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copy default kernel configs for newparallel
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1 import os
2
3 c = get_config()
4
5 #-----------------------------------------------------------------------------
6 # Select which launchers to use
7 #-----------------------------------------------------------------------------
8
9 # This allows you to control what method is used to start the controller
10 # and engines. The following methods are currently supported:
11 # - Start as a regular process on localhost.
12 # - Start using mpiexec.
13 # - Start using the Windows HPC Server 2008 scheduler
14 # - Start using PBS
15 # - Start using SSH (currently broken)
16
17
18 # The selected launchers can be configured below.
19
20 # Options are:
21 # - LocalControllerLauncher
22 # - MPIExecControllerLauncher
23 # - PBSControllerLauncher
24 # - WindowsHPCControllerLauncher
25 # c.Global.controller_launcher = 'IPython.kernel.launcher.LocalControllerLauncher'
26
27 # Options are:
28 # - LocalEngineSetLauncher
29 # - MPIExecEngineSetLauncher
30 # - PBSEngineSetLauncher
31 # - WindowsHPCEngineSetLauncher
32 # c.Global.engine_launcher = 'IPython.kernel.launcher.LocalEngineSetLauncher'
33
34 #-----------------------------------------------------------------------------
35 # Global configuration
36 #-----------------------------------------------------------------------------
37
38 # The default number of engines that will be started. This is overridden by
39 # the -n command line option: "ipcluster start -n 4"
40 # c.Global.n = 2
41
42 # Log to a file in cluster_dir/log, otherwise just log to sys.stdout.
43 # c.Global.log_to_file = False
44
45 # Remove old logs from cluster_dir/log before starting.
46 # c.Global.clean_logs = True
47
48 # The working directory for the process. The application will use os.chdir
49 # to change to this directory before starting.
50 # c.Global.work_dir = os.getcwd()
51
52
53 #-----------------------------------------------------------------------------
54 # Local process launchers
55 #-----------------------------------------------------------------------------
56
57 # The command line arguments to call the controller with.
58 # c.LocalControllerLauncher.controller_args = \
59 # ['--log-to-file','--log-level', '40']
60
61 # The working directory for the controller
62 # c.LocalEngineSetLauncher.work_dir = u''
63
64 # Command line argument passed to the engines.
65 # c.LocalEngineSetLauncher.engine_args = ['--log-to-file','--log-level', '40']
66
67 #-----------------------------------------------------------------------------
68 # MPIExec launchers
69 #-----------------------------------------------------------------------------
70
71 # The mpiexec/mpirun command to use in started the controller.
72 # c.MPIExecControllerLauncher.mpi_cmd = ['mpiexec']
73
74 # Additional arguments to pass to the actual mpiexec command.
75 # c.MPIExecControllerLauncher.mpi_args = []
76
77 # The command line argument to call the controller with.
78 # c.MPIExecControllerLauncher.controller_args = \
79 # ['--log-to-file','--log-level', '40']
80
81
82 # The mpiexec/mpirun command to use in started the controller.
83 # c.MPIExecEngineSetLauncher.mpi_cmd = ['mpiexec']
84
85 # Additional arguments to pass to the actual mpiexec command.
86 # c.MPIExecEngineSetLauncher.mpi_args = []
87
88 # Command line argument passed to the engines.
89 # c.MPIExecEngineSetLauncher.engine_args = ['--log-to-file','--log-level', '40']
90
91 # The default number of engines to start if not given elsewhere.
92 # c.MPIExecEngineSetLauncher.n = 1
93
94 #-----------------------------------------------------------------------------
95 # SSH launchers
96 #-----------------------------------------------------------------------------
97
98 # Todo
99
100
101 #-----------------------------------------------------------------------------
102 # Unix batch (PBS) schedulers launchers
103 #-----------------------------------------------------------------------------
104
105 # The command line program to use to submit a PBS job.
106 # c.PBSControllerLauncher.submit_command = 'qsub'
107
108 # The command line program to use to delete a PBS job.
109 # c.PBSControllerLauncher.delete_command = 'qdel'
110
111 # A regular expression that takes the output of qsub and find the job id.
112 # c.PBSControllerLauncher.job_id_regexp = r'\d+'
113
114 # The batch submission script used to start the controller. This is where
115 # environment variables would be setup, etc. This string is interpolated using
116 # the Itpl module in IPython.external. Basically, you can use ${n} for the
117 # number of engine and ${cluster_dir} for the cluster_dir.
118 # c.PBSControllerLauncher.batch_template = """"""
119
120 # The name of the instantiated batch script that will actually be used to
121 # submit the job. This will be written to the cluster directory.
122 # c.PBSControllerLauncher.batch_file_name = u'pbs_batch_script_controller'
123
124
125 # The command line program to use to submit a PBS job.
126 # c.PBSEngineSetLauncher.submit_command = 'qsub'
127
128 # The command line program to use to delete a PBS job.
129 # c.PBSEngineSetLauncher.delete_command = 'qdel'
130
131 # A regular expression that takes the output of qsub and find the job id.
132 # c.PBSEngineSetLauncher.job_id_regexp = r'\d+'
133
134 # The batch submission script used to start the engines. This is where
135 # environment variables would be setup, etc. This string is interpolated using
136 # the Itpl module in IPython.external. Basically, you can use ${n} for the
137 # number of engine and ${cluster_dir} for the cluster_dir.
138 # c.PBSEngineSetLauncher.batch_template = """"""
139
140 # The name of the instantiated batch script that will actually be used to
141 # submit the job. This will be written to the cluster directory.
142 # c.PBSEngineSetLauncher.batch_file_name = u'pbs_batch_script_engines'
143
144 #-----------------------------------------------------------------------------
145 # Windows HPC Server 2008 launcher configuration
146 #-----------------------------------------------------------------------------
147
148 # c.IPControllerJob.job_name = 'IPController'
149 # c.IPControllerJob.is_exclusive = False
150 # c.IPControllerJob.username = r'USERDOMAIN\USERNAME'
151 # c.IPControllerJob.priority = 'Highest'
152 # c.IPControllerJob.requested_nodes = ''
153 # c.IPControllerJob.project = 'MyProject'
154
155 # c.IPControllerTask.task_name = 'IPController'
156 # c.IPControllerTask.controller_cmd = [u'ipcontroller.exe']
157 # c.IPControllerTask.controller_args = ['--log-to-file', '--log-level', '40']
158 # c.IPControllerTask.environment_variables = {}
159
160 # c.WindowsHPCControllerLauncher.scheduler = 'HEADNODE'
161 # c.WindowsHPCControllerLauncher.job_file_name = u'ipcontroller_job.xml'
162
163
164 # c.IPEngineSetJob.job_name = 'IPEngineSet'
165 # c.IPEngineSetJob.is_exclusive = False
166 # c.IPEngineSetJob.username = r'USERDOMAIN\USERNAME'
167 # c.IPEngineSetJob.priority = 'Highest'
168 # c.IPEngineSetJob.requested_nodes = ''
169 # c.IPEngineSetJob.project = 'MyProject'
170
171 # c.IPEngineTask.task_name = 'IPEngine'
172 # c.IPEngineTask.engine_cmd = [u'ipengine.exe']
173 # c.IPEngineTask.engine_args = ['--log-to-file', '--log-level', '40']
174 # c.IPEngineTask.environment_variables = {}
175
176 # c.WindowsHPCEngineSetLauncher.scheduler = 'HEADNODE'
177 # c.WindowsHPCEngineSetLauncher.job_file_name = u'ipengineset_job.xml'
178
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1 from IPython.config.loader import Config
2
3 c = get_config()
4
5 #-----------------------------------------------------------------------------
6 # Global configuration
7 #-----------------------------------------------------------------------------
8
9 # Basic Global config attributes
10
11 # Start up messages are logged to stdout using the logging module.
12 # These all happen before the twisted reactor is started and are
13 # useful for debugging purposes. Can be (10=DEBUG,20=INFO,30=WARN,40=CRITICAL)
14 # and smaller is more verbose.
15 # c.Global.log_level = 20
16
17 # Log to a file in cluster_dir/log, otherwise just log to sys.stdout.
18 # c.Global.log_to_file = False
19
20 # Remove old logs from cluster_dir/log before starting.
21 # c.Global.clean_logs = True
22
23 # A list of Python statements that will be run before starting the
24 # controller. This is provided because occasionally certain things need to
25 # be imported in the controller for pickling to work.
26 # c.Global.import_statements = ['import math']
27
28 # Reuse the controller's FURL files. If False, FURL files are regenerated
29 # each time the controller is run. If True, they will be reused, *but*, you
30 # also must set the network ports by hand. If set, this will override the
31 # values set for the client and engine connections below.
32 # c.Global.reuse_furls = True
33
34 # Enable SSL encryption on all connections to the controller. If set, this
35 # will override the values set for the client and engine connections below.
36 # c.Global.secure = True
37
38 # The working directory for the process. The application will use os.chdir
39 # to change to this directory before starting.
40 # c.Global.work_dir = os.getcwd()
41
42 #-----------------------------------------------------------------------------
43 # Configure the client services
44 #-----------------------------------------------------------------------------
45
46 # Basic client service config attributes
47
48 # The network interface the controller will listen on for client connections.
49 # This should be an IP address or hostname of the controller's host. The empty
50 # string means listen on all interfaces.
51 # c.FCClientServiceFactory.ip = ''
52
53 # The TCP/IP port the controller will listen on for client connections. If 0
54 # a random port will be used. If the controller's host has a firewall running
55 # it must allow incoming traffic on this port.
56 # c.FCClientServiceFactory.port = 0
57
58 # The client learns how to connect to the controller by looking at the
59 # location field embedded in the FURL. If this field is empty, all network
60 # interfaces that the controller is listening on will be listed. To have the
61 # client connect on a particular interface, list it here.
62 # c.FCClientServiceFactory.location = ''
63
64 # Use SSL encryption for the client connection.
65 # c.FCClientServiceFactory.secure = True
66
67 # Reuse the client FURL each time the controller is started. If set, you must
68 # also pick a specific network port above (FCClientServiceFactory.port).
69 # c.FCClientServiceFactory.reuse_furls = False
70
71 #-----------------------------------------------------------------------------
72 # Configure the engine services
73 #-----------------------------------------------------------------------------
74
75 # Basic config attributes for the engine services.
76
77 # The network interface the controller will listen on for engine connections.
78 # This should be an IP address or hostname of the controller's host. The empty
79 # string means listen on all interfaces.
80 # c.FCEngineServiceFactory.ip = ''
81
82 # The TCP/IP port the controller will listen on for engine connections. If 0
83 # a random port will be used. If the controller's host has a firewall running
84 # it must allow incoming traffic on this port.
85 # c.FCEngineServiceFactory.port = 0
86
87 # The engine learns how to connect to the controller by looking at the
88 # location field embedded in the FURL. If this field is empty, all network
89 # interfaces that the controller is listening on will be listed. To have the
90 # client connect on a particular interface, list it here.
91 # c.FCEngineServiceFactory.location = ''
92
93 # Use SSL encryption for the engine connection.
94 # c.FCEngineServiceFactory.secure = True
95
96 # Reuse the client FURL each time the controller is started. If set, you must
97 # also pick a specific network port above (FCClientServiceFactory.port).
98 # c.FCEngineServiceFactory.reuse_furls = False
99
100 #-----------------------------------------------------------------------------
101 # Developer level configuration attributes
102 #-----------------------------------------------------------------------------
103
104 # You shouldn't have to modify anything in this section. These attributes
105 # are more for developers who want to change the behavior of the controller
106 # at a fundamental level.
107
108 # c.FCClientServiceFactory.cert_file = u'ipcontroller-client.pem'
109
110 # default_client_interfaces = Config()
111 # default_client_interfaces.Task.interface_chain = [
112 # 'IPython.kernel.task.ITaskController',
113 # 'IPython.kernel.taskfc.IFCTaskController'
114 # ]
115 #
116 # default_client_interfaces.Task.furl_file = u'ipcontroller-tc.furl'
117 #
118 # default_client_interfaces.MultiEngine.interface_chain = [
119 # 'IPython.kernel.multiengine.IMultiEngine',
120 # 'IPython.kernel.multienginefc.IFCSynchronousMultiEngine'
121 # ]
122 #
123 # default_client_interfaces.MultiEngine.furl_file = u'ipcontroller-mec.furl'
124 #
125 # c.FCEngineServiceFactory.interfaces = default_client_interfaces
126
127 # c.FCEngineServiceFactory.cert_file = u'ipcontroller-engine.pem'
128
129 # default_engine_interfaces = Config()
130 # default_engine_interfaces.Default.interface_chain = [
131 # 'IPython.kernel.enginefc.IFCControllerBase'
132 # ]
133 #
134 # default_engine_interfaces.Default.furl_file = u'ipcontroller-engine.furl'
135 #
136 # c.FCEngineServiceFactory.interfaces = default_engine_interfaces
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1 c = get_config()
2
3 #-----------------------------------------------------------------------------
4 # Global configuration
5 #-----------------------------------------------------------------------------
6
7 # Start up messages are logged to stdout using the logging module.
8 # These all happen before the twisted reactor is started and are
9 # useful for debugging purposes. Can be (10=DEBUG,20=INFO,30=WARN,40=CRITICAL)
10 # and smaller is more verbose.
11 # c.Global.log_level = 20
12
13 # Log to a file in cluster_dir/log, otherwise just log to sys.stdout.
14 # c.Global.log_to_file = False
15
16 # Remove old logs from cluster_dir/log before starting.
17 # c.Global.clean_logs = True
18
19 # A list of strings that will be executed in the users namespace on the engine
20 # before it connects to the controller.
21 # c.Global.exec_lines = ['import numpy']
22
23 # The engine will try to connect to the controller multiple times, to allow
24 # the controller time to startup and write its FURL file. These parameters
25 # control the number of retries (connect_max_tries) and the initial delay
26 # (connect_delay) between attemps. The actual delay between attempts gets
27 # longer each time by a factor of 1.5 (delay[i] = 1.5*delay[i-1])
28 # those attemps.
29 # c.Global.connect_delay = 0.1
30 # c.Global.connect_max_tries = 15
31
32 # By default, the engine will look for the controller's FURL file in its own
33 # cluster directory. Sometimes, the FURL file will be elsewhere and this
34 # attribute can be set to the full path of the FURL file.
35 # c.Global.furl_file = u''
36
37 # The working directory for the process. The application will use os.chdir
38 # to change to this directory before starting.
39 # c.Global.work_dir = os.getcwd()
40
41 #-----------------------------------------------------------------------------
42 # MPI configuration
43 #-----------------------------------------------------------------------------
44
45 # Upon starting the engine can be configured to call MPI_Init. This section
46 # configures that.
47
48 # Select which MPI section to execute to setup MPI. The value of this
49 # attribute must match the name of another attribute in the MPI config
50 # section (mpi4py, pytrilinos, etc.). This can also be set by the --mpi
51 # command line option.
52 # c.MPI.use = ''
53
54 # Initialize MPI using mpi4py. To use this, set c.MPI.use = 'mpi4py' to use
55 # --mpi=mpi4py at the command line.
56 # c.MPI.mpi4py = """from mpi4py import MPI as mpi
57 # mpi.size = mpi.COMM_WORLD.Get_size()
58 # mpi.rank = mpi.COMM_WORLD.Get_rank()
59 # """
60
61 # Initialize MPI using pytrilinos. To use this, set c.MPI.use = 'pytrilinos'
62 # to use --mpi=pytrilinos at the command line.
63 # c.MPI.pytrilinos = """from PyTrilinos import Epetra
64 # class SimpleStruct:
65 # pass
66 # mpi = SimpleStruct()
67 # mpi.rank = 0
68 # mpi.size = 0
69 # """
70
71 #-----------------------------------------------------------------------------
72 # Developer level configuration attributes
73 #-----------------------------------------------------------------------------
74
75 # You shouldn't have to modify anything in this section. These attributes
76 # are more for developers who want to change the behavior of the controller
77 # at a fundamental level.
78
79 # You should not have to change these attributes.
80
81 # c.Global.shell_class = 'IPython.kernel.core.interpreter.Interpreter'
82
83 # c.Global.furl_file_name = u'ipcontroller-engine.furl'
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