Conferences  >  Mathematics  >  Courses and Events for Math Students and Early Career Researchers

CRM / Université de Montréal

This mini-school focuses on “huge” groups, such as the Cremona group and its subgroups, the homeomorphism group of a surface, the mapping class group of an infinite-type surface, a general Artin group. They can be studied through non-proper actions on nonpositively or negatively curved combinatorial spaces.

CIRM – Centre International de Rencontres Mathématiques

The frame flow of negatively curved manifolds is one of the first examples of partially hyperbolic dynamics: it is defined as an extension of the geodesic flow (which is uniformly hyperbolic) to the frame bundle of the manifold by means of parallel transport. The study of its statistical properties such as ergodicity, mixing or exponential mixing, is still widely open. We have recently shown that, under reasonable pinching assumptions on the sectional curvature, the frame flow of even-dimensional manifolds is ergodic and mixing — the odd-dimensional case being already solved by Brin-Gromov in 1980. Surprisingly, this problem is linked to questions of a very diverse nature: — in algebraic topology: the classification of the reductions of the structure groups of the sphere, — in Riemannian geometry: the existence of almost-parallel structures (e.g. Killing forms, almost-Kähler or almost-G_2 structures, etc.) — in algebraic geometry: the classification of polynomial maps between spheres. The purpose of this research project is to explore these multiple aspects of the problem and to progress on our understanding of the frame flow.

Geometry and Topology,    Algebra

Hausdorff Center for Mathematics – hcm (Universität Bonn)

Various key problems in biomedical imaging can be modeled as inverse problems (e.g. single image super-resolution, undersampling in magnetic resonance imaging, limited angle tomography, registration, segmentation). Numerous deep learning-inspired methods to tackle these inverse problems have been developed in recent years, often redefining the state of the art. The Hausdorff School on Data-driven Inverse Problems in Biomedical Imaging focuses on several mini-courses that explore this topic from both theoretical and applied perspectives. The school is aimed at PhD students and postdocs. The courses can be supplemented by introductory lectures and shorter research lectures.

Applied Mathematics (in general),    Pattern Recognition and Image Processing, Machine Vision

ICMS - International Centre for Mathematical Sciences

Participation in a modelling camp is excellent preparation for Study Groups. European Study Groups with Industry are events across Europe. There is an annual ESGI in the UK.

CIRM – Centre International de Rencontres Mathématiques

Courses and Events for Physics Students,    Mathematical Physics

Vilnius University, Faculty of Physics

The International Conference for Students of Physics and Natural Sciences ‘Open Readings 2023’ is an open platform for science students from all around the world to share their scientific research with other like-minded people and have an opportunity to listen to acclaimed invited speakers from various countries. Young scientists can present their research in poster or oral presentation format. The ‘Open Readings’ conference is held annually in Vilnius, Lithuania.

Email: info@openreadings.eu

Astrophysics, Astronomy, Biochemistry, Biophysics, Biotechnology, Biology, Genetics, Biomedical sciences, Chemistry, Chemical physics, Functional materials and derivatives, Laser physics, Optical technologies, Materials sciences, Modern technologies, Nanomaterials, Nanotechnology, Systems biology, Bioinformatics, Semiconductor physics, Condensed matter physics, Theoretical physics, Spectroscopy, Methods and devices for physical diagnostics.

Courses and Events for Physics Students,    Summer/Winter Schools and Events for Chemistry Students

Banach Center

CIRM – Centre International de Rencontres Mathématiques

P-adic integration on Deligne-Mumford stacks was used in several spectacular ad-vances (proof of the topological mirror symmetry conjecture of Hausel-Thaddeus and new proofs of geometric stabilization and the fundamental lemma by Groechenig-Wyss-Ziegler, new BPS-type invariants by Carocci-Orecchia-Wyss, etc.). A motivic version exists, which was developed by Yasuda following works of Batyrev and Denef-Loeser son the McKay correspondence. A variant of this theory was used by Loeser and Wyss to prove a motivic version of topological mirror symmetry and by Forey, Loeser and Wyss to obtain a motivic version of geometric stabilization and the fundamental lemma. If the theory of motivic integration on Deligne-Mumford stacks is now fully understood, its development in the more general setting of Artin stacks is still very much mysterious. Our aim is to develop the bases of such a theory with new applications in mind.

Centre de recherches mathématiques (CRM)

The focus of these activities will be on the algebraic and dynamical aspects of ordered group theory. Introductory mini-courses will be given in the first week by Adam Clay (Manitoba), Tyrone Ghaswala (Waterloo), Thomas Koberda (Virginia) and Andrés Navas (Santiago). The second week will be devoted to research talks covering recent advances in both the theory of ordered groups and their applications in group theory, dynamics and low-dimensional topology.

KTH Royal Institute of Technology and Stockholm University

The 2023 edition of the Graduate Student Meeting on Applied Algebra and Combinatorics will take place in Stockholm, April 26-28. It will be an opportunity for graduate students and postdocs interested in algebra and combinatorics and their applications to meet each other, communicate their research, and form new collaborations. Over the course of three days, participants will get the chance to take part in minicourses, a poster session, several contributed talks, as well as an open problem session.

Email: applied.algebra.combinatorics@gmail.com

applied algebra, applied combinatorics

Graph Theory and Combinatorics,    Algebra

This conference will focus on recent developments in various subfields of geometric and quantum topology and their related representation theory. The goal of this conference is to share current research with graduate students and postdoctoral scholars as well as to give an opportunity for them to talk about their work. There will be plenary talks by Thang Le (Georgia Institute of Technology), Ina Petkova (Dartmouth College), and Lisa Piccirillo (Massachusetts Institute of Technology). Each plenary speaker will deliver one introductory lecture and one research lecture. The remaining talks will be given by early career mathematicians, particularly graduate students and postdoctoral fellows.

We especially encourage graduate students to submit talk abstracts! The deadline to apply for funding and submit a talk abstract is March 10th, 2023; see the conference website for instructions.

low-dimensional, geometry, topology, quantum topology

CIRM – Centre International de Rencontres Mathématiques

Hausdorff Center for Mathematic

This school provides an introduction to some of the main topics of the trimester program. It is mainly directed at PhD students and junior researchers.

CIRM - Jean-Morlet Chair

The spring school serves an introduction to the conference "Arithmetic Statistics", and aims to provide PhD students and early stage researchers with the necessary background to enable them to fruitfully partake in the conference. lt will also be an occasion for Master students to have an introduction towards research in number theory.

Number Theory, Arithmetic,    Probability and Statistics, Game Theory

CIRM – Centre International de Rencontres Mathématiques

The school will feature three plenary courses providing general background and outlook on recent advances for a selection of the main subjects of the trimester programme. It is intended for graduate students and early-stage researchers, as well as for non-specialists aiming at entering these new research fields. Participation is free of charge, but registration is required.

This summer school on high-dimensional expanders is the first event organized in the framework of the EOS-project "High-dimensional expanders and Kac–Moody–Steinberg groups". It consists of 7 short series of lectures by experts in the field and is meant to be accessible to a wide audience of both young and established researchers.

Ramanujan graphs and expander graphs; Bruhat–Tits buildings; Kazhdan's property (T); Hecke algebras; Lattices in p-adic groups; Ramanujan complexes and high-dimensional expanders; Applications

Number Theory, Arithmetic,    Graph Theory and Combinatorics

The Instituto of Mathematical Sciences (ICMAT)

The study of the arithmetic properties of special values of L-functions is a central theme in Number Theory and in Arithmetic Geometry. The aim of this conference is to discuss recent significant developments in this area. In addition to research talks from accomplished researchers in the field, there will be an opportunity for PhD students to contribute short talks on their research topics.

Commutative Algebra has seen an extraordinary development in the last few years. Long standing conjectures have been proven and new connections to different areas of mathematics have been built.This summer graduate school will consist of three mini-courses (4 lectures each) on fundamental topics in commutative algebra that are not covered in the standard courses. Each course will be accompanied by problem sessions focused on research. Six general colloquium-style lectures will be given by invited scholars who will also attend the school and help with afternoon research activities.

University of Illinois Urbana-Champaign

Summer School in Graph Coloring, May 23-26; EXCILL IV Conference, May 27-28; Summer School in Algebraic Methods in Combinatorics, May 29-June 1

The Faculty of Mathematics and Physics of Charles University together with the Faculty of Electrical Engineering of the Czech Technical University in Prague will organize the Spring School on Analysis 2023

The purpose of this meeting is to bring together researchers with a common interest in the field. Graduate students and others beginning their mathematical careers are encouraged to participate. There will be opportunities for informal discussions and short communications.

University of Illinois Urbana-Champaign

Graph Theory and Combinatorics,    Algebra

CIMPA Research School on Graph Structure and Complex Network Analysis will be held in Nesin Mathematics Village, Şirince, İzmir, Turkey on June 4-16, 2023. Since the works of Watts and Strogatz (1998) on one hand, and Barabási and Albert (1999) on the other, graph theory has become a major mathematical field that provides a framework to handle network properties theoretically and enables us with very powerful tools to model and solve problems on networks. Understanding their graph structure is a key point in deriving efficient algorithms in large networks. In this school, we will cover theoretical aspects of graph structure analysis as well as applications on complex network studies.

Graph Theory and Combinatorics,    Complex Networks

Mathematical Sciences Research Institute (MSRI)

Computational proof assistants now make it possible to develop global, digital mathematical libraries with theorems that are fully checked by computer. This summer school will introduce students to the new technology and the ideas behind it, and will encourage them to think about the goals and benefits of formalized mathematics. Students will learn to use the Lean interactive proof assistant, and by the end of the session they will be in a position to formalize mathematics on their own, join the Lean community, and contribute to its mathematical library.

Algebra,    Automated Theorem Proving

CIRM – Centre International de Rencontres Mathématiques

Events for IT Students and Early Career Researchers,    Natural Language Processing, Computational Linguistics

Max Planck Institute for Mathematics in the Sciences

The aim of the course is to learn how tools from algebraic geometry (in particular, from computational and real algebraic geometry) can be used to analyze standard models in molecular biology. Particularly, these models are key ingredients in the development of Systems and Synthetic biology, two active research areas focusing on understanding, modifying, and implementing the design principles of living systems. We will focus on the mathematical aspects of the methods, and exemplify and apply the theory to real networks, thereby introducing the participants to relevant problems and mechanisms in molecular biology. As a counterpart, however, the participants will also see how this field has in the past challenged current methods, mainly in the realm of real algebraic geometry, and has given rise to new general and purely theoretical results on polynomial equations. We will end our lectures with an overview of open questions in both fields.

Complex Networks,    Geometry and Topology

Mathematical Sciences Research Institute (MSRI)

The overarching goal of this summer school is to expose the students both to modern forms of unsupervised learning — in the form of geometrical and topological data analysis — and to supervised learning — in the form of (deep) neural networks applied to regression/classification problems. The organizers have opted for a lighter exposure to a broader range of topics. Using the metaphor of a meal, we are offering 2 + 2 samplers — geometry and topology for data analysis + theoretical and practical deep learning — rather than 1 + 1 main dishes. The main goal, thus, is to inspire the students to learn more about one or several of the topics covered in the school.

Hausdorff Center for Mathematics – hcm (Universität Bonn)

TQFTs (Topological quantum field theories) are of central importance in several areas of mathematics and physics. From a mathematical point of view (going back to Atiyah), a TQFT is a symmetric monoidal functor from the cobordism category to some symmetric monoidal category. It can thus be seen as a representation of a fundamental geometric category on a target category and thereby organizes interesting algebraic structures, e.g. representations of mapping class groups, in terms of cobordism categories. In recent years, TQFTs have appeared in many more mathematical areas such as algebraic topology (the study of 4-manifolds) or algebraic geometry (the study of moduli spaces). In this Hausdorff school we would like to explore various facets of TQFTs related to representation theory and mathematical physics. The interplay of representation theory and TQFT is, at least, two-fold: on the one hand side, representation theory provides input data to construct TQFTs. The most famous example is given by the quantum groups Uq(sl(2)) from which a modular tensor category and thus a Chern-Simons type TQFT can be constructed. On the other hand, TQFTs explain and organize structures appearing in representation categories, for example character varieties and their quantizations.

High Energy Physics, Particles and Fields,    Courses and Events for Physics Students

This two week school will focus on spectral theory of periodic, almost-periodic, and random operators. The study of periodic problems is one of the most classical subjects of spectral theory. Many of the basic properties of periodic operators are now well understood due to the powerful method known as the Floquet-Bloch decomposition which performs a partial diagonalisation of the operator. Another type of problems mathematicians and physicists have been interested in is known under the broad name of ergodic problems; the most prominent among them being almost-periodic and random problems. These problems are much more complicated because no straightforward partial diagonalisation is known for them. The study of the spectral properties for ergodic problems developed to a large extent independently of the periodic theory, although occasionally periodic results were used in almost-periodic or even random settings. The interplay between almost-periodic and random problems has been more significant, but still, most of the methods have been specific to each of these two types. In the last few years however there emerged a number of methods which originated in one type of these problems but were successfully used to tackle problems from neighbouring areas (periodic methods used to deal with almost-periodic or random problems, etc). This suggests that these three lines of research have more in common than previously believed. The main aim of this school is to teach the students who work in one of these areas methods used in parallel problems, explain the similarities between all these areas and show them the ‘big picture’.

Centre de recherches mathématiques (CRM)

The mini-courses and research talks will address several themes, including: nonpositively-curved cube complexes, median spaces, (coarsely) Helly spaces and groups, and various combinatorial notions of nonpositive curvature. The first week of the workshop involves mini-courses by Elia Fioravanti (MPI Bonn), Thomas Haettel (Université de Montpellier), Nima Hoda (ENS Paris), Nir Lazarovich (Technion). The second week will be devoted to research talks.

Graph Theory and Combinatorics,    Geometry and Topology

Mathematical Sciences Research Institute (MSRI)

The school will provide the mathematical and theoretical computer science toolbox that forms the foundation of market and mechanism design - two of the burning research areas of the 21st century. Market and mechanism design are beautiful examples of how deep mathematical theory can lead to improved design of real-world marketplaces and auctions. We shall consider the algorithmic, complexity, economic and societal aspects of these topics.

Mathematical Sciences Research Institute (MSRI)

This graduate summer school will introduce students to two important and inter-related fields of differential geometry: geometric flows and minimal surfaces.

Centre for Discrete Mathematics, UL PeF (University of Ljubljana, Faculty of Education)

The school aims at introducing PhD students and young researchers to some among the recent developments in mathematical physics, with an emphasis on many-body problems, quantum mechanics and quantum field theory. In recent years new analytical and probabilistic methods have been developed within these fields, allowing the mathematical physics community to advance in the understanding of the statistical mechanics properties of many-body and field-particle systems. The goal of the school is on the one hand to present such methods and on the other hand to provide an environment for the exchange of ideas among researchers with different mathematical background and research focus.

Courses and Events for Physics Students,    Quantum Mechanics and Quantum Information Theory

University of Gdansk, Gdansk University of Technology

Email: gwgt@ug.edu.pl

Algebra,    Geometry and Topology

Mathematical Sciences Research Institute (MSRI)

The school is built around two related courses on geometric (‘derived spaces’) and categorical (‘derived categories’) aspects of the theory. Our goal is to explain the key ideas and concepts, while trying to keep technicalities to a minimum.

Mathematical Sciences Research Institute (MSRI)

The school aims at introducing PhD students and young researchers to the topic of Unique Continuation, with an emphasis on its recent developments and applications to PDEs, Quantum Mechanics, Harmonic Analysis and Inverse Problems.

The school will consist of three mini lectures and selected talks given by experts in the field.

Microlocal analysis and probabilistic methods have encountered a large success in the past decade, both in hyperbolic dynamics and in geometry. These developments led to a number of spectacular results and, on one hand, this summer school aims to celebrate the success of such methods by bringing together the leading specialists as well as the young researchers starting their career in these fields. On the other hand, its goal is to serve as a fertile environment and to provide young participants with the state-of-the-art analytic and probabilistic techniques used in geometry and dynamics.

Analysis,    Calculus, Differential Equations and Integration

Mathematical Sciences Research Institute (MSRI)

The goal of the summer school is for the students to first become familiar with the concept of concentration of measure in different settings (Euclidean, Riemannian and discrete), and the main open problems surrounding it. The students will later become familiar with the proof techniques that involve the different types of localization and obtain expertise on the ways to apply the localization techniques. After attending the graduate school, the students are expected to have the necessary background that would give them a chance to both conduct research around open problems in concentration of measure, find new applications to existing localization techniques and perhaps also develop new localization techniques.

Probability and Statistics, Game Theory,    Geometry and Topology

Mathematical Sciences Research Institute (MSRI)

This summer school will introduce graduate students to sketching-based approaches to computational linear and multi-linear algebra. Sketching here refers to a set of techniques for compressing a matrix, to one with fewer rows, or columns, or entries, usually via various kinds of random linear maps. We will discuss matrix computations, tensor algebras, and such sketching techniques, together with their applications and analysis.

Information & Knowledge Management, Big Data Computing,    Scientific Computing and Data Science

Isaac Newton Institute for Mathematical Sciences (INI)

Courses and Events for Physics Students,    Modeling and Simulation

Isaac Newton Institute for Mathematical Sciences (INI)

This summer school will provide a thorough introduction to the material standing at the core of the USM programme. Lectures will cover state-of-the-art techniques and methodologies for stochastic modeling, uncertainty propagation and inverse problems, as well as emerging methods for adaptivity and probabilistic learning. A broad array of applications will be presented, ranging from UQ-informed materials design to the stochastic modeling of complex, multiscale physical systems. The workshop is suited in particular for PhD students, postdocs and academic researchers from computational engineering, materials science, mathematics, and statistics.

Courses and Events for Physics Students,    Modeling and Simulation

University of Oregon, Eugene

In this workshop we will explore the structure of these categorified Coulomb branches. The simplest (!) example of a categorified Coulomb branch is the coherent Satake category, that is, the category of perverse coherent sheaves on the affine Grassmannian of a complex reductive group (such as GL_n). This is the coherent analogue of the more classical (constructible) Satake category which plays a fundamental role in the geometric Langlands program. We don't expect participants to know what many of those words mean, but they will by the end of the workshop!

Algebra,    Geometry and Topology

Algebra,    Geometry and Topology

Isaac Newton Institute for Mathematical Sciences (INI)

The aim of this summer school is to foster the development of a community of quantitative scientists who, while working on different application areas, share their knowledge and help address fundamental questions in the mathematics of movement. The goal is to identify common challenges and cross-fertilise concepts and techniques for modelling and analysing movement data in animal ecology and cell biology. With basic, as well as advanced, topics on the mathematics of movement the summer school welcomes early career researchers who that are new novice to the area but also those who that are already familiar with it. The first three days will be dedicated, respectively, to (i) Data Acquisition and Technology, (ii) Data Analysis, and (iii) Modelling, while the 4th and 5th days will be spent working in separate groups on specific dataset and modelling challenges. There will be sessions for early career presentations and poster sessions, as well as opportunities to hear about successful interdisciplinary collaborations and various activities to enable networking with the programme organisers and the many academic participants of the programme. There will also be a competition for the best poster.

Modeling and Simulation,    Systems Biology and Computational Biology

Courses and Events for Physics Students,    Quantum Mechanics and Quantum Information Theory

Mathematical Sciences Research Institute (MSRI)

This summer school will provide an introduction to the field of probabilistic proofs and the beautiful mathematics behind it, as well as prepare students for conducting cutting-edge research in this area.

University of Wyoming

The Graduate Research Workshop in Combinatorics (GRWC) is an annual two-week collaborative research workshop for advanced graduate students and postdocs from all areas of combinatorics. Participants work in small collaborative groups with faculty and postdocs on research problems from across the discipline. The workshops also host a variety of professional development workshops to prepare students and postdocs for industrial and academic careers. Participants have come from institutions around the world.

Email: Combinatorics.Workshop@gmail.com

combinatorics, graph theory, algebraic combinatorics, enumeration, computational combinatorics, combinatorial matrix theory

University of Bath | London Mathematical Society (LMS)

The mathematical study of wave propagation in continuous media and its applications have been areas of strength in the UK over a number of decades: several UK mathematics departments host related research groups with long-established traditions. This symposium will provide a bird’s-eye view of the three mentioned areas, identify areas of existing contact between them, and develop plans for building links between problems with common underpinning mechanisms.

Analysis,    Calculus, Differential Equations and Integration

Banach Center

Hausdorff Center for Mathematics – hcm (Universität Bonn)

Because of the ubiquity of Fourier analysis, oscillatory integrals are present in many techniques in both harmonic analysis and analytic number theory. Current state-of-the-art methods in both fields are pushing beyond classical methods because of increased importance of understanding the uniformity and stability of the estimates. In addition, researchers are uncovering unifying ideas that span the (traditionally somewhat separated areas) of oscillatory integrals in the setting of analysis, and character sums in number theory. Recent work on estimating oscillatory integrals have even applied model theory, from logic. This summer school will give participants an introduction on the classical methods for estimating oscillatory integrals and explain current cutting-edge developments. Throughout, the lectures will view these problems through a lens of understanding the uniformity and stability of the estimates.

University of Ljubljana, Faculty for computer and information science

The European Summer School in Logic, Language and Information (ESSLLI) is a yearly recurring event, which has been organized since 1989. An ESSLLI Summer School provides an interdisciplinary setting in which courses and workshops are offered in logic, linguistics and computer science. Courses (foundational, introductory and advanced) and workshops cover a wide variety of topics within three interdisciplinary areas of interest: language and computation, logic and language, and logic and computation. In addition to the workshops and courses there are usually four evening lectures, given by prominent researchers, on topics that are at the forefront of research in logic, language and computer science, also from wider scientific, historical, and philosophical perspectives. Its relevance to students of artificial intelligence is evident.

Mathematical Logic and Foundations,    Linguistics

This will be a workshop in Algebraic Geometry, in topics (tangentially) related to the Stacks project. The participants who apply and are accepted will be graduate students, post-docs, or even senior researchers. Roughly the idea is that they will learn about and work on a single topic in a small group together with a mentor for a week. Part of this process will be seeing how one builds new theory from the foundations. There will also be some talks each day covering advanced topics in algebraic geometry. Mathematicians not in the groups are welcome to come to these talks.

Algebra,    Geometry and Topology

Centre de recherches mathématiques (CRM)

Robert Langlands est un des mathématiciens contemporains les plus influents. Il est surtout connu pour un ensemble de conjectures très profondes dont l'étude porte maintenant le nom de «programme de Langlands». Tout au long de sa carrière, de nombreux prix ont été décernés au professeur Langlands. En particulier, ses travaux lui ont valu de recevoir le prix Wolf en 1996 et le prix Abel en 2018. Au-delà des mathématiques, le professeur Langlands s'intéresse à l'apprentissage des langues et à la poursuite de la recherche mathématique dans ces langues. En plus de l'anglais, il parle couramment le français, le turc et l'allemand. En 2019 il a créé un Fonds de dotation au CRM dont le but est de soutenir les activités scientifiques de recherche et de formation en français.  Trois mini-cours s’adressant aux étudiants de premier cycle sont présentés à l’édition 2023 de cette école d’été francophone. Ils sont appuyés par le Fonds de dotation Langlands.

Analysis,    Probability and Statistics, Game Theory

CIRM – Centre International de Rencontres Mathématiques

Events for IT Students and Early Career Researchers,    Natural Language Processing, Computational Linguistics

Institute for Advanced Study in Mathematics (IASM) in Hangzhou, China

The geometry of Hyperkahler varieties is certainly one of the most studied topics in Algebraic Geometry, with many connections to Representation Theory and Arithmetic Geometry. The aim of this workshop is to survey the recent developments in this area and to investigate the open problems and conjectures, by creating new collaborations between participants from different research fields. In addition to the research talks provided by selected participants, there will be four mini-courses delivered by some of the main experts in this area.

Young postdoctoral researchers and graduate students are very welcome to attend the workshop and to contribute with a junior talk.

Geometry and Topology,    Algebra

MPI f. Mathematik, Bonn

The aim of the conference is to bring together early-stage career researchers in number theory (PhD students and postdocs who have obtained their PhD in 2021 or later). We hope that the friendly and engaging atmosphere will encourage the participants to ask questions and discuss their research freely, talk about future job applications and other important aspects of a career in academia. Furthermore, participants will be able to apply to give talks to describe the problems they are working on.

Hausdorff Center for Mathematics – hcm (Universität Bonn)

The last decade has witnessed tremendous advances in both interactive and automated theorem proving, and we are arguably on the doorstep of a new era, in which interactive theorem provers validate ground-breaking mathematical research in a reasonably short time, as shown in Peter Scholze's Liquid Tensor Experiment. This new area is driven both by new software and by a growing community of users. In addition, we have seen the advent of new software that guides mathematicians in finding proofs, helps them develop new conjectures or even generates a proof or part of a proof with minimal human input. This HSM will highlight both these developments.

The Active Training Course "Advanced Deep Learning" is hosted by the community organization DIG-UM with support from the BMBF-funded ErUM-Data-Hub.

The intensive course on Graph Neural Networks, Transformers, Normalizing Flows and Autoencoders will be held from Monday 25.9.23 to Thursday 28.9.23. The course includes a challenge to be worked out and presented by participant subgroups. The workshop is aimed at deep-learning enthusiasts from all ErUM communities (Research on Universe and Matter) who have prior knowledge of neural networks and applied basic concepts of deep learning. 

Courses and Events for Physics Students,    Neural Networks and Artificial Intelligence, Machine Learning

CIRM – Centre International de Rencontres Mathématiques

Banach Center & Polish Academy of Sciences – Institute of Mathematics

To disseminate some of the recent developments in set theory. The conference will have 5-6 parallel tutorials that will disseminate modern techniques. The tutorials will be aimed at both graduate students as well as senior researchers.

Differential equations are at the forefront of modeling real-world systems and applications arising from different fields of science and engineering. This SEAMS school brings together experts in numerical analysis and scientific computing to give introductory lectures on recent numerical techniques in solving ordinary and partial differential equations, and their applications. These lectures are intended for graduate students and early-career mathematicians from the Philippines and neighboring countries. The school will be composed of lecture series and hands-on computational exercises.

Calculus, Differential Equations and Integration,    Scientific Computing and Data Science

Isaac Newton Institute for Mathematical Sciences (INI)

The programme will start with an introductory school on equivariant methods in algebraic and differential geometry for graduate students, postdocs and those who are interested in learning background material for the programme.

Algebra,    Geometry and Topology