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National Center for Supercomputing Applications University of Illinois at Urbana-Champaign Ergo User Tutorial - Part 4 NCSA, UIUC.

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Presentation on theme: "National Center for Supercomputing Applications University of Illinois at Urbana-Champaign Ergo User Tutorial - Part 4 NCSA, UIUC."— Presentation transcript:

1 National Center for Supercomputing Applications University of Illinois at Urbana-Champaign Ergo User Tutorial - Part 4 NCSA, UIUC

2 Web Documents https://opensource.ncsa.illinois.edu/confluence/display/ER GO/Ergo+Homehttps://opensource.ncsa.illinois.edu/confluence/display/ER GO/Ergo+Home http://ergo.ncsa.illinois.edu/

3 Overview Run bridge damage analysis Run population dislocation analysis Requires economic damage & building damage Run interdependent network analysis (INA) Requires Water/Gas utility network damage and electric power utility damage Run pipeline damage analysis

4 RUNNING BRIDGE DAMAGE ANALYSIS

5 Run Bridge Damage Analysis Right click on Tutorial Scenario and select Execute Analysis Expand Bridge and select Damage Click Finish

6 Bridge Damage Analysis Click Here Builds User Interface Search for Dataset Create Dataset

7 Add Required Inputs - Bridges Where it says Result Name enter Bridge Damage Where it says Bridges click the Search button Select Shelby County Bridges It may take a few seconds to load the dataset depending on your internet connection

8 Add Required Inputs - Hazard Where it says Hazard click the Search button Select scen-eq (the hazard you created previously) and click Finish

9 Execute Bridge Damage Click on Advanced Parameters Notice all required values filled in from default set Analysis is ready Click Execute

10 Exercise 1.Open Damage analysis under Bridge 2.Set inputs for Damage analysis 3.Execute Analysis

11 RUNNING POPULATION DISLOCATION ANALYSIS

12 Run Population Dislocation Analysis Right click on Tutorial Scenario and select Execute Analysis Expand Socioeconomic and select Household and Population Dislocation Click Finish

13 Population Dislocation Analysis Click Here Builds User Interface

14 Add Required Inputs – Economic Damage Where it says Result Name enter Dislocation Where it says Building Direct Economic Damage click the Create button

15 Add Required Inputs – Economic Damage Where it says Result Name enter economic damage Where it says Building Damage click the Search button Select Building Damage (which we created before) and click Finish

16 Execute Dislocation Analysis Analyses are ready Click Execute

17 Exercise 1.Open Household and Population Dislocation analysis under Socioeconomic 2.Set inputs for Household and Population Dislocation analysis 3.Set inputs for Building Direct Economic Damage 4.Execute Analyses

18 RUNNING INTERDEPENENT NETWORK ANALYSIS

19 Run Interdependent Network Analysis Right click on Tutorial Scenario and select Execute Analysis Expand Lifeline and select Interdependent Network Analysis Click Finish

20 Interdependent Network Analysis Click Here Builds User Interface

21 Add Required Inputs – Water Network Damage Where it says Water Connectivity Loss Result Name enter Water Connectivity Loss Where it says Power Connectivity Loss Result Name enter Power Connectivity Loss Where it says Water Service Flow Reduction Result Name enter Water Service Reduction Where it says Power Service Flow Reduction Result Name enter Power Service Reduction Next to Water Utility Network Damage click Create

22 Add Required Inputs – Water Network Damage Select Water Utility Network Damage Analysis and click Finish Where it says Result Name enter water network damage Where it says Water Network click Search and locate the dataset Memphis Water Utility Network for INA Where it says Hazard click Search and find scen-eq Where it says Pipeline Fragilities click Search and locate Buried Pipeline Fragilities v1.1 Where it says Pipeline Fragility Mapping click Search and locate Buried Pipe Fragility Mapping 1.2

23 Add Required Inputs – Electric Network Damage In the workflow graph, click on Interdependent Network Analysis Where it says Electric Power Utility Network Damage click Create

24 Add Required Inputs – Electric Network Damage (2) Where it says Result Name enter power network damage Where it says Power Network click Search and locate Memphis Electric Network for INA Where it says Hazard select scen-eq

25 Add Required Inputs – Network Interdependency In the workflow graph, click on Interdependent Network Analysis again Where it says Network Interdependency Table click Search and locate INA – Memphis interdependency table and click Finish Where it says Number of Simulation enter 500 Click Execute

26 Exercise 1.Open Interdependent Network Analysis under Lifeline 2.Set inputs for Interdependent Network Analysis 3.Set inputs for Water Utility Network Damage 4.Set inputs for Electric Power Utility Network Damage 5.Execute Analyses

27 RUNNING PIPELINE DAMAGE ANALYSIS

28 Run Pipeline Damage Analysis Right click on Tutorial Scenario and select Execute Analysis Expand Lifeline and select Buried Pipeline Damage Click Finish

29 Buried Pipeline Damage Click Here Builds User Interface

30 Add Required Inputs – Pipelines / Hazard Where it says Result Name enter Pipeline Damage Where it says Pipeline Inventory click the Search button Select Shelby Gas Pipeline with Topology It may take a few seconds to load the dataset depending on your internet connection Where it says Hazard click Search and locate scen-eq Click Execute

31 Add Required Inputs - Hazard Where it says Hazard click the Search button Select scen-eq (the hazard you created previously) and click Finish

32 Exercise 1.Open Buried Pipeline Damage analysis under Lifeline 2.Set inputs for Buried Pipeline Damage analysis 3.Execute Analysis

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