Seminari - Dipartimento Informatica Seminari - Dipartimento Informatica validi dal 09.05.2025 al 09.05.2026. https://www.di.univr.it/?ent=seminario&rss=0 Fare e divulgare matematica: non vedo il problema https://www.di.univr.it/?ent=seminario&rss=0&id=6612 Relatore: Michele Mele; Provenienza: Università del Sannio; Data inizio: 2025-05-19; Ora inizio: 16.30; Note orario: Aula magna, Ca' Vignal 3; Referente interno: Marco Caliari; Riassunto: Il dott. Michele Mele, Cavaliere dell#39;Ordine al Merito della Repubblica Italiana per la sua attivitagrave; di ricerca e divulgazione scientifica in supporto delle persone con patologie della vista, ci parleragrave; del primo protocollo in lingua italiana di Mathspeak . Mon, 19 May 2025 16:30:00 +0200 https://www.di.univr.it/?ent=seminario&rss=0&id=6612 Beyond Sight: how blind mathematician model the world https://www.di.univr.it/?ent=seminario&rss=0&id=6622 Relatore: Michele Mele; Provenienza: Uiniversità del Sannio; Data inizio: 2025-05-20; Ora inizio: 10.30; Note orario: Sala Verde (presenza); Referente interno: Marco Caliari; Riassunto: This seminar explores the ability of people with low or no sight to model various aspects of our world through mathematics. From historical figures such as Nicholas Saunderson (1682-1739), the earliest known blind scientist, Lucasian professor at the University of Cambridge and, amongst many other achievements, inventor of the first device to execute mathematical computations with the sense of touch, and Leonhard Euler (1707-1783), one of the greatest and most versatile scientists of all times, who suffered of sight loss from the age of 27, to mypersonal experience as a blind mathematician involved in the Combinatorial Optimization modeling of scheduling and timetabling problems, this talk will show that, provided the right context, people with low or no sight can actively contribute to scientific knowledge thanks to their unique point of view. Tue, 20 May 2025 10:30:00 +0200 https://www.di.univr.it/?ent=seminario&rss=0&id=6622 One Health in Action: Biomedical Research at the Ri.MED Foundation https://www.di.univr.it/?ent=seminario&rss=0&id=6642 Relatore: Ugo Perricone; Provenienza: Ri.MED Foundation - Palermo; Data inizio: 2025-05-29; Ora inizio: 15.30; Note orario: Sala Verde (presenza); Referente interno: Rosalba Giugno; Riassunto: Abstract: The Ri.MED Foundation, born from a strategic partnership between the Italian government, Regione Siciliana, National Research Council, the University of Pittsburgh, and UPMC (University of Pittsburgh Medical Center), is a public-private partnership committed to advancing biomedical research and innovation, with a mission to foster the translation of scientific discoveries into clinical solutions that improve global health.The Ri.MED Foundation is currently leading an international center for translational biomedical research. This seminar will explore how the Ri.MED Research Center will embrace the One Health approach, recognizing the interconnectedness of human, animal, and environmental health, to drive innovation in life sciences. The Ri.MED Foundation hosts multidisciplinary teams dedicated to addressing complex health challenges through an integrated research model to engineer innovative biomedical solutions. This presentation will highlight key research initiatives and the Foundationrsquo;s role in shaping a more resilient, health-integrated future.During the seminar, a particular focus will be given to the Foundationrsquo;s Drug Discovery Group, which applies a lens to the identification and development of novel therapeutic candidates and the study of the chemical exposome effects on the human health. Thu, 29 May 2025 15:30:00 +0200 https://www.di.univr.it/?ent=seminario&rss=0&id=6642 Introduction to Distributed Quantum Computing https://www.di.univr.it/?ent=seminario&rss=0&id=6634 Relatore: Riccardo Mengoni; Provenienza: Welinq eu-startups (France); Data inizio: 2025-05-30; Ora inizio: 16.30; Note orario: Sala Verde (presenza ed on line); Referente interno: Alessandra Di Pierro; Riassunto: Abstract: A major challenge in quantum computing is scaling up quantum hardware: most commercially and industrially relevant problems require more qubits than a single quantum processing unit (QPU) can currently provide. Instead of attempting to fit more qubits into a single devicemdash;a process that is both technologically difficult and fundamentally constrainedmdash;Distributed Quantum Computing (DQC) leverages a network of near-term, mid-sized QPUs to emulate the capabilities of a large, monolithic quantum computer. By exploiting entanglement, a central resource in quantum mechanics, these interconnected QPUs can communicate and share quantum information. In this context, a DQC compiler is essential: it partitions large-scale algorithms and maps them across multiple coordinated QPUs, enabling the execution of computations previously beyond reach. Short CV: Riccardo Mengoni completed his master#39;s degree in theoretical physics at the University of Camerino with a thesis on Quantum Computing (QC). He proceeded to pursue his PhD at the University of Verona, where he worked on Quantum Machine Learning (QML). In the summer of 2018, he was selected for the USRA Quantum Academy that gave him the opportunity to be a NASA intern focusing on quantum annealing applications. Following this experience, Riccardo joined the CINECA High Performance Computing (HPC) center as a Quantum Computing researcher, dedicated to exploring the integration of QC and HPC. Currently, Riccardo is a Quantum Algorithm researcher at Welinq, focusing on Distributed Quantum Computing (DQC). . Fri, 30 May 2025 16:30:00 +0200 https://www.di.univr.it/?ent=seminario&rss=0&id=6634 Ginzburg-Landau equation on non-compact Riemann surfaces https://www.di.univr.it/?ent=seminario&rss=0&id=6618 Relatore: Israel Michael Sigal; Provenienza: University of Toronto; Data inizio: 2025-06-03; Ora inizio: 11.00; Note orario: Sala Verde; Referente interno: Giandomenico Orlandi; Riassunto: In this talk I will consider Ginzburg-Landau equations (GLE) on non-compact Riemann surfaces, more precisely on line bundles over such surfaces modelling superconductivity in thin membranes. I will report on recent results on existence of energy minimizing solutions for such equations. I will introduce all necessary definitions and will structure the presentation so that no preliminary knowledge of line bundles over Riemann surfaces is required. The talk is based on the joint work with Nick Ercolani and Jingxuan Zhang. Tue, 3 Jun 2025 11:00:00 +0200 https://www.di.univr.it/?ent=seminario&rss=0&id=6618