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- Diagnosing convergence issues, with examples<br>
 
- Diagnosing convergence issues, with examples<br>
 
- Error estimation and perturbation theory<br>
 
- Error estimation and perturbation theory<br>
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'''[[https://www.youtube.com/playlist?list=PLGN9wsZ5u_MOPIaSi-TbMxCU6na2wI3_T VIDEO]]<br>
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References:<br>
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-  Lloyd N. Trefethen, David Bau III, ''Numerical Linear Algebra'', SIAM (First edition in 1997, Twenty-fifth anniversary edition in 2022). [https://cdn.bc-pf.org/resources/math/algebra/linear_algebra/Trefethen_Bau-Numerical_Linear_Algebra.pdf link]<br>
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- Yousef Saad, ''Iterative methods for sparse linear systems (2nd edition)'', SAIM, 2003. [https://www-users.cse.umn.edu/~saad/books.html link] <br>
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- Yousef Saad, ''Numerical Methods for Large Eigenvalue Problems (2nd edition)'', SIAM, 2011. [https://www-users.cse.umn.edu/~saad/books.html link]
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&nbsp;&nbsp;&nbsp;&nbsp;- Hastings area law for one-dimensional systems<br>
 
&nbsp;&nbsp;&nbsp;&nbsp;- Hastings area law for one-dimensional systems<br>
 
&nbsp;&nbsp;&nbsp;&nbsp;- The reordering problem in quantum chemistry and the quantum mutual information<br>
 
&nbsp;&nbsp;&nbsp;&nbsp;- The reordering problem in quantum chemistry and the quantum mutual information<br>
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'''[[https://www.youtube.com/playlist?list=PLGN9wsZ5u_MME2D-HmbxraQ-Bx0lpgxFs VIDEO]] [[Media:Lecture_notes_dupuy_2023.pdf|[Lecture notes]]]'''
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[[Image:Levitt.jpg|300px]][[Image:Dupuy.jpg|300px]][[Image:Dongarra.jpg|300px]][[Image:Minischoolaudience.jpeg|300px]]  
 
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Dernière version du 14 juin 2023 à 11:39

5th edition of the Mini-school on mathematics for theoretical chemistry and physics

(organized by GDR NBODY with support from CNRS INC, LCT, LJLL, and ERC EMC2)

Maths1.jpg

In the same spirit than the 1st edition, 2nd edition, 3rd edition, and 4th edition.


  • Date: 5-7 June 2023
  • Location: Sorbonne Université, Pierre et Marie Curie (or Jussieu) campus, 4 place Jussieu, 75005, Paris. Laboratoire Jacques-Louis Lions, tower/corridor 15-16, 3rd floor, room 309.


Presentation[modifier]

  • The lectures delivered are intended to be of interest to any person working in the field of theoretical chemistry and physics and willing to discover or deepen some mathematical aspects of the field. Master and PhD students, post-docs and any academic are welcome!
  • To provide a detailed presentation of subjects, we have chosen to give a good amount of time to each lecturer. The mini-school will thus involve only two lecturers over a three-day period.

Program[modifier]

Two courses will be proposed:

  • 1) Advanced and numerical linear algebra (8.5 hours) by Antoine Levitt, Laboratoire de Mathématiques d'Orsay, Université Paris-Saclay, Orsay.

Indicative program (subject to changes):

- Reminders in linear algebra
- Galerkin, projections, variational principles, resolutions of the identity, dual bases
- What not to do when solving linear and eigenvalue problems
- Convergence theory of Krylov methods
- Diagnosing convergence issues, with examples
- Error estimation and perturbation theory

[VIDEO]
References:
- Lloyd N. Trefethen, David Bau III, Numerical Linear Algebra, SIAM (First edition in 1997, Twenty-fifth anniversary edition in 2022). link
- Yousef Saad, Iterative methods for sparse linear systems (2nd edition), SAIM, 2003. link
- Yousef Saad, Numerical Methods for Large Eigenvalue Problems (2nd edition), SIAM, 2011. link


  • 2) Old and new tensor methods for quantum chemistry (8.5 hours) by Mi-Song Dupuy, Laboratoire Jacques-Louis Lions, Sorbonne Université, Paris.

Indicative program (subject to changes):

- Tensors: occurrence in quantum chemistry, reshape of a tensor and singular value decomposition
- Classical tensor formats:
    - Canonical tensors
    - Tucker format
    - DMRG: tensor trains/matrix product states
- Why DMRG works?
    - Hastings area law for one-dimensional systems
    - The reordering problem in quantum chemistry and the quantum mutual information

[VIDEO] [Lecture notes]


This year, there will be also a special colloquium:

An Overview of High Performance Computing and Future Requirements (1 hour) by Jack Dongarra, The University of Tennessee, Oak Ridge National Laboratory, and University of Manchester, USA and UK.
Tuesday 6 June, 14:00-15:00, Amphi 24

In this talk we examine how high performance computing has changed over the last ten years and look toward the future in terms of trends. These changes have had and will continue to impact our numerical scientific software significantly. A new generation of software libraries and algorithms are needed for the effective and reliable use of (wide area) dynamic, distributed, and parallel environments. Some of the software and algorithm challenges have already been encountered, such as management of communication and memory hierarchies through a combination of compile-time and run-time techniques, but the increased scale of computation, depth of memory hierarchies, range of latencies, and increased run-time environment variability will make these problems much harder.


Levitt.jpgDupuy.jpgDongarra.jpgMinischoolaudience.jpeg

Schedule[modifier]

Monday 5 June
Tower 15-16, room 309
Tuesday 6 June
Tower 15-16, room 309
Wednesday 7 June
Tower 15-16, room 309
8:45-9:00 Arrivals/Welcome
9:00-10:30 Levitt 1 9:00-10:30 Dupuy 3 9:00-10:30 Levitt 5
10:30-10:45 Coffee break 10:30-10:45 Coffee break 10:30-10:45 Coffee break
10:45-12:15 Levitt 2 10:45-12:15 Levitt 3 10:45-12:15 Levitt 6
12:15-14:00 Lunch at L'Ardoise (Tower 25) 12:15-14:00 Lunch at L'Ardoise (Tower 25) 12:15-14:00 Lunch at L'Ardoise (Tower 25)
14:00-15:30 Dupuy 1 14:00-15:00 Colloquium Jack Dongarra (Amphi 24) 14:00-15:30 Dupuy 5
15:30-15:45 Coffee break 15:15-16:15 Levitt 4 15:30-15:45 Coffee break
15:45-17:15 Dupuy 2 16:15-16:30 Coffee break 15:45-17:15 Dupuy 6
16:30-17:30 Dupuy 4

Practical details[modifier]

Registration[modifier]

The registration is closed.

To facilitate the participation of young researchers, no registration fees will be asked. However, accommodation will not be provided but must be arranged independently by the participants.


Location of the mini-school[modifier]

The mini-school will take place on the Pierre et Marie Curie (or Jussieu) campus of Sorbonne Université, 4 place Jussieu, 75005 Paris.

Subway (Metro) lines 7 or 10: get off at "Jussieu" station.

From the main entrance of the campus, go to Tower 16. Take the stairs or the elevator to the third level. Find corridor 15-16, and then the room 309. This is the seminar room of Laboratoire Jacques-Louis Lions. All the lectures will take place in this seminar room.

The special colloquium given by Jack Dongarra will take place on Tuesday 6 June, 14:00-15:00, Amphi 24 (near Tower 24).

Lunches[modifier]

Each day, lunch at Restaurant L'Ardoise (Jussieu campus, entrance near Tower 25) will be offered to a maximum 50 registered participants to the mini-school (see the list of registered participants on the page List of registered participants).

Arriving by Plane[modifier]

Both Paris-Charles de Gaulle (CDG) and Paris-Orly international airports are connected to the center of Paris by RER (fast regional railway) or coaches. The RER is connected to the subway (Metro) network. It costs about 10 euros to go from either airport to the center of Paris and it takes about one hour.

For more information, check the Paris airports website.

From Paris-Charles de Gaulle (CDG) airport[modifier]

From the airport take RER line B. Stop at "St-Michel-Notre-Dame" station. Take subway line 10 direction "Austerlitz" and stop at "Jussieu" station.

From Paris-Orly airport[modifier]

From the airport take the monorail "OrlyVal" to "Antony". Take RER line B. Stop at "St-Michel-Notre-Dame" station. Take subway line 10 direction "Austerlitz" and stop at "Jussieu" station.

Arriving by Train[modifier]

All the railway stations are in downtown Paris and are connected to the subway network. For train reservation, check the SNCF web site.

From any train station follow the sign "M" to the subway.

Arriving by Subway or Bus[modifier]

For more information on the RER, Subway and Bus systems, check the RATP web site, and in particular the Subway and RER map.


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