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slsDetectorPackage/python/slsdet/detector.py
Dhanya Thattil 1bc4994be6
G2parallel (#514) 
* g2: non parallel added
2022-08-16 09:35:39 +02:00

3648 lines
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# SPDX-License-Identifier: LGPL-3.0-or-other
# Copyright (C) 2021 Contributors to the SLS Detector Package
from _slsdet import CppDetectorApi
from _slsdet import slsDetectorDefs
from _slsdet import IpAddr, MacAddr
runStatus = slsDetectorDefs.runStatus
timingMode = slsDetectorDefs.timingMode
speedLevel = slsDetectorDefs.speedLevel
dacIndex = slsDetectorDefs.dacIndex
detectorType = slsDetectorDefs.detectorType
streamingInterface = slsDetectorDefs.streamingInterface
defs = slsDetectorDefs
from .utils import element_if_equal, all_equal, get_set_bits, list_to_bitmask
from .utils import Geometry, to_geo, element, reduce_time, is_iterable
from _slsdet import xy
from . import utils as ut
from .proxy import JsonProxy, SlowAdcProxy, ClkDivProxy, MaxPhaseProxy, ClkFreqProxy, PatLoopProxy, PatNLoopProxy, PatWaitProxy, PatWaitTimeProxy
from .registers import Register, Adc_register
import datetime as dt
from functools import wraps
from collections import namedtuple
import socket
import numpy as np
def freeze(cls):
"""
Decorator to prevent assignments to not existing properties.
Protects for example form typos when setting exptime etc.
"""
cls._frozen = False
def frozensetattr(self, key, value):
if self._frozen and not key in dir(self):
raise AttributeError(
"Class {} is frozen. Cannot set {} = {}".format(
cls.__name__, key, value
)
)
else:
object.__setattr__(self, key, value)
def init_decorator(func):
@wraps(func)
def wrapper(self, *args, **kwargs):
func(self, *args, **kwargs)
self._frozen = True
return wrapper
cls.__setattr__ = frozensetattr
cls.__init__ = init_decorator(cls.__init__)
return cls
@freeze
class Detector(CppDetectorApi):
"""
This class is the base for detector specific
interfaces. Most functions exists in two versions
like the getExptime() function that uses the
C++ API directly and the simplified exptime property.
"""
def __init__(self, multi_id=0):
"""
multi_id refers to the shared memory id of the
slsDetectorPackage. Default value is 0.
"""
super().__init__(multi_id)
self._register = Register(self)
self._adc_register = Adc_register(self)
# CONFIGURATION
def __len__(self):
"""Number of modules in shared memory."""
return self.size()
@property
def nmod(self):
"""Number of modules in shared memory."""
return self.size()
def __repr__(self):
return "{}(id = {})".format(self.__class__.__name__, self.getShmId())
def free(self):
"""Free detector shared memory"""
self.freeSharedMemory()
@property
def config(self):
"""Load configuration file.
Note
-----
Frees shared memory before loading configuration file.
Set up once.
:getter: Not implemented
:setter: Loads config file
Example
-----------
>>> d.config = "/path/to/config/file.config"
"""
return NotImplementedError("config is set only")
@config.setter
def config(self, fname):
fname = ut.make_string_path(fname)
self.loadConfig(fname)
@property
def parameters(self):
"""Sets detector measurement parameters to those contained in fname.
Set up per measurement.
Note
-----
Equivalent to config, but does not free shared memory.
:getter: Not implemented
:setter: loads parameters file
Example
---------
>>> d.parameters = 'path/to/file.par'
"""
return NotImplementedError("parameters is set only")
@parameters.setter
def parameters(self, value):
if isinstance(value, str):
value = ut.make_string_path(value)
self.loadParameters(value)
@property
def hostname(self):
"""Frees shared memory and sets hostname (or IP address) of all modules concatenated by +
Virtual servers can already use the port in hostname separated by ':' and ports incremented by 2 to accomodate the stop server as well.
Example
-------
>>> d.hostname = 'beb031+beb032+'
>>> d.hostname = 'localhost:1912+localhost:1914+'
>>> d.hostname
['localhost']
"""
return self.getHostname()
@hostname.setter
def hostname(self, hostnames):
if isinstance(hostnames, str):
hostnames = [hostnames]
if isinstance(hostnames, list):
self.setHostname(hostnames)
else:
raise ValueError("hostname needs to be string or list of strings")
@property
@element
def port(self):
"""
Port number of the control server on detector for detector-client tcp interface.
Note
----
Default is 1952. Normally unchanged. \n
Set different ports for virtual servers on same pc.
"""
return self.getControlPort()
@port.setter
def port(self, value):
ut.set_using_dict(self.setControlPort, value)
@property
@element
def stopport(self):
"""Port number of the stop server on detector for detector-client tcp interface.
Note
----
Default is 1953. Normally unchanged.
"""
return self.getStopPort()
@stopport.setter
def stopport(self, args):
ut.set_using_dict(self.setStopPort, args)
@property
@element
def firmwareversion(self):
"""
Fimware version of detector in format [0xYYMMDD] or an increasing 2 digit number for Eiger.
Example
-------
>>> d.firmwareversion
'0x200910'
"""
return ut.lhex(self.getFirmwareVersion())
@property
@element
def detectorserverversion(self):
"""
On-board detector server software version in format [0xYYMMDD]
Example
-------
>>> d.detectorserverversion
'0x200910'
"""
return ut.lhex(self.getDetectorServerVersion())
@property
@element
def kernelversion(self):
"""
Kernel version on the detector including time and date
Example
-------
>>> d.kernelversion
'#37 PREEMPT Thu Oct 13 14:51:04 CEST 2016'
"""
return self.getKernelVersion()
@property
def clientversion(self):
"""Client software version in format [YYMMDD]
Example
-------
>>> d.clientversion
'0x200810'
"""
return hex(self.getClientVersion())
@property
@element
def rx_version(self):
"""Receiver version in format [0xYYMMDD]."""
return ut.lhex(self.getReceiverVersion())
@property
@element
def rx_threads(self):
"""
Get thread ids from the receiver in order of [parent, tcp, listener 0, processor 0, streamer 0, listener 1, processor 1, streamer 1, arping].
Note
-----
If no streamer yet or there is no second interface, it gives 0 in its place.
:setter: Not Implemented
"""
return self.getRxThreadIds()
@property
@element
def rx_arping(self):
"""Starts a thread in slsReceiver to arping the interface it is listening every minute. Useful in 10G mode. """
return self.getRxArping()
@rx_arping.setter
def rx_arping(self, value):
ut.set_using_dict(self.setRxArping, value)
@property
@element
def dr(self):
"""
Dynamic range or number of bits per pixel/channel.
Note
-----
[Eiger] Options: 4, 8, 12, 16, 32. If set to 32, also sets clkdivider to 2 (quarter speed), else to 0 (full speed)\n
[Mythen3] Options: 8, 16, 32 \n
[Jungfrau][Gotthard][Ctb][Moench][Mythen3][Gotthard2] 16
"""
return self.getDynamicRange()
@dr.setter
def dr(self, dr):
self.setDynamicRange(dr)
@property
def drlist(self):
"""List of possible dynamic ranges for this detector"""
return self.getDynamicRangeList()
@property
def module_geometry(self):
return to_geo(self.getModuleGeometry())
@property
@element
def module_size(self):
return [to_geo(item) for item in self.getModuleSize()]
@property
def detsize(self):
"""
Sets the detector size in both dimensions (number of channels).
Note
-----
This value is used to calculate row and column positions for each module and included into udp data packet header. \n
By default, it adds modules in y dimension for 2d detectors and in x dimension for 1d detectors.
Example
-------
>>> d.detsize
Geometry(x=3840, y=1)
>>> d.detsize = [1024, 512]
Geometry(x=1024, y = 512)
"""
return to_geo(self.getDetectorSize())
@detsize.setter
def detsize(self, size):
if isinstance(size, xy):
self.setDetectorSize(size)
else:
self.setDetectorSize(xy(*size))
@property
def settings(self):
"""
Detector settings. Enum: detectorSettings
Note
-----
[Eiger] Use threshold command to load settings
[Jungfrau] GAIN0, HIGHGAIN0 \n
[Gotthard] DYNAMICGAIN, HIGHGAIN, LOWGAIN, MEDIUMGAIN, VERYHIGHGAIN \n
[Gotthard2] DYNAMICGAIN, FIXGAIN1, FIXGAIN2 \n
[Moench] G1_HIGHGAIN, G1_LOWGAIN, G2_HIGHCAP_HIGHGAIN, G2_HIGHCAP_LOWGAIN, G2_LOWCAP_HIGHGAIN, G2_LOWCAP_LOWGAIN, G4_HIGHGAIN, G4_LOWGAIN \n
[Eiger] settings loaded from file found in settingspath
"""
return element_if_equal(self.getSettings())
@settings.setter
def settings(self, value):
self.setSettings(value)
@property
@element
def frames(self):
"""Number of frames per acquisition. In trigger mode, number of frames per trigger.
Note
-----
Cannot be set in modular level. \n
In scan mode, number of frames is set to number of steps. \n
[Gotthard2] Burst mode has a maximum of 2720 frames.
"""
return self.getNumberOfFrames()
@frames.setter
def frames(self, n_frames):
self.setNumberOfFrames(n_frames)
@property
@element
def framesl(self):
"""
[Gotthard][Jungfrau][Mythen3][Gotthard2][CTB][Moench] Number of frames left in acquisition.\n
[Gotthard2] only in continuous auto mode.
:setter: Not Implemented
"""
return self.getNumberOfFramesLeft()
@property
@element
def framecounter(self):
"""
[Jungfrau][Mythen3][Gotthard2][Moench][CTB] Number of frames from start run control.
Note
-----
[Gotthard2] only in continuous mode.
:setter: Not Implemented
"""
return self.getNumberOfFramesFromStart()
@property
@element
def scan(self):
"""
Pass in a scanParameters object
see python/examples/use_scan.py
"""
return self.getScan()
@scan.setter
def scan(self, s):
ut.set_using_dict(self.setScan, s)
@property
@element
def powerchip(self):
"""
[Jungfrau][Mythen3][Gotthard2][Moench] Power the chip.
Note
----
[Moench] Default is disabled. \n
[Jungfrau] Default is disabled. Get will return power status. Can be off if temperature event occured (temperature over temp_threshold with temp_control enabled. Will configure chip (only chip v1.1).\n
[Mythen3][Gotthard2] Default is 1. If module not connected or wrong module, powerchip will fail.
"""
return self.getPowerChip()
@powerchip.setter
def powerchip(self, value):
ut.set_using_dict(self.setPowerChip, value)
@property
@element
def triggers(self):
"""Number of triggers per aquire. Set timing mode to use triggers."""
return self.getNumberOfTriggers()
@triggers.setter
def triggers(self, n_triggers):
self.setNumberOfTriggers(n_triggers)
@property
def exptime(self):
"""
Exposure time, accepts either a value in seconds or datetime.timedelta
Note
-----
[Mythen3] sets exposure time to all gate signals in auto and trigger mode (internal gating). To specify gateIndex, use getExptime or setExptime.
:getter: always returns in seconds. To get in datetime.delta, use getExptime
Example
-----------
>>> d.exptime = 1.05
>>> d.exptime = datetime.timedelta(minutes = 3, seconds = 1.23)
>>> d.exptime
181.23
>>> d.getExptime()
[datetime.timedelta(seconds=181, microseconds=230000)]
"""
if self.type == detectorType.MYTHEN3:
res = self.getExptimeForAllGates()
else:
res = self.getExptime()
return reduce_time(res)
@exptime.setter
def exptime(self, t):
if self.type == detectorType.MYTHEN3 and is_iterable(t):
for i, v in enumerate(t):
if isinstance(v, int):
v = float(v)
self.setExptime(i, v)
else:
ut.set_time_using_dict(self.setExptime, t)
@property
def period(self):
"""
Period between frames, accepts either a value in seconds or datetime.timedelta
Note
-----
:getter: always returns in seconds. To get in datetime.delta, use getPeriod
Example
-----------
>>> d.period = 1.05
>>> d.period = datetime.timedelta(minutes = 3, seconds = 1.23)
>>> d.period
181.23
>>> d.getPeriod()
[datetime.timedelta(seconds=181, microseconds=230000)]
"""
res = self.getPeriod()
return reduce_time(res)
@period.setter
def period(self, t):
ut.set_time_using_dict(self.setPeriod, t)
@property
@element
def periodl(self):
"""
[Gotthard][Jungfrau][CTB][Moench][Mythen3][Gotthard2] Period left for current frame.
Note
-----
[Gotthard2] only in continuous mode.
:getter: always returns in seconds. To get in datetime.delta, use getPeriodLeft
:setter: Not Implemented
Example
-----------
>>> d.periodl
181.23
>>> d.getPeriodLeft()
[datetime.timedelta(seconds=181, microseconds=230000)]
"""
return self.getPeriodLeft()
@property
@element
def delay(self):
"""
[Gotthard][Jungfrau][CTB][Moench][Mythen3][Gotthard2] Delay after trigger, accepts either a value in seconds or datetime.timedelta
Note
-----
:getter: always returns in seconds. To get in datetime.delta, use getDelayAfterTrigger
Example
-----------
>>> d.delay = 1.05
>>> d.delay = datetime.timedelta(minutes = 3, seconds = 1.23)
>>> d.delay
181.23
>>> d.getDelayAfterTrigger()
[datetime.timedelta(seconds=181, microseconds=230000)]
"""
return ut.reduce_time(self.getDelayAfterTrigger())
@delay.setter
def delay(self, t):
ut.set_time_using_dict(self.setDelayAfterTrigger, t)
@property
@element
def delayl(self):
"""
[Gotthard][Jungfrau][CTB][Moench][Mythen3][Gotthard2] Delay left after trigger during acquisition, accepts either a value in seconds or datetime.timedelta
Note
-----
[Gotthard2] only in continuous mdoe.
:getter: always returns in seconds. To get in datetime.delta, use getDelayAfterTriggerLeft
:setter: Not Implemented
Example
-----------
>>> d.delayl
181.23
>>> d.getDelayAfterTriggerLeft()
[datetime.timedelta(seconds=181, microseconds=230000)]
"""
return ut.reduce_time(self.getDelayAfterTriggerLeft())
def start(self):
"""Start detector acquisition. Status changes to RUNNING or WAITING and automatically returns to idle at the end of acquisition."""
self.startDetector()
def rx_start(self):
"""Starts receiver listener for detector data packets and create a data file (if file write enabled)."""
self.startReceiver()
def rx_stop(self):
"""Stops receiver listener for detector data packets and closes current data file (if file write enabled)."""
self.stopReceiver()
def stop(self):
"""Abort detector acquisition. Status changes to IDLE or STOPPED. Goes to stop server. """
self.stopDetector()
# Time
@property
@element
def rx_framescaught(self):
"""Number of frames caught by each port in receiver."""
return self.getFramesCaught()
@property
@element
def nextframenumber(self):
"""[Eiger][Jungfrau][Moench][CTB] Next frame number. Stopping acquisition might result in different frame numbers for different modules. """
return self.getNextFrameNumber()
@nextframenumber.setter
def nextframenumber(self, value):
ut.set_using_dict(self.setNextFrameNumber, value)
@property
@element
def txndelay_frame(self):
"""
[Eiger][Jungfrau][Mythen3] Transmission delay of first udp packet being streamed out of the module.\n
Note
----
[Jungfrau] [0-31] Each value represents 1 ms. \n
[Eiger] Additional delay to txndelay_left and txndelay_right. Each value represents 10ns. Typical value is 50000. \n
[Mythen3] [0-16777215] Each value represents 8 ns (125 MHz clock), max is 134 ms.
"""
return self.getTransmissionDelayFrame()
@txndelay_frame.setter
def txndelay_frame(self, args):
ut.set_using_dict(self.setTransmissionDelayFrame, args)
@property
@element
def txndelay_left(self):
"""[Eiger] Transmission delay of first packet in an image being streamed out of the module's left UDP port.
Note
-----
Each value represents 10ns. Typical value is 50000.
"""
return self.getTransmissionDelayLeft()
@txndelay_left.setter
def txndelay_left(self, args):
ut.set_using_dict(self.setTransmissionDelayLeft, args)
@property
@element
def txndelay_right(self):
"""
[Eiger] Transmission delay of first packet in an image being streamed out of the module's right UDP port.
Note
----
Each value represents 10ns. Typical value is 50000.
"""
return self.getTransmissionDelayRight()
@txndelay_right.setter
def txndelay_right(self, args):
ut.set_using_dict(self.setTransmissionDelayRight, args)
@property
@element
def use_receiver(self):
return self.getUseReceiverFlag()
@property
@element
def rx_hostname(self):
""" Sets receiver hostname or IP address. Used for TCP control communication between client and receiver to configure receiver. Also updates receiver with detector parameters.
Note
-----
Also resets any prior receiver property (not on detector). \n
Can concatenate receiver hostnames for every module. \n
If port included, then its the receiver tcp port for every receiver hostname.
Example
--------
>>> d.rx_hostname
'mpc1922'
>>> d.rx_hostname = 'mpc1922'
>>> d.rx_hostname = 'mpc1922:2000'
>>> d.rx_hostname = 'mpc1922:2000+mpc1922:2002'
>>> d.rx_hostname
'mpc1922'
>>> d.rx_tcpport
[2000, 2002]
"""
return self.getRxHostname()
@rx_hostname.setter
def rx_hostname(self, hostname):
self.setRxHostname(hostname)
@property
@element
def rx_tcpport(self):
"""
TCP port for client-receiver communication.
Note
-----
Default is 1954. \n
Must be different if multiple receivers on same pc. \n
Must be first command to set a receiver parameter to be able to communicate. \n
Multi command will automatically increment port for individual modules, which must be set via setRxPort.
Example
-------
>>> d.rx_tcpport
2010
>>> d.rx_tcpport
[2000, 2002]
"""
return self.getRxPort()
@rx_tcpport.setter
def rx_tcpport(self, port):
ut.set_using_dict(self.setRxPort, port)
@property
@element
def rx_fifodepth(self):
"""Sets the number of frames in the receiver fifo depth (buffer between listener and writer threads)."""
return self.getRxFifoDepth()
@rx_fifodepth.setter
def rx_fifodepth(self, frames):
ut.set_using_dict(self.setRxFifoDepth, frames)
@property
@element
def rx_silent(self):
"""When enabled, switches off receiver text output during acquisition. """
return self.getRxSilentMode()
@rx_silent.setter
def rx_silent(self, value):
ut.set_using_dict(self.setRxSilentMode, value)
@property
@element
def rx_discardpolicy(self):
"""
Frame discard policy of receiver. Enum: frameDiscardPolicy
Note
-----
Options: NO_DISCARD, DISCARD_EMPTY_FRAMES, DISCARD_PARTIAL_FRAMES \n
Default: NO_DISCARD \n
DISCARD_PARTIAL_FRAMES is the fastest.
Example
--------
>>> d.rx_discardpolicy = frameDiscardPolicy.NO_DISCARD
>>> d.rx_discardpolicy
frameDiscardPolicy.NO_DISCARD
"""
return self.getRxFrameDiscardPolicy()
@rx_discardpolicy.setter
def rx_discardpolicy(self, policy):
ut.set_using_dict(self.setRxFrameDiscardPolicy, policy)
@property
@element
def rx_padding(self):
"""Partial frames padding enable in the receiver.
Note
------
Default: enabled \n
Disabling is fastest.
"""
return self.getPartialFramesPadding()
@rx_padding.setter
def rx_padding(self, policy):
ut.set_using_dict(self.setPartialFramesPadding, policy)
@property
@element
def rx_lock(self):
"""Lock the receiver to a specific IP"""
return self.getRxLock()
@rx_lock.setter
def rx_lock(self, value):
ut.set_using_dict(self.setRxLock, value)
@property
@element
def rx_lastclient(self):
"""Client IP Address that last communicated with the receiver."""
return self.getRxLastClientIP()
# FILE
@property
@element
def numinterfaces(self):
"""[Jungfrau][Gotthard2] Number of udp interfaces to stream data from detector. Default is 1.
Note
-----
Also enables second interface in receiver for listening (Writes a file per interface if writing enabled). \n
Also restarts client and receiver zmq sockets if zmq streaming enabled. \n
[Gotthard2] second interface enabled to send veto information via 10Gbps for debugging. By default, if veto enabled, it is sent via 2.5 gbps interface.
"""
return self.getNumberofUDPInterfaces()
@numinterfaces.setter
def numinterfaces(self, value):
ut.set_using_dict(self.setNumberofUDPInterfaces, value)
@property
@element
def fformat(self):
""" File format of data file in receiver. Enum: fileFormat
Note
-----
Options: BINARY, HDF5
Default: BINARY
For HDF5, package must be compiled with HDF5 flags. Default is binary.
Example
--------
d.fformat = fileFormat.BINARY
"""
return self.getFileFormat()
@fformat.setter
def fformat(self, format):
ut.set_using_dict(self.setFileFormat, format)
@property
@element
def findex(self):
"""File or Acquisition index in receiver.
Note
----
File name: [file name prefix]_d[detector index]_f[sub file index]_[acquisition/file index].[raw/h5].
"""
return self.getAcquisitionIndex()
@findex.setter
def findex(self, index):
ut.set_using_dict(self.setAcquisitionIndex, index)
@property
@element
def fname(self):
"""File name prefix for output data file in receiver. Default is run.
Note
-----
File name: [file name prefix]_d[detector index]_f[sub file index]_[acquisition/file index].[raw/h5].
Example
--------
d.fname = 'run'
eg. file name: run_d0_f0_5.raw
"""
return self.getFileNamePrefix()
@fname.setter
def fname(self, file_name):
ut.set_using_dict(self.setFileNamePrefix, file_name)
@property
@element
def fpath(self):
"""Directory where output data files are written in receiver. Default is "/".
Note
----
If path does not exist, it will try to create it.
Example
--------
d.fpath = '/tmp/run_20201705'
"""
return ut.lpath(self.getFilePath())
@fpath.setter
def fpath(self, path):
path = ut.make_string_path(path)
ut.set_using_dict(self.setFilePath, path)
@property
@element
def fwrite(self):
"""Enable or disable receiver file write. Default is enabled. """
return self.getFileWrite()
@fwrite.setter
def fwrite(self, value):
ut.set_using_dict(self.setFileWrite, value)
@property
@element
def foverwrite(self):
"""Enable or disable receiver file overwriting. Default is enabled. """
return self.getFileOverWrite()
@foverwrite.setter
def foverwrite(self, value):
ut.set_using_dict(self.setFileOverWrite, value)
@property
def fmaster(self):
"""Enable or disable receiver master file. Default is enabled."""
return self.getMasterFileWrite()
@fmaster.setter
def fmaster(self, enable):
self.setMasterFileWrite(enable)
@property
@element
def rx_framesperfile(self):
"""Sets the number of frames per file in receiver in an acquisition.
Note
-----
Default: depends on detector type. \n
0 is infinite or all frames in single file.
"""
return self.getFramesPerFile()
@rx_framesperfile.setter
def rx_framesperfile(self, n_frames):
ut.set_using_dict(self.setFramesPerFile, n_frames)
# ZMQ Streaming Parameters (Receiver<->Client)
@property
@element
def rx_zmqstream(self):
"""
Enable/ disable data streaming from receiver via zmq (eg. to GUI or to another process for further processing). \n
This creates/ destroys zmq streamer threads in receiver. \n
Switching to Gui automatically enables data streaming in receiver. \n
Switching back to command line acquire will require disabling data streaming in receiver for fast applications.
"""
return self.getRxZmqDataStream()
@rx_zmqstream.setter
def rx_zmqstream(self, enable):
ut.set_using_dict(self.setRxZmqDataStream, enable)
@property
@element
def rx_zmqfreq(self):
"""Frequency of frames streamed out from receiver via zmq.
Note
-----
Default: 1, Means every frame is streamed out. \n
If 2, every second frame is streamed out. \n
If 0, streaming timer is the timeout, after which current frame is sent out. (default timeout is 200 ms). Usually used for gui purposes.
"""
return self.getRxZmqFrequency()
@rx_zmqfreq.setter
def rx_zmqfreq(self, nth_frame):
ut.set_using_dict(self.setRxZmqFrequency, nth_frame)
@property
@element
def rx_zmqport(self):
"""
Zmq port for data to be streamed out of the receiver.
Note
-----
Also restarts receiver zmq streaming if enabled. \n
Default is 30001. \n
Must be different for every detector (and udp port). \n
Multi command will automatically increment for individual modules, use setRxZmqPort.
Example
--------
>>> d.rx_zmqport
[30001, 30002, 30003, 300004]
>>> d.rx_zmqport = 30001
>>> d.rx_zmqport = [30001, 30005] #Set ports for the two first detectors
"""
return self.getRxZmqPort()
@rx_zmqport.setter
def rx_zmqport(self, port):
if isinstance(port, int):
self.setRxZmqPort(port, -1)
elif isinstance(port, dict):
ut.set_using_dict(self.setRxZmqPort, port)
elif is_iterable(port):
for i, p in enumerate(port):
self.setRxZmqPort(p, i)
else:
raise ValueError("Unknown argument type")
@property
@element
def zmqport(self):
"""
Port number to listen to zmq data streamed out from receiver or intermediate process.
Note
-----
Also restarts client zmq streaming if enabled. \n
Default connects to receiver zmq streaming out port (30001). \n
Must be different for every detector (and udp port). \n
Multi command will automatically increment for individual modules, use setClientZmqPort.
Example
--------
>>> d.zmqport
[30001, 30003]
>>> d.zmqport = 30002
>>> d.zmqport = [30002, 30004] #Set ports for the two first detectors
"""
return self.getClientZmqPort()
@zmqport.setter
def zmqport(self, port):
if isinstance(port, int):
self.setClientZmqPort(port, -1)
elif isinstance(port, dict):
ut.set_using_dict(self.setClientZmqPort, port)
elif is_iterable(port):
for i, p in enumerate(port):
self.setClientZmqPort(p, i)
else:
raise ValueError("Unknown argument type")
@property
@element
def rx_zmqip(self):
"""
Zmq Ip Address from which data is to be streamed out of the receiver.
Note
-----
Also restarts receiver zmq streaming if enabled. \n
Default is from rx_hostname. \n
Modified only when using an intermediate process after receiver.
Example
-------
>>> d.rx_zmqip
192.168.0.101
>>> d.rx_zmqip = '192.168.0.101'
"""
return self.getRxZmqIP()
@rx_zmqip.setter
def rx_zmqip(self, ip):
ip = ut.make_ip(ip) #Convert from int or string to IpAddr
ut.set_using_dict(self.setRxZmqIP, ip)
@property
@element
def zmqip(self):
"""
Ip Address to listen to zmq data streamed out from receiver or intermediate process.
Note
-----
Also restarts client zmq streaming if enabled. \n
Default is from rx_hostname. \n
Modified only when using an intermediate process after receiver.
Example
-------
>>> d.zmqip
192.168.0.101
>>> d.zmqip = '192.168.0.101'
"""
return self.getClientZmqIp()
@zmqip.setter
def zmqip(self, ip):
ip = ut.make_ip(ip) #Convert from int or string to IpAddr
ut.set_using_dict(self.setClientZmqIp, ip)
@property
def zmqhwm(self):
"""
Client's zmq receive high water mark. Default is the zmq library's default (1000), can also be set here using -1.
This is a high number and can be set to 2 for gui purposes.
One must also set the receiver's send high water mark to similar value. Final effect is sum of them.
Setting it via command line is useful only before zmq enabled (before opening gui).
"""
return self.getClientZmqHwm()
@zmqhwm.setter
def zmqhwm(self, n_frames):
self.setClientZmqHwm(n_frames)
@property
def rx_zmqhwm(self):
"""
Receiver's zmq send high water mark. Default is the zmq library's default (1000). This is a high number and can be set to 2 for gui purposes. One must also set the client's receive high water mark to similar value. Final effect is sum of them. Also restarts receiver zmq streaming if enabled. Can set to -1 to set default value.
"""
return self.getRxZmqHwm()
@rx_zmqhwm.setter
def rx_zmqhwm(self, n_frames):
self.setRxZmqHwm(n_frames)
@property
@element
def udp_dstip(self):
"""
Ip address of the receiver (destination) udp interface.
Note
----
If 'auto' used, then ip is set to ip of rx_hostname. \n
To set IPs for individual modules, use setDestinationUDPIP.
Example
------
>>> d.udp_dstip = '192.168.1.110'
>>> d.udp_dstip
192.168.1.110
"""
return self.getDestinationUDPIP()
@udp_dstip.setter
def udp_dstip(self, ip):
if ip == "auto":
ip = socket.gethostbyname(self.rx_hostname)
ip = ut.make_ip(ip)
ut.set_using_dict(self.setDestinationUDPIP, ip)
@property
@element
def udp_dstip2(self):
"""
[Jungfrau][Gotthard2] Ip address of the receiver (destination) udp interface 2.
Note
----
[Jungfrau] bottom half \n
[Gotthard2] veto debugging \n
If 'auto' used, then ip is set to ip of rx_hostname. \n
To set IPs for individual modules, use setDestinationUDPIP2.
Example
------
>>> d.udp_dstip2 = '10.1.1.185'
>>> d.udp_dstip2
10.1.1.185
"""
return self.getDestinationUDPIP2()
@udp_dstip2.setter
def udp_dstip2(self, ip):
if ip == "auto":
ip = socket.gethostbyname(self.rx_hostname)
ip = ut.make_ip(ip)
ut.set_using_dict(self.setDestinationUDPIP2, ip)
@property
@element
def udp_dstmac(self):
"""
Mac address of the receiver (destination) udp interface.
Note
----
Not mandatory to set as udp_dstip retrieves it from slsReceiver process but must be set if you use a custom receiver (not slsReceiver). \n
To set MACs for individual modules, use setDestinationUDPMAC.
Example
-------
>>> d.udp_dstmac = '00:1b:31:01:8a:de'
d.udp_dstmac
00:1b:31:01:8a:de
"""
return self.getDestinationUDPMAC()
@udp_dstmac.setter
def udp_dstmac(self, mac):
mac = ut.make_mac(mac)
ut.set_using_dict(self.setDestinationUDPMAC, mac)
@property
@element
def udp_dstmac2(self):
"""
[Jungfrau][Gotthard2] Mac address of the receiver (destination) udp interface 2.
Note
----
Not mandatory to set as udp_dstip2 retrieves it from slsReceiver process but must be set if you use a custom receiver (not slsReceiver). \n
To set MACs for individual modules, use setDestinationUDPMAC2. \n
[Jungfrau] bottom half \n
[Gotthard2] veto debugging \n
Example
------
>>> d.udp_dstmac2 = '00:1b:31:01:8a:de'
d.udp_dstmac2
00:1b:31:01:8a:de
"""
return self.getDestinationUDPMAC2()
@udp_dstmac2.setter
def udp_dstmac2(self, mac):
mac = ut.make_mac(mac)
ut.set_using_dict(self.setDestinationUDPMAC2, mac)
@property
@element
def udp_srcmac(self):
"""
Mac address of the receiver (source) udp interface.
Note
----
[Eiger] Do not set as detector will replace with its own DHCP Mac (1G) or DHCP Mac + 1 (10G). \n
To set MACs for individual modules, use setSourceUDPMAC.
Example
-------
>>> d.udp_srcmac = '00:1b:31:01:8a:de'
d.udp_srcmac
00:1b:31:01:8a:de
"""
return self.getSourceUDPMAC()
@udp_srcmac.setter
def udp_srcmac(self, mac):
mac = ut.make_mac(mac)
ut.set_using_dict(self.setSourceUDPMAC, mac)
@property
@element
def udp_srcmac2(self):
"""
[Jungfrau][Gotthard2] Mac address of the receiver (source) udp interface 2.
Note
----
[Jungfrau] bottom half \n
[Gotthard2] veto debugging \n
To set MACs for individual modules, use setSourceUDPMAC2.
Example
-------
>>> d.udp_srcmac2 = '00:1b:31:01:8a:de'
d.udp_srcmac2
00:1b:31:01:8a:de
"""
return self.getSourceUDPMAC2()
@udp_srcmac2.setter
def udp_srcmac2(self, mac):
mac = ut.make_mac(mac)
ut.set_using_dict(self.setSourceUDPMAC2, mac)
@property
@element
def udp_srcip(self):
"""
Ip address of the detector (source) udp interface.
Note
-----
Must be same subnet as destination udp ip.\n
[Eiger] Set only for 10G. For 1G, detector will replace with its own DHCP IP address. \n
To set IPs for individual modules, use setSourceUDPIP.
Example
-------
>>> d.udp_srcip = '192.168.1.127'
>>> d.udp_srcip
192.168.1.127
"""
return self.getSourceUDPIP()
@udp_srcip.setter
def udp_srcip(self, ip):
ip = ut.make_ip(ip)
ut.set_using_dict(self.setSourceUDPIP, ip)
@property
@element
def udp_srcip2(self):
"""
[Jungfrau][Gotthard2] Ip address of the detector (source) udp interface 2.
Note
-----
[Jungfrau] bottom half \n
[Gotthard2] veto debugging \n
Must be same subnet as destination udp ip2.\n
To set IPs for individual modules, use setSourceUDPIP2.
Example
-------
>>> d.udp_srcip2 = '192.168.1.127'
>>> d.udp_srcip2
192.168.1.127
"""
return self.getSourceUDPIP2()
@udp_srcip2.setter
def udp_srcip2(self, ip):
ip = ut.make_ip(ip)
ut.set_using_dict(self.setSourceUDPIP2, ip)
@property
@element
def udp_dstport(self):
"""
Port number of the receiver (destination) udp interface.
Note
----
Default is 50001. \n
Ports for each module is calculated (incremented by 1 if no 2nd interface) \n
To set ports for individual modules, use setDestinationUDPPort.
"""
return self.getDestinationUDPPort()
@udp_dstport.setter
def udp_dstport(self, port):
ut.set_using_dict(self.setDestinationUDPPort, port)
@property
@element
def udp_dstport2(self):
"""
Port number of the receiver (destination) udp interface.
Note
----
Default is 50002. \n
[Eiger] right half \n
[Jungfrau] bottom half \n
[Gotthard2] veto debugging \n
Ports for each module is calculated (incremented by 2) \n
To set ports for individual modules, use setDestinationUDPPort2.
"""
return self.getDestinationUDPPort2()
@udp_dstport2.setter
def udp_dstport2(self, port):
ut.set_using_dict(self.setDestinationUDPPort2, port)
@property
@element
def highvoltage(self):
"""High voltage to the sensor in Voltage.
Note
-----
[Gotthard] 0, 90, 110, 120, 150, 180, 200 \n
[Eiger][Mythen3][Gotthard2] 0 - 200 \n
[Jungfrau][Ctb][Moench] 0, 60 - 200
"""
return self.getHighVoltage()
@highvoltage.setter
def highvoltage(self, v):
ut.set_using_dict(self.setHighVoltage, v)
@property
def user(self):
"""
Retrieve user details from shared memory (hostname, type, PID, User, Date)
"""
return self.getUserDetails()
@property
@element
def settingspath(self):
"""[Eiger] Directory where settings files are loaded from/to."""
return ut.make_path(self.getSettingsPath())
@settingspath.setter
def settingspath(self, path):
path = ut.make_string_path(path)
ut.set_using_dict(self.setSettingsPath, path)
@property
@element
def status(self):
"""Gets detector status. Enum: runStatus
Note
-----
Options: IDLE, ERROR, WAITING, RUN_FINISHED, TRANSMITTING, RUNNING, STOPPED \n
Goes to stop server.
>>> d.status
runStatus.IDLE
"""
return self.getDetectorStatus()
@property
@element
def rx_status(self):
"""Gets receiver listener status. Enum: runStatus
Note
-----
Options: IDLE, TRANSMITTING, RUNNING
>>> d.rx_status
runStatus.IDLE
"""
return self.getReceiverStatus()
@property
@element
def rx_udpsocksize(self):
"""UDP socket buffer size in receiver. Tune rmem_default and rmem_max accordingly. Max size: INT_MAX/2."""
return self.getRxUDPSocketBufferSize()
@rx_udpsocksize.setter
def rx_udpsocksize(self, buffer_size):
ut.set_using_dict(self.setRxUDPSocketBufferSize, buffer_size)
@property
@element
def rx_realudpsocksize(self):
"""Gets actual udp socket buffer size. Double the size of rx_udpsocksize due to kernel bookkeeping."""
return self.getRxRealUDPSocketBufferSize()
@property
def trimbits(self):
"""
[Eiger][Mythen3] Loads/Saves custom trimbit file to detector.
Note
-----
If no extension specified, serial number of each module is attached.
:setter: Loads the trimbit file to detector
:getter: Saves the trimbits from the detector to file. Not implemented with 'trimbits'. Use saveTrimbits().
Example
-------
>>> d.trimbits = '/path_to_file/noise'
- 14:53:27.931 INFO: Settings file loaded: /path_to_file/noise.sn000
"""
raise NotImplementedError('trimbits is set only. Use saveTrimbits()')
@trimbits.setter
def trimbits(self, fname):
fname = ut.make_string_path(fname)
ut.set_using_dict(self.loadTrimbits, fname)
@property
@element
def trimval(self):
"""
[Eiger][Mythen3] Set all trimbits to this value. Returns -1 if all trimbits are different values.
"""
return self.getAllTrimbits()
@trimval.setter
def trimval(self, value):
ut.set_using_dict(self.setAllTrimbits, value)
@property
@element
def master(self):
"""
[Eiger][Gotthard2] Sets (half) module to master and other(s) to slaves.\n
[Gotthard][Gotthard2][Mythen3][Eiger] Gets if the current (half) module is master.
"""
return self.getMaster()
@master.setter
def master(self, value):
ut.set_using_dict(self.setMaster, value)
@property
@element
def lock(self):
"""Lock detector to one client IP, 1 locks, 0 unlocks. Default is unlocked."""
return self.getDetectorLock()
@lock.setter
def lock(self, value):
ut.set_using_dict(self.setDetectorLock, value)
@property
@element
def rx_lock(self):
"""Lock receiver to one client IP, 1 locks, 0 unlocks. Default is unlocked."""
return self.getRxLock()
@rx_lock.setter
def rx_lock(self, value):
ut.set_using_dict(self.setRxLock, value)
@property
@element
def scanerrmsg(self):
"""Gets Scan error message if scan ended in error for non blocking acquisitions."""
return self.getScanErrorMessage()
@property
@element
def rx_zmqstartfnum(self):
"""
The starting frame index to stream out.
Note
----
0 by default, which streams the first frame in an acquisition, and then depending on the rx zmq frequency/ timer.
"""
return self.getRxZmqStartingFrame()
@rx_zmqstartfnum.setter
def rx_zmqstartfnum(self, value):
ut.set_using_dict(self.setRxZmqStartingFrame, value)
@property
@element
def lastclient(self):
"""Get Client IP Address that last communicated with the detector."""
return self.getLastClientIP()
@property
def reg(self):
"""
Reads/writes to a 32 bit register.
Note
-----
Advanced user Function! \n
Goes to stop server. Hence, can be called while calling blocking acquire(). \n
[Eiger] Address is +0x100 for only left, +0x200 for only right.
"""
return self._register
@property
def slowadc(self):
"""
[Ctb] Slow ADC channel in uV of all channels or specific ones from 0-7.
Example
-------
>>> d.slowadc
0: 0 uV
1: 0 uV
2: 0 uV
3: 0 uV
4: 0 uV
5: 0 uV
6: 0 uV
7: 0 uV
>>> d.slowadc[3]
0
"""
return SlowAdcProxy(self)
@property
def daclist(self):
"""
List of enums for every dac for this detector.
:setter: Only implemented for Chiptestboard
"""
return self.getDacNames()
@daclist.setter
def daclist(self, value):
self.setDacNames(value)
@property
def dacvalues(self):
"""Gets the dac values for every dac for this detector."""
return {
dac.name.lower(): element_if_equal(np.array(self.getDAC(dac, False)))
for dac in self.getDacList()
}
@property
def timinglist(self):
"""Gets the list of timing modes (timingMode) for this detector."""
return self.getTimingModeList()
@property
def templist(self):
"""List of temperature enums (dacIndex) implemented for this detector."""
return self.getTemperatureList()
@property
def tempvalues(self):
"""Gets the temp values for every temp for this detector."""
return {
t.name.lower(): element_if_equal(np.array(self.getTemperature(t)))
for t in self.getTemperatureList()
}
@property
def settingslist(self):
"""List of settings implemented for this detector."""
return self.getSettingsList()
@property
def adcreg(self):
"""[Jungfrau][Ctb][Moench][Gotthard] Writes to an adc register
Note
-----
Advanced user Function!
:getter: Not implemented
"""
return self._adc_register
@property
@element
def adcinvert(self):
"""[Ctb][Moench][Jungfrau] ADC Inversion Mask.
Note
-----
[Jungfrau][Moench] Inversions on top of the default mask.
"""
return self.getADCInvert()
@adcinvert.setter
def adcinvert(self, value):
ut.set_using_dict(self.setADCInvert, value)
@property
@element
def triggersl(self):
"""
[Gotthard][Jungfrau][Mythen3][Gotthard2][CTB][Moench] Number of triggers left in acquisition.\n
Note
----
Only when external trigger used.
:setter: Not Implemented
"""
return self.getNumberOfTriggersLeft()
@property
@element
def frametime(self):
"""[Jungfrau][Mythen3][Gotthard2][Moench][CTB] Timestamp at a frame start.
Note
----
[Gotthard2] not in burst and auto mode.
"""
return self.getMeasurementTime()
@property
@element
def led(self):
"""[Ctb] Switches on/off all LEDs. Default is enabled. """
return self.getLEDEnable()
@led.setter
def led(self, value):
ut.set_using_dict(self.setLEDEnable, value)
def acquire(self):
"""
Run the configured measurement
Note
----
Blocking command, where control server is blocked and cannot accept other commands until acquisition is done. \n
- sets acquiring flag
- starts the receiver listener (if enabled)
- starts detector acquisition for number of frames set
- monitors detector status from running to idle
- stops the receiver listener (if enabled)
- increments file index if file write enabled
- resets acquiring flag
"""
super().acquire()
print('\n', end = '')
@property
def versions(self):
return {'type': self.type,
'package': self.packageversion,
'client': self.clientversion,
'firmware': self.firmwareversion,
'detectorserver': self.detectorserverversion,
'kernel': self.kernelversion,
'receiver': self.rx_version}
@property
def virtual(self):
"""
Setup with n virtual servers running on localhost starting with control port p
Note
----
Every virtual server will have a stop port (control port + 1)
Example
---------
>>> d.virtual = n, p
"""
raise NotImplementedError('Virtual is set only')
@virtual.setter
def virtual(self, args):
n_detectors, starting_port = args
self.setVirtualDetectorServers(n_detectors, starting_port)
@property
def packageversion(self):
"""Package version (git branch)."""
return self.getPackageVersion()
@property
def ratecorr(self):
"""
[Eiger] Custom dead time correction constant in ns. 0 will unset rate correction.
Note
-----
To set default rate correction from trimbit file, use setDefaultRateCorrection
Known Issue
------------
:getter: Always give 0 due to the microseconds precision.
:setter: Use scientific notation to set custom rate correction, since timedelta resolution is 1 microseconds. \n
Or use setDefaultRateCorrection to set the default one from trimbit file
Example
-----------
>>> d.ratecorr = 10e-9
>>> d.setDefaultRateCorrection()
>>> d.ratecorr = 0.0
"""
return reduce_time(self.getRateCorrection())
@ratecorr.setter
def ratecorr(self, tau):
if isinstance(tau, int):
tau = float(tau)
self.setRateCorrection(tau)
@property
@element
def readoutspeed(self):
"""
[Eiger][Jungfrau|Gotthard2] Readout speed of chip. Enum: speedLevel
Note
-----
[Jungfrau] FULL_SPEED, HALF_SPEED (Default), QUARTER_SPEED
[Eiger] FULL_SPEED (Default), HALF_SPEED, QUARTER_SPEED
[Gottthard2] G2_108MHZ (Default), G2_144MHZ
[Jungfrau] FULL_SPEED option only available from v2.0 boards and is recommended to set number of interfaces to 2. \n
Also overwrites adcphase to recommended default.
"""
return element_if_equal(self.getReadoutSpeed())
@readoutspeed.setter
def readoutspeed(self, value):
ut.set_using_dict(self.setReadoutSpeed, value)
@property
def rx_jsonpara(self):
"""
Set the receiver additional json parameter.
Note
----
Use only if to be processed by an intermediate user process listening to receiver zmq packets, such as Moench \n
If not found, the pair is appended. Empty value deletes parameter. Max 20 characters for each key/value.\n
On setting the value is automatically, it is converted to a string.
Example
-----------
>>> d.rx_jsonpara['emin']
'4500'
>>> d.rx_jsonpara['emin'] = 5000
>>> d.rx_jsonpara
emax: 30
emin: 5000
"""
return JsonProxy(self)
@property
@element
def rx_jsonaddheader(self):
"""
Additional json header to be streamed out from receiver via zmq.
Note
-----
Default is empty. Max 20 characters for each key/value\n
Use only if to be processed by an intermediate user process listening to receiver zmq packets, such as Moench \n
Empty value deletes header.
Example
-------
>>> d.rx_jsonaddheader
{}
>>> d.rx_jsonaddheader = {"key1": "value1", "key2":"value2"}
>>> d.rx_jsonaddheader
{'emax': '30', 'emin': '50'}
"""
return self.getAdditionalJsonHeader()
@rx_jsonaddheader.setter
def rx_jsonaddheader(self, args):
ut.set_using_dict(self.setAdditionalJsonHeader, args)
@property
@element
def threshold(self):
"""[Eiger][Mythen3] Threshold in eV
Note
----
To change settings as well or set threshold without trimbits, use setThresholdEnergy.
:setter: It loads trim files from settingspath.\n [Mythen3] An energy of -1 will pick up values from detector.
"""
if self.type == detectorType.MYTHEN3:
return self.getAllThresholdEnergy()
return self.getThresholdEnergy()
@threshold.setter
def threshold(self, eV):
ut.set_using_dict(self.setThresholdEnergy, eV)
@property
@element
def timing(self):
"""
Set Timing Mode of detector. Enum: timingMode
Note
-----
Default: AUTO_TIMING \n
[Jungfrau][Gotthard][Ctb][Moench][Gotthard2] AUTO_TIMING, TRIGGER_EXPOSURE \n
[Mythen3] AUTO_TIMING, TRIGGER_EXPOSURE, GATED, TRIGGER_GATED \n
[Eiger] AUTO_TIMING, TRIGGER_EXPOSURE, GATED, BURST_TRIGGER
"""
return self.getTimingMode()
@timing.setter
def timing(self, mode):
ut.set_using_dict(self.setTimingMode, mode)
@property
@element
def trimen(self):
"""
[Eiger] List of trim energies, where corresponding default trim files exist in corresponding trim folders.
Example
------
>>> d.trimen
[]
>>> d.trimen = [4500, 5400, 6400]
>>> d.trimen
[4500, 5400, 6400]
"""
return self.getTrimEnergies()
@trimen.setter
def trimen(self, energies):
ut.set_using_dict(self.setTrimEnergies, energies)
@property
@element
def vthreshold(self):
"""
[Eiger][Mythen3] Detector threshold voltage for single photon counters in dac units.
Note
----
[Eiger] Sets vcmp_ll, vcmp_lr, vcmp_rl, vcmp_rr and vcp to the same value. \n
[Mythen3] Sets vth1, vth2 and vth3 to the same value for enabled counters.
"""
return self.getDAC(dacIndex.VTHRESHOLD)
@vthreshold.setter
def vthreshold(self, value):
if isinstance(value, dict):
args = ({k:(dacIndex.VTHRESHOLD,v) for k,v in value.items()},)
else:
args = (dacIndex.VTHRESHOLD, value)
ut.set_using_dict(self.setDAC, *args)
@property
@element
def type(self):
""" Returns detector type. Enum: detectorType
Note
----
:setter: Not implemented
Values: EIGER, JUNGFRAU, GOTTHARD, MOENCH, MYTHEN3, GOTTHARD2, CHIPTESTBOARD
"""
return self.getDetectorType()
@property
@element
def rx_frameindex(self):
"""Current frame index received for each port in receiver during acquisition."""
return self.getRxCurrentFrameIndex()
@property
@element
def rx_missingpackets(self):
"""Gets the number of missing packets for each port in receiver. Negative number denotes extra packets. """
return self.getNumMissingPackets()
"""
<<<Eiger>>>
"""
@property
def datastream(self):
"""
datastream [left|right] [0, 1]
[Eiger] Enables or disables data streaming from left or/and right side of detector for 10GbE mode. 1 (enabled) by default.
"""
result = {}
for port in [defs.LEFT, defs.RIGHT]:
result[port] = element_if_equal(self.getDataStream(port))
return result
@datastream.setter
def datastream(self, value):
ut.set_using_dict(self.setDataStream, *value)
@property
@element
def quad(self):
"""[Eiger] Sets detector size to a quad. 0 (disabled) is default. (Specific hardware required). """
return self.getQuad()
@quad.setter
def quad(self, value):
self.setQuad(value)
@property
def subexptime(self):
"""
[Eiger] Exposure time of EIGER subframes in 32 bit mode.
Note
----
Subperiod = subexptime + subdeadtime.
:getter: always returns in seconds. To get in datetime.delta, use getSubExptime
Example
-----------
>>> d.subexptime = 1.230203
>>> d.subexptime = datetime.timedelta(seconds = 1.23, microseconds = 203)
>>> d.subexptime
1.230203
>>> d.getSubExptime()
[datetime.timedelta(seconds = 1, microseconds = 203)]
"""
res = self.getSubExptime()
return reduce_time(res)
@subexptime.setter
def subexptime(self, t):
ut.set_time_using_dict(self.setSubExptime, t)
@property
@element
def readnrows(self):
"""
[Eiger] Number of rows to read out per half module starting from the centre.
[Jungfrau] Number of rows to read per module starting from the centre.
Note
----
[Eiger] Options: 1 - 256. 256 is default. \n
[Eiger]The permissible values depend on dynamic range and 10Gbe enabled.\n\n
[Jungfrau] Options: 8 - 512 (multiples of 8)
"""
return self.getReadNRows()
@readnrows.setter
def readnrows(self, value):
ut.set_using_dict(self.setReadNRows, value)
@property
def subdeadtime(self):
"""
[Eiger] Dead time of EIGER subframes in 32 bit mode, accepts either a value in seconds or datetime.timedelta
Note
----
Subperiod = subexptime + subdeadtime.
:getter: always returns in seconds. To get in datetime.delta, use getSubDeadTime
Example
-----------
>>> d.subdeadtime = 1.230203
>>> d.subdeadtime = datetime.timedelta(seconds = 1.23, microseconds = 203)
>>> d.subdeadtime
1.230203
>>> d.getSubDeadTime()
[datetime.timedelta(seconds = 1, microseconds = 203)]
"""
res = self.getSubDeadTime()
return reduce_time(res)
@subdeadtime.setter
def subdeadtime(self, t):
ut.set_time_using_dict(self.setSubDeadTime, t)
@property
@element
def parallel(self):
"""
[Eiger][Mythen3][Gotthard2] Enable or disable the parallel readout mode of detector.
Note
----
[Mythen3] If exposure time is too short, acquisition will return with an ERROR and take fewer frames than expected.
[Mythen3][Eiger] Default: Non parallel
[Gotthard2] Default: parallel. Non parallel mode works only in continuous mode.
"""
return self.getParallelMode()
@parallel.setter
def parallel(self, value):
ut.set_using_dict(self.setParallelMode, value)
@property
@element
def partialreset(self):
"""[Eiger] Sets up detector to do partial or complete reset at start of acquisition. 0 complete reset, 1 partial reset. Default is complete reset.
Note
-----
Advanced Function!
"""
return self.getPartialReset()
@partialreset.setter
def partialreset(self, value):
ut.set_using_dict(self.setPartialReset, value)
@property
@element
def tengiga(self):
"""[Eiger][Ctb][Moench][Mythen3] 10GbE Enable."""
return self.getTenGiga()
@tengiga.setter
def tengiga(self, value):
ut.set_using_dict(self.setTenGiga, value)
@property
@element
def overflow(self):
"""[Eiger] Enable or disable show overflow flag in 32 bit mode. Default is disabled. """
return self.getOverFlowMode()
@overflow.setter
def overflow(self, value):
ut.set_using_dict(self.setOverFlowMode, value)
@property
@element
def flowcontrol10g(self):
"""[Eiger][Jungfrau] Enable or disable 10GbE Flow Control."""
return self.getTenGigaFlowControl()
@flowcontrol10g.setter
def flowcontrol10g(self, enable):
ut.set_using_dict(self.setTenGigaFlowControl, enable)
@property
@element
def interruptsubframe(self):
"""[Eiger] Enable last subframe interrupt at required exposure time. Disabling will wait for last sub frame to finish exposing. Default is disabled."""
return self.getInterruptSubframe()
@interruptsubframe.setter
def interruptsubframe(self, value):
ut.set_using_dict(self.setInterruptSubframe, value)
@property
@element
def gappixels(self):
"""[Eiger][Jungfrau] Include Gap pixels in client data call back in Detecor api. Will not be in detector streaming, receiver file or streaming. Default is disabled. """
return self.getRxAddGapPixels()
@gappixels.setter
def gappixels(self, value):
ut.set_using_dict(self.setRxAddGapPixels, value)
@property
def measuredperiod(self):
"""
[Eiger] Measured frame period between last frame and previous one.
Note
-----
Can be measured with minimum 2 frames in an acquisition.
:setter: Not implemented
"""
return ut.reduce_time(self.getMeasuredPeriod())
@property
def measuredsubperiod(self):
"""
[Eiger] Measured sub frame period between last sub frame and previous one.
Note
-----
:setter: Not implemented
"""
return ut.reduce_time(self.getMeasuredSubFramePeriod())
@property
@element
def top(self):
"""[Eiger] Sets half module to top (1), else bottom.
Note
-----
Advanced Function!
"""
return self.getTop()
@top.setter
def top(self, value):
ut.set_using_dict(self.setTop, value)
"""
------------------<<<Jungfrau specific>>>-------------------------
"""
@property
@element
def chipversion(self):
"""
[Jungfrau] Chip version of module. Can be 1.0 or 1.1.
Example
-------
>>> d.chipversion
'1.0'
"""
return self.getChipVersion()
@property
@element
def autocompdisable(self):
"""[Jungfrau] Enable or disable auto comparator disable mode.
Note
-----
By default, the on-chip gain switching is active during the entire exposure. This mode disables the on-chip gain switching comparator automatically after 93.75% of exposure time (only for longer than 100us). The % is only for chipv1.0, the duration can be set for chipv1.1.\n
Default is 0 or this mode disabled (comparator enabled throughout). 1 enables mode. 0 disables mode.
"""
return self.getAutoComparatorDisable()
@autocompdisable.setter
def autocompdisable(self, value):
ut.set_using_dict(self.setAutoComparatorDisable, value)
@property
@element
def compdisabletime(self):
"""[Jungfrau] Time before end of exposure when comparator is disabled.
Note
-----
It is only possible for chipv1.1.
:getter: always returns in seconds. To get in datetime.delta, use getComparatorDisableTime
Example
-----------
>>> d.compdisabletime = 1.05
>>> d.compdisabletime = datetime.timedelta(minutes = 3, seconds = 1.23)
>>> d.compdisabletime
181.23
>>> d.getComparatorDisableTime()
[datetime.timedelta(seconds=181, microseconds=230000)]
"""
return ut.reduce_time(self.getComparatorDisableTime())
@compdisabletime.setter
def compdisabletime(self, value):
ut.set_time_using_dict(self.setComparatorDisableTime, value)
@property
@element
def runtime(self):
"""[Jungfrau][Mythen3][Gotthard2][Moench][CTB] Time from detector start up.
Note
-----
[Gotthard2] not in burst and auto mode.
"""
return self.getActualTime()
@property
@element
def extrastoragecells(self):
"""
[Jungfrau] Number of additional storage cells.
Note
----
Only for chip v1.0. For advanced users only. \n
Options: 0 - 15. Default is 0.
The #images = #frames x #triggers x (#extrastoragecells + 1)
"""
return self.getNumberOfAdditionalStorageCells()
@extrastoragecells.setter
def extrastoragecells(self, n_cells):
ut.set_using_dict(self.setNumberOfAdditionalStorageCells, n_cells)
@property
@element
def storagecell_start(self):
"""
[Jungfrau] Storage cell that stores the first acquisition of the series.
Note
----
For advanced users only.
Options 0-max. max is 15 (default) for chipv1.0 and 3 (default) for chipv1.1. \n
"""
return self.getStorageCellStart()
@storagecell_start.setter
def storagecell_start(self, value):
ut.set_using_dict(self.setStorageCellStart, value)
@property
def storagecell_delay(self):
"""
[Jungfrau] Additional time delay between 2 consecutive exposures in burst mode, accepts either a value in seconds or datetime.timedelta
Note
-----
Only applicable for chipv1.0. For advanced users only \n
Value: 0-1638375 ns (resolution of 25ns)
:getter: always returns in seconds. To get in datetime.delta, use getStorageCellDelay
Example
-----------
>>> d.storagecell_delay = 0.00056
>>> d.storagecell_delay = datetime.timedelta(microseconds = 45)
>>> d.storagecell_delay
4.5e-05
>>> d.getStorageCellDelay()
[datetime.timedelta(microseconds=45)]
"""
return ut.reduce_time(self.getStorageCellDelay())
@storagecell_delay.setter
def storagecell_delay(self, t):
ut.set_time_using_dict(self.setStorageCellDelay, t)
@property
@element
def temp_threshold(self):
"""
[Jungfrau] Threshold temperature in degrees.
Note
-----
If temperature crosses threshold temperature and temperature control is enabled, power to chip will be switched off and temperature event occurs. \n
To power on chip again, temperature has to be less than threshold temperature and temperature event has to be cleared/reset.
"""
return self.getThresholdTemperature()
@temp_threshold.setter
def temp_threshold(self, value):
ut.set_using_dict(self.setThresholdTemperature, value)
@property
@element
def temp_event(self):
"""
[Jungfrau] 1, if a temperature event occured. \n
Note
----
If temperature crosses threshold temperature and temperature control is enabled, power to chip will be switched off and temperature event occurs. \n
To power on chip again, temperature has to be less than threshold temperature and temperature event has to be cleared/reset.
:setter: To clear the event, set it to 0.
"""
return self.getTemperatureEvent()
@temp_event.setter
def temp_event(self, value):
modules = []
if isinstance(value, dict):
if any(value.values()):
raise ValueError("Value needs to be 0 for reset. Setting not allowed")
modules = list(value.keys())
else:
if value != 0:
raise ValueError("Value needs to be 0 for reset. Setting not allowed")
self.resetTemperatureEvent(modules)
@property
@element
def temp_control(self):
"""
[Jungfrau] Temperature control enable.
Note
-----
Default is 0 (disabled). \n
If temperature crosses threshold temperature and temperature control is enabled, power to chip will be switched off and temperature event occurs. \n
To power on chip again, temperature has to be less than threshold temperature and temperature event has to be cleared/reset.
"""
return self.getTemperatureControl()
@temp_control.setter
def temp_control(self, value):
ut.set_using_dict(self.setTemperatureControl, value)
@property
@element
def selinterface(self):
"""[Jungfrau] The udp interface to stream data from detector.
Note
-----
Effective only when number of interfaces is 1. Default: 0 (outer). Inner is 1.
"""
return self.getSelectedUDPInterface()
@selinterface.setter
def selinterface(self, i):
ut.set_using_dict(self.selectUDPInterface, i)
@property
def gainmodelist(self):
"""List of gainmode implemented for this detector."""
return self.getGainModeList()
@property
def gainmode(self):
"""
[Jungfrau] Detector gain mode. Enum: gainMode
Note
-----
[Jungfrau] DYNAMIC, FORCE_SWITCH_G1, FORCE_SWITCH_G2, FIX_G1, FIX_G2, FIX_G0 \n
CAUTION: Do not use FIX_G0 without caution, you can damage the detector!!!
"""
return element_if_equal(self.getGainMode())
@gainmode.setter
def gainmode(self, value):
self.setGainMode(value)
@property
@element
def currentsource(self):
"""
Pass in a currentSrcParameters object
see python/examples/use_currentsource.py
"""
return self.getCurrentSource()
@currentsource.setter
def currentsource(self, cs):
ut.set_using_dict(self.setCurrentSource, cs)
"""
---------------------------<<<Gotthard2 specific>>>---------------------------
"""
@property
@element
def bursts(self):
"""[Gotthard2] Number of bursts per aquire. Only in auto timing mode and burst mode."""
return self.getNumberOfBursts()
@bursts.setter
def bursts(self, value):
self.setNumberOfBursts(value)
@property
@element
def burstsl(self):
"""
[Gotthard2] Number of bursts left in acquisition.\n
Note
----
Only in burst auto mode.
:setter: Not Implemented
"""
return self.getNumberOfBurstsLeft()
@property
@element
def filterresistor(self):
"""
[Gotthard2][Jungfrau] Set filter resistor. Increasing values for increasing "
"resistance.
Note
----
Advanced user command.
[Gotthard2] Default is 0. Options: 0-3.
[Jungfrau] Default is 1. Options: 0-1.
"""
return self.getFilterResistor()
@filterresistor.setter
def filterresistor(self, value):
ut.set_using_dict(self.setFilterResistor, value)
@property
@element
def filtercells(self):
"""
[Jungfrau] Set filter capacitor.
Note
----
[Jungfrau] Options: 0-12. Default: 0. Advanced user command. Only for chipv1.1.
"""
return self.getNumberOfFilterCells()
@filtercells.setter
def filtercells(self, value):
ut.set_using_dict(self.setNumberOfFilterCells, value)
@property
def maxclkphaseshift(self):
"""
[Gotthard2][Mythen3] Absolute maximum Phase shift of clocks.
Note
----
:setter: Not Implemented
Example
-------
>>> d.maxclkphaseshift
0: 80
1: 80
2: 160
3: 80
4: 80
"""
return MaxPhaseProxy(self)
@property
@element
def timingsource(self):
"""
[Gotthard2] Timing source. Enum: timingSourceType
Note
-----
Options: TIMING_INTERNAL, TIMING_EXTERNAL \n
Internal is crystaland external is system timing. Default is internal.
"""
return self.getTimingSource()
@timingsource.setter
def timingsource(self, args):
ut.set_using_dict(self.setTimingSource, args)
@property
@element
def veto(self):
"""
[Gotthard2] Enable or disable veto data from chip.
Note
----
Default is 0.
"""
return self.getVeto()
@veto.setter
def veto(self, value):
ut.set_using_dict(self.setVeto, value)
@property
@element
def cdsgain(self):
"""[Gotthard2] Enable or disable CDS gain. Default is disabled. """
return self.getCDSGain()
@cdsgain.setter
def cdsgain(self, value):
ut.set_using_dict(self.setCDSGain, value)
@property
@element
def burstmode(self):
"""[Gotthard2] Burst mode of detector. Enum: burstMode
Note
----
BURST_INTERNAL (default), BURST_EXTERNAL, CONTINUOUS_INTERNAL, CONTINUOUS_EXTERNAL
"""
return self.getBurstMode()
@burstmode.setter
def burstmode(self, value):
ut.set_using_dict(self.setBurstMode, value)
@property
def burstperiod(self):
"""
[Gotthard2] Period between 2 bursts. Only in burst mode and auto timing mode.
Note
-----
:getter: always returns in seconds. To get in datetime.delta, use getBurstPeriod
:setter: Not Implemented
Example
-----------
>>> d.burstperiod = 1.05
>>> d.burstperiod = datetime.timedelta(minutes = 3, seconds = 1.23)
>>> d.burstperiod
181.23
>>> d.getBurstPeriod()
[datetime.timedelta(seconds=181, microseconds=230000)]
"""
return ut.reduce_time(self.getBurstPeriod())
@burstperiod.setter
def burstperiod(self, value):
ut.set_time_using_dict(self.setBurstPeriod, value)
@property
def vetofile(self):
"""
[Gotthard2] Set veto reference for each 128 channels for specific chip. \n
The file should have 128 rows of gain index and 12 bit value in dec.
Example
---------
d.vetofile = -1, '/path/to/file.txt' #set for all chips
d.vetofile = 3, '/path/to/file.txt' # set for chip 3
"""
raise NotImplementedError('vetofile is set only')
@vetofile.setter
def vetofile(self, args):
if not isinstance(args, tuple):
args = (args,)
ut.set_using_dict(self.setVetoFile, *args)
@property
def vetophoton(self):
"""
[Gotthard2] Set veto reference for 128 channels for chip ichip according to reference file
and #photons and energy in keV.
Note
----
Arguments: (chip_index, n_photons, photon_energy, fname)
:getter: Not Implemented
Example
-------
>>> d.vetophoton = (2, 24, 2560, '/tmp/bla.txt')
"""
raise NotImplementedError('vetophoton is set only')
@vetophoton.setter
def vetophoton(self, args):
if not isinstance(args, tuple):
args = (args,)
ut.set_using_dict(self.setVetoPhoton, *args)
@property
@element
def vetoref(self):
"""
[Gotthard2] Set veto reference for all 128 channels for all chips.
Example
----------
>>> d.vetoref = chip, value
"""
raise NotImplementedError('vetoref is set only')
@vetoref.setter
def vetoref(self, args):
if not isinstance(args, tuple):
args = (args,)
ut.set_using_dict(self.setVetoReference, *args)
@property
@element
def vetostream(self):
"""[Gotthard2] Enabling/ disabling veto interface
Note
----
Default: both off
Options: NONE, LOW_LATENCY_LINK, 10GBE (debugging)
Debugging interface also enables second interface in receiver (separate file), which also restarts zmq streaming if enabled.
"""
return self.getVetoStream()
@vetostream.setter
def vetostream(self, args):
if not isinstance(args, tuple):
args = (args,)
ut.set_using_dict(self.setVetoStream, *args)
@property
def vetoalg(self):
"""[Gotthard2] Algorithm used for veto. Enum: vetoAlgorithm, streamingInterface
Note
----
Options:
(vetoAlgorithm): ALG_HITS (default), ALG_RAW
(streamingInterface): ETHERNET_10GB, LOW_LATENCY_LINK
Example
----------
>>> d.vetoalg = defs.ALG_HITS, defs.ETHERNET_10GB
"""
result = {}
interface = [streamingInterface.LOW_LATENCY_LINK, streamingInterface.ETHERNET_10GB]
for eth in interface:
result[eth] = element_if_equal(self.getVetoAlgorithm(eth))
return result
@vetoalg.setter
def vetoalg(self, args):
if not isinstance(args, tuple):
args = (args,)
ut.set_using_dict(self.setVetoAlgorithm, *args)
"""
Mythen3 specific
"""
@property
def gatedelay(self):
"""
[Mythen3] Gate Delay of all gate signals in auto and trigger mode (internal gating), accepts either a value in seconds or datetime.timedelta
Note
-----
To specify gateIndex, use getGateDelay or setGateDelay.
:getter: always returns in seconds. To get in datetime.delta, use getGateDelayForAllGates or getGateDelay(gateIndex)
Example
-----------
>>> d.gatedelay = 1.05
>>> d.gatedelay = datetime.timedelta(minutes = 3, seconds = 1.23)
>>> d.gatedelay
181.23
>>> d.setGateDelay(1, datetime.timedelta(seconds = 2))
>>> d.gatedelay
>>> [1.0, 2.0, 1.0]
>>> d.getExptimeForAllGates()
>>> [[datetime.timedelta(seconds=181, microseconds=230000), datetime.timedelta(seconds=181, microseconds=230000), datetime.timedelta(seconds=181, microseconds=230000)]]
"""
return reduce_time(self.getGateDelayForAllGates())
@gatedelay.setter
def gatedelay(self, value):
if is_iterable(value):
for i, v in enumerate(value):
if isinstance(v, int):
v = float(v)
self.setGateDelay(i, v)
else:
if isinstance(value, int):
value = float(value)
self.setGateDelay(-1, value)
@property
def counters(self):
"""
[Mythen3] List of counter indices enabled.
Note
-----
Each element in list can be 0 - 2 and must be non repetitive.
Enabling counters sets vth dacs to remembered values and disabling sets them to disabled values.
Example
-----------
>>> d.counters = [0, 1]
"""
mask = self.getCounterMask()
mask = element_if_equal(mask)
if type(mask) == int:
return get_set_bits(mask)
else:
return [get_set_bits(m) for m in mask]
@counters.setter
def counters(self, values):
values = ut.make_bitmask(values)
ut.set_using_dict(self.setCounterMask, values)
"""
<<<CTB>>>
"""
@property
@element
def adcenable(self):
"""[Ctb][Moench] ADC Enable Mask for 1Gb. Enable for each 32 ADC channel."""
return self.getADCEnableMask()
@adcenable.setter
def adcenable(self, value):
ut.set_using_dict(self.setADCEnableMask, value)
@property
@element
def adcenable10g(self):
"""[Ctb][Moench] ADC Enable Mask for 10Gb mode for each 32 ADC channel.
Note
-----
If any of a consecutive 4 bits are enabled, the complete 4 bits are enabled."""
return self.getTenGigaADCEnableMask()
@adcenable10g.setter
def adcenable10g(self, value):
ut.set_using_dict(self.setTenGigaADCEnableMask, value)
@property
@element
def samples(self):
"""
[CTB] Number of samples (both analog and digitial) expected. \n
[Moench] Number of samples (analog only)
"""
return self.getNumberOfAnalogSamples()
@samples.setter
def samples(self, nsamples):
ut.set_using_dict(self.setNumberOfAnalogSamples, nsamples)
@property
@element
def runclk(self):
"""[Ctb][Moench] Run clock in MHz."""
return self.getRUNClock()
@runclk.setter
def runclk(self, freq):
ut.set_using_dict(self.setRUNClock, freq)
@property
@element
def romode(self):
"""
[CTB] Readout mode of detector. Enum: readoutMode
Note
------
Options: ANALOG_ONLY, DIGITAL_ONLY, ANALOG_AND_DIGITAL
Default: ANALOG_ONLY
Example
--------
>>> d.romode = readoutMode.ANALOG_ONLY
>>> d.romode
readoutMode.ANALOG_ONLY
"""
return self.getReadoutMode()
@romode.setter
def romode(self, mode):
ut.set_using_dict(self.setReadoutMode, mode)
@property
@element
def asamples(self):
"""[Ctb][Moench] Number of analog samples expected. """
return element_if_equal(self.getNumberOfAnalogSamples())
@asamples.setter
def asamples(self, N):
ut.set_using_dict(self.setNumberOfAnalogSamples, N)
@property
@element
def dsamples(self):
"""[CTB] Number of digital samples expected. """
return self.getNumberOfDigitalSamples()
@dsamples.setter
def dsamples(self, N):
ut.set_using_dict(self.setNumberOfDigitalSamples, N)
@property
@element
def dbitphase(self):
"""[Ctb][Jungfrau] Phase shift of clock to latch digital bits. Absolute phase shift.
Note
-----
[Ctb]Changing dbitclk also resets dbitphase and sets to previous values.
"""
return self.getDBITPhase()
@dbitphase.setter
def dbitphase(self, value):
ut.set_using_dict(self.setDBITPhase, value)
@property
@element
def dbitclk(self):
"""[Ctb] Clock for latching the digital bits in MHz."""
return self.getDBITClock()
@dbitclk.setter
def dbitclk(self, value):
ut.set_using_dict(self.setDBITClock, value)
@property
@element
def dbitpipeline(self):
"""[Ctb][Gotthard2] Pipeline of the clock for latching digital bits.
Note
----
[CTB] Options: 0 - 255
[Gotthard2] Options: 0 - 7
"""
return self.getDBITPipeline()
@dbitpipeline.setter
def dbitpipeline(self, value):
ut.set_using_dict(self.setDBITPipeline, value)
@property
@element
def maxdbitphaseshift(self):
"""[CTB][Jungfrau] Absolute maximum Phase shift of of the clock to latch digital bits.
Note
-----
:setter: Not Implemented
"""
return self.getMaxDBITPhaseShift()
@property
@element
def rx_dbitlist(self):
"""
[Ctb] List of digital signal bits read out.
Note
-----
Each element in list can be 0 - 63 and must be non repetitive.
Example
---------
>>> d.rxdbitlist = [0, 1, 61, 9]
>>> d.rxdbitlist
[0, 1, 61, 9]
>>> d.rxdbitlist = []
>>> d.rxdbitlist
[]
"""
return self.getRxDbitList()
@rx_dbitlist.setter
def rx_dbitlist(self, value):
ut.set_using_dict(self.setRxDbitList, value)
@property
@element
def rx_dbitoffset(self):
"""[Ctb] Offset in bytes in digital data to skip in receiver."""
return self.getRxDbitOffset()
@rx_dbitoffset.setter
def rx_dbitoffset(self, value):
ut.set_using_dict(self.setRxDbitOffset, value)
@property
@element
def maxadcphaseshift(self):
"""[Jungfrau][CTB][Moench] Absolute maximum Phase shift of ADC clock.
Note
-----
:setter: Not Implemented
"""
return self.getMaxADCPhaseShift()
@property
@element
def adcphase(self):
"""[Gotthard][Jungfrau][CTB][Moench] Sets phase shift of ADC clock.
Note
-----
[Jungfrau] Absolute phase shift. Changing Speed also resets adcphase to recommended defaults.\n
[Ctb][Moench] Absolute phase shift. Changing adcclk also resets adcphase and sets it to previous values.\n
[Gotthard] Relative phase shift.
:getter: Not implemented for Gotthard
"""
return self.getADCPhase()
@adcphase.setter
def adcphase(self, value):
ut.set_using_dict(self.setADCPhase, value)
@property
@element
def adcpipeline(self):
"""[Ctb][Moench] Sets pipeline for ADC clock. """
return self.getADCPipeline()
@adcpipeline.setter
def adcpipeline(self, value):
ut.set_using_dict(self.setADCPipeline, value)
@property
@element
def adcclk(self):
"""[Ctb][Moench] Sets ADC clock frequency in MHz. """
return self.getADCClock()
@adcclk.setter
def adcclk(self, value):
ut.set_using_dict(self.setADCClock, value)
@property
@element
def syncclk(self):
"""
[Ctb][Moench] Sync clock in MHz.
Note
-----
:setter: Not implemented
"""
return self.getSYNCClock()
@property
def pattern(self):
"""[Mythen3][Moench][Ctb] Loads ASCII pattern file directly to server (instead of executing line by line).
Note
----
:getter: Not Implemented
Example
---------
>>> d.pattern = '/tmp/pat.txt'
"""
raise NotImplementedError("Pattern is set only")
@pattern.setter
def pattern(self, fname):
fname = ut.make_string_path(fname)
ut.set_using_dict(self.setPattern, fname)
@property
@element
def patioctrl(self):
"""[Ctb][Moench] 64 bit mask defining input (0) and output (1) signals.
Example
--------
>>> d.patioctrl = 0x8f0effff6dbffdbf
>>> hex(d.patioctrl)
'0x8f0effff6dbffdbf'
"""
return self.getPatternIOControl()
@patioctrl.setter
def patioctrl(self, mask):
ut.set_using_dict(self.setPatternIOControl, mask)
@property
@element
def patlimits(self):
"""[Ctb][Moench][Mythen3] Limits (start and stop address) of complete pattern.
Example
---------
>>> d.patlimits = [0x0, 0x18c]
>>> d.patlimits
[0, 396]
>>> [hex(l) for l in d.patlimits]
['0x0', '0x18c']
"""
return self.getPatternLoopAddresses(-1)
@patlimits.setter
def patlimits(self, args):
args = ut.merge_args(-1, args)
ut.set_using_dict(self.setPatternLoopAddresses, *args)
@property
@element
def patsetbit(self):
"""[Ctb][Moench][Mythen3] Sets the mask applied to every pattern to the selected bits.
Example
--------
>>> d.patsetbit = 0x8f0effff6dbffdbf
>>> hex(d.patsetbit)
'0x8f0effff6dbffdbf'
"""
return self.getPatternBitMask()
@patsetbit.setter
def patsetbit(self, mask):
ut.set_using_dict(self.setPatternBitMask, mask)
@property
@element
def patmask(self):
"""[Ctb][Moench][Mythen3] Selects the bits that will have a pattern mask applied to the selected patmask for every pattern.
Example
--------
>>> d.patmask = 0x8f0effff6dbffdbf
>>> hex(d.patmask)
'0x8f0effff6dbffdbf'
"""
return self.getPatternMask()
@patmask.setter
def patmask(self, mask):
ut.set_using_dict(self.setPatternMask, mask)
@property
# @element
def patwait(self):
"""
[Ctb][Moench][Mythen3] Wait address of loop level provided.
Example
-------
>>> d.patwait[0] = 5
>>> d.patwait[0]
5
>>> d.patwait
0: 5
1: 20
2: 30
"""
return PatWaitProxy(self)
@property
@element
def patwait0(self):
"""[Ctb][Moench][Mythen3] Wait 0 address.
Example
--------
>>> d.patwait0 = 0xaa
>>> d.patwait0
170
>>> hex(d.patwait0)
'0xaa'
"""
return self.getPatternWaitAddr(0)
@patwait0.setter
def patwait0(self, addr):
addr = ut.merge_args(0, addr)
ut.set_using_dict(self.setPatternWaitAddr, *addr)
@property
@element
def patwait1(self):
"""[Ctb][Moench][Mythen3] Wait 1 address.
Example
--------
>>> d.patwait1 = 0xaa
>>> d.patwait1
170
>>> hex(d.patwait1)
'0xaa'
"""
return self.getPatternWaitAddr(1)
@patwait1.setter
def patwait1(self, addr):
addr = ut.merge_args(1, addr)
ut.set_using_dict(self.setPatternWaitAddr, *addr)
@property
@element
def patwait2(self):
"""[Ctb][Moench][Mythen3] Wait 2 address.
Example
--------
>>> d.patwait2 = 0xaa
>>> d.patwait2
170
>>> hex(d.patwait2)
'0xaa'
"""
return self.getPatternWaitAddr(2)
@patwait2.setter
def patwait2(self, addr):
addr = ut.merge_args(2, addr)
ut.set_using_dict(self.setPatternWaitAddr, *addr)
@property
def patwaittime(self):
"""
[Ctb][Moench][Mythen3] Wait time in clock cycles of loop level provided.
Example
-------
>>> d.patwaittime[0] = 5
>>> d.patwaittime[0]
5
>>> d.patwaittime
0: 5
1: 20
2: 30
"""
return PatWaitTimeProxy(self)
@property
@element
def patwaittime0(self):
"""[Ctb][Moench][Mythen3] Wait 0 time in clock cycles."""
return self.getPatternWaitTime(0)
@patwaittime0.setter
def patwaittime0(self, nclk):
nclk = ut.merge_args(0, nclk)
ut.set_using_dict(self.setPatternWaitTime, *nclk)
@property
@element
def patwaittime1(self):
"""[Ctb][Moench][Mythen3] Wait 1 time in clock cycles."""
return self.getPatternWaitTime(1)
@patwaittime1.setter
def patwaittime1(self, nclk):
nclk = ut.merge_args(1, nclk)
ut.set_using_dict(self.setPatternWaitTime, *nclk)
@property
@element
def patwaittime2(self):
"""[Ctb][Moench][Mythen3] Wait 2 time in clock cycles."""
return self.getPatternWaitTime(2)
@patwaittime2.setter
def patwaittime2(self, nclk):
nclk = ut.merge_args(2, nclk)
ut.set_using_dict(self.setPatternWaitTime, *nclk)
@property
def patloop(self):
"""
[Ctb][Moench][Mythen3] Limits (start and stop address) of the loop provided.
Example
-------
>>> d.patloop[0] = [5, 20]
>>> d.patloop[0]
[5, 20]
>>> d.patloop
0: [5, 20]
1: [20, 4]
2: [30, 5]
"""
return PatLoopProxy(self)
@property
@element
def patloop0(self):
"""[Ctb][Moench][Mythen3] Limits (start and stop address) of loop 0.
Example
---------
>>> d.patloop0 = [0x0, 0x18c]
>>> d.patloop0
[0, 396]
>>> [hex(l) for l in d.patloop0]
['0x0', '0x18c']
"""
return self.getPatternLoopAddresses(0)
@patloop0.setter
def patloop0(self, addr):
addr = ut.merge_args(0, addr)
ut.set_using_dict(self.setPatternLoopAddresses, *addr)
@property
@element
def patloop1(self):
"""[Ctb][Moench][Mythen3] Limits (start and stop address) of loop 1.
Example
---------
>>> d.patloop1 = [0x0, 0x18c]
>>> d.patloop1
[0, 396]
>>> [hex(l) for l in d.patloop1]
['0x0', '0x18c']
"""
return self.getPatternLoopAddresses(1)
@patloop1.setter
def patloop1(self, addr):
addr = ut.merge_args(1, addr)
ut.set_using_dict(self.setPatternLoopAddresses, *addr)
@property
@element
def patloop2(self):
"""[Ctb][Moench][Mythen3] Limits (start and stop address) of loop 2.
Example
---------
>>> d.patloop2 = [0x0, 0x18c]
>>> d.patloop2
[0, 396]
>>> [hex(l) for l in d.patloop2]
['0x0', '0x18c']
"""
return self.getPatternLoopAddresses(2)
@patloop2.setter
def patloop2(self, addr):
addr = ut.merge_args(2, addr)
ut.set_using_dict(self.setPatternLoopAddresses, *addr)
@property
def patnloop(self):
"""
[Ctb][Moench][Mythen3] Number of cycles of the loop provided.
Example
-------
>>> d.patnloop[0] = 5
>>> d.patnloop[0]
5
>>> d.patnloop
0: 5
1: 20
2: 30
"""
return PatNLoopProxy(self)
@property
@element
def patnloop0(self):
"""[Ctb][Moench][Mythen3] Number of cycles of loop 0."""
return self.getPatternLoopCycles(0)
@patnloop0.setter
def patnloop0(self, n):
n = ut.merge_args(0, n)
ut.set_using_dict(self.setPatternLoopCycles, *n)
@property
@element
def patnloop1(self):
"""[Ctb][Moench][Mythen3] Number of cycles of loop 1."""
return self.getPatternLoopCycles(1)
@patnloop1.setter
def patnloop1(self, n):
n = ut.merge_args(1, n)
ut.set_using_dict(self.setPatternLoopCycles, *n)
@property
@element
def patnloop2(self):
"""[Ctb][Moench][Mythen3] Number of cycles of loop 2."""
return self.getPatternLoopCycles(2)
@patnloop2.setter
def patnloop2(self, n):
n = ut.merge_args(2, n)
ut.set_using_dict(self.setPatternLoopCycles, *n)
@property
@element
def v_a(self):
"""[Ctb] Voltage supply a in mV."""
return self.getDAC(dacIndex.V_POWER_A, True)
@v_a.setter
def v_a(self, value):
value = ut.merge_args(dacIndex.V_POWER_A, value, True)
ut.set_using_dict(self.setDAC, *value)
@property
@element
def v_b(self):
"""[Ctb] Voltage supply b in mV."""
return self.getDAC(dacIndex.V_POWER_B, True)
@v_b.setter
def v_b(self, value):
value = ut.merge_args(dacIndex.V_POWER_B, value, True)
ut.set_using_dict(self.setDAC, *value)
@property
@element
def v_c(self):
"""[Ctb] Voltage supply c in mV."""
return self.getDAC(dacIndex.V_POWER_C, True)
@v_c.setter
def v_c(self, value):
value = ut.merge_args(dacIndex.V_POWER_C, value, True)
ut.set_using_dict(self.setDAC, *value)
@property
@element
def v_d(self):
"""[Ctb] Voltage supply d in mV."""
return self.getDAC(dacIndex.V_POWER_D, True)
@v_d.setter
def v_d(self, value):
value = ut.merge_args(dacIndex.V_POWER_D, value, True)
ut.set_using_dict(self.setDAC, *value)
@property
@element
def v_io(self):
"""[Ctb] Voltage supply io in mV. Minimum 1200 mV.
Note
----
Must be the first power regulator to be set after fpga reset (on-board detector server start up).
"""
return self.getDAC(dacIndex.V_POWER_IO, True)
@v_io.setter
def v_io(self, value):
value = ut.merge_args(dacIndex.V_POWER_IO, value, True)
ut.set_using_dict(self.setDAC, *value)
@property
@element
def v_limit(self):
"""[Ctb][Moench] Soft limit for power supplies (ctb only) and DACS in mV."""
return self.getDAC(dacIndex.V_LIMIT, True)
@v_limit.setter
def v_limit(self, value):
value = ut.merge_args(dacIndex.V_LIMIT, value, True)
ut.set_using_dict(self.setDAC, *value)
@property
@element
def im_a(self):
"""[Ctb] Measured current of power supply a in mA.
Note
-----
:setter: Not implemented
"""
return self.getMeasuredCurrent(dacIndex.I_POWER_A)
@property
@element
def im_b(self):
"""[Ctb] Measured current of power supply b in mA.
Note
-----
:setter: Not implemented
"""
return self.getMeasuredCurrent(dacIndex.I_POWER_B)
@property
@element
def im_c(self):
"""[Ctb] Measured current of power supply c in mA.
Note
-----
:setter: Not implemented
"""
return self.getMeasuredCurrent(dacIndex.I_POWER_C)
@property
@element
def im_d(self):
"""[Ctb] Measured current of power supply d in mA.
Note
-----
:setter: Not implemented
"""
return self.getMeasuredCurrent(dacIndex.I_POWER_D)
@property
@element
def im_io(self):
"""[Ctb] Measured current of power supply io in mA.
Note
-----
:setter: Not implemented
"""
return self.getMeasuredCurrent(dacIndex.I_POWER_IO)
@property
def clkdiv(self):
"""
[Gotthard2][Mythen3] Clock Divider of all clocks. Must be greater than 1.
Example
-------
>>> d.clkdiv[0] = 20
>>> d.clkdiv
0: 20
1: 10
2: 20
3: 10
4: 10
5: 5
"""
return ClkDivProxy(self)
"""
---------------------------<<<Gotthard specific>>>---------------------------
"""
@property
def exptimel(self):
"""[Gotthard] Exposure time left for current frame.
Note
-----
:getter: always returns in seconds. To get in datetime.delta, use getExptimeLeft
:setter: Not Implemented
Example
-----------
>>> d.exptimel
181.23
>>> d.getExptimeLeft()
[datetime.timedelta(seconds=181, microseconds=230000)]
"""
t = self.getExptimeLeft()
return reduce_time(t)
"""
---------------------------<<<Mythen3 specific>>>---------------------------
"""
@property
@element
def gates(self):
"""[Mythen3] Number of external gates in gating or trigger_gating mode (external gating)."""
return self.getNumberOfGates()
@gates.setter
def gates(self, value):
ut.set_using_dict(self.setNumberOfGates, value)
@property
def clkfreq(self):
"""
[Gotthard2][Mythen3] Frequency of clock in Hz.
Note
----
:setter: Not implemented. Use clkdiv to set frequency
Example
-------
>>> d.clkfreq[0]
50000000
"""
return ClkFreqProxy(self)
def readout(self):
"""
[Mythen3] Starts detector readout. Status changes to TRANSMITTING and automatically returns to idle at the end of readout.
"""
self.startDetectorReadout()
@property
@element
def polarity(self):
"""[Mythen3] Set positive or negative polarity. Enum: polarity"""
return self.getPolarity()
@polarity.setter
def polarity(self, value):
ut.set_using_dict(self.setPolarity, value)
@property
@element
def interpolation(self):
"""[Mythen3] Enable or disable interpolation. interpolation mode enables all counters and disables vth3. Disabling sets back counter mask and vth3. """
return self.getInterpolation()
@interpolation.setter
def interpolation(self, value):
ut.set_using_dict(self.setInterpolation, value)
@property
@element
def pumpprobe(self):
"""[Mythen3] Enable or disable pump probe mode. Pump probe mode only enables vth2. Disabling sets back to previous value """
return self.getPumpProbe()
@pumpprobe.setter
def pumpprobe(self, value):
ut.set_using_dict(self.setPumpProbe, value)
@property
@element
def apulse(self):
"""[Mythen3] Enable or disable analog pulsing. """
return self.getAnalogPulsing()
@apulse.setter
def apulse(self, value):
ut.set_using_dict(self.setAnalogPulsing, value)
@property
@element
def dpulse(self):
"""[Mythen3] Enable or disable digital pulsing. """
return self.getDigitalPulsing()
@dpulse.setter
def dpulse(self, value):
ut.set_using_dict(self.setDigitalPulsing, value)
"""
---------------------------<<<Debug>>>---------------------------
"""
@property
def initialchecks(self):
"""
Enable or disable intial compatibility and other checks at detector start up.
Note
----
It is enabled by default. Must come before 'hostname' command to take effect. \n
Can be used to reprogram fpga when current firmware is incompatible. \n
Advanced user function!
"""
return self.getInitialChecks()
@initialchecks.setter
def initialchecks(self, value):
self.setInitialChecks(value)
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