Changes between Version 7 and Version 8 of u/lchamandy/2017-04-17
- Timestamp:
- 04/14/17 13:00:33 (8 years ago)
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u/lchamandy/2017-04-17
v7 v8 13 13 __Results__:\\ 14 14 15 '''a) Periodic BCs '''\\16 (i) Constant ambient pressure and density \\15 '''a) Periodic BCs, no velocity damping'''\\ 16 (i) Constant ambient pressure and density (Ambp038, 5.2 hrs on bluehive standard 120 cores)\\ 17 17 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Ambp038/rho2d_Ambp038.gif 2d density] 18 18 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Ambp038/rho2dv1e6_Ambp038.gif 2d density and velocity] … … 21 21 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Ambp038/P1d_Ambp038.gif 1d pressure]\\ 22 22 23 (ii) Isothermal hydrostatic atmosphere \\23 (ii) Isothermal hydrostatic atmosphere (Atm001, 4.1 hrs on bluehive standard 120 cores)\\ 24 24 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm001/rho3doldrange_Atm001.gif 2d density] 25 25 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm001/rho2dv1e6_Atm001.gif 2d density and velocity]\\ 26 26 27 '''b) Multipole expansion BCs '''\\28 (i) Constant ambient pressure and density \\27 '''b) Multipole expansion BCs, no velocity damping'''\\ 28 (i) Constant ambient pressure and density (Damp010, 5 hrs on comet compute, 120 cores)\\ 29 29 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp010/rho2ds_Damp010.gif 2d density] 30 30 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp010/rho2dv1e6_Damp010.gif 2d density and velocity] … … 33 33 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp010/P1d_Damp010.gif 1d pressure]\\ 34 34 35 (ii) Isothermal hydrostatic atmosphere \\35 (ii) Isothermal hydrostatic atmosphere (Atm003)\\ 36 36 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm003/rho2d_Atm003.gif 2d density] 37 37 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm003/rho2dv1e6_Atm003.gif 2d density and velocity]\\ … … 66 66 __Results__:\\ 67 67 68 '''a) Extrapolated hydro BCs, Multipole expansion Poisson BCs (same as (b) in Sect. I above)'''\\69 (i) Constant ambient pressure and density \\68 '''a) Extrapolated hydro BCs, Multipole expansion Poisson BCs, no velocity damping (same as (b) in Sect. I above)'''\\ 69 (i) Constant ambient pressure and density (Damp010)\\ 70 70 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp010/rho2ds_Damp010.gif 2d density] 71 71 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp010/rho2dv1e6_Damp010.gif 2d density and velocity] … … 74 74 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp010/P1d_Damp010.gif 1d pressure]\\ 75 75 76 (ii) Isothermal hydrostatic atmosphere \\76 (ii) Isothermal hydrostatic atmosphere (Atm003)\\ 77 77 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm003/rho2d_Atm003.gif 2d density] 78 78 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm003/rho2dv1e6_Atm003.gif 2d density and velocity]\\ 79 79 80 '''b) Fixed profile ($\rho$, $P$, $\bm{v}=0$) on boundary hydro BCs, Multipole expansion Poisson BCs '''\\81 (i) Constant ambient pressure and density \\80 '''b) Fixed profile ($\rho$, $P$, $\bm{v}=0$) on boundary hydro BCs, Multipole expansion Poisson BCs, no velocity damping'''\\ 81 (i) Constant ambient pressure and density (Damp017, 9 hrs on bluehive standard 120 cores)\\ 82 82 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp017/rho2d_Damp017.gif 2d density] 83 83 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp017/rho2dv1e6_Damp017.gif 2d density and velocity] … … 86 86 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp017/P1d_Damp017.gif 1d pressure]\\ 87 87 88 (ii) Isothermal hydrostatic atmosphere \\88 (ii) Isothermal hydrostatic atmosphere (Atm004)\\ 89 89 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm004/rho2d_Atm004.gif 2d density] 90 90 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm004/rho2dv1e6_Atm004.gif 2d density and velocity]\\ 91 91 92 '''c) Fixed profile outside sphere (of radius $5\times10^{12}$ cm) hydro BCs, Multipole expansion Poisson BCs '''\\93 (i) Constant ambient pressure and density \\92 '''c) Fixed profile outside sphere (of radius $5\times10^{12}$ cm) hydro BCs, Multipole expansion Poisson BCs, no velocity damping'''\\ 93 (i) Constant ambient pressure and density (Damp018, 26 hrs on bluehive standard 120 cores)\\ 94 94 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp018/rho2d_Damp018.gif 2d density] 95 95 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp018/rho2dv1e6_Damp018.gif 2d density and velocity] … … 98 98 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp018/P1d_Damp018.gif 1d pressure]\\ 99 99 100 (ii) Isothermal hydrostatic atmosphere \\100 (ii) Isothermal hydrostatic atmosphere (Atm008)\\ 101 101 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm008/rho2dold_Atm008.gif 2d density] 102 102 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm008/rho2dv1e6_Atm008.gif 2d density and velocity] 103 103 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm008/rho2d_Atm008.gif 2d density extended range]\\ 104 104 105 '''d) Fixed pressure on boundary with rho and veloc extrapolated hydro BCs, Multipole expansion Poisson BCs '''\\106 (i) Constant ambient pressure and density \\105 '''d) Fixed pressure on boundary with rho and veloc extrapolated hydro BCs, Multipole expansion Poisson BCs, no velocity damping'''\\ 106 (i) Constant ambient pressure and density (Damp023, 6.6 hrs on bluehive standard 120 cores)\\ 107 107 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp023/rho2d_Damp023.gif 2d density] 108 108 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp023/rho2dv1e6_Damp023.gif 2d density and velocity]\\ 109 109 110 '''e) Fixed pressure and density on boundary with veloc extrapolated hydro BCs, Multipole expansion Poisson BCs '''\\111 (i) Constant ambient pressure and density \\110 '''e) Fixed pressure and density on boundary with veloc extrapolated hydro BCs, Multipole expansion Poisson BCs, no velocity damping'''\\ 111 (i) Constant ambient pressure and density (Damp025, 9 hrs on bluehive standard 120 cores)\\ 112 112 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp025/rho2d_Damp025.gif 2d density] 113 113 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp025/rho2dv1e6_Damp025.gif 2d density and velocity]\\ 114 114 115 '''f) Fixed pressure outside spherical region with rho and veloc extrapolated hydro BCs, Multipole expansion Poisson BCs '''\\116 (i) Constant ambient pressure and density \\115 '''f) Fixed pressure outside spherical region with rho and veloc extrapolated hydro BCs, Multipole expansion Poisson BCs, no velocity damping'''\\ 116 (i) Constant ambient pressure and density (Damp024, 7.7 hrs on comet compute, 576 cores)\\ 117 117 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp024/rho2dv1e6_Damp024.gif 2d density and velocity]\\ 118 118 119 (ii) Isothermal hydrostatic atmosphere (pending on stampede) \\119 (ii) Isothermal hydrostatic atmosphere (pending on stampede) (Atm010)\\ 120 120 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm010/rho2dold_Atm010.gif 2d density] 121 121 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm010/rho2dv1e6_Atm010.gif 2d density and velocity]\\ 122 122 123 '''g) Fixed profile outside sphere of radius $4\times10^{12}$ cm instead of $5\times10^{12}$ cm, Multipole expansion Poisson BCs '''\\124 (i) Constant ambient pressure and density \\123 '''g) Fixed profile outside sphere of radius $4\times10^{12}$ cm instead of $5\times10^{12}$ cm, Multipole expansion Poisson BCs, no velocity damping'''\\ 124 (i) Constant ambient pressure and density (Damp026, 26.6 hrs on bluehive standard 120 cores)\\ 125 125 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp026/rho2d_Damp026.gif 2d density] 126 126 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp026/rho2dv1e6_Damp026.gif 2d density and velocity]\\ 127 127 128 '''h) Fixed pressure outside sphere ($r=4\times10^{12}$ cm) with rho and veloc extrapolated hydro BCs, Multipole expansion Poisson BCs '''\\129 (i) Constant ambient pressure and density \\128 '''h) Fixed pressure outside sphere ($r=4\times10^{12}$ cm) with rho and veloc extrapolated hydro BCs, Multipole expansion Poisson BCs, no velocity damping'''\\ 129 (i) Constant ambient pressure and density (Damp027, 9.6 hrs on comet compute, 576 cores)\\ 130 130 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp027/rho2d_Damp027.gif 2d density] 131 131 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp027/rho2dv1e6_Damp027.gif 2d density and velocity]\\ 132 132 133 '''i) Reflecting hydro BCs, Multipole expansion Poisson BCs '''\\134 (i) Constant ambient pressure and density \\135 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp028/rho2d s_Damp028.gif 2d density]133 '''i) Reflecting hydro BCs, Multipole expansion Poisson BCs, no velocity damping'''\\ 134 (i) Constant ambient pressure and density (Damp028, 6.9 hrs on bluehive standard 120 cores)\\ 135 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp028/rho2d_Damp028.gif 2d density] 136 136 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp028/rho2dv1e6_Damp028.gif 2d density and velocity]\\ 137 137 138 (ii) Isothermal hydrostatic atmosphere (running on bluehive)\\138 (ii) Isothermal hydrostatic atmosphere, no velocity damping (Atm011, 11 hrs on bluehive standard, 120 cores)\\ 139 139 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm011/rho2d_Atm011.gif 2d density] 140 140 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm011/rho2dv1e6_Atm011.gif 2d density and velocity] … … 190 190 __Results__:\\ 191 191 192 '''(NOTE THAT VELOCITY VECTORS ARE SCALED 10 TIMES LARGER FOR CASES WITH DAMPING )'''\\193 '''a) Fixed profile on boundary hydro BCs, Multipole expansion Poisson BCs (same as II(b) above)'''\\194 (i) Constant ambient pressure and density \\192 '''(NOTE THAT VELOCITY VECTORS ARE SCALED 10 TIMES LARGER FOR CASES WITH DAMPING UNLESS STATED OTHERWISE)'''\\ 193 '''a) Fixed profile on boundary hydro BCs, Multipole expansion Poisson BCs, no velocity damping (same as II(b) above)'''\\ 194 (i) Constant ambient pressure and density (Damp017, 9 hrs on bluehive standard 120 cores)\\ 195 195 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp017/rho2d_Damp017.gif 2d density] 196 196 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp017/rho2dv1e6_Damp017.gif 2d density and velocity] … … 199 199 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp017/P1d_Damp017.gif 1d pressure]\\ 200 200 201 (ii) Isothermal hydrostatic atmosphere \\201 (ii) Isothermal hydrostatic atmosphere (Atm004)\\ 202 202 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm004/rho2d_Atm004.gif 2d density] 203 203 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm004/rho2dv1e6_Atm004.gif 2d density and velocity]\\ 204 204 205 205 '''b) Fixed profile on boundary hydro BCs, Multipole expansion Poisson BCs, Velocity damping with $\tau=1\times10^5$ s'''\\ 206 (i) Constant ambient pressure and density \\206 (i) Constant ambient pressure and density (Damp021, 9.4 hrs on bluehive standard 120 cores)\\ 207 207 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp021/rho2d_Damp021.gif 2d density] 208 208 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp021/rho2dv1e7_Damp021.gif 2d density and velocity] … … 211 211 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp021/P1d_Damp021.gif 1d pressure]\\ 212 212 213 '''c) Fixed profile outside sphere hydro BCs, Multipole expansion Poisson BCs (same as II( b) above)'''\\214 (i) Constant ambient pressure and density \\213 '''c) Fixed profile outside sphere hydro BCs, Multipole expansion Poisson BCs (same as II(c) above), no velocity damping'''\\ 214 (i) Constant ambient pressure and density (Damp018, 26 hrs on bluehive standard 120 cores)\\ 215 215 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp018/rho2d_Damp018.gif 2d density] 216 216 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp018/rho2dv1e6_Damp018.gif 2d density and velocity] … … 219 219 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp018/P1d_Damp018.gif 1d pressure]\\ 220 220 221 (ii) Isothermal hydrostatic atmosphere \\221 (ii) Isothermal hydrostatic atmosphere (Atm008)\\ 222 222 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm008/rho2d_Atm008.gif 2d density] 223 223 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm008/rho2dv1e6_Atm008.gif 2d density and velocity]\\ 224 224 225 225 '''d) Fixed profile outside sphere hydro BCs, Multipole expansion Poisson BCs, Velocity damping with $\tau=1\times10^5$ s'''\\ 226 (i) Constant ambient pressure and density \\226 (i) Constant ambient pressure and density (Damp022, 26 hrs on bluehive standard 120 cores)\\ 227 227 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp022/rho2d_Damp022.gif 2d density] 228 228 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp022/rho2dv1e7_Damp022.gif 2d density and velocity] … … 231 231 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp022/P1d_Damp022.gif 1d pressure]\\ 232 232 233 (ii) Isothermal hydrostatic atmosphere \\233 (ii) Isothermal hydrostatic atmosphere (Atm009)\\ 234 234 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm009/rho2dv1e7_Atm009.gif 2d density and velocity] 235 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm009/rho2dv1e6_Atm009.gif 2d density and velocity ( smaller arrows)]235 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm009/rho2dv1e6_Atm009.gif 2d density and velocity (10x smaller arrows)] 236 236 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm009/rho2dv1e6_extended_Atm009.gif 2d density and velocity (extended color bar, smaler arrows)]\\ 237 238 '''e) Reflecting hydro BCs, Multipole expansion Poisson BCs, Velocity damping with $\tau=1\times10^5$ s'''\\ 239 240 (i) Constant ambient pressure and density (Damp029, 6.9 hrs on bluehive standard 120 cores)\\ 241 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp029/rho2d_Damp029.gif 2d density] 242 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Damp029/rho2dv1e7_Damp029.gif 2d density and velocity]\\ 243 244 (ii) Isothermal hydrostatic atmosphere (Atm012, 11.5 hrs on bluehive standard, 120 cores)\\ 245 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm012/rho2d_Atm012.gif 2d density] 246 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm012/rho2dv1e6_Atm012.gif 2d density and velocity (10x smaller arrows)] 247 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm012/rho2d_extended_Atm012.gif 2d density (extended color bar)] 248 [http://www.pas.rochester.edu/~lchamandy/Graphics/RGB/Post-sink_particle/Post-modified_Lane_Emden/Atm012/rho2dv1e6_extended_Atm012.gif 2d density and velocity (extended color bar, 10x smaller arrows)]\\ 237 249 238 250 '''Comparison with (a) on left and (b) on right'''\\