Steve Petruzza scite author profile

Steve Petruzza

5Publications

23Citation Statements Received

84Citation Statements Given

How they've been cited

How they cite others

149

Affiliations

Utah State University, University of Utah

Publications

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A terminology for in situ visualization and analysis systems

Childs

Ahern

Ahrens

et al. 2020

The International Journal of High Performance Computing Applica

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The term “in situ processing” has evolved over the last decade to mean both a specific strategy for visualizing and analyzing data and an umbrella term for a processing paradigm. The resulting confusion makes it difficult for visualization and analysis scientists to communicate with each other and with their stakeholders. To address this problem, a group of over 50 experts convened with the goal of standardizing terminology. This paper summarizes their findings and proposes a new terminology for describing in situ systems. An important finding from this group was that in situ systems are best described via multiple, distinct axes: integration type, proximity, access, division of execution, operation controls, and output type. This paper discusses these axes, evaluates existing systems within the axes, and explores how currently used terms relate to the axes.

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Scalable Data Management of the Uintah Simulation Framework for Next-Generation Engineering Problems with Radiation

Kumar

Humphrey

Usher

et al. 2018

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The need to scale next-generation industrial engineering problems to the largest computational platforms presents unique challenges. This paper focuses on data management related problems faced by the Uintah simulation framework at a production scale of 260K processes. Uintah provides a highly scalable asynchronous many-task runtime system, which in this work is used for the modeling of a 1000 megawatt electric (MWe) ultra-supercritical (USC) coal boiler. At 260K processes, we faced both parallel I/O and visualization related challenges, e.g., the default file-per-process I/O approach of Uintah did not scale on Mira. In this paper we present a simple to implement, restructuring based parallel I/O technique. We impose a restructuring step that alters the distribution of data among processes. The goal is to distribute the dataset such that each process holds a larger chunk of data, which is then written to a file independently. This approach finds a middle ground between two of the most common parallel I/O schemes-file per process I/O and shared file I/O-in terms of both the total number of generated files, and the extent of communication involved during the data aggregation phase. To address scalability issues when visualizing the simulation data, we developed a lightweight renderer using OSPRay, which allows scientists to visualize the data interactively at high quality and make production movies. Finally, this work presents a highly efficient and scalable radiation model based on the sweeping method, which significantly outperforms previous approaches in Uintah, like discrete ordinates. The integrated approach allowed the USC boiler problem to run on 260K CPU cores on Mira.

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In-Staging Data Placement for Asynchronous Coupling of Task-Based Scientific Workflows

Sun¹,

Romanus²,

Jin³

et al. 2016

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Reducing Network Congestion and Synchronization Overhead During Aggregation of Hierarchical Data

Kumar

Hoang

Petruzza

et al. 2017

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Improving the Usability of Virtual Reality Neuron Tracing with Topological Elements

McDonald

Usher

Morrical

et al. 2021

IEEE Trans. Visual. Comput. Graphics

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Steve Petruzza

A terminology for in situ visualization and analysis systems

Scalable Data Management of the Uintah Simulation Framework for Next-Generation Engineering Problems with Radiation

In-Staging Data Placement for Asynchronous Coupling of Task-Based Scientific Workflows

Reducing Network Congestion and Synchronization Overhead During Aggregation of Hierarchical Data

Improving the Usability of Virtual Reality Neuron Tracing with Topological Elements

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