Différences entre les versions de « QCPC 2023 »

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* '''Location:''' Université Grenoble Alpes, Bâtiment IMAG, Grenoble, France.
 
* '''Location:''' Université Grenoble Alpes, Bâtiment IMAG, Grenoble, France.
  
* '''Lecturers: ''' [https://www.icgm.fr/bruno-senjean/ Bruno Senjean] (Montpellier), [https://atos.net/en/expert/thomas-ayral Thomas Ayral] (Paris), [https://scienceimpulse.cea.fr/fr/projects-in-progress/building-quantum-computer-bit-by-bit/ David Herrera-Marti] (Grenoble), [https://www.saad-yalouz.com/ Saad Yalouz] (Strasbourg)
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* '''Lecturers: ''' [https://www.icgm.fr/bruno-senjean/ Bruno Senjean] (Montpellier), [https://atos.net/en/expert/thomas-ayral Thomas Ayral] (Paris), [https://scienceimpulse.cea.fr/fr/projects-in-progress/building-quantum-computer-bit-by-bit/ Zachary Blunden-Codd (replacing David Herrera-Martı́)] (Grenoble), [https://www.saad-yalouz.com/ Saad Yalouz] (Strasbourg)
  
 
* '''Organizers:''' [https://www.robertapoloni.com/ Roberta Poloni], [http://cermics.enpc.fr/~cances/ Eric Cancès], [http://quantique.u-strasbg.fr/doku.php?id=en:pageperso:ef:welcome Emmanuel Fromager], [https://etsf.polytechnique.fr/People/Francesco Francesco Sottile], [http://www.lct.jussieu.fr/pagesperso/toulouse/ Julien Toulouse].
 
* '''Organizers:''' [https://www.robertapoloni.com/ Roberta Poloni], [http://cermics.enpc.fr/~cances/ Eric Cancès], [http://quantique.u-strasbg.fr/doku.php?id=en:pageperso:ef:welcome Emmanuel Fromager], [https://etsf.polytechnique.fr/People/Francesco Francesco Sottile], [http://www.lct.jussieu.fr/pagesperso/toulouse/ Julien Toulouse].
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==Program==
 
==Program==
  
* Bruno Senjean Introduction to Quantum Computing for chemistry,
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We will have four lectures:
variational quantum eigensolver and quantum phase estimation algorithms  
+
 
 +
*'''Bruno Senjean''', ICGM, CNRS and Université de Montpellier, Montpellier
 +
 
 +
'''''Introduction to quantum computing for chemistry, variational quantum eigensolver and quantum phase estimation algorithms (2*1h30)'''''
 +
 
 +
<font color="red">
 +
'''[https://www.youtube.com/watch?v=4b8Z6-_zugQ&list=PLD59gCifE4d_b87M1h-r6me9fgzGZkPrp&index=1 VIDEO1]'''
 +
'''[https://www.youtube.com/watch?v=rf5WRG1_91s&list=PLD59gCifE4d_b87M1h-r6me9fgzGZkPrp&index=5 VIDEO2]'''
 +
'''[[Media:Senjean introduction QC part1.pdf|[Slides part 1]]]'''
 +
'''[[Media:Senjean introduction QC part2.pdf|[Slides part 2]]]'''
 +
'''[[Media:Senjean derivations QC.pdf|[Handwritten derivations]]]'''
 +
</font>
 +
 
 +
 
 +
*'''Thomas Ayral''', ATOS, Paris
 +
 
 +
'''''Noise in variational algorithms and classical simulation of quantum computing (2*1h30)'''''
 +
 
 +
<font color="red">
 +
'''[https://www.youtube.com/watch?v=JxvE3tDWm1I&list=PLD59gCifE4d_b87M1h-r6me9fgzGZkPrp&index=2 VIDEO1]'''
 +
'''[https://www.youtube.com/watch?v=ewQ3eKpSvg0&list=PLD59gCifE4d_b87M1h-r6me9fgzGZkPrp&index=3 VIDEO2]'''
 +
</font>
 +
 
 +
 
 +
*'''Saad Yalouz''', LCQ, Université de Strasbourg, Strasbourg
 +
 
 +
'''''Quantum algorithm developments and applications: wave-function theory and density-functional theory (1h30)'''''
 +
 
 +
<font color="red">
 +
'''[https://www.youtube.com/watch?v=mTtp_Dul_Rk&list=PLD59gCifE4d_b87M1h-r6me9fgzGZkPrp&index=4 VIDEO]'''
 +
'''[[Media:Saad Yalouz Lecture Grenoble WFT and DFT.pdf|[Slides]]]'''
 +
'''[[Media:Saad Yalouz ExpPauliString.pdf|[Lecture notes]]]'''
 +
</font>
 +
 +
 
 +
 
 +
*'''Zachary Blunden-Codd (replacing David Herrera-Martı́)''', CEA, Grenoble.
 +
 
 +
'''''Introduction to fault-tolerant quantum computing. Limits of quantum phase estimation on fault-tolerant quantum computing (1h30)'''''
 +
 
 +
<font color="red">
 +
'''[https://www.youtube.com/watch?v=rxZ2nXnrL8Q&list=PLD59gCifE4d_b87M1h-r6me9fgzGZkPrp&index=6 VIDEO]'''
 +
'''[[Media:Zach_and_David_QCPC23.pdf|[Slides]]]'''
 +
</font>
  
 
== Schedule ==
 
== Schedule ==
  
To be confirmed
 
  
 
{| border="5" |
 
{| border="5" |
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!'''<font color="red">9:00 Start</font>'''
 
!'''<font color="red">9:00 Start</font>'''
 
|- align="left"
 
|- align="left"
!'''9:00-10:30''' Lecture I (Bruno Senjean)
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!'''9:00-10:30''' Bruno Senjean I
  
!'''9:00-10:30''' Salad Yalouz  
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!'''9:00-10:30''' Saad Yalouz
Quantum algorithm developments and application : wavefunction theory and DFT
 
 
|-align="left"
 
|-align="left"
 
!<font color="green">10:30-11:00 Coffee break</font>  
 
!<font color="green">10:30-11:00 Coffee break</font>  
 
!<font color="green">10:30-11:00 Coffee break</font>  
 
!<font color="green">10:30-11:00 Coffee break</font>  
 
|-align="left"
 
|-align="left"
!'''11:00-12:30''' Bruno Senjean
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!'''11:00-12:30''' Bruno Senjean II
Introduction to Quantum Computing for chemistry,
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!'''11:00-12:30''' Zachary Blunden-Codd
variational quantum eigensolver and quantum phase estimation algorithms - Part 2
 
!'''11:00-12:30''' David Herrera Marti
 
Introduction to fault-tolerant quantum computing. Limits of QPE on FTQC
 
 
|-align="left"
 
|-align="left"
 
!  <font color="green">12:30 Lunch (buffet) </font>
 
!  <font color="green">12:30 Lunch (buffet) </font>
 
!  <font color="green">12:30 Lunch (buffet) </font>
 
!  <font color="green">12:30 Lunch (buffet) </font>
 
|-align="left"
 
|-align="left"
!'''14:00-15:30''' Thomas Ayral
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!'''14:00-15:30''' Thomas Ayral I
Noise on Variational algorithms. Classical simulation of QC - Part 1
 
 
!'''<font color="red">14:00 End</font>'''
 
!'''<font color="red">14:00 End</font>'''
 
|-align="left"
 
|-align="left"
 
!  <font color="green">15:30-16:00 Coffee break</font>  
 
!  <font color="green">15:30-16:00 Coffee break</font>  
 
|-align="left"
 
|-align="left"
!''16:00-17:30'' Thomas Ayral
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!'''16:00-17:30''' Thomas Ayral II
Noise on Variational algorithms. Classical simulation of QC  - Part 2
 
 
|-align="left"
 
|-align="left"
!  <font color="green"> Dinner at Caffe Forte (Grenoble hypercentre) </font>
+
!  <font color="green"> 19:30 Dinner at Caffe Forte (Grenoble hypercentre) </font>
 
|}
 
|}
  

Dernière version du 9 février 2023 à 11:16

Introductory days to quantum computing for physics and chemistry

19-20 January 2023, Grenoble
organized by GDR REST and GDR NBODY

Qubit.jpg



  • Location: Université Grenoble Alpes, Bâtiment IMAG, Grenoble, France.


Presentation[modifier]

Research on quantum computing is rapidly growing and has the potential to reshape simulations in physics and chemistry. These two days aim at providing a pedagogical introduction to this field for the communities of the GDR REST and NBODY, i.e. theoretical physicists, chemists, and applied mathematicians working on the quantum many-body problem. These days are not targeted to experts in quantum computing but rather to people who want to discover this new field.

Program[modifier]

We will have four lectures:

  • Bruno Senjean, ICGM, CNRS and Université de Montpellier, Montpellier

Introduction to quantum computing for chemistry, variational quantum eigensolver and quantum phase estimation algorithms (2*1h30)

VIDEO1 VIDEO2 [Slides part 1] [Slides part 2] [Handwritten derivations]


  • Thomas Ayral, ATOS, Paris

Noise in variational algorithms and classical simulation of quantum computing (2*1h30)

VIDEO1 VIDEO2


  • Saad Yalouz, LCQ, Université de Strasbourg, Strasbourg

Quantum algorithm developments and applications: wave-function theory and density-functional theory (1h30)

VIDEO [Slides] [Lecture notes]


  • Zachary Blunden-Codd (replacing David Herrera-Martı́), CEA, Grenoble.

Introduction to fault-tolerant quantum computing. Limits of quantum phase estimation on fault-tolerant quantum computing (1h30)

VIDEO [Slides]

Schedule[modifier]

Thursday 19 January
Friday 20 January
9:00 Start
9:00-10:30 Bruno Senjean I 9:00-10:30 Saad Yalouz
10:30-11:00 Coffee break 10:30-11:00 Coffee break
11:00-12:30 Bruno Senjean II 11:00-12:30 Zachary Blunden-Codd
12:30 Lunch (buffet) 12:30 Lunch (buffet)
14:00-15:30 Thomas Ayral I 14:00 End
15:30-16:00 Coffee break
16:00-17:30 Thomas Ayral II
19:30 Dinner at Caffe Forte (Grenoble hypercentre)

Practical details[modifier]

Registration[modifier]

The maximum number of participants is around 50.

No registration fees will be asked. However, accommodation will not be provided but must be arranged independently by the participants.

To register, please send an email to qc-school@theory.polytechnique.fr and indicate your name and affiliation.

Location[modifier]

Université Grenoble Alpes, Bâtiment IMAG, Grenoble, France.

In order to reach the location from the train station, take tram B direction GIERES Plaine des Sports and stop at " Bibliothèque Universitaire "

Social Dinner[modifier]

Caffe Forte, 4 Pl. de Lavalette, 38000 Grenoble (tram B, arrêt Notre-Dame - Musée)


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