GridIJ - A Dynamic Grid Service Architecture for Scientific Image Processing

Frank, A.; Stotzka, Rainer; Jejkal, Thomas; Hartmann, Volker; Sutter, Michael; Gemmeke, H.

doi:10.1109/euromicro.2007.32

Cited by 3 publications

(4 citation statements)

References 7 publications

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“…SS is diverse in scope and size: it could mean a single software library, a plugin, or a fully-fledged software. It could be built from scratch or as a module for third-party solutions (Frank et al 2007).…”

Section: How Is Scientific Software Developed and Used?mentioning

confidence: 99%

“…SS can be developed for desktop computers, workstations (Hannay et al 2009), and portable devices (Hughes et al 2004;Clark 2014). Sometimes, SS demands High Performance Computing (HPC) achieved through resources such as supercomputers (Hatton and Roberts 1994;Hannay et al 2009), mainframes (Chen and Fu 1996), clusters (Cohen et al 2013), grids (Choi et al 2006;Frank et al 2007), and cloud services (Hou et al 2010;Church et al 2012;Mendez, Villamiazr, and Castro 2013). HPC resources can be structurally complex (Kovalchuk et al 2012), and are usually accessed through gateways via desktop or web tools (Ernst et al 2003;Kolberg, Courivaud, and Özbek 2007;Gomes et al 2015).…”

Section: How Is Scientific Software Developed and Used?mentioning

confidence: 99%

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The Lens of the Lab: Design Challenges in Scientific Software

Queiroz¹,

Spitz²

2016

The International Journal of Design Management and Professional

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Playful and gameful design could improve the quality of scientific software. However, literature about gamification methods for that particular type of software is presently scarce. As an effort to fill that gap, this paper introduces a set of design challenges and opportunities that should be informative to professionals approaching the area. This research is based on literature review on scientific software development, also contemplating material on the gamification of science, software, and work. From the gathered information, we identify, map, and discuss key aspects of development and use of professional scientific software. Those findings are, then, formatted as a Design Lens-a set of questions designers should ask themselves to gain insight, from a particular perspective, on their work. We prop ose the Lens of the Lab as a design lens to support designers working in collaboration with scientists and software engineers in professional scientific software initiatives.

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Section: How Is Scientific Software Developed and Used?mentioning

confidence: 99%

Section: How Is Scientific Software Developed and Used?mentioning

confidence: 99%

The Lens of the Lab: Design Challenges in Scientific Software

Queiroz¹,

Spitz²

2016

The International Journal of Design Management and Professional

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“…PCs (schraefel et al, 2004) e smartphones (Clark, 2014). Em alguns casos, no entanto, o software pode exigir Computação de Alta Performance (ou HPC, do inglês, High Performance Computing), obtida através de recursos como supercomputadores (Hatton & Roberts, 1994;Hannay et al, 2009), mainframes (Chen e Fu, 1996), clusters (Cohen et al, 2013), grids (Choi et al, 2006;Frank et al, 2007) e, mais recentemente, serviços de computação em nuvem (Hou et al, 2010;Church et al, 2012;Mendez et al, 2013). Recursos de HPC podem ser estruturalmente complexos (Kovalchuk et al, 2012), sendo normalmente acessados pelos usuários através de computadores desktop ou ferramentas web (Ernst et al, 2003;Kolberg et al, 2007;Gomes et al, 2015).…”

Section: Plataformas De Uso E Linguagens De Programaçãounclassified

“…Além disso, ele pode ser usado para controle de equipamento de pesquisa em campo (Mielke et al, 2005) ou equipamentos laboratoriais distribuídos geograficamente (Gertz et al, 1994). Cabe ressaltar a grande diversidade, em tamanho e escopo, daquilo que pode ser considerado software científico: dependendo do contexto, o termo pode descrever um aplicativo completo, um plug-in ou um único arquivo de biblioteca, podendo PUC-Rio -Certificação Digital Nº 1512175/CA ser desenvolvido a partir do zero ou como um módulo para soluções desenvolvidas por terceiros (Frank et al, 2007). Finalmente, além de sua importância para aqueles que, de fato, o utilizam, cabe ressaltar que a vasta maioria das pessoas se beneficia dos avanços resultantes deste tipo de software (Kelly & Skordaki, 2015).…”

Section: Introdução Ao Software Científicounclassified

A Ciência Como Jogo: Abordagens Lúdicas Ao Design De Interfaces Para Software Científico

QUEIROZ¹

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Analysis of Doppler Embolic Signals

Leiria

Moura

Advances in Medical Technologies and Clinical Practice

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A broad view on the analysis of Doppler embolic signals is presented, uniting physics, engineering and computing, and clinical aspects. The overview of the field discusses the physiological significance of emboli and Doppler ultrasound with particular attention given to Transcranial Doppler; an outline of high-performance computing is presented, disambiguating the terminology and concepts used thereafter. The presentation of the major diagnostic approaches to Doppler embolic signals focuses on the most significant methods and techniques used to detect and classify embolic events including the clinical relevancy. Coverage of estimators such as time-frequency, time-scale, and displacement-frequency is included. The discussion of current approaches targets areas of identified need for improvement. A brief historical perspective of high-performance computing of Doppler blood flow signals and particularly Doppler embolic signals is accompanied by the reasoning behind the technological trends and approaches. The final remarks include, as a conclusion, a summary of the contribution and as future trends, some pathways hinting to where new developments might be expected.

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GridIJ - A Dynamic Grid Service Architecture for Scientific Image Processing

Cited by 3 publications

References 7 publications

The Lens of the Lab: Design Challenges in Scientific Software

The Lens of the Lab: Design Challenges in Scientific Software

A Ciência Como Jogo: Abordagens Lúdicas Ao Design De Interfaces Para Software Científico

Analysis of Doppler Embolic Signals

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