From e2e15cc2ba676319a9d5817b3c45193b878cbd02 Mon Sep 17 00:00:00 2001 From: Morten Hjorth-Jensen Date: Thu, 26 Dec 2024 10:10:50 +0100 Subject: [PATCH] Update week16.do.txt --- doc/src/week16/week16.do.txt | 33 ++++----------------------------- 1 file changed, 4 insertions(+), 29 deletions(-) diff --git a/doc/src/week16/week16.do.txt b/doc/src/week16/week16.do.txt index 32952909..36f5a8a2 100644 --- a/doc/src/week16/week16.do.txt +++ b/doc/src/week16/week16.do.txt @@ -1,36 +1,11 @@ -TITLE: Week 16 April 19-23: Work in Groups on Project 2 -AUTHOR: Morten Hjorth-Jensen {copyright, 1999-present|CC BY-NC} Email morten.hjorth-jensen@fys.uio.no at Department of Physics and Center fo Computing in Science Education, University of Oslo, Oslo, Norway & Department of Physics and Astronomy and Facility for Rare Ion Beams, Michigan State University, East Lansing, Michigan, USA +TITLE: TBD +AUTHOR: Morten Hjorth-Jensen {copyright, 1999-present|CC BY-NC} Email morten.hjorth-jensen@fys.uio.no at Department of Physics and Center fo Computing in Science Education, University of Oslo, Oslo, Norway DATE: today !split -===== Overview of week 16, April 19-23 ===== +===== Overview of week May 12-16 ===== !bblock -* We have three project groups based on the selection below - o Time-dependent Hartree-Fock with "material":"https://github.com/Schoyen/tdhf-project-fys4411/tree/master" - o Neural Networks and Boltzmann Machines with "material":"http://compphysics.github.io/ComputationalPhysics2/doc/LectureNotes/_build/html/boltzmannmachines.html" - o Quantum Machine Learning with "material":"http://compphysics.github.io/ComputationalPhysics2/doc/LectureNotes/_build/html/basicquantumcomputing.html" +o Summary of course and work on project 2 !eblock -!bblock Schedule -The groups meet each Thursday at 2.15pm for theory lectures and discussions till approx 4pm. The remaining three hours are dedicated to project work. We meet first in plenum and then go different breakout rooms. The group teachers and discussion partners are -o Group 1 TDHF: Øyvind -o Group 2 NN+Boltzmann machines: Morten -o Group 3 Quantum Machine Learning: Kristian Wold and Stian Bilek -!eblock - - - -!split -===== Alternatives for project 2 ===== -!bblock -o Fermion VMC, continuation of project 1 -o Deep learning applied to project 1, either neural networks or Boltzmann machines -o Hartree-Fock theory and time-dependent theories -o Many-body methods like coupled-cluster theory or other many-body methods -o Quantum computing and possibly quantum machine learning -o Suggestions from you -!eblock - - -