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Designing for Palpability in e-Research

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Palpable Computing. ubiquitous/ambient computing. complemented with palpable computing: invisibility - visibility. construction - de-construction ... – PowerPoint PPT presentation

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Title: Designing for Palpability in e-Research


1
Designing for Palpability in e-Research
  • Alexander Voss
  • alex.voss_at_ncess.ac.uk
  • National Centre for e-Social Science and
    e-Science Institute
  • With Rob Procter, Mark Hartswood, Mark
    Rouncefield and Roger Slack

2
The Grid Vision of Seamlessness
  • a hardware and software infrastructure that
    provides dependable, consistent, pervasive, and
    inexpensive access to high-end computational
    capabilities.
  • (Ian Foster and Carl Kesselman)
  • Like the power grid, the Grid makes services
    available through common interfaces without the
    user having to worry about the details of how
    these services are provided.

3
Grid Resources as Commodies?
  • There are various reasons why the notion of
    access to Grid resources as undifferentiated
    commodities is problematic
  • Resources come in any number of types and are
    provided by multiple, independent resource
    providers
  • There is a lack of common (technical and
    organisational) standards for the management of
    access to these heterogeneous resources
  • Software licensing issues often hinder the use of
    compute resources on a large scale
  • Users of datasets in particular need to
    understand what their quality attributes are, how
    they may be used and how data may or may not
    change over time

4
Scientific Workflows
  • Scientific workflow systems such as Taverna or
    Kepler allow scientists to define orchestrations
    of services providing access to resources on the
    Grid.
  • Workflows are an important instrument not only
    for automation but also for elaborating and
    documenting the research process.
  • Direct manipulation or form based input make this
    functionality available to researchers who need
    not acquire programming skills.
  • Complex social relations are forming around the
    development and (re-) use of workflows in groups
    and communities.

5
Workflows are Potentially Fragile Artefacts
6
Scientific Workflows
  • Workflows are complex composite processes that
    are long-running and subject to possible failure.
  • There is, therefore, a need for people to be able
    to reason about their properties, to investigate
  • State and runtime behaviour
  • Interaction with services
  • Correctness
  • Failure modes and recovery
  • Provenance of data produced
  • This kind of work is required prior to, during
    and after the execution of a workflow.

7
Adding Collaboration to the Picture
  • Of course, if we are not merely talking about
    technical assemblages, things get more
    complicated.
  • Awareness What are people up to?
  • How can we provide resources for people to
    account for the activities of others as well as
    for whats going on in technical systems?
  • Provenance as well as practical questions
  • Adding issues of privacy and confidentiality
  • We may want to know what data is used by whom and
    for what purpose

8
Palpable Computing
  • ubiquitous/ambient computing complemented with
    palpable computing
  • invisibility - visibility
  • construction - de-construction
  • scalability - understandability
  • heterogeneity - coherence
  • change - stability
  • automation - user control and deference
  • Büscher et al. Bottom-up, top-down? Connecting
    software architecture design with use. Available
    at http//www.ist-palcom.org

9
Conclusions
  • Palpability is a potentially powerful concept for
    the design of e-Research technologies and
    infrastructures
  • There is a tension between the vision of seamless
    operation of the Grid, various technical and
    organisation issues and the need to reason about,
    manage and document the provenance of research
    outputs
  • e-Research poses significant challenges (a
    non-exhaustive list)
  • Lack of control over services
  • Different, potentially conflicting policies
  • Potentially vast scale
  • Long-running, costly operations
  • Need to predict, steer and document computational
    behaviour
  • Work in wider collaborative contexts spanning
    various boundaries
  • What additional challenges would pervasive
    e-Research pose?
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