2017
Patchett, John; Nouanesengsy, Boonthanome; Ahrens, James; Lang, Michael; Rogers, David; Green, Jennifer; Samsel, Francesca; Cone, Giovanni; Hagen, Hans
Delivery of In Situ Capability to End Users Proceedings Article
In: 2017, (USDOE National Nuclear Security Administration (NNSA), LA-UR-17-26655).
Abstract | Links | BibTeX | Tags: In Situ Visualization Analysis; ParaView
@inproceedings{info:lanl-repo/lareport/LA-UR-17-26655,
title = {Delivery of In Situ Capability to End Users},
author = {John Patchett and Boonthanome Nouanesengsy and James Ahrens and Michael Lang and David Rogers and Jennifer Green and Francesca Samsel and Giovanni Cone and Hans Hagen},
url = {http://datascience.dsscale.org/wp-content/uploads/2017/08/LA-UR-17-26655.pdf},
year = {2017},
date = {2017-08-01},
abstract = {Delivery of new technologies to deeply rooted end user workflows can be difficult. We describe a delivery process of a generalized in situ data analysis and visualization capability to both end users and simulation code developers. The process was driven and funded by management which helped ensure success. End users were chosen to exemplify the capability. Delivery is defined to include full integration into the simulation. This includes the simulation’s regular build and testing systems, in addition to institutional support in the supercomputing environments. This paper describes a robust and successful delivery of the in situ capability to our end users.},
note = {USDOE National Nuclear Security Administration (NNSA), LA-UR-17-26655},
keywords = {In Situ Visualization Analysis; ParaView},
pubstate = {published},
tppubtype = {inproceedings}
}
Delivery of new technologies to deeply rooted end user workflows can be difficult. We describe a delivery process of a generalized in situ data analysis and visualization capability to both end users and simulation code developers. The process was driven and funded by management which helped ensure success. End users were chosen to exemplify the capability. Delivery is defined to include full integration into the simulation. This includes the simulation’s regular build and testing systems, in addition to institutional support in the supercomputing environments. This paper describes a robust and successful delivery of the in situ capability to our end users.
: . .
1.
Patchett, John; Nouanesengsy, Boonthanome; Ahrens, James; Lang, Michael; Rogers, David; Green, Jennifer; Samsel, Francesca; Cone, Giovanni; Hagen, Hans
Delivery of In Situ Capability to End Users Proceedings Article
In: 2017, (USDOE National Nuclear Security Administration (NNSA), LA-UR-17-26655).
@inproceedings{info:lanl-repo/lareport/LA-UR-17-26655,
title = {Delivery of In Situ Capability to End Users},
author = {John Patchett and Boonthanome Nouanesengsy and James Ahrens and Michael Lang and David Rogers and Jennifer Green and Francesca Samsel and Giovanni Cone and Hans Hagen},
url = {http://datascience.dsscale.org/wp-content/uploads/2017/08/LA-UR-17-26655.pdf},
year = {2017},
date = {2017-08-01},
abstract = {Delivery of new technologies to deeply rooted end user workflows can be difficult. We describe a delivery process of a generalized in situ data analysis and visualization capability to both end users and simulation code developers. The process was driven and funded by management which helped ensure success. End users were chosen to exemplify the capability. Delivery is defined to include full integration into the simulation. This includes the simulation’s regular build and testing systems, in addition to institutional support in the supercomputing environments. This paper describes a robust and successful delivery of the in situ capability to our end users.},
note = {USDOE National Nuclear Security Administration (NNSA), LA-UR-17-26655},
keywords = {},
pubstate = {published},
tppubtype = {inproceedings}
}
Delivery of new technologies to deeply rooted end user workflows can be difficult. We describe a delivery process of a generalized in situ data analysis and visualization capability to both end users and simulation code developers. The process was driven and funded by management which helped ensure success. End users were chosen to exemplify the capability. Delivery is defined to include full integration into the simulation. This includes the simulation’s regular build and testing systems, in addition to institutional support in the supercomputing environments. This paper describes a robust and successful delivery of the in situ capability to our end users.