Large-scale simulations are increasingly being used to study complex scientific and engineering phenomena. As a result, advanced visualization and data analysis are also becoming an integral part of the scientific process. Often, a key step in extracting insight from these large simulations involves the definition, extraction, and evaluation of features in the space and time coordinates of the solution. However, in many applications, these features involve a range of parameters and decisions that will affect the quality and direction of the analysis. Examples include particular level sets of a specific scalar field, or local inequalities between derived quantities. A critical step in the analysis is to understand how these arbitrary paramet...
Abstract. Knowledge extraction from data volumes of ever increasing size requires ever more flexible...
Abstract—Simulations that require massive amounts of computing power and generate tens of terabytes ...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
Large-scale simulations are increasingly being used to study complex scientific and engineering phen...
This manuscript presents a topology-based analysis and visualization framework that enables the effe...
thesisThe ever-increasing amounts of data generated by scientific simulations, coupled with system I...
Abstract—The ever increasing amount of data generated by scientific simulations coupled with system ...
We present a new framework for feature-based statistical analysis of large-scale scientific data and...
Defining high-level features, detecting them, tracking them and deriving quantities based on them is...
This paper presents topology-based methods to robustly extract, analyze, and track features defined ...
Exploring and analyzing the temporal evolution of features in large-scale time-varying datasets is a...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
Scientific visualization aims at helping users (i) abstract, (ii) interact with and (iii) analyze si...
Large-scale simulation datasets can be modeled as high-dimensional scalar functions defined over a d...
Fully turbulent flow fields are populated with features such as vortices or eddies. Analysing flow f...
Abstract. Knowledge extraction from data volumes of ever increasing size requires ever more flexible...
Abstract—Simulations that require massive amounts of computing power and generate tens of terabytes ...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
Large-scale simulations are increasingly being used to study complex scientific and engineering phen...
This manuscript presents a topology-based analysis and visualization framework that enables the effe...
thesisThe ever-increasing amounts of data generated by scientific simulations, coupled with system I...
Abstract—The ever increasing amount of data generated by scientific simulations coupled with system ...
We present a new framework for feature-based statistical analysis of large-scale scientific data and...
Defining high-level features, detecting them, tracking them and deriving quantities based on them is...
This paper presents topology-based methods to robustly extract, analyze, and track features defined ...
Exploring and analyzing the temporal evolution of features in large-scale time-varying datasets is a...
Abstract—With the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...
Scientific visualization aims at helping users (i) abstract, (ii) interact with and (iii) analyze si...
Large-scale simulation datasets can be modeled as high-dimensional scalar functions defined over a d...
Fully turbulent flow fields are populated with features such as vortices or eddies. Analysing flow f...
Abstract. Knowledge extraction from data volumes of ever increasing size requires ever more flexible...
Abstract—Simulations that require massive amounts of computing power and generate tens of terabytes ...
pre-printWith the onset of extreme-scale computing, I/O constraints make it increasingly difficult f...