3 | | = 2D, Low Resolution Simulations = |
| 3 | = 2D Simulations = |
| 4 | |
| 5 | '''List of simulations''' |
| 6 | |
| 7 | || '''Beta''' || '''Ma''' || '''Thickness''' || '''MinDensity''' || ''Completed as of 04-20'' || |
| 8 | || 10 || 20 || 0.01 || 1d-10 || Frame 184 || |
| 9 | || || || 0.03 || 0.01, after frame 90 || Frame 101 || |
| 10 | || || || 0.06 || 0.01, after frame 110 || Frame 110 || |
| 11 | || || 3 || 0.01 || 0.01 || X || |
| 12 | || || || 0.03 || 0.01 || X || |
| 13 | || || || 0.06 || 0.01 || X || |
| 14 | || 0.1 || 20 || 0.01 || 1d-10 || Yes || |
| 15 | || || || 0.03 || 0.01, after frame 45 || Frame 58 || |
| 16 | || '''Hydro''' || 20 || 0.01 || 1d-10 || Yes || |
| 17 | || || || 0.03 || 1d-10 || Yes || |
| 18 | || || || 0.06 ||1d-10 || Yes || |
| 19 | || '''Total No.''' || '''11''' || |
| 20 | |
| 21 | |
| 22 | '''Parameters in .data files''' |
| 23 | |
| 24 | * In physics.data the MinDensity has been changed for some of the slower runs. I have denoted above where I change the minimum density during the time of the simulation. |
| 25 | * Three of the simulations are hydro, so we simply turn off the MHD in physics.data. |
| 26 | * Three of the simulations have a Mach No. = 3. So we multiply the final_time = .02d0 of the Mach No. = 20 simulations by the ratio of the mach numbers, (20/3), to get a new final_time = 1.33d0 for these Mach No. = 3 simulations. |
51 | | In summary we have 8 2D simulations with 1 level of AMR with periodic boundary conditions. We expect the simulation box to be very long and thin. MHD is turned on. |
52 | | |
53 | | == Beta=.1, Mach=20 == |
54 | | |
55 | | '''Notes (04-10-2015):''' These runs are taking the longest on BH2. Not fair to really compare them side-by-side at their ending frame since thickness=0.01 is at frame 73, where as the other is only at 45. I included a clipped gif, as it was still early in the simulation. |
56 | | |
57 | | || '''Thickness''' || '''Frame Comp. on (04-10-2015)''' || Full (x=4.0) || Clipped (x=2.5) || |
58 | | || 0.01 || 73 || [[Image(bP1_thickp01_to720072.png, width=1000)]] [[br]] [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/bp1tp01m20l-04102015.gif GIF] || [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/bp1tp01m20s-04102015.gif Clipped GIF] || |
59 | | || 0.03 || 45 || [[Image(bP1_thickp03_to450044.png, width=1000)]] [[br]] [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/bp1tp03m20l-04102015.gif GIF] || [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/bp1tp03m20s-04102015.gif Clipped GIF] || |
60 | | |
61 | | == Beta=10, Mach=20 == |
62 | | |
63 | | |
64 | | '''Notes (04-10-2015):''' Similar story for these. No clipped gifs, stuff starts getting blown out far enough. |
65 | | |
66 | | || '''Thickness''' || Frame Comp. on (04-10-2015) || Full (x=4.0) || Clipped (x=2.5) || |
67 | | || 0.01 || 158 || [[Image(b10_thickp01_to1580019.png, width=1000)]] [[br]] [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/b10tp01m20-04102015.gif GIF] || No Clipped GIF || |
68 | | || 0.03 || 90 || [[Image(b10_thickp03_900000.png, width=1000)]] [[br]] [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/b10tp03m20-04102015.gif GIF] || No Clipped GIF || |
69 | | || 0.06 || 96 || [[Image(b10_thickp06_960000.png, width=1000)]] [[br]] [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/b10tp06m20-04102015.gif GIF] || No Clipped GIF || |
70 | | |
71 | | == Beta=10, Mach=3 == |
72 | | |
73 | | '''Notes (04-10-2015):''' These finished the fastest on BH2 -- only ones to complete. I suppose their the only ones you can compare fairly. |
74 | | |
75 | | || '''Thickness''' || Frame Comp. on (04-10-2015) || Full (x=4.0) || Clipped (x=2.5) || |
76 | | || 0.01 || 200 || [[Image(b10_thickp01_mach3long0200.png, width=1000)]] [[br]] [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/b10tp01m3l-04102015.gif GIF] || [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/b10tp01m3s-04102015.gif Clipped GIF] || |
77 | | || 0.03 || 200 || [[Image(b10_thickp03_mach3long0200.png, width=1000)]] [[br]] [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/b10tp03m3l-04102015.gif GIF] || [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/b10tp03m3s-04102015.gif Clipped GIF] || |
78 | | || 0.06 || 200 || [[Image(b10_thickp06_mach3long0200.png, width=1000)]] [[br]] [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/b10tp06m3l-04102015.gif GIF] || [https://astrobear.pas.rochester.edu/trac/attachment/wiki/u/madams/WireTurbulenceStudies/b10tp06m3s-04102015.gif Clipped GIF] || |
| 74 | In summary we have 11 2D simulations with 1 level of AMR with periodic boundary conditions. Thus we can visualize the simulations used the replicate operator in Visit. We expect the simulation box to be very long and thin given the GxBounds. There is a high level for the base grid resolution -- given approximately half a million cells in the base grid. So these jobs, despite being 2D, are high resolution. |