ECITE - The EarthCube Integration and Test Environment, an outgrowth of activities of the EarthCube Technology Architecture Committee (TAC)'s Testbed Working Group (TWG), will provide an integration test-bed for technology and science projects for both EarthCube funded projects and community technology demonstrations. The ECITE team will actively engage EarthCube and the wider geosciences community in the definition of requirements, design, and testing of the system. ECITE will consist of a seamless federated system of scalable and location independent distributed computational resources (nodes) across the US. The hybrid federated system will provide a robust set of distributed resources utilizing including both public and private cloud capabilities.
The ECITE Team includes:
- Sara Graves (PI) - University of Alabama in Huntsville (UAH)
- Emily Law - NASA Jet Propulsion Laboratory (JPL)
- Chaowei (Phil) Yang - George Mason University (GMU)
- George Djorgovski - California Institute of Technology (Caltech)
- Ashish Mahabal - California Institute of Technology (Caltech)
- Ken Keiser - University of Alabama in Huntsville (UAH)
ECITE Federated Cloud Environment - Hybrid cloud resources available for integration and testing of EarthCube project techologies and resources
EarthCube Integration and Test Framework - A prototype framework to support the assessment and evaluation of EarthCube technologies based on science use cases
ECITE Progress and Accomplishments:
- Creation of ECITE federated cloud environment (DC2 deployment)
- Presented ECITE plans and approaches to Technology and Architecture Committee (TAC) in effort to generate interest in new Testbed working group activities
- Submitted proposal for new/continued TAC Testbed Working Group
- Contributed to TAC telecons
- Discussed use case ideas to demonstrate technology assessment (BCube, CINERGI, CHORDS, OntoSoft, etc) with a number of EarthCube and ESIP projects
- Prototyped EarthCube Assessment Framework environment based on Open Science Framework (OSF) capabilities
- Presented ECITE concepts and plans at ESIP 2016 winter meeting to further collaboration with ESIP and other communities
- Participated in the Architecture Planning Workshop (May 2016) to help identify the role ECITE will play in new architecture plans
- Participated in the Software Assessment Workshop (June 2016) to help define the EC assessment criteria to be used in assessment of EC technologies
- Reviewed and selected EarthCube Science Use Cases for demonstration in the EarthCube Integration and Test Framework
- Participated in 2016 EarthCube All Hands Organizating Committee
- Co-led 2016 EarthCube All Hands Meeting's "Interoperability and Integration: Testbed and Assessment" session and Panel presentation
- Presented at 2016 Fall AGU: "ECITE: A Testbed for Assessmement of Technology Interoperability and Integration with Architecture Components"
- Co-led 2017 ESIP Winter Meeting session: "Techniques for Favorable Technology Assessment and Successful Technology Infusion"
High Level Technology Integration and Testing Workflow (a work in progress)
Vance T.C., Merati N., Yang C., and Yuan M. (2016). Cloud Computing in Ocean and Atmospheric Sciences Academic Press. Page 454. ISBN: ISBN-10: 0128031921
Jiang, Y., Xia, J., & Liu, K. (2016). Polar CI Portal: A Cloud based Polar Resource Discovery Engine.. Cloud Computing in Ocean and Atmospheric Sciences Page 163.
Journals or Juried Conference Papers
- Xia, J., Yang, C., Liu, K., Gui, Z., Li, Z., Huang, Q., & Li, R. (2015). (2015). Adopting cloud computing to optimize spatial web portals for better performance to support Digital Earth and other global geospatial initiatives. International Journal of Digital Earth 8(6). International Journal of Digital Earth. Pages 451-475.
- Yang, C., Huang, Q., Li, Z., Liu, K. and Hu, F., 2017. Big Data and cloud computing: innovation opportunities and challenges. International Journal of Digital Earth, 10(1), pp.13-53.
- Yang, C., Yu, M., Hu, F., Jiang, Y. and Li, Y., 2017. Utilizing Cloud Computing to address big geospatial data challenges. Computers, Environment and Urban Systems, 61, pp.120-128.
Conference Presentations / Papers / Posters
- Keiser K., Graves S., Law E., Yang C., Assessment and Infusion of EarthCube Technologies, ESIP Winter Meeting. Jan 2017
- Graves S., ECITE: A Testbed for Assessment of Technology Interoperability and Integration with Architecture Components, American Geophysical Union 2016 Fall Meeting. Dec 2016
- Graves S., Evolving Frameworks for Different Communities of Scientists and End Users, American Geophysical Union 2016 Fall Meeting. Dec 2016
- Graves, S., Keiser, K., EarthCube project status and results. 2016 EarthCube All Hands Meeting. Denver, CO. Jul 2016
- Graves, S., Conover, H., Keiser, K., (2016). ECITE Poster. 2016 ESIP Winter Meeting. Durham, NC.
- Graves, S., Keiser, K., ECITE Poster. 2016 EarthCube All Hands Meeting. Denver, CO. Jul 2016
- Graves, S., Keiser, K., Presentation at Fall AGU 2015. AGU, Dec 2015
- DC2 deployment of ECITE federated cloud environment
- ECITE Project Information (this site)
- ECITE Resource Project website
- Prototype assessment framework environment
- Project Summary
- Iterative Approach - part of a TAC presentation to the Science Committee
- ECITE - Presentation to TAC
- ECITE - Presentation at 2016 EarthCube All Hands
The Technology and Architecture Committee's (TAC) Testbed Working Group (TWG) prepared and completed several deliverable documents entailing the requirements and design of an EarthCube integration and testing environment. These documents (hosted on the TWG information site) were used to help advise ECITE development efforts.