPF experiments will be able to probe the model phase space., Comment: To be published in Proceedings of the 38th International Cosmic Ray Conference (ICRC2023), 26 July - 3 August, 2023 Nagoya, Japan

Published
2023

38. Mediación pedagógica en el uso de aulas híbridas en la Universidad Veracruzana

Author

Mónica Rubiette Hákim Krayem, Diana Donají Del Callejo Canal, Margarita Edith Canal Martínez, and Carlos Reyes Sánchez

Subjects
Mediación Pedagógica, Aulas Híbridas, Proceso Educativo, Aula Invertida, Tecnología Educativa, Social history and conditions. Social problems. Social reform, HN1-995, Economic history and conditions, HC10-1085
Abstract

La finalidad de este artículo es caracterizar el desarrollo del proceso educativo universitario. Es una investigación cualitativa y cuantitativa acerca de la mediación pedagógica en el uso de las aulas híbridas para docentes de posgrados y licenciatura de la Universidad Veracruzana de la Región Xalapa. Investigación que permite reflexionar sobre el carácter de la mediación pedagógica que se realiza en los procesos de enseñanza-aprendizaje. Se obtuvo una muestra de 26 docentes que permitió conocer la perspectiva de dicho proceso, para concluir con un análisis interpretativo. Los resultados del estudio exploratorio permiten establecer algunas pautas para mejorar o cambiar el desarrollo educativo en base a la implementación de una mediación pedagógica estratégica que permita un aprendizaje con sentido en las aulas híbridas.

Published
2024
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45. LabelBench: A Comprehensive Framework for Benchmarking Adaptive Label-Efficient Learning

Author

Zhang, Jifan, Chen, Yifang, Canal, Gregory, Mussmann, Stephen, Das, Arnav M., Bhatt, Gantavya, Zhu, Yinglun, Bilmes, Jeffrey, Du, Simon Shaolei, Jamieson, Kevin, and Nowak, Robert D

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition
Abstract

Labeled data are critical to modern machine learning applications, but obtaining labels can be expensive. To mitigate this cost, machine learning methods, such as transfer learning, semi-supervised learning and active learning, aim to be label-efficient: achieving high predictive performance from relatively few labeled examples. While obtaining the best label-efficiency in practice often requires combinations of these techniques, existing benchmark and evaluation frameworks do not capture a concerted combination of all such techniques. This paper addresses this deficiency by introducing LabelBench, a new computationally-efficient framework for joint evaluation of multiple label-efficient learning techniques. As an application of LabelBench, we introduce a novel benchmark of state-of-the-art active learning methods in combination with semi-supervised learning for fine-tuning pretrained vision transformers. Our benchmark demonstrates better label-efficiencies than previously reported in active learning. LabelBench's modular codebase is open-sourced for the broader community to contribute label-efficient learning methods and benchmarks. The repository can be found at: https://github.com/EfficientTraining/LabelBench.

Published
2023

46. Feed Two Birds with One Scone: Exploiting Wild Data for Both Out-of-Distribution Generalization and Detection

Author

Bai, Haoyue, Canal, Gregory, Du, Xuefeng, Kwon, Jeongyeol, Nowak, Robert, and Li, Yixuan

Subjects
Computer Science - Machine Learning
Abstract

Modern machine learning models deployed in the wild can encounter both covariate and semantic shifts, giving rise to the problems of out-of-distribution (OOD) generalization and OOD detection respectively. While both problems have received significant research attention lately, they have been pursued independently. This may not be surprising, since the two tasks have seemingly conflicting goals. This paper provides a new unified approach that is capable of simultaneously generalizing to covariate shifts while robustly detecting semantic shifts. We propose a margin-based learning framework that exploits freely available unlabeled data in the wild that captures the environmental test-time OOD distributions under both covariate and semantic shifts. We show both empirically and theoretically that the proposed margin constraint is the key to achieving both OOD generalization and detection. Extensive experiments show the superiority of our framework, outperforming competitive baselines that specialize in either OOD generalization or OOD detection. Code is publicly available at https://github.com/deeplearning-wisc/scone., Comment: ICML 2023

Published
2023

47. M$^2$Hub: Unlocking the Potential of Machine Learning for Materials Discovery

Author

Du, Yuanqi, Wang, Yingheng, Huang, Yining, Li, Jianan Canal, Zhu, Yanqiao, Xie, Tian, Duan, Chenru, Gregoire, John M., and Gomes, Carla P.

Subjects
Condensed Matter - Materials Science, Computer Science - Machine Learning
Abstract

We introduce M$^2$Hub, a toolkit for advancing machine learning in materials discovery. Machine learning has achieved remarkable progress in modeling molecular structures, especially biomolecules for drug discovery. However, the development of machine learning approaches for modeling materials structures lag behind, which is partly due to the lack of an integrated platform that enables access to diverse tasks for materials discovery. To bridge this gap, M$^2$Hub will enable easy access to materials discovery tasks, datasets, machine learning methods, evaluations, and benchmark results that cover the entire workflow. Specifically, the first release of M$^2$Hub focuses on three key stages in materials discovery: virtual screening, inverse design, and molecular simulation, including 9 datasets that covers 6 types of materials with 56 tasks across 8 types of material properties. We further provide 2 synthetic datasets for the purpose of generative tasks on materials. In addition to random data splits, we also provide 3 additional data partitions to reflect the real-world materials discovery scenarios. State-of-the-art machine learning methods (including those are suitable for materials structures but never compared in the literature) are benchmarked on representative tasks. Our codes and library are publicly available at https://github.com/yuanqidu/M2Hub.

Published
2023

48. A comparison between traditional and Serverless technologies in a microservices setting

Author

Menéndez, Juan Mera, Gayo, Jose Emilio Labra, Canal, Enrique Riesgo, and Fernández, Aitor Echevarría

Subjects
Computer Science - Software Engineering, Computer Science - Performance
Abstract

Serverless technologies, also known as FaaS (Function as a Service), are promoted as solutions that provide dynamic scalability, speed of development, cost-per-consumption model, and the ability to focus on the code while taking attention away from the infrastructure that is managed by the vendor. A microservices architecture is defined by the interaction and management of the application state by several independent services, each with a well-defined domain. When implementing software architectures based on microservices, there are several decisions to take about the technologies and the possibility of adopting Serverless. In this study, we implement 9 prototypes of the same microservice application using different technologies. Some architectural decisions and their impact on the performance and cost of the result obtained are analysed. We use Amazon Web Services and start with an application that uses a more traditional deployment environment (Kubernetes) and migration to a serverless architecture is performed by combining and analysing the impact (both cost and performance) of the use of different technologies such as AWS ECS Fargate, AWS Lambda, DynamoDB or DocumentDB., Comment: 11 pages, 4 figures, 3 tables

Published
2023

49. Vitamin-V: Virtual Environment and Tool-boxing for Trustworthy Development of RISC-V based Cloud Services

Author

Arelakis, A., Arnau, J. M., Berral, J. L., Call, A., Canal, R., Di Carlo, S., Costa, J., Gizopoulos, D., Karakostas, V., Lubrano, F., Nikas, K., Nikolakopoulos, Y., Otero, B., Papadimitriou, G., Papaefstathiou, I., Pnevmatikatos, D., Raho, D., Rigo, A., Rodríguez, E., Savino, A., Scionti, A., Tampouratzis, N., and Torregrosa, A.

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Vitamin-V is a 2023-2025 Horizon Europe project that aims to develop a complete RISC-V open-source software stack for cloud services with comparable performance to the cloud-dominant x86 counterpart and a powerful virtual execution environment for software development, validation, verification, and test that considers the relevant RISC-V ISA extensions for cloud deployment., Comment: Paper accepted and presented at the RISC-V Summit Europe, Barcelona, 5-9th June 2023. arXiv admin note: substantial text overlap with arXiv:2305.01983

Published
2023

50. Energy Loss of Monopolium in a Medium

Author

Fanchiotti, Huner, Canal, Carlos A. García, and Vento, Vicente

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Experiment
Abstract

We study the energy loss of excited monopolium in an atomic medium. We perform a classical calculation in line with a similar calculation performed for charged particles which leads in the non relativistic limit to the Bethe-Bloch formula except for the density dependence of the medium, which we do not consider in this paper. Our result shows that for maximally deformed Rydberg states the ionization of monopolium in a light atomic medium is similar to that of light ions., Comment: 13 pages and 10 figures

Published
2023

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