Add to ORKGVery large scale computations are now becoming routinely used as a methodology to undertake scientific research. In this context, ‘provenance systems’ are regarded as the equivalent of the scientist’s logbook for in silico experimentation: provenance captures the documentation of the process that led to some result. Using a protein compressibility analysis application, we derive a set of generic use cases for a provenance system. In order to support these, we address the following fundamental questions: what is provenance? how to record it? what is the performance impact for grid execution? what is the performance of reasoning? In doing so, we define a technology-independent notion of provenance that captures interactions between components...
Integrated provenance support promises to be a chief advantage of scientific workflow systems over s...
As scientific workflows, and the data they operate on, grow in size and complexity, the task of defi...
© 2018 Dr Farah Zaib KhanThe automation of computational analyses in data-intensive domains such as ...
The Oxford English Dictionary defines provenance as (i) the fact of coming from some particular sour...
International audienceRunning experiments on modern systems like supercomput-ers, cloud infrastructu...
Journal ArticleThe problem of systematically capturing and managing provenance for computational tas...
Current scientific applications are often structured as workflows and rely on workflow systems to co...
This article offers a briefing in one of the knowledge management issues of in silico experimentatio...
Scientists can facilitate data intensive applications to study and understand the behavior of a comp...
E-Science experiments typically involve many distributed services maintained by different organisati...
Scientific and business communities are adopting large scale distributed systems as a means to solve...
The Oxford English Dictionary defines provenance as (i) the fact of coming from some particular sour...
Abstract. In e-Science experiments, it is vital to record the experimental process for later use suc...
In e-Science experiments, it is vital to record the experimental process for later use such as in in...
In e-Science experiments, it is vital to record the experimental process for later use such as in in...
Integrated provenance support promises to be a chief advantage of scientific workflow systems over s...
As scientific workflows, and the data they operate on, grow in size and complexity, the task of defi...
© 2018 Dr Farah Zaib KhanThe automation of computational analyses in data-intensive domains such as ...
The Oxford English Dictionary defines provenance as (i) the fact of coming from some particular sour...
International audienceRunning experiments on modern systems like supercomput-ers, cloud infrastructu...
Journal ArticleThe problem of systematically capturing and managing provenance for computational tas...
Current scientific applications are often structured as workflows and rely on workflow systems to co...
This article offers a briefing in one of the knowledge management issues of in silico experimentatio...
Scientists can facilitate data intensive applications to study and understand the behavior of a comp...
E-Science experiments typically involve many distributed services maintained by different organisati...
Scientific and business communities are adopting large scale distributed systems as a means to solve...
The Oxford English Dictionary defines provenance as (i) the fact of coming from some particular sour...
Abstract. In e-Science experiments, it is vital to record the experimental process for later use suc...
In e-Science experiments, it is vital to record the experimental process for later use such as in in...
In e-Science experiments, it is vital to record the experimental process for later use such as in in...
Integrated provenance support promises to be a chief advantage of scientific workflow systems over s...
As scientific workflows, and the data they operate on, grow in size and complexity, the task of defi...
© 2018 Dr Farah Zaib KhanThe automation of computational analyses in data-intensive domains such as ...