CS780-3 Lecture Notes - PowerPoint PPT Presentation

1 / 33
About This Presentation
Title:

CS780-3 Lecture Notes

Description:

CS780-3 Lecture Notes In Courtesy of Mengjun Xie – PowerPoint PPT presentation

Number of Views:135
Avg rating:3.0/5.0
Slides: 34
Provided by: ohi101
Category:

less

Transcript and Presenter's Notes

Title: CS780-3 Lecture Notes


1
  • CS780-3 Lecture Notes
  • In Courtesy of Mengjun Xie

2
About
  • NEESgrid will link earthquake researchers across
    the U.S. with leading-edge computing resources
    and research equipment, allowing collaborative
    teams (including remote participants) to plan,
    perform, and publish their experiments.
  • NEESgrid, the systems integration component of
    the NEES project, uses the newest and fastest
    communications technologies to tie the NEES
    network together.

3
NEES Resources
Remote Users
Instrumented Structures and Sites
(Faculty, Students, Practitioners)
Simulation Tools Repository
Laboratory Equipment
Field Equipment
Curated Data Repository
Leading Edge Computation
Global Connections (FY 2005 FY 2014)
Remote Users (K-12 Faculty and Students)
Laboratory Equipment
4
NEES
  • Network for Earthquake Engineering Simulation
  • NEES is a distributed array of experimental
    sites, grid-based data repositories, tool
    archives, and computational resources, all
    seamlessly linked (hopefully!)
  • NEES has four components
  • The consortium, which will run NEES after 2004
  • The consortium development (CD) builds the
    consortium
  • The experimental sites, which provide data and
    content
  • The systems integration (SI) effort, termed
    NEESgrid
  • Network drivers include telepresence, curated
    repositories, scalable HPC, experimental-numerical
    coupling, short- and long-term QoS issues.

5
NEES Network Stakeholders
  • Experimental Facilities
  • Shake tables, centrifuges, wave tanks, field
    sites
  • Resource providers
  • Computers, software, storage, networks
  • End users
  • Researchers, practicing engineers, students,
  • Operational facilities
  • NCSA/NEESgrid ? NEES Consortium in 2004

6
NEESgrid?
  • A coordinated and secure architecture/environment
  • A modular and extensible environment with a
    customizable user interface
  • Provides common tools that allow leveraging
    resources and experiences
  • Goal the Cyber Infrastructure that will
    facilitate this next generation of
    experimentation/simulation in earthquake
    engineering

A Distributed Virtual Laboratory for Advanced
Earthquake Experimentation and Simulation.
-- B. F. Spencer, Jr.
(PI Project Director)
7
NEESgrid?
  • Through the NEESgrid, researchers can
  • perform tele-observation and tele-operation of
    experiments
  • publish to and make use of a curated data
    repository using standardized markup
  • access computational resources and open-source
    analytical tools
  • access collaborative tools for experiment
    planning, execution, analysis, and publication.

8
Telepresence
  • Telepresence means the capability to participate
    remotely in experimental trials. There are two
    main categories
  • Tele-observation the ability to observe the
    experiment and capture trial data from a remote
    site
  • Tele-operation the ability to interact with the
    experiment equipment from a remote site.

9
Collaboration and Visualization
  • The tasks of Collaboration and Visualization
    project include
  • prototype a Grid-based collaborative environment
  • integrate support for visualization tools into
    the collaborative environment
  • adapt the Comprehensive Collaborative Framework
    (CHEF) for collaborative visualization
    applications and services and
  • produce appropriate final documentation of the
    collaboration and visualization components of
    NEESgrid.
  • CHEF is a flexible web-based environment for
    remote collaboration.

10
Main Components
  • Tele-Control Services and APIs
  • Tele-Observation and Data Visualization
  • E-Notebook
  • Streaming data services
  • DAQ and related services
  • Data and Metadata Services
  • Remote Collaboration and Visualization tools and
    services
  • Core Grid Services, deployment efforts, packaging
  • Simulation Component

11
Progress
  • The task of designing and creating this
    infrastructure has been awarded to the NCSA at
    UIUC.
  • The components of the NEESgrid system will be
    completed by September, 2004, when management and
    operation of the NEES system will be turned over
    to a consortium of earthquake engineer
    researchers and practitioners.

12
Partner
Randy Butler Deployment, Operations,
and SupportMark Marikos
ManagementJoe Futrelle Data and Metadata
National Center for Supercomputing Applications
University of Illinois at Urbana-Champaign
Bill Spencer ManagementDan Abrams Community
Building
Argonne National Laboratory
Nestor J. Zaluzec TelepresenceIan Foster
System Configuration
Information Sciences Institute
Carl Kesselman System Configuration
University of Southern California
Jean-Pierre Bardet Integrated
Demonstrations
School of Information, University of Michigan
Joseph Hardin CollaborationTom Finholt User
Requirements
13
System Architecture
14
System Architecture
15
System Architecture
16
System Architecture
17
System Architecture
18
System Architecture
19
System Architecture
20
Pre-Experiment Collaboration
  • The remote user (RU) logs into the equipment
    site's NEESpop. After authentication, RU can
    access all granted NEESgrid resources through
    SSN.
  • RU can, via CHEF, read and participate in
    discussions related to the equipment site, see a
    calendar, share documents, make announcements,
    and correspond with other researchers to plan an
    experiment.
  • Through NEESpop, RU can also access and edit
    electronic lab notebooks hosted on the TPM.

21
Monitoring Network Status
  • RU contacts CHEF and requests a summary of the
    system's health and status.
  • The CHEF server contacts a central NCSA server
    that monitors NEESgrid.
  • Standard grid services (GIIS at NCSA, GRIS for
    other services) are continually collecting
    information on system connectivity and the
    availability of grid services such as GridFTP.
  • The grid information is summarized and sent to
    RU's browser.

22
Setting Up the Experiment
  • Using a CHEF teamlet, the equipment specialist at
    the equipment site enters the metadata describing
    the configuration of the experimental setup.
  • The metadata repository on the NEESpop holds this
    configuration information, making it available
    for browsing by RUs.
  • The NEESpop metadata repository also sends
    configuration information to the DAQ system(s).

23
Subscribing to Trial Data Streams
  • RU contacts CHEF to browse available NEESgrid
    resources and discover what data will be
    available for streaming.
  • A CHEF teamlet uses GIIS and GRIS to query and
    report features and availability of NEESgrid
    resources, as well as details of NEES equipment
    and available data streams.
  • RU contacts the NEESpop and requests a
    subscription to several data streams.
  • The NEESpop negotiates with the NSDS to broadcast
    the selected data streams.

24
Streaming Near-Real-Time Data
  • Instrument information is sent in real time from
    the DAQ system through a NSDS daemon to the NSDS.
  • Data is streamed by NSDS to the RU. An applet in
    the RU's browser displays the results.
  • Video services are managed through the TPM server
    and streamed to the RU via a separate video
    streaming server.

25
Ending the Trial
  • The DAQ equipment moves the trial data to a data
    repository hosted on the NEESpop.
  • The data is associated with appropriate metadata
    information, such as experiment ID, channel ID,
    and sensor type.

26
Analyzing the Trial Data
  • The trial data can now be browsed via CHEF.
  • The trial data and metadata can be downloaded to
    the RU via GridFTP service.
  • The RU can then use either standard software,
    such as MatLAB, or their own customized software
    to analyze the trial data.

27
Login Authentication
28
Chat
CHEF Environment
29
E-Notebook
CHEF Environment
30
Data Viewer
CHEF Environment
31
NTCP Data
CHEF Environment
32
NEESgrid Central Repository
CHEF Environment
33
Summary
  • Characterizations of NEES project
  • A very specific application
  • A wide range of resource sharing
  • Raw data, experimental results, equipment,
    computation/software tools
  • Centralized controls, monitoring, and management.
  • Does this follow the three principles of Grid?
  • Not really it is subject to central control, not
    open source software based.
  • But it is a successful model of grid
    applications.
  • A Global and general grid is an ideal model, and
    may become realistic after many successful NEES
    projects.
Write a Comment
User Comments (0)
About PowerShow.com