18:15:32Service Oriented Cyberinfrastructure Lab, Grid Deployments Saul Rioja Link to presentation on wiki.

Slides:

Advertisements

Similar presentations

LEAD Portal: a TeraGrid Gateway and Application Service Architecture Marcus Christie and Suresh Marru Indiana University LEAD Project (

Advertisements

As computer network experiments increase in complexity and size, it becomes increasingly difficult to fully understand the circumstances under which a.

Education and Outreach Within the Modeling Environment for Atmospheric Discovery (MEAD) Project Daniel J. Bramer University Of Illinois at Urbana-Champaign.

1 Cyberinfrastructure Framework for 21st Century Science & Engineering (CF21) IRNC Kick-Off Workshop July 13,

Is All of this Just WISTful Thinking? Presented by Richard A. Wagoner National Center for Atmospheric Research OFCM 2 nd WIST Symposium December 4 – 6,

1 Software & Grid Middleware for Tier 2 Centers Rob Gardner Indiana University DOE/NSF Review of U.S. ATLAS and CMS Computing Projects Brookhaven National.

NCAR GIS Program : Bridging Gaps

Robust Tools for Archiving and Preserving Digital Data Joseph JaJa, Mike Smorul, and Mike McGann Institute for Advanced Computer Studies Department of.

SURA Coastal Ocean Observing and Prediction (SCOOP) Program Philip Bogden CEO, GoMOOS Director, SCOOP Program at SURA Southeastern Universities Research.

Linked Environments for Atmospheric Discovery (LEAD): Web Services for Meteorological Research and Education.

V. Chandrasekar (CSU), Mike Daniels (NCAR), Sara Graves (UAH), Branko Kerkez (Michigan), Frank Vernon (USCD) Integrating Real-time Data into the EarthCube.

NOS Objectives, YR 4&5 Tony Rimovsky. 4.2 Expanding Secure TeraGrid Access A TeraGrid identity management infrastructure that interoperates with campus.

Focus Study: Mining on the Grid with ADaM Sara Graves Sandra Redman Information Technology and Systems Center and Information Technology Research Center.

Grid Computing for Real World Applications Suresh Marru Indiana University 5th October 2005 OSCER OU.

Promising data analytics technologies Tiffany Mathews.

PolarGrid Geoffrey Fox (PI) Indiana University Associate Dean for Graduate Studies and Research, School of Informatics and Computing, Indiana University.

Department of Biomedical Informatics Service Oriented Bioscience Cluster at OSC Umit V. Catalyurek Associate Professor Dept. of Biomedical Informatics.

Metadata for the Coupled Ocean/Atmosphere Mesoscale Prediction System (COAMPS) using the Earth System Modeling Framework (ESMF) Peter Bosler University.

University of Alabama in Huntsville NMI Testing and Experiences Sandra Redman Information Technology and Systems Center and Information Technology Research.

OpenQuake Infomall ACES Meeting Maui May Geoffrey Fox

SAN DIEGO SUPERCOMPUTER CENTER NUCRI Advisory Board Meeting November 9, 2006 Science Gateways on the TeraGrid Nancy Wilkins-Diehr TeraGrid Area Director.

Using the Open Metadata Registry (openMDR) to create Data Sharing Interfaces October 14 th, 2010 David Ervin & Rakesh Dhaval, Center for IT Innovations.

CaBench-to-Bedside (caB2B) A caGrid TM client to facilitate translational research Key Stakeholders Involved: Developer Washington University Persistent.

Ohio State University Department of Computer Science and Engineering 1 Cyberinfrastructure for Coastal Forecasting and Change Analysis Gagan Agrawal Hakan.

IPlant Collaborative Tools and Services Workshop iPlant Collaborative Tools and Services Workshop Collaborating with iPlant.

Grids for Chemical Informatics Randall Bramley, Geoffrey Fox, Dennis Gannon, Beth Plale Computer Science, Informatics, Physics Pervasive Technology Laboratories.

Markus Dolensky, ESO Technical Lead The AVO Project Overview & Context ASTRO-WISE ((G)A)VO Meeting, Groningen, 06-May-2004 A number of slides are based.

L inked E nvironments for A tmospheric D iscovery leadproject.org Using the LEAD Portal for Customized Weather Forecasts on the TeraGrid Keith Brewster.

IPlant cyberifrastructure to support ecological modeling Presented at the Species Distribution Modeling Group at the American Museum of Natural History.

IPlant Collaborative Tools and Services Workshop iPlant Collaborative Tools and Services Workshop Collaborating with iPlant.

Middleware Support for Virtual Organizations Internet 2 Fall 2006 Member Meeting Chicago, Illinois Stephen Langella Department of.

The Future of the iPlant Cyberinfrastructure: Coming Attractions.

TESTBED FOR FUTURE INTERNET SERVICES TEFIS at the EU-Canada Future Internet Workshop, March Annika Sällström – Botnia Living Lab at Centre for.

Linking Research Data to Clinical Data – a Pilot The University of Alabama at Birmingham.

Kelvin K. Droegemeier and Yunheng Wang Center for Analysis and Prediction of Storms and School of Meteorology University of Oklahoma 19 th Conference on.

National Center for Supercomputing Applications Barbara S. Minsker, Ph.D. Associate Professor National Center for Supercomputing Applications and Department.

Update on NASA’s Sensor Web Experiments Using Simulated Doppler Wind Lidar Data S. Wood, D. Emmitt, S. Greco Simpson Weather Associates, Inc. Working Group.

Renaissance Computing Institute: An Overview Lavanya Ramakrishnan, John McGee, Alan Blatecky, Daniel A. Reed Renaissance Computing Institute.

Policy Based Data Management Data-Intensive Computing Distributed Collections Grid-Enabled Storage iRODS Reagan W. Moore 1.

NA-MIC National Alliance for Medical Image Computing UCSD: Engineering Core 2 Portal and Grid Infrastructure.

Sponsored by the National Science Foundation A New Approach for Using Web Services, Grids and Virtual Organizations in Mesoscale Meteorology.

Cyberinfrastructure What is it? Russ Hobby Internet2 Joint Techs, 18 July 2007.

GRID Overview Internet2 Member Meeting Spring 2003 Sandra Redman Information Technology and Systems Center and Information Technology Research Center National.

NEES Cyberinfrastructure Center at the San Diego Supercomputer Center, UCSD George E. Brown, Jr. Network for Earthquake Engineering Simulation Enabling.

Breakout # 1 – Data Collecting and Making It Available Data definition “ Any information that [environmental] researchers need to accomplish their tasks”

November Geoffrey Fox Community Grids Lab Indiana University Net-Centric Sensor Grids.

Center for Computational Visualization University of Texas, Austin Visualization and Graphics Research Group University of California, Davis Molecular.

Indiana University School of Informatics The LEAD Gateway Dennis Gannon, Beth Plale, Suresh Marru, Marcus Christie School of Informatics Indiana University.

Cyberinfrastructure Overview Russ Hobby, Internet2 ECSU CI Days 4 January 2008.

Cyberinfrastructure: Many Things to Many People Russ Hobby Program Manager Internet2.

GEOGRAPHY 120: EARTH SYSTEM II. Atmospheric Sciences at a Glance.

Vision of an Integrated Global Observing System Gregory W. Withee Assistant Administrator for Satellite and Information Services National Oceanic and Atmospheric.

Big Data to Knowledge Panel SKG 2014 Institute of Computing Technology, Chinese Academy of Sciences, Beijing, China August Geoffrey Fox

→ MIPRO Conference,Opatija, 31 May -3 June 2005 Grid-based Virtual Organization for Flood Prediction Miroslav Dobrucký Institute of Informatics, SAS Slovakia,

OGCE Workflow and LEAD Overview Suresh Marru, Marlon Pierce September 2009.

High Risk 1. Ensure productive use of GRID computing through participation of biologists to shape the development of the GRID. 2. Develop user-friendly.

LEAD Project Discussion Presented by: Emma Buneci for CPS 296.2: Self-Managing Systems Source for many slides: Kelvin Droegemeier, Year 2 site visit presentation.

All Hands Meeting 2005 BIRN-CC: Building, Maintaining and Maturing a National Information Infrastructure to Enable and Advance Biomedical Research.

Northwest Indiana Computational Grid Preston Smith Rosen Center for Advanced Computing Purdue University - West Lafayette West Lafayette Calumet.

1 Open Science Grid: Project Statement & Vision Transform compute and data intensive science through a cross- domain self-managed national distributed.

Antarctica Steve Colwell British Antarctic Survey.

INTRODUCTION TO XSEDE. INTRODUCTION  Extreme Science and Engineering Discovery Environment (XSEDE)  “most advanced, powerful, and robust collection.

DWL Operations within a Sensor Web Modeling and Data Assimilation System:Recent Results M. Seabloom, S. Talabac, G. McConaughy, J. Ardizzone, G. Brin,

Landsat Remote Sensing Workflow

RDA US Science workshop Arlington VA, Aug 2014 Cees de Laat with many slides from Ed Seidel/Rob Pennington.

Tools and Services Workshop

Joslynn Lee – Data Science Educator

Linked Environments for Atmospheric Discovery (LEAD): An Overview

CICC Combines Grid Computing with Chemical Informatics

OGCE Portal Applications for Grid Computing

Presentation transcript:

18:15:32Service Oriented Cyberinfrastructure Lab, Grid Deployments Saul Rioja Link to presentation on wiki

18:15:32Service Oriented Cyberinfrastructure Lab, The world’s grid Biologists are using grids to simulate thousands of molecular drug candidates on their computer. Earth scientists are using grids to track ozone levels using satellites. High energy physicists are using grids in their search for a better understanding of the universe Engineers are using grids to study alternative fuels, such as fusion energy. This information was taken from

18:15:32Service Oriented Cyberinfrastructure Lab, Artists are using grids to create complex animations for feature films. 25 million render hours

18:15:32Service Oriented Cyberinfrastructure Lab, LEAD LEAD: Linked Environments for Atmospheric Discovery Idea » Collect real-time sensor data » Model and Predict rapidly evolving phenomenon (tornadoes, hurricanes)‏ » Save life, property, and avoid false alarms…

18:15:32Service Oriented Cyberinfrastructure Lab, LEAD Motivation for LEAD Each year, mesoscale weather – floods, tornadoes, hail, strong winds, lightning, and winter storms causes hundreds of deaths, routinely disrupts transportation and commerce, and results in annual economic losses > $13B.

18:15:32Service Oriented Cyberinfrastructure Lab, LEAD Institutions University of Oklahoma (K. Droegemeier, PI) Meteorological Research and Project Coordination University of Alabama in Huntsville (S. Graves, PI)‏ Data Mining, Interchange Technologies, Semantics UCAR/Unidata (M. Ramamurthy, PI) Data Streaming and Distributed Storage Indiana University (D. Gannon, PI)‏ Data Workflow, Orchestration, Web Services University of Illinois/NCSA (R. Wilhelmson, PI)‏ Monitoring and Data Management Millersville University (R. Clark, PI) Education and Outreach Howard University (E. Joseph, PI) Meteorological Research Education and Outreach Colorado State University (Chandra, PI)‏ Instrument Steering, Dynamic Updating K. Droegemeier, PI

18:15:32Service Oriented Cyberinfrastructure Lab, WRF and TeraGrid Weather Research and Forecasting( WRF )‏ –Open source community Numerical Weather Prediction model. –Complex to install and implement on a workstation. –Even more difficult to set up on a supercomputer. –Further complexity to link to real-time or archived data. TeraGrid –NSF-sponsored supercomputing centers –Large facilities to handle BIG projects.

18:15:32Service Oriented Cyberinfrastructure Lab, Demostrations LEAD portal Integrated Data Viewer

18:15:32Service Oriented Cyberinfrastructure Lab, CaBig Cancer Biomedical Informatics Grid(caBIG) is a community that cooperatively develops well integrated Grid services and applications which facilitate operations, research, and interoperability within and between Cancer Centers.

18:15:32Service Oriented Cyberinfrastructure Lab, caGrid Community Involvement caGrid itself provides no real “data” or “analysis” to caBIG™; its the enabling infrastructure which allows the community to do so Community members add value to the grid as applications, services, and processes (for example: shared workflows)‏ –caGrid provides the necessary core services, APIs, and tooling The real “value” of the grid comes from bringing this information to the “end user”

18:15:32Service Oriented Cyberinfrastructure Lab, History of caGrid caGrid released December 2007 –Production Version Previous releases –caGrid 1.0 Beta – July 2006 –caGrid 0.5 – August 2005 –caGrid Initial Prototype – July 2004

18:15:32Service Oriented Cyberinfrastructure Lab, caGrid Production Environment

18:15:32Service Oriented Cyberinfrastructure Lab, caGrid Portal caGrid 1.0 Portal: provides a visual view of services running on the infrastructure. Another way to access the data is caArraycaArray

18:15:32Service Oriented Cyberinfrastructure Lab, References Droegemeier, K. K., & Co-Authors. (2004). {Linked environments for atmospheric discovery (LEAD): A cyberinfrastructure for mesoscale meteorology research and education}. Journal of Information Technology. National Institutes of Health National Center for Research Resources. (2006). {caBIG Overview}.