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1. freud: A Software Suite for High Throughput Analysis of Particle Simulation Data

Author

Ramasubramani, Vyas, Dice, Bradley D., Harper, Eric S., Spellings, Matthew P., Anderson, Joshua A., and Glotzer, Sharon C.

Subjects
Physics - Computational Physics, Condensed Matter - Materials Science, Computer Science - Computational Engineering, Finance, and Science
Abstract

The freud Python package is a powerful library for analyzing simulation data. Written with modern simulation and data analysis workflows in mind, freud provides a Python interface to fast, parallelized C++ routines that run efficiently on laptops, workstations, and supercomputing clusters. The package provides the core tools for finding particle neighbors in periodic systems, and offers a uniform API to a wide variety of methods implemented using these tools. As such, freud users can access standard methods such as the radial distribution function as well as newer, more specialized methods such as the potential of mean force and torque and local crystal environment analysis with equal ease. While many comparable tools place a heavy emphasis on reading and operating on trajectory file formats, freud instead accepts numerical arrays of data directly as inputs. By remaining agnostic to its data source, freud is suitable for analyzing any coarse-grained particle simulation, regardless of the original data representation or simulation method. When used for on-the-fly analysis in conjunction with scriptable simulation software such as HOOMD-blue, freud enables smart simulations that adapt to the current state of the system, allowing users to study phenomena such as nucleation and growth., Comment: This paper is accepted for publication in Computer Physics Communications. For the source code on Github, see https://github.com/glotzerlab/freud . For the documentation on ReadTheDocs, see https://freud.readthedocs.io/en/stable

Published
2019
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4. Reproducible Computational Scientific Workflows with signac (Dice et al.).pdf

Author

Dice, Bradley, Adorf, Carl Simon, and Vyas Ramasubramani

Abstract

Researchers in computational science are regularly posed with the challenge of managing and analyzing large, heterogeneous, and highly dynamic data spaces. We present signac, an open-source Python framework that enables researchers to efficiently operate on primarily file-based data spaces while keeping track of all relevant metadata. The signac framework provides all components required to create a well-defined, collectively accessible data space and to implement reproducible workflows. The software is designed to be highly modular, decoupling its data and workflow management components so as to minimize the effort required for integration into existing workflows. The serverless data management and lightweight workflow model ensure that workflows are just as easily executed on laptops as in high-performance computing environments. Using signac not only increases research efficiency, it also improves reproducibility and lowers barriers for data sharing by transparently enabling the robust tracking, selection, and searching of data by its metadata.

Published
2019
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5. Automated Grid Monitoring for the LHCb Experiment Through HammerCloud

Author

Dice, Bradley

Subjects
Information Transfer and Management
Abstract

The HammerCloud system is used by CERN IT to monitor the status of the Worldwide LHC Computing Grid (WLCG). HammerCloud automatically submits jobs to WLCG computing resources, closely replicating the workflow of Grid users (e.g. physicists analyzing data). This allows computation nodes and storage resources to be monitored, software to be tested (somewhat like continuous integration), and new sites to be stress tested with a heavy job load before commissioning. The HammerCloud system has been in use for ATLAS and CMS experiments for about five years. This summer's work involved porting the HammerCloud suite of tools to the LHCb experiment. The HammerCloud software runs functional tests and provides data visualizations. HammerCloud's LHCb variant is written in Python, using the Django web framework and Ganga/DIRAC for job management.

Published
2015

6. Reconstruction by fluorescence imaging of the spatio-temporal evolution of the viscosity field in Hele-Shaw flows

Author

Bunton, Patrick, Dice, Bradley, Pojman, J., De Wit, Anne, Brau, Fabian, Bunton, Patrick, Dice, Bradley, Pojman, J., De Wit, Anne, and Brau, Fabian

Abstract

We study the spatio-temporal evolution of the viscosity field during stable and unstable radial flows of glycerol-water solutions in a horizontal Hele-Shaw cell where a localized temperature gradient is imposed. The viscosity field is reconstructed from themeasurement of the fluorescence emitted by a viscosity-sensitive molecular probe (Auramine O). For an immiscible flow, the viscosity and temperature fields are obtained accurately. For miscible displacements, we show how the interplay between the viscosity changes of both fluids and the variation of the fluid thickness in the gap prevents obtaining strict quantitative reconstruction of the viscosity field. We explain how the reconstructed viscosity field can nevertheless be interpreted to obtain information about the fluid thickness and the local viscosity and temperature., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2014

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