October 2017 Morning Status Meetings - ORNL-Fusion/xolotl GitHub Wiki
This page contains a brief summary of the status of the Xolotl development team each morning during the month of October 2017.
20171002
Sophie - Finishing the presentation for the kick-off meeting. Starting to add an option to change the boundary conditions.
20171003
Sophie - Continuing to implement the option on boundary conditions.
20171006
Sophie - Continuing to implement the option on boundary conditions and fixing the PETSc divergence issue that appeared.
20171009
Sophie - Continuing to implement the analytical functions for the grouping parameters in the bubble test branch.
20171010
Sophie - Continuing to implement the analytical functions for the grouping parameters in the bubble test branch. Running more bursting tests.
20171011
Sophie - Starting on the pade approximation. Continuing to implement the analytical functions for the grouping parameters in the bubble test branch. Running more bursting tests.
20171013
Sophie - Fixing the implementation of analytical functions for the grouping parameters in the bubble test branch. Testing the pade approximation on small data sets.
20171016
Sophie - Creating a small PETSc solver for the Pade approximation. Testing max iteration options on bubble bursting.
20171017
Sophie - Installing Xolotl with openMPI. Starting to implement a fixed Pade approximation in Xolotl.
20171018
Sophie - Running large bubble test case. Starting to test a dynamic solver setup.
20171020
Sophie - Working on the APS-DPP presentation. Continuing on a dynamic solver that extend the network with time.
20171023
Sophie - Working on the dynamic solver to take grouping into account. Looking at how PETSc decides on the time step.
20171024
Sophie - Creating a poster for ICFRM. Working on the dynamic solver to have a changing grouping.
20171030
Sophie - Finishing the poster for ICFRM. Working on the dynamic solver to have a changing grouping.
20171031
Sophie - Working on the dynamic solver to have a changing grouping. Continuing to run bursting simulations.