source: issm/trunk/test/NightlyRun/test252.py@ 27347

Last change on this file since 27347 was 27347, checked in by Mathieu Morlighem, 2 years ago

merged trunk-jpl and trunk for revision 27344
File size: 7.9 KB
Line 
1#Test Name: SquareShelfSMBGembClim
2from socket import gethostname
3import sys
4
5import numpy as np
6
7from model import *
8from parameterize import *
9from setflowequation import *
10from setmask import *
11from SMBgemb import *
12from solve import *
13from triangle import *
14
15md = triangle(model(), '../Exp/Square.exp', 350000.)
16md = setmask(md, 'all', '')
17md = parameterize(md, '../Par/SquareShelf.py')
18md = setflowequation(md, 'SSA', 'all')
19md.materials.rho_ice = 910
20md.cluster = generic('name', gethostname(), 'np', 3)
21
22#Use of Gemb method for SMB computation
23md.smb = SMBgemb(md.mesh, md.geometry)
24md.smb.dsnowIdx = 4
25md.smb.swIdx = 1
26md.smb.tcIdx = 2
27
28#load hourly surface forcing date from 1979 to 2009:
29if sys.version_info.major == 2:
30 inputs = np.load('../Data/gemb_input.npy', allow_pickle=True).item()
31else:
32 inputs = np.load('../Data/gemb_input.npy', allow_pickle=True, encoding='bytes').item()
33
34#setup the inputs:
35md.smb.Ta = np.append(np.tile(np.conjugate(inputs[b'Ta0']), (md.mesh.numberofelements, 1)), np.conjugate([inputs[b'dateN']]), axis=0)
36md.smb.V = np.append(np.tile(np.conjugate(inputs[b'V0']), (md.mesh.numberofelements, 1)), np.conjugate([inputs[b'dateN']]), axis=0)
37md.smb.dswrf = np.append(np.tile(np.conjugate(inputs[b'dsw0']), (md.mesh.numberofelements, 1)), np.conjugate([inputs[b'dateN']]), axis=0)
38md.smb.dlwrf = np.append(np.tile(np.conjugate(inputs[b'dlw0']), (md.mesh.numberofelements, 1)), np.conjugate([inputs[b'dateN']]), axis=0)
39md.smb.P = np.append(np.tile(np.conjugate(inputs[b'P0']), (md.mesh.numberofelements, 1)), np.conjugate([inputs[b'dateN']]), axis=0)
40md.smb.eAir = np.append(np.tile(np.conjugate(inputs[b'eAir0']), (md.mesh.numberofelements, 1)), np.conjugate([inputs[b'dateN']]), axis=0)
41md.smb.pAir = np.append(np.tile(np.conjugate(inputs[b'pAir0']), (md.mesh.numberofelements, 1)), np.conjugate([inputs[b'dateN']]), axis=0)
42md.smb.Vz = np.tile(np.conjugate(inputs[b'LP']['Vz']), (md.mesh.numberofelements, 1)).flatten()
43md.smb.Tz = np.tile(np.conjugate(inputs[b'LP']['Tz']), (md.mesh.numberofelements, 1)).flatten()
44md.smb.Tmean = np.tile(np.conjugate(inputs[b'LP']['Tmean']), (md.mesh.numberofelements, 1)).flatten()
45md.smb.C = np.tile(np.conjugate(inputs[b'LP']['C']), (md.mesh.numberofelements, 1)).flatten()
46
47md.smb.Ta = md.smb.Ta[:, 0:365 * 8]
48md.smb.V = md.smb.V[:, 0:365 * 8]
49md.smb.dswrf = md.smb.dswrf[:, 0:365 * 8]
50md.smb.dlwrf = md.smb.dlwrf[:, 0:365 * 8]
51md.smb.P = md.smb.P[:, 0:365 * 8]
52md.smb.eAir = md.smb.eAir[:, 0:365 * 8]
53md.smb.pAir = md.smb.pAir[:, 0:365 * 8]
54
55md.timestepping.cycle_forcing = 1
56
57#smb settings
58md.smb.requested_outputs = ['SmbDz', 'SmbT', 'SmbD', 'SmbRe', 'SmbGdn', 'SmbGsp', 'SmbEC', 'SmbA', 'SmbMassBalance', 'SmbMAdd', 'SmbDzAdd', 'SmbFAC']
59
60#only run smb core:
61md.transient.isstressbalance = 0
62md.transient.ismasstransport = 0
63md.transient.isthermal = 0
64
65#time stepping:
66md.timestepping.start_time = 1965.6
67md.timestepping.final_time = 1966.6
68md.timestepping.time_step = 1. / 365.0
69md.timestepping.interp_forcing = 0.
70
71#Run transient
72md = solve(md, 'Transient')
73
74nlayers = md.results.TransientSolution[0].SmbT.shape[1]
75for i in range(1, len(md.results.TransientSolution)):
76 nlayers = np.minimum(md.results.TransientSolution[i].SmbT.shape[1], nlayers)
77
78#Fields and tolerances to track changes
79field_names = ['Layers', 'SmbDz1', 'SmbT1', 'SmbD1', 'SmbRe1', 'SmbGdn1', 'SmbGsp1', 'SmbA1', 'SmbEC1', 'SmbMassBalance1', 'SmbMAdd1', 'SmbDzAdd1', 'SmbFAC1',
80 'SmbDz2', 'SmbT2', 'SmbD2', 'SmbRe2', 'SmbGdn2', 'SmbGsp2', 'SmbA2', 'SmbEC2', 'SmbMassBalance2', 'SmbMAdd2', 'SmbDzAdd2', 'SmbFAC2',
81 'SmbDz3', 'SmbT3', 'SmbD3', 'SmbRe3', 'SmbGdn3', 'SmbGsp3', 'SmbA3', 'SmbEC3', 'SmbMassBalance3', 'SmbMAdd3', 'SmbDzAdd3', 'SmbFAC3',
82 'SmbDz4', 'SmbT4', 'SmbD4', 'SmbRe4', 'SmbGdn4', 'SmbGsp4', 'SmbA4', 'SmbEC4', 'SmbMassBalance4', 'SmbMAdd4', 'SmbDzAdd4', 'SmbFAC4']
83field_tolerances = [1e-12, 1e-12, 1e-12, 1e-12, 1e-12, 1e-12, 1e-12, 1e-12, 1e-12, 1e-12, 1e-12, 1e-12, 1e-12,
84 1e-12, 1e-12, 1e-11, 1e-10, 2e-11, 1e-11, 1e-12, 1e-11, 1e-12, 1e-12, 1e-12, 1e-11,
85 1e-12, 1e-12, 2e-12, 2e-11, 4e-11, 1e-11, 1e-12, 2e-11, 2e-11, 1e-12, 1e-12, 1e-11,
86 1e-11, 1e-11, 4e-11, 4e-11, 2e-11, 4e-11, 1e-12, 3e-12, 1e-10, 1e-12, 1e-12, 2e-11]
87# Shape is different in python solution (fixed using reshape) which can cause test failure
88field_values = [nlayers,
89 md.results.TransientSolution[0].SmbDz[0, 0:nlayers].reshape(1, -1),
90 md.results.TransientSolution[0].SmbT[0, 0:nlayers].reshape(1, -1),
91 md.results.TransientSolution[0].SmbD[0, 0:nlayers].reshape(1, -1),
92 md.results.TransientSolution[0].SmbRe[0, 0:nlayers].reshape(1, -1),
93 md.results.TransientSolution[0].SmbGdn[0, 0:nlayers].reshape(1, -1),
94 md.results.TransientSolution[0].SmbGsp[0, 0:nlayers].reshape(1, -1),
95 md.results.TransientSolution[0].SmbA[0, 0:nlayers].reshape(1, -1),
96 md.results.TransientSolution[0].SmbEC[0],
97 md.results.TransientSolution[0].SmbMassBalance[0],
98 md.results.TransientSolution[0].SmbMAdd[0],
99 md.results.TransientSolution[0].SmbDzAdd[0],
100 md.results.TransientSolution[0].SmbFAC[0],
101 md.results.TransientSolution[145].SmbDz[0, 0:nlayers].reshape(1, -1),
102 md.results.TransientSolution[145].SmbT[0, 0:nlayers].reshape(1, -1),
103 md.results.TransientSolution[145].SmbD[0, 0:nlayers].reshape(1, -1),
104 md.results.TransientSolution[145].SmbRe[0, 0:nlayers].reshape(1, -1),
105 md.results.TransientSolution[145].SmbGdn[0, 0:nlayers].reshape(1, -1),
106 md.results.TransientSolution[145].SmbGsp[0, 0:nlayers].reshape(1, -1),
107 md.results.TransientSolution[145].SmbA[0, 0:nlayers].reshape(1, -1),
108 md.results.TransientSolution[145].SmbEC[0],
109 md.results.TransientSolution[145].SmbMassBalance[0],
110 md.results.TransientSolution[145].SmbMAdd[0],
111 md.results.TransientSolution[145].SmbDzAdd[0],
112 md.results.TransientSolution[145].SmbFAC[0],
113 md.results.TransientSolution[146].SmbDz[0, 0:nlayers].reshape(1, -1),
114 md.results.TransientSolution[146].SmbT[0, 0:nlayers].reshape(1, -1),
115 md.results.TransientSolution[146].SmbD[0, 0:nlayers].reshape(1, -1),
116 md.results.TransientSolution[146].SmbRe[0, 0:nlayers].reshape(1, -1),
117 md.results.TransientSolution[146].SmbGdn[0, 0:nlayers].reshape(1, -1),
118 md.results.TransientSolution[146].SmbGsp[0, 0:nlayers].reshape(1, -1),
119 md.results.TransientSolution[146].SmbA[0, 0:nlayers].reshape(1, -1),
120 md.results.TransientSolution[146].SmbEC[0],
121 md.results.TransientSolution[146].SmbMassBalance[0],
122 md.results.TransientSolution[146].SmbMAdd[0],
123 md.results.TransientSolution[146].SmbDzAdd[0],
124 md.results.TransientSolution[146].SmbFAC[0],
125 md.results.TransientSolution[-1].SmbDz[0, 0:nlayers].reshape(1, -1),
126 md.results.TransientSolution[-1].SmbT[0, 0:nlayers].reshape(1, -1),
127 md.results.TransientSolution[-1].SmbD[0, 0:nlayers].reshape(1, -1),
128 md.results.TransientSolution[-1].SmbRe[0, 0:nlayers].reshape(1, -1),
129 md.results.TransientSolution[-1].SmbGdn[0, 0:nlayers].reshape(1, -1),
130 md.results.TransientSolution[-1].SmbGsp[0, 0:nlayers].reshape(1, -1),
131 md.results.TransientSolution[-1].SmbA[0, 0:nlayers].reshape(1, -1),
132 md.results.TransientSolution[-1].SmbEC[0],
133 md.results.TransientSolution[-1].SmbMassBalance[0],
134 md.results.TransientSolution[-1].SmbMAdd[0],
135 md.results.TransientSolution[-1].SmbDzAdd[0],
136 md.results.TransientSolution[-1].SmbFAC[0]]
Note: See TracBrowser for help on using the repository browser.