Difference between revisions of "Draft agenda"

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(Created page with "Aug. 12 -14, 2013 <OL> <LI>Introduction and overview (1 hr) <LI>Parallel computing (0.5 hr) <LI>SELFE Theory <LI>SELFE numerics <LI>Grid generation Grid generation: Eli A...")
 
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Aug. 12 -14, 2013
 
Aug. 12 -14, 2013
 
<OL>
 
<OL>
  <LI>Introduction and overview (1 hr)
+
  <LI>Introduction and overview
  <LI>Parallel computing (0.5 hr)
+
  <LI>Parallel computing  
 
  <LI>SELFE Theory
 
  <LI>SELFE Theory
 
  <LI>SELFE numerics
 
  <LI>SELFE numerics
 
  <LI>Grid generation Grid generation: Eli Ateljevich
 
  <LI>Grid generation Grid generation: Eli Ateljevich
  <LI>SELFE code structure (incl. PBS scripts) (2 hr)
+
  <LI>SELFE code structure (incl. PBS scripts)
 
  <LI>Set up a SELFE model  
 
  <LI>Set up a SELFE model  
a. Pre-processing (0.5 hr)
+
    <UL>
b. ACE/xmgredit5 (0.5 hr): CHECK CFL; Shapiro
+
      <LI>Pre-processing  
c. DEM preparation: Triangle
+
      <LI>ACE/xmgredit5: CHECK CFL; Shapiro
d. Sflux; read_ncom;  
+
      <LI>DEM preparation: Triangle
e. Major parameters and inputs (1 hr)
+
      <LI>Sflux; read_ncom;  
f. Post-processing and visualization (1 hr)
+
      <LI>Major parameters and inputs
  <LI>Calibrating SELFE (0.5 hr)
+
      <LI>Post-processing and visualization  
a. TVD and other higher-order schemes; wet/dry with Cd  
+
    </UL>
  <LI>SELFE modeling system (2 hr)
+
  <LI>Calibrating SELFE  
 +
    <UL>
 +
      <LI>TVD and other higher-order schemes; wet/dry with Cd  
 +
    </UL>
 +
  <LI>SELFE modeling system  
 
  <LI>Case study  
 
  <LI>Case study  
a. Demo; SF Bay (RUN37g);
+
a. Demo; SF Bay
 
b. Highlights of other cases:
 
b. Highlights of other cases:
i. Yellow River (RUN01c)
+
i. Yellow River
ii. Columbia (tsu/RUN06)
+
ii. Columbia  
 
iii. Limon (Test_WWM_limon_NODIF)
 
iii. Limon (Test_WWM_limon_NODIF)
  <LI>Outro and Q&A (0.5 hrs)
+
  <LI>Outro and Q&A
 
</OL>
 
</OL>

Revision as of 12:46, 3 August 2013

Aug. 12 -14, 2013

  1. Introduction and overview
  2. Parallel computing
  3. SELFE Theory
  4. SELFE numerics
  5. Grid generation Grid generation: Eli Ateljevich
  6. SELFE code structure (incl. PBS scripts)
  7. Set up a SELFE model
    • Pre-processing
    • ACE/xmgredit5: CHECK CFL; Shapiro
    • DEM preparation: Triangle
    • Sflux; read_ncom;
    • Major parameters and inputs
    • Post-processing and visualization
  8. Calibrating SELFE
    • TVD and other higher-order schemes; wet/dry with Cd
  9. SELFE modeling system
  10. Case study a. Demo; SF Bay b. Highlights of other cases: i. Yellow River ii. Columbia iii. Limon (Test_WWM_limon_NODIF)
  11. Outro and Q&A
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