def _getHandles(self, systemConfig, subConfigSettings):
pclient = self.remote.pclient
dview = self.remote.dview
lview = self.remote.lview
subConfigs = self._gen25DSubConfigs(**subConfigSettings)
nsp = len(subConfigs)
# Set up dictionary for subproblem objects and push base configuration for the system
dview['localSystem'] = {}
self.remote[
'baseSystemConfig'] = systemConfig # Faster if MPI is available
dview['dPred'] = CommonReducer()
dview['fWave'] = CommonReducer()
dview['bWave'] = CommonReducer()
dview['forwardFromTagAccumulate'] = forwardFromTagAccumulate
dview['forwardFromTagAccumulateAll'] = forwardFromTagAccumulateAll
dview['backpropFromTagAccumulate'] = backpropFromTagAccumulate
dview['backpropFromTagAccumulateAll'] = backpropFromTagAccumulateAll
dview['clearFromTag'] = clearFromTag
dview.wait()
schedule = {
'forward': {
'solve': Reference('forwardFromTagAccumulateAll'),
'clear': Reference('clearFromTag'),
'reduce': ['dPred', 'fWave']
},
'backprop': {
'solve': Reference('backpropFromTagAccumulateAll'),
'clear': Reference('clearFromTag'),
'reduce': ['bWave']
},
}
self.systemsolver = SystemSolver(self, schedule)
if 'parFac' in systemConfig:
parFac = systemConfig['parFac']
else:
parFac = 1
while parFac > 0:
tags = lview.map_sync(setupSystem, subConfigs)
parFac -= 1
def _getHandles(self, systemConfig, subConfigSettings):
pclient = self.remote.pclient
dview = self.remote.dview
lview = self.remote.lview
subConfigs = self._gen25DSubConfigs(**subConfigSettings)
nsp = len(subConfigs)
# Set up dictionary for subproblem objects and push base configuration for the system
dview['localSystem'] = {}
self.remote['baseSystemConfig'] = systemConfig # Faster if MPI is available
dview['dPred'] = CommonReducer()
dview['fWave'] = CommonReducer()
dview['bWave'] = CommonReducer()
dview['forwardFromTagAccumulate'] = forwardFromTagAccumulate
dview['forwardFromTagAccumulateAll'] = forwardFromTagAccumulateAll
dview['backpropFromTagAccumulate'] = backpropFromTagAccumulate
dview['backpropFromTagAccumulateAll'] = backpropFromTagAccumulateAll
dview['clearFromTag'] = clearFromTag
dview.wait()
schedule = {
'forward': {'solve': Reference('forwardFromTagAccumulateAll'), 'clear': Reference('clearFromTag'), 'reduce': ['dPred', 'fWave']},
'backprop': {'solve': Reference('backpropFromTagAccumulateAll'), 'clear': Reference('clearFromTag'), 'reduce': ['bWave']},
}
self.systemsolver = SystemSolver(self, schedule)
if 'parFac' in systemConfig:
parFac = systemConfig['parFac']
else:
parFac = 1
while parFac > 0:
tags = lview.map_sync(setupSystem, subConfigs)
parFac -= 1
class SeisFDFDDispatcher(object):
"""
Base problem class for FDFD (Frequency Domain Finite Difference)
modelling of systems for seismic imaging.
"""
#surveyPair = Survey.BaseSurvey
#dataPair = Survey.Data
systemConfig = {}
Solver = SimpegSolver
solverOpts = {}
def __init__(self, systemConfig, **kwargs):
self.systemConfig = systemConfig.copy()
hx = [(self.systemConfig['dx'], self.systemConfig['nx'] - 1)]
hz = [(self.systemConfig['dz'], self.systemConfig['nz'] - 1)]
self.mesh = Mesh.TensorMesh([hx, hz], '00')
# NB: Remember to set up something to do geometry conversion
# from origin geometry to local geometry. Functions that
# wrap the geometry vectors are probably easiest.
splitkeys = ['freqs', 'nky']
subConfigSettings = {}
for key in splitkeys:
value = self.systemConfig.pop(key, None)
if value is not None:
subConfigSettings[key] = value
self._subConfigSettings = subConfigSettings
self.remote = RemoteInterface(systemConfig.get('profile', None),
systemConfig.get('MPI', None))
dview = self.remote.dview
code = '''
import numpy as np
import scipy as scipy
import scipy.sparse
import SimPEG
import zephyr.Kernel as Kernel
'''
for command in code.strip().split('\n'):
dview.execute(command.strip())
localcache = ['chunksPerWorker', 'ensembleClear']
for key in localcache:
if key in self.systemConfig:
setattr(self, '_%s' % (key, ), systemConfig[key])
self.rebuildSystem()
def _getHandles(self, systemConfig, subConfigSettings):
pclient = self.remote.pclient
dview = self.remote.dview
lview = self.remote.lview
subConfigs = self._gen25DSubConfigs(**subConfigSettings)
nsp = len(subConfigs)
# Set up dictionary for subproblem objects and push base configuration for the system
dview['localSystem'] = {}
self.remote[
'baseSystemConfig'] = systemConfig # Faster if MPI is available
dview['dPred'] = CommonReducer()
dview['fWave'] = CommonReducer()
dview['bWave'] = CommonReducer()
dview['forwardFromTagAccumulate'] = forwardFromTagAccumulate
dview['forwardFromTagAccumulateAll'] = forwardFromTagAccumulateAll
dview['backpropFromTagAccumulate'] = backpropFromTagAccumulate
dview['backpropFromTagAccumulateAll'] = backpropFromTagAccumulateAll
dview['clearFromTag'] = clearFromTag
dview.wait()
schedule = {
'forward': {
'solve': Reference('forwardFromTagAccumulateAll'),
'clear': Reference('clearFromTag'),
'reduce': ['dPred', 'fWave']
},
'backprop': {
'solve': Reference('backpropFromTagAccumulateAll'),
'clear': Reference('clearFromTag'),
'reduce': ['bWave']
},
}
self.systemsolver = SystemSolver(self, schedule)
if 'parFac' in systemConfig:
parFac = systemConfig['parFac']
else:
parFac = 1
while parFac > 0:
tags = lview.map_sync(setupSystem, subConfigs)
parFac -= 1
def _gen25DSubConfigs(self, freqs, nky, cmin):
result = []
weightfac = 1. / (2 * nky -
1) if nky > 1 else 1. # alternatively, 1/dky
for ifreq, freq in enumerate(freqs):
k_c = freq / cmin
dky = k_c / (nky - 1) if nky > 1 else 0.
for iky, ky in enumerate(np.linspace(0, k_c, nky)):
result.append({
'freq': freq,
'ky': ky,
'kyweight': 2 * weightfac if ky != 0 else weightfac,
'ifreq': ifreq,
'iky': iky,
})
return result
# Fields
def forward(self):
if self.srcs is None:
raise Exception('Transmitters not defined!')
if not self.solvedF:
dview = self.remote.dview
dview['dPred'] = CommonReducer()
dview['fWave'] = CommonReducer()
self.forwardGraph = self.systemsolver('forward',
slice(len(self.srcs)))
def backprop(self, dresid=None):
if self.srcs is None:
raise Exception('Transmitters not defined!')
# if not self.dresid:
# raise Exception('Data residuals not defined!')
if not self.solvedB:
dview = self.remote.dview
dview['bWave'] = CommonReducer()
self.backpropGraph = self.systemsolver('backprop',
slice(len(self.srcs)))
def rebuildSystem(self, c=None):
if c is not None:
self.systemConfig['c'] = c
self.rebuildSystem()
return
if hasattr(self, 'forwardGraph'):
del self.forwardGraph
if hasattr(self, 'backpropGraph'):
del self.backpropGraph
self._solvedF = False
self._solvedB = False
self._residualPrecomputed = False
self._misfit = None
self._subConfigSettings['cmin'] = self.systemConfig['c'].min()
subConfigs = self._gen25DSubConfigs(**self._subConfigSettings)
nsp = len(subConfigs)
#self.curModel = self.systemConfig['c'].ravel()
self._handles = self._getHandles(self.systemConfig,
self._subConfigSettings)
@property
def srcs(self):
if getattr(self, '_srcs', None) is None:
self._srcs = None
return self._srcs
@srcs.setter
def srcs(self, value):
self._srcs = value
self.rebuildSystem()
self.remote['srcs'] = self._srcs
@property
def solvedF(self):
if getattr(self, '_solvedF', None) is None:
self._solvedF = False
if hasattr(self, 'forwardGraph'):
self.systemsolver.wait(self.forwardGraph)
self._solvedF = True
return self._solvedF
@property
def solvedB(self):
if getattr(self, '_solvedB', None) is None:
self._solvedB = False
if hasattr(self, 'backpropGraph'):
self.systemsolver.wait(self.backpropGraph)
self._solvedB = True
return self._solvedB
@property
def uF(self):
if self.solvedF:
return self.remote.reduce('fWave').reshape(self.fieldDims)
else:
return None
@property
def uB(self):
if self.solvedB:
return self.remote.reduce('bWave').reshape(self.fieldDims)
else:
return None
@property
def dPred(self):
if self.solvedF:
return self.remote.reduce('dPred')
else:
return None
@property
def g(self):
if self.solvedF and self.solvedB:
return self.remote.reduceMul('fWave', 'bWave',
axis=0).reshape(self.modelDims)
else:
return None
@property
def dObs(self):
return getattr(self, '_dobs', None)
@dObs.setter
def dObs(self, value):
self._dobs = CommonReducer(value)
self.remote['dObs'] = self._dobs
def _computeResidual(self):
if not self.solvedF:
raise Exception('Forward problem has not been solved yet!')
if self.dObs is None:
raise Exception('No observed data has been defined!')
if getattr(self, '_residualPrecomputed', None) is None:
self._residualPrecomputed = False
if not self._residualPrecomputed:
self.remote.remoteDifferenceGatherFirst('dPred', 'dObs', 'dResid')
#self.remote.dview.execute('dResid = CommonReducer({key: np.log(dResid[key]).real for key in dResid.keys()}')
self._residualPrecomputed = True
@property
def residual(self):
if self.solvedF:
self._computeResidual()
return self.remote.e0['dResid']
else:
return None
# A day may come when it may be useful to set this, or to set dPred; but it is not this day!
# @residual.setter
# def residual(self, value):
# self.remote['dResid'] = CommonReducer(value)
@property
def misfit(self):
if self.solvedF:
if getattr(self, '_misfit', None) is None:
self._computeResidual()
self._misfit = self.remote.normFromDifference('dResid')
return self._misfit
else:
return None
@property
def nx(self):
return self.systemConfig['nx']
@property
def nz(self):
return self.systemConfig['nz']
@property
def nsrc(self):
return len(self.systemConfig['geom']['src'])
@property
def modelDims(self):
return (self.nz, self.nx)
@property
def fieldDims(self):
return (self.nsrc, self.nz, self.nx)
@property
def remoteFieldDims(self):
return (self.nsrc, self.nz * self.nx)
def spawnInterfaces(self):
self.survey = SurveyHelm(self)
self.problem = ProblemHelm(self)
self.survey.pair(self.problem)
return self.survey, self.problem
@property
def chunksPerWorker(self):
return getattr(self, '_chunksPerWorker', 1)
@property
def ensembleClear(self):
return getattr(self, '_ensembleClear', False)
class SeisFDFDDispatcher(object):
"""
Base problem class for FDFD (Frequency Domain Finite Difference)
modelling of systems for seismic imaging.
"""
#surveyPair = Survey.BaseSurvey
#dataPair = Survey.Data
systemConfig = {}
Solver = SimpegSolver
solverOpts = {}
def __init__(self, systemConfig, **kwargs):
self.systemConfig = systemConfig.copy()
hx = [(self.systemConfig['dx'], self.systemConfig['nx']-1)]
hz = [(self.systemConfig['dz'], self.systemConfig['nz']-1)]
self.mesh = Mesh.TensorMesh([hx, hz], '00')
# NB: Remember to set up something to do geometry conversion
# from origin geometry to local geometry. Functions that
# wrap the geometry vectors are probably easiest.
splitkeys = ['freqs', 'nky']
subConfigSettings = {}
for key in splitkeys:
value = self.systemConfig.pop(key, None)
if value is not None:
subConfigSettings[key] = value
self._subConfigSettings = subConfigSettings
self.remote = RemoteInterface(systemConfig.get('profile', None), systemConfig.get('MPI', None))
dview = self.remote.dview
code = '''
import numpy as np
import scipy as scipy
import scipy.sparse
import SimPEG
import zephyr.Kernel as Kernel
'''
for command in code.strip().split('\n'):
dview.execute(command.strip())
localcache = ['chunksPerWorker', 'ensembleClear']
for key in localcache:
if key in self.systemConfig:
setattr(self, '_%s'%(key,), systemConfig[key])
self.rebuildSystem()
def _getHandles(self, systemConfig, subConfigSettings):
pclient = self.remote.pclient
dview = self.remote.dview
lview = self.remote.lview
subConfigs = self._gen25DSubConfigs(**subConfigSettings)
nsp = len(subConfigs)
# Set up dictionary for subproblem objects and push base configuration for the system
dview['localSystem'] = {}
self.remote['baseSystemConfig'] = systemConfig # Faster if MPI is available
dview['dPred'] = CommonReducer()
dview['fWave'] = CommonReducer()
dview['bWave'] = CommonReducer()
dview['forwardFromTagAccumulate'] = forwardFromTagAccumulate
dview['forwardFromTagAccumulateAll'] = forwardFromTagAccumulateAll
dview['backpropFromTagAccumulate'] = backpropFromTagAccumulate
dview['backpropFromTagAccumulateAll'] = backpropFromTagAccumulateAll
dview['clearFromTag'] = clearFromTag
dview.wait()
schedule = {
'forward': {'solve': Reference('forwardFromTagAccumulateAll'), 'clear': Reference('clearFromTag'), 'reduce': ['dPred', 'fWave']},
'backprop': {'solve': Reference('backpropFromTagAccumulateAll'), 'clear': Reference('clearFromTag'), 'reduce': ['bWave']},
}
self.systemsolver = SystemSolver(self, schedule)
if 'parFac' in systemConfig:
parFac = systemConfig['parFac']
else:
parFac = 1
while parFac > 0:
tags = lview.map_sync(setupSystem, subConfigs)
parFac -= 1
def _gen25DSubConfigs(self, freqs, nky, cmin):
result = []
weightfac = 1./(2*nky - 1) if nky > 1 else 1.# alternatively, 1/dky
for ifreq, freq in enumerate(freqs):
k_c = freq / cmin
dky = k_c / (nky - 1) if nky > 1 else 0.
for iky, ky in enumerate(np.linspace(0, k_c, nky)):
result.append({
'freq': freq,
'ky': ky,
'kyweight': 2*weightfac if ky != 0 else weightfac,
'ifreq': ifreq,
'iky': iky,
})
return result
# Fields
def forward(self):
if self.srcs is None:
raise Exception('Transmitters not defined!')
if not self.solvedF:
dview = self.remote.dview
dview['dPred'] = CommonReducer()
dview['fWave'] = CommonReducer()
self.forwardGraph = self.systemsolver('forward', slice(len(self.srcs)))
def backprop(self, dresid=None):
if self.srcs is None:
raise Exception('Transmitters not defined!')
# if not self.dresid:
# raise Exception('Data residuals not defined!')
if not self.solvedB:
dview = self.remote.dview
dview['bWave'] = CommonReducer()
self.backpropGraph = self.systemsolver('backprop', slice(len(self.srcs)))
def rebuildSystem(self, c = None):
if c is not None:
self.systemConfig['c'] = c
self.rebuildSystem()
return
if hasattr(self, 'forwardGraph'):
del self.forwardGraph
if hasattr(self, 'backpropGraph'):
del self.backpropGraph
self._solvedF = False
self._solvedB = False
self._residualPrecomputed = False
self._misfit = None
self._subConfigSettings['cmin'] = self.systemConfig['c'].min()
subConfigs = self._gen25DSubConfigs(**self._subConfigSettings)
nsp = len(subConfigs)
#self.curModel = self.systemConfig['c'].ravel()
self._handles = self._getHandles(self.systemConfig, self._subConfigSettings)
@property
def srcs(self):
if getattr(self, '_srcs', None) is None:
self._srcs = None
return self._srcs
@srcs.setter
def srcs(self, value):
self._srcs = value
self.rebuildSystem()
self.remote['srcs'] = self._srcs
@property
def solvedF(self):
if getattr(self, '_solvedF', None) is None:
self._solvedF = False
if hasattr(self, 'forwardGraph'):
self.systemsolver.wait(self.forwardGraph)
self._solvedF = True
return self._solvedF
@property
def solvedB(self):
if getattr(self, '_solvedB', None) is None:
self._solvedB = False
if hasattr(self, 'backpropGraph'):
self.systemsolver.wait(self.backpropGraph)
self._solvedB = True
return self._solvedB
@property
def uF(self):
if self.solvedF:
return self.remote.reduce('fWave').reshape(self.fieldDims)
else:
return None
@property
def uB(self):
if self.solvedB:
return self.remote.reduce('bWave').reshape(self.fieldDims)
else:
return None
@property
def dPred(self):
if self.solvedF:
return self.remote.reduce('dPred')
else:
return None
@property
def g(self):
if self.solvedF and self.solvedB:
return self.remote.reduceMul('fWave', 'bWave', axis=0).reshape(self.modelDims)
else:
return None
@property
def dObs(self):
return getattr(self, '_dobs', None)
@dObs.setter
def dObs(self, value):
self._dobs = CommonReducer(value)
self.remote['dObs'] = self._dobs
def _computeResidual(self):
if not self.solvedF:
raise Exception('Forward problem has not been solved yet!')
if self.dObs is None:
raise Exception('No observed data has been defined!')
if getattr(self, '_residualPrecomputed', None) is None:
self._residualPrecomputed = False
if not self._residualPrecomputed:
self.remote.remoteDifferenceGatherFirst('dPred', 'dObs', 'dResid')
#self.remote.dview.execute('dResid = CommonReducer({key: np.log(dResid[key]).real for key in dResid.keys()}')
self._residualPrecomputed = True
@property
def residual(self):
if self.solvedF:
self._computeResidual()
return self.remote.e0['dResid']
else:
return None
# A day may come when it may be useful to set this, or to set dPred; but it is not this day!
# @residual.setter
# def residual(self, value):
# self.remote['dResid'] = CommonReducer(value)
@property
def misfit(self):
if self.solvedF:
if getattr(self, '_misfit', None) is None:
self._computeResidual()
self._misfit = self.remote.normFromDifference('dResid')
return self._misfit
else:
return None
@property
def nx(self):
return self.systemConfig['nx']
@property
def nz(self):
return self.systemConfig['nz']
@property
def nsrc(self):
return len(self.systemConfig['geom']['src'])
@property
def modelDims(self):
return (self.nz, self.nx)
@property
def fieldDims(self):
return (self.nsrc, self.nz, self.nx)
@property
def remoteFieldDims(self):
return (self.nsrc, self.nz*self.nx)
def spawnInterfaces(self):
self.survey = SurveyHelm(self)
self.problem = ProblemHelm(self)
self.survey.pair(self.problem)
return self.survey, self.problem
@property
def chunksPerWorker(self):
return getattr(self, '_chunksPerWorker', 1)
@property
def ensembleClear(self):
return getattr(self, '_ensembleClear', False)
