INFSO-RI-508833 Enabling Grids for E-sciencE www.eu-egee.org FloodGrid application Ladislav Hluchy, Viet D. Tran Institute of Informatics, SAS Slovakia.

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Presentation transcript:

INFSO-RI Enabling Grids for E-sciencE FloodGrid application Ladislav Hluchy, Viet D. Tran Institute of Informatics, SAS Slovakia

Enabling Grids for E-sciencE INFSO-RI History of Flood application Flood application is continually developed in –ANFAS: datA fusioN for Flood Analysis and decision Support,( ) IST  Data fusion, hydraulic modeling  Cluster computing  Remote processing –CrossGrid: Development of Grid Environment for Interactive Applications ( ) IST  More models (meteorology, hydrology)  Grid computing  Metadata catalog  Portal –EGEE: Enabling Grids for E-sciencE ( ) INFSO-RI  Porting to gLite  Working in Earth Science Research Virtual Organization (ESR VO) –K-Wf Grid: Knowledge-based Workflow System for Grid Applications ( ) FP  Porting to web services  Building knowledge system for flood application Collaboration with Slovak Hydro-meteorological Institute (SHMI) and Slovak Water Research Institute (WRI)

Enabling Grids for E-sciencE INFSO-RI Flood forecasting problem

Enabling Grids for E-sciencE INFSO-RI Flood forecasting problem Many types of simulations –Meteorological models: MM5, ALADIN –Hydrological models: HSPF, NLC, HEC, MIKE-1D, … –Hydraulic models: FESWMS, DaveF, MIKE-2D, TELEMAC, … Many types of data –Real-time meteorological and hydrological data from hydro- meteorological stations –Boundary conditions from ALADIN-LACE (Local Area Central European) model from Prague –Digital elevation models measured using LIDAR (Light Detection and Ranging) –River profiles and networks –Input and output data of different simulations Many types of users –Experts in meteorology, hydrology and hydraulics –River authorities, water management authorities –Hydropower stations, farms –Governments –Public

Enabling Grids for E-sciencE INFSO-RI Flood forecasting and Grid For critical situations –Needs to run many scenarios at the same time (worst-case scenarios for risk analysis) –Needs to have results as accurate as possible (higher resolutions for simulations -> higher computational power) –Needs to have results as soon as possible (every minute is important)  Needs grid computational power For collaborations: –Different user groups: meteorology, hydrology, hydraulics, river authorities, crisis team, … –Different countries: for international rivers like Danube –Sharing resources: data, computational powers, expertise, …  Grid is the technology for collaborations

Enabling Grids for E-sciencE INFSO-RI Simplified scenario User Portal Workflow management Workflow Storage element Meteorology simulation Hydrology simulation Hydraulics simulation Meteorology visualization Hydrology visualization Hydraulics visualization OPERATIONS IN GRID

Enabling Grids for E-sciencE INFSO-RI Full scenario

Enabling Grids for E-sciencE INFSO-RI FloodGrid portal Portal is accessible from anywhere: –Needs only network connection and web browsers –Users can use portal also from mobile devices (very important for field work) Portal is the “meeting point” for users: –Users need to collaborate on flood forecasting Portal hides complexity of Grid computing: –The main users of the portal may be experts in meteorology, hydrology, … but not in Grid computing Portal increases the security –Some data and information from flood forecasting are sensitive –Portal has additional security level –Users cannot run other code than the portal allows

Enabling Grids for E-sciencE INFSO-RI FloodGrid Portal GRID

Enabling Grids for E-sciencE INFSO-RI Workflow management Manages and executes jobs with data dependences Cooperates with gLite resource broker to find suitable computing element for running simulation Monitors status of jobs Abilities to use predefined workflow templates, spawning running workflow, modifying parameters of jobs

Enabling Grids for E-sciencE INFSO-RI Workflow management module Workflow template database Workflow execution service CrossGrid JSS Workflow selection portlet Workflow definition portlet LCGgLiteWeb service Job execution adaptors Portal Workflow manager EGEE testbed MeteorologyHydrologyHydraulicVisualization

Enabling Grids for E-sciencE INFSO-RI Workflow management

Enabling Grids for E-sciencE INFSO-RI Data management Many kinds of data in FloodGrid –Meteorological, hydrological, hydraulic –Generated by simulations or obtained from sensors –Permanent or periodically updated –Publicly available or with restricted access Using metadata catalog for describing data Data are stored in storage elements and are accessed via Grid protocols Operation: query, adding, modification, deleting

Enabling Grids for E-sciencE INFSO-RI Data management module Metadata catalog Replica Location Service Metadata queryData access GridFTP Portal Metadata service Replica 1Replica 2Replica 3Replica 4 Data identifier (GUID, LFN) Grid testbed

Enabling Grids for E-sciencE INFSO-RI Visualization Multiple visualization modes according to models and visualization tools –Texts –Pictures –Animations –Virtual reality

Enabling Grids for E-sciencE INFSO-RI Visualization

Enabling Grids for E-sciencE INFSO-RI Visualization in Virtual Reality In cooperation with GUP, Joh. Kepler University, Linz

Enabling Grids for E-sciencE INFSO-RI Collaboration Different users groups (experts in meteorology, hydrology, hydraulics, crisis team, river authorities) need to collaborate on flood application Portal provides different means of communication among users: chats, mailing lists, discussion groups, file sharing Collaboration via other shared tools of portal

Enabling Grids for E-sciencE INFSO-RI Collaboration

Enabling Grids for E-sciencE INFSO-RI Security Two level of securities: Portal level and Grid level Portal level: –Secure HTTP access –Authentication by user names/passwords –Access controls for every tools/resources at portal (individually or by groups) –Only for accessing tools/resources located on portal. For accessing physical data, models or computing resource, Grid certificates are needed Grid level: –Authentication by Grid certificates –Using Grid communication protocols

Enabling Grids for E-sciencE INFSO-RI GRID Security PORTAL ACCESS LEVEL GRID ACCESS LEVEL

Enabling Grids for E-sciencE INFSO-RI Conclusion Flood forecasting is a complex application with many models, data types and user groups FloodGrid portal has been developed with: –Workflow management module –Data management module –Visualization –Collaboration tools Current and future works –New data management with improved data access controls (using ACL support in gLite)