ClinicParticipation2022
From CSDMS
Revision as of 10:35, 17 February 2022 by WikiSysop (talk | contribs) (Created page with "{{Header_CSDMS_meeting_participant_list}} {{#ask:Category: CSDMS meeting 2022 participants | ?CSDMS_meeting_select_clinics1_2022 | ?CSDMS_meeting_select_clinics2_2022 | ?C...")
Name | Institute | City | State | Country |
---|---|---|---|---|
4) Xarray for Scalable Scientific Data Analysis, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
1) Modeling Water Movement and Reservoir Operations with mosartwmpy, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
1) Modeling Water Movement and Reservoir Operations with mosartwmpy, 3) The Art of Modeling ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
1) Modeling Water Movement and Reservoir Operations with mosartwmpy, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
[[2022_CSDMS_meeting-011|]], 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 5) Will not attend a clinic ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 3) The Art of Modeling ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
[[2022_CSDMS_meeting-030|]], 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | {{{5}}} | {{{6}}} | {{{7}}} | |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
1) Modeling Water Movement and Reservoir Operations with mosartwmpy, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 5) Will not attend a clinic ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
[[2022_CSDMS_meeting-039|]], 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
1) Modeling Water Movement and Reservoir Operations with mosartwmpy, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
1) Modeling Water Movement and Reservoir Operations with mosartwmpy, 5) Will not attend a clinic ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 3) The Art of Modeling ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
1) Modeling Water Movement and Reservoir Operations with mosartwmpy, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 1) Environmental seismology and distributed acoustic sensing (DAS) ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 1) Component Creation with Landlab | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 4) Teaching with Jupyter NoteBooks ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
1) Modeling Water Movement and Reservoir Operations with mosartwmpy, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
4) Xarray for Scalable Scientific Data Analysis, 3) The Art of Modeling ({{{8}}}) | 2) Rapid hypothesis testing and analysis with the open-source delta model pyDeltaRCM | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 3) The Art of Modeling ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
3) Introduction to Landlab, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 5) Will not attend a clinic | {{{5}}} | {{{6}}} | {{{7}}} |
5) Will not attend a clinic, 3) The Art of Modeling ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |
1) Modeling Water Movement and Reservoir Operations with mosartwmpy, 2) Variable resolution mesh based flow direction and hydrologic modeling: An introduction to HexWatershed ({{{8}}}) | 4) Publishing Reproducible Computational Research with the Whole Tale | {{{5}}} | {{{6}}} | {{{7}}} |