rxnnetworkex
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rxnnetworkex [2014/05/28 13:40] raph |
rxnnetworkex [2014/05/29 08:24] cyburt |
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| ====== EXERCISES ====== | ====== EXERCISES ====== | ||
| **[[RXNnetworkEX|Reaction Networks]]**, **[[NuclPhysInput|Nucl Physics Input]]**, **[[HydroEX|Hydro]]**, **[[BBNEX|BBN]]** | **[[RXNnetworkEX|Reaction Networks]]**, **[[NuclPhysInput|Nucl Physics Input]]**, **[[HydroEX|Hydro]]**, **[[BBNEX|BBN]]** | ||
| - | |||
| - | <box 80% left orange|**(Pre-Course Assignment)**> | ||
| - | |||
| - | **Download, compile and run the Reaction Network Code** | ||
| - | |||
| - | - Download the [[rxnnetcode|Reaction Network Code]]. | ||
| - | - Compile the code with your fortran90 compiler, following the instructions in doc/Compiling.txt in the XNet distribution. | ||
| - | - Report in the Reaction Network Code discussion thread your success with machine and compiler information. | ||
| - | - Run a first test problem, following the instructions in doc/Running.txt in the XNet distribution. | ||
| - | * Your results should look like this figure. {{:XNet_test.png?direct&200}} | ||
| - | - Try various temperatures and densities by changing the th_const file. | ||
| - | |||
| - | </box> | ||
| - | |||
| <box 80% left blue|**(During-Course Assignment)**> | <box 80% left blue|**(During-Course Assignment)**> | ||
| Line 21: | Line 7: | ||
| - Re-run the pre-test, reducing the temperature in the thermodynamic file | - Re-run the pre-test, reducing the temperature in the thermodynamic file | ||
| * Find the minimum temperatures at which silicon burning, oxygen burning and carbon burning occur. | * Find the minimum temperatures at which silicon burning, oxygen burning and carbon burning occur. | ||
| - | - Give them a new (larger, maybe species) sunet. | + | - Grab a new (larger, 150 species) sunet_sn150.txt from the document server. |
| - | * Have them build a new Data directory from REACLIB | + | * Rename sunet_150.txt to sunet |
| + | * Build a new Data directory from REACLIB | ||
| * Create a new initial abundance file (matching the composition in the pretest) | * Create a new initial abundance file (matching the composition in the pretest) | ||
| * Run same test problem with new network | * Run same test problem with new network | ||
| Line 49: | Line 36: | ||
| * How does the trajectory form affect the results? | * How does the trajectory form affect the results? | ||
| </box> | </box> | ||
| + | <box 80% left orange|**(Pre-Course Assignment)**> | ||
| + | |||
| + | **Download, compile and run the Reaction Network Code** | ||
| + | |||
| + | - Download the [[rxnnetcode|Reaction Network Code]]. | ||
| + | - Compile the code with your fortran90 compiler, following the instructions in doc/Compiling.txt in the XNet distribution. | ||
| + | - Report in the Reaction Network Code discussion thread your success with machine and compiler information. | ||
| + | - Run a first test problem, following the instructions in doc/Running.txt in the XNet distribution. | ||
| + | * Your results should look like this figure. {{:XNet_test.png?direct&200}} | ||
| + | - Try various temperatures and densities by changing the th_const file. | ||
| + | |||
| + | </box> | ||
| + | |||
| + | |||
| ~~DISCUSSION|Reaction Network Exercises Discussion~~ | ~~DISCUSSION|Reaction Network Exercises Discussion~~ | ||
rxnnetworkex.txt · Last modified: 2014/05/29 08:24 by cyburt
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