Changeset 3540
- Timestamp:
- Nov 20, 2018 3:27:18 PM (6 years ago)
- Location:
- palm/trunk/TESTS/cases
- Files:
-
- 17 edited
Legend:
- Unmodified
- Added
- Removed
-
palm/trunk/TESTS/cases/example_cbl/MONITORING/example_cbl_rc
r3459 r3540 1 1 2 2 ****************************** -------------------------------------------- 3 * PALM 5.0 Rev: 3133:31* atmosphere - run without 1D - prerun3 * PALM 6.0 Rev: 3527M * atmosphere - run without 1D - prerun 4 4 ****************************** -------------------------------------------- 5 5 6 Date: 18-07-18 Run: example_cbl_47 Time: 19:19:17Run-No.: 008 Run on host: p5imuk6 Date: 2018-11-15 Run: example_cbl__intel_default__4 7 Time: 21:35:24 Run-No.: 00 8 Run on host: intel_defa 9 9 Number of PEs: 4 Processor grid (x,y): ( 2, 2) calculated 10 10 ------------------------------------------------------------------------------ … … 20 20 --> Scalar advection via Wicker-Skamarock-Scheme 5th order 21 21 --> Loop optimization method: cache 22 --> Time differencing scheme: runge-kutta-3 22 --> Time differencing scheme: runge-kutta-3 23 23 ------------------------------------------------------------------------------ 24 24 … … 37 37 Grid length: dx = 50.000 m dy = 50.000 m 38 38 dz(1) = 50.000 m 39 dz(2) = 1000.000 m39 dz(2) = 999.000 m 40 40 41 41 Domain size: x = 2000.000 m y = 2000.000 m z(u) = 2862.511 m … … 69 69 ---------------------- 70 70 71 Topography: flat 71 Topography: flat 72 72 73 73 … … 77 77 p uv pt 78 78 79 B. bound.: p(0) = p(1) | uv(0) = -uv(1) | pt(0) = pt(1) 79 B. bound.: p(0) = p(1) | uv(0) = -uv(1) | pt(0) = pt(1) 80 80 T. bound.: p(nzt+1) = 0 | uv(nzt+1) = ug(nzt+1), vg(nzt+1) | pt(nzt+1) = pt(nzt) + dpt/dz_ 81 81 82 82 e 83 83 84 B. bound.: e(0) = e(1) 85 T. bound.: e(nzt+1) = e(nzt) = e(nzt-1) 84 B. bound.: e(0) = e(1) 85 T. bound.: e(nzt+1) = e(nzt) = e(nzt-1) 86 86 87 87 Bottom surface fluxes are used in diffusion terms at k=1 … … 96 96 97 97 Lateral boundaries: 98 left/right: cyclic 99 north/south: cyclic 98 left/right: cyclic 99 north/south: cyclic 100 100 101 101 … … 127 127 128 128 1D-Profiles: 129 Output format: netCDF 64bit offset 130 131 132 Profile: wtheta, w"theta", w*theta*, w*2, theta, theta*2, 129 Output format: netCDF 64bit offset 130 131 132 Profile: wtheta, w"theta", w*theta*, w*2, theta, theta*2, 133 133 Output every 900.00 s 134 134 Time averaged over 600.00 s … … 136 136 137 137 2D-Arrays: 138 Output format: netCDF 64bit offset 139 140 141 XY-cross-section Arrays: w, theta, 142 Output every 900.00 s 138 Output format: netCDF 64bit offset 139 140 141 XY-cross-section Arrays: w, theta, 142 Output every 900.00 s 143 143 Cross sections at k = /2/10/ 144 144 scalar-coordinates: /75.0/475.0/ m … … 148 148 149 149 150 XZ-cross-section Arrays: w, theta, 151 Output every 900.00 s 150 XZ-cross-section Arrays: w, theta, 151 Output every 900.00 s 152 152 Cross sections at j = /20/ 153 153 scalar-coordinates: /1000.0/ m … … 158 158 159 159 2D-Arrays(time-averaged): 160 Output format: netCDF 64bit offset 161 162 163 XZ-cross-section Arrays: w, 164 Output every 1800.00 s 160 Output format: netCDF 64bit offset 161 162 163 XZ-cross-section Arrays: w, 164 Output every 1800.00 s 165 165 Time averaged over 900.00 s 166 166 Averaging input every 10.00 s … … 173 173 174 174 Time series: 175 Output format: netCDF 64bit offset 175 Output format: netCDF 64bit offset 176 176 177 177 Output every 0.00 s … … 188 188 Coriolis parameter : f = 0.000119 1/s 189 189 f* = 0.000084 1/s 190 Day of the year at model start : day_init = 172 190 191 Day of the year at model start : day_init = 172 191 192 UTC time at model start : time_utc_init = 43200.0 s 192 193 -
palm/trunk/TESTS/cases/example_cbl_short/MONITORING/example_cbl_short_rc
r3459 r3540 1 1 2 2 ****************************** -------------------------------------------- 3 * PALM 5.0 Rev: 3319* atmosphere - run without 1D - prerun3 * PALM 6.0 Rev: 3527M * atmosphere - run without 1D - prerun 4 4 ****************************** -------------------------------------------- 5 5 6 Date: 10-10-18 Run: example_cbl_short__gfortran_defaul 7 Time: 00:06:35 Run-No.: 00 8 Run on host: gfortran_d 9 Number of PEs: 2 Processor grid (x,y): ( 1, 2) calculated 10 A 1d-decomposition along y is used 6 Date: 2018-11-15 Run: example_cbl_short__intel_default__ 7 Time: 21:35:00 Run-No.: 00 8 Run on host: intel_defa 9 Number of PEs: 4 Processor grid (x,y): ( 2, 2) calculated 11 10 ------------------------------------------------------------------------------ 12 11 … … 49 48 50 49 Number of gridpoints (x,y,z): (0: 39, 0: 39, 0: 41) 51 Subdomain size (x,y,z): ( 40, 20, 42)50 Subdomain size (x,y,z): ( 20, 20, 42) 52 51 53 52 … … 131 130 132 131 133 Profile: wtheta, w"theta", w*theta*, w*2, theta, theta*2, 132 Profile: wtheta, w"theta", w*theta*, w*2, theta, theta*2, 134 133 Output every 900.00 s 135 134 Time averaged over 600.00 s … … 140 139 141 140 142 XY-cross-section Arrays: w, theta, 141 XY-cross-section Arrays: w, theta, 143 142 Output every 900.00 s 144 143 Cross sections at k = /2/10/ … … 149 148 150 149 151 XZ-cross-section Arrays: w, theta, 150 XZ-cross-section Arrays: w, theta, 152 151 Output every 900.00 s 153 152 Cross sections at j = /20/ … … 190 189 f* = 0.000084 1/s 191 190 192 Day of the year at model start : day_init = 0191 Day of the year at model start : day_init = 172 193 192 UTC time at model start : time_utc_init = 43200.0 s 194 193 -
palm/trunk/TESTS/cases/example_cbl_user_code/MONITORING/example_cbl_user_code_rc
r3459 r3540 1 1 2 2 ****************************** -------------------------------------------- 3 * PALM 5.0 Rev: 3133:31* atmosphere - run without 1D - prerun3 * PALM 6.0 Rev: 3527M * atmosphere - run without 1D - prerun 4 4 ****************************** -------------------------------------------- 5 5 6 Date: 18-07-18 Run: example_cbl_47 Time: 19:19:17Run-No.: 008 Run on host: p5imuk6 Date: 2018-11-15 Run: example_cbl_user_code__intel_defau 7 Time: 21:35:50 Run-No.: 00 8 Run on host: intel_defa 9 9 Number of PEs: 4 Processor grid (x,y): ( 2, 2) calculated 10 10 ------------------------------------------------------------------------------ … … 20 20 --> Scalar advection via Wicker-Skamarock-Scheme 5th order 21 21 --> Loop optimization method: cache 22 --> Time differencing scheme: runge-kutta-3 22 --> Time differencing scheme: runge-kutta-3 23 23 ------------------------------------------------------------------------------ 24 24 … … 37 37 Grid length: dx = 50.000 m dy = 50.000 m 38 38 dz(1) = 50.000 m 39 dz(2) = 1000.000 m39 dz(2) = 999.000 m 40 40 41 41 Domain size: x = 2000.000 m y = 2000.000 m z(u) = 2862.511 m … … 69 69 ---------------------- 70 70 71 Topography: flat 71 Topography: flat 72 72 73 73 … … 77 77 p uv pt 78 78 79 B. bound.: p(0) = p(1) | uv(0) = -uv(1) | pt(0) = pt(1) 79 B. bound.: p(0) = p(1) | uv(0) = -uv(1) | pt(0) = pt(1) 80 80 T. bound.: p(nzt+1) = 0 | uv(nzt+1) = ug(nzt+1), vg(nzt+1) | pt(nzt+1) = pt(nzt) + dpt/dz_ 81 81 82 82 e 83 83 84 B. bound.: e(0) = e(1) 85 T. bound.: e(nzt+1) = e(nzt) = e(nzt-1) 84 B. bound.: e(0) = e(1) 85 T. bound.: e(nzt+1) = e(nzt) = e(nzt-1) 86 86 87 87 Bottom surface fluxes are used in diffusion terms at k=1 … … 96 96 97 97 Lateral boundaries: 98 left/right: cyclic 99 north/south: cyclic 98 left/right: cyclic 99 north/south: cyclic 100 100 101 101 … … 127 127 128 128 1D-Profiles: 129 Output format: netCDF 64bit offset 130 131 132 Profile: wtheta, w"theta", w*theta*, w*2, theta, theta*2, 129 Output format: netCDF 64bit offset 130 131 132 Profile: wtheta, w"theta", w*theta*, w*2, theta, theta*2, 133 133 Output every 900.00 s 134 134 Time averaged over 600.00 s … … 136 136 137 137 2D-Arrays: 138 Output format: netCDF 64bit offset 139 140 141 XY-cross-section Arrays: w, theta, 142 Output every 900.00 s 138 Output format: netCDF 64bit offset 139 140 141 XY-cross-section Arrays: w, theta, 142 Output every 900.00 s 143 143 Cross sections at k = /2/10/ 144 144 scalar-coordinates: /75.0/475.0/ m … … 148 148 149 149 150 XZ-cross-section Arrays: w, theta, 151 Output every 900.00 s 150 XZ-cross-section Arrays: w, theta, 151 Output every 900.00 s 152 152 Cross sections at j = /20/ 153 153 scalar-coordinates: /1000.0/ m … … 158 158 159 159 2D-Arrays(time-averaged): 160 Output format: netCDF 64bit offset 161 162 163 XZ-cross-section Arrays: w, 164 Output every 1800.00 s 160 Output format: netCDF 64bit offset 161 162 163 XZ-cross-section Arrays: w, 164 Output every 1800.00 s 165 165 Time averaged over 900.00 s 166 166 Averaging input every 10.00 s … … 173 173 174 174 Time series: 175 Output format: netCDF 64bit offset 175 Output format: netCDF 64bit offset 176 176 177 177 Output every 0.00 s … … 188 188 Coriolis parameter : f = 0.000119 1/s 189 189 f* = 0.000084 1/s 190 Day of the year at model start : day_init = 172 190 191 Day of the year at model start : day_init = 172 191 192 UTC time at model start : time_utc_init = 43200.0 s 192 193 -
palm/trunk/TESTS/cases/test_oceanml/MONITORING/test_oceanml_rc
r3459 r3540 1 1 2 2 ****************************** -------------------------------------------- 3 * PALM 5.0 Rev: 3291M * ocean - run without 1D - prerun3 * PALM 6.0 Rev: 3527M * ocean - run without 1D - prerun 4 4 ****************************** -------------------------------------------- 5 5 6 Date: 01-10-18 Run: test_oceanml7 Time: 04:15:16Run-No.: 008 Run on host: imuk6 Date: 2018-11-15 Run: test_oceanml__intel_default__4 7 Time: 21:36:07 Run-No.: 00 8 Run on host: intel_defa 9 9 Number of PEs: 4 Processor grid (x,y): ( 2, 2) calculated 10 10 ------------------------------------------------------------------------------ … … 20 20 --> Scalar advection via Piascek-Williams-Scheme (Form C3) or Upstream 21 21 --> Loop optimization method: cache 22 --> Time differencing scheme: runge-kutta-3 22 --> Time differencing scheme: runge-kutta-3 23 23 ------------------------------------------------------------------------------ 24 24 … … 64 64 ---------------------- 65 65 66 Topography: flat 66 Topography: flat 67 68 69 Ocean settings: 70 ------------------------------------------ 71 67 72 68 73 … … 72 77 p uv pt 73 78 74 B. bound.: p(0) = p(1) | uv(0) = uv(1) | pt(0) = pt(1) 75 T. bound.: p(nzt+1) = p(nzt) | uv(nzt+1) = uv(nzt) | pt(nzt+1) = pt(nzt) 79 B. bound.: p(0) = p(1) | uv(0) = uv(1) | pt(0) = pt(1) 80 T. bound.: p(nzt+1) = p(nzt) | uv(nzt+1) = uv(nzt) | pt(nzt+1) = pt(nzt) 76 81 77 82 e 78 83 79 B. bound.: e(0) = e(1) 80 T. bound.: e(nzt+1) = e(nzt) = e(nzt-1) 84 B. bound.: e(0) = e(1) 85 T. bound.: e(nzt+1) = e(nzt) = e(nzt-1) 81 86 82 87 sa 83 88 84 B. bound.: sa(0) = sa(1) 85 T. bound.: sa(nzt+1) = sa(nzt) 89 B. bound.: sa(0) = sa(1) 90 T. bound.: sa(nzt+1) = sa(nzt) 86 91 87 92 Top surface fluxes are used in diffusion terms at k=nzt … … 93 98 94 99 Lateral boundaries: 95 left/right: cyclic 96 north/south: cyclic 100 left/right: cyclic 101 north/south: cyclic 97 102 98 103 … … 127 132 128 133 1D-Profiles: 129 Output format: netCDF 64bit offset 130 131 132 Profile: e, e*, theta, 134 Output format: netCDF 64bit offset 135 136 137 Profile: e, e*, theta, 133 138 Output every ******** s 134 139 Time averaged over 0.00 s … … 136 141 137 142 Time series: 138 Output format: netCDF 64bit offset 143 Output format: netCDF 64bit offset 139 144 140 145 Output every 0.00 s -
palm/trunk/TESTS/cases/urban_environment/MONITORING/urban_environment_rc
r3449 r3540 1 1 2 2 ****************************** -------------------------------------------- 3 * PALM 5.0 Rev: 3448M * atmosphere - run initialized with COSMO data3 * PALM 6.0 Rev: 3527M * atmosphere - run initialized with COSMO data 4 4 ****************************** -------------------------------------------- 5 5 6 Date: 29-10-18 Run: urban_environment7 Time: 2 0:15:36Run-No.: 008 Run on host: lcmuk_para6 Date: 2018-11-15 Run: urban_environment__intel_default__ 7 Time: 21:35:17 Run-No.: 00 8 Run on host: intel_defa 9 9 Number of PEs: 4 Processor grid (x,y): ( 2, 2) calculated 10 10 ------------------------------------------------------------------------------ -
palm/trunk/TESTS/cases/urban_environment_restart/MONITORING/urban_environment_restart_rc
r3449 r3540 1 2 1 3 2 4 Run-control output:
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