Merge pull request #288 from slsdetectorgroup/jungfrau1.1

Jungfrau features for chipv1.1
This commit is contained in:
Dhanya Thattil 2021-08-11 11:56:49 +02:00 committed by GitHub
commit 799906a33a
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GPG Key ID: 4AEE18F83AFDEB23
60 changed files with 4031 additions and 1440 deletions

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@ -18,7 +18,8 @@ Checks: '*,
-google-readability-todo, -google-readability-todo,
-google-readability-braces-around-statements, -google-readability-braces-around-statements,
-modernize-use-trailing-return-type, -modernize-use-trailing-return-type,
-readability-isolate-declaration' -readability-isolate-declaration,
-llvmlibc-*'
HeaderFilterRegex: \.h HeaderFilterRegex: \.h
AnalyzeTemporaryDtors: false AnalyzeTemporaryDtors: false

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@ -38,6 +38,9 @@ This document describes the differences between 5.2.0 and 5.1.0 releases.
1. Bad Channels moved to a new register 1. Bad Channels moved to a new register
Jungfrau- many Features
2. Resolved Issues 2. Resolved Issues
@ -59,7 +62,10 @@ This document describes the differences between 5.2.0 and 5.1.0 releases.
detector server to reset core until firmware release. detector server to reset core until firmware release.
getAutoCompDisable->getAutoComparatorDisable
filter->filterResistor
setBottom->setFlipRows
currentsource expects currentsrcparameters structure instread of bool
3. Firmware Requirements 3. Firmware Requirements
======================== ========================

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@ -101,15 +101,11 @@ def test_module_size(virtual_jf_detectors):
def test_settings(virtual_jf_detectors): def test_settings(virtual_jf_detectors):
d = ExperimentalDetector() d = ExperimentalDetector()
assert d.settings == detectorSettings.DYNAMICGAIN assert d.settings == detectorSettings.GAIN0
gain_list = [ gain_list = [
detectorSettings.FIXGAIN1, detectorSettings.GAIN0,
detectorSettings.FIXGAIN2, detectorSettings.HIGHGAIN0,
detectorSettings.FORCESWITCHG1,
detectorSettings.FORCESWITCHG2,
detectorSettings.DYNAMICHG0,
detectorSettings.DYNAMICGAIN,
] ]
# Set all viable gain for Jungfrau to make sure nothing is crashing # Set all viable gain for Jungfrau to make sure nothing is crashing
@ -117,15 +113,14 @@ def test_settings(virtual_jf_detectors):
d.settings = gain d.settings = gain
assert d.settings == gain assert d.settings == gain
d.setSettings(detectorSettings.FORCESWITCHG1, [1]) d.setSettings(detectorSettings.GAIN0, [1])
assert d.settings == [ assert d.settings == [
detectorSettings.DYNAMICGAIN, detectorSettings.GAIN0,
detectorSettings.FORCESWITCHG1, detectorSettings.HIGHGAIN0,
detectorSettings.DYNAMICGAIN,
] ]
d.settings = detectorSettings.DYNAMICGAIN d.settings = detectorSettings.GAIN0
assert d.settings == detectorSettings.DYNAMICGAIN assert d.settings == detectorSettings.GAIN0
def test_frames(virtual_jf_detectors): def test_frames(virtual_jf_detectors):
d = ExperimentalDetector() d = ExperimentalDetector()
@ -161,4 +156,34 @@ def test_period(virtual_jf_detectors):
d.period = t d.period = t
assert d.period == 10e-6 assert d.period == 10e-6
def test_gainmode(virtual_jf_detectors):
d = ExperimentalDetector()
assert d.gainMode == gainMode.NORMAL_GAIN_MODE
gain_list = [
gainMode.DYNAMIC,
gainMode.FORCE_SWITCH_G1,
gainMode.FORCE_SWITCH_G2,
gainMode.FIX_G1,
gainMode.FIX_G2,
gainMode.FIX_G0
]
# Set all viable gain for Jungfrau to make sure nothing is crashing
for gain in gain_list:
d.gainMode = gain
assert d.gainMode == gain
d.setGainMode(gainMode.FORCE_SWITCH_G1, [1])
assert d.gainMode == [
gainMode.DYNAMIC,
gainMode.FORCE_SWITCH_G1,
gainMode.FORCE_SWITCH_G2,
gainMode.FIX_G1,
gainMode.FIX_G2,
gainMode.FIX_G0
]
d.gainMode = gainMode.FORCE_SWITCH_G1
assert d.gainMode == gainMode.FORCE_SWITCH_G1

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@ -311,7 +311,7 @@ class Detector(CppDetectorApi):
----- -----
[Eiger] Use threshold command to load settings [Eiger] Use threshold command to load settings
[Jungfrau] DYNAMICGAIN, DYNAMICHG0, FIXGAIN1, FIXGAIN2, FORCESWITCHG1, FORCESWITCHG2 \n [Jungfrau] GAIN0, HIGHGAIN0 \n
[Gotthard] DYNAMICGAIN, HIGHGAIN, LOWGAIN, MEDIUMGAIN, VERYHIGHGAIN \n [Gotthard] DYNAMICGAIN, HIGHGAIN, LOWGAIN, MEDIUMGAIN, VERYHIGHGAIN \n
[Gotthard2] DYNAMICGAIN, FIXGAIN1, FIXGAIN2 \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 [Moench] G1_HIGHGAIN, G1_LOWGAIN, G2_HIGHCAP_HIGHGAIN, G2_HIGHCAP_LOWGAIN, G2_LOWCAP_HIGHGAIN, G2_LOWCAP_LOWGAIN, G4_HIGHGAIN, G4_LOWGAIN \n
@ -370,7 +370,7 @@ class Detector(CppDetectorApi):
Note Note
---- ----
[Moench] Default is disabled. \n [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. \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. [Mythen3][Gotthard2] Default is 1. If module not connected or wrong module, powerchip will fail.
""" """
return self.getPowerChip() return self.getPowerChip()
@ -1992,6 +1992,20 @@ class Detector(CppDetectorApi):
Jungfrau specific 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 @property
@element @element
def auto_comp_disable(self): def auto_comp_disable(self):
@ -1999,14 +2013,39 @@ class Detector(CppDetectorApi):
Note 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).\n 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. Default is 0 or this mode disabled (comparator enabled throughout). 1 enables mode. 0 disables mode.
""" """
return self.getAutoCompDisable() return self.getAutoComparatorDisable()
@auto_comp_disable.setter @auto_comp_disable.setter
def auto_comp_disable(self, value): def auto_comp_disable(self, value):
ut.set_using_dict(self.setAutoCompDisable, value) ut.set_using_dict(self.setAutoComparatorDisable, value)
@property
@element
def comp_disable_time(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.comp_disable_time = 1.05
>>> d.comp_disable_time = datetime.timedelta(minutes = 3, seconds = 1.23)
>>> d.comp_disable_time
181.23
>>> d.getComparatorDisableTime()
[datetime.timedelta(seconds=181, microseconds=230000)]
"""
return ut.reduce_time(self.getComparatorDisableTime())
@comp_disable_time.setter
def comp_disable_time(self, value):
ut.set_time_using_dict(self.setComparatorDisableTime, value)
@property @property
@ -2026,7 +2065,7 @@ class Detector(CppDetectorApi):
[Jungfrau] Number of additional storage cells. [Jungfrau] Number of additional storage cells.
Note Note
---- ----
For advanced users only. \n Only for chip v1.0. For advanced users only. \n
Options: 0 - 15. Default is 0. Options: 0 - 15. Default is 0.
The #images = #frames x #triggers x (#storagecells + 1) The #images = #frames x #triggers x (#storagecells + 1)
""" """
@ -2045,7 +2084,7 @@ class Detector(CppDetectorApi):
Note Note
---- ----
For advanced users only. For advanced users only.
Options 0-15. Default is 15. \n Options 0-max. max is 15 (default) for chipv1.0 and 3 (default) for chipv1.1. \n
""" """
return self.getStorageCellStart() return self.getStorageCellStart()
@ -2059,7 +2098,7 @@ class Detector(CppDetectorApi):
[Jungfrau] Additional time delay between 2 consecutive exposures in burst mode, accepts either a value in seconds or datetime.timedelta [Jungfrau] Additional time delay between 2 consecutive exposures in burst mode, accepts either a value in seconds or datetime.timedelta
Note Note
----- -----
For advanced users only \n Only applicable for chipv1.0. For advanced users only \n
Value: 0-1638375 ns (resolution of 25ns) \n Value: 0-1638375 ns (resolution of 25ns) \n
:getter: always returns in seconds. To get in datetime.delta, use getStorageCellDelay :getter: always returns in seconds. To get in datetime.delta, use getStorageCellDelay
@ -2151,6 +2190,26 @@ class Detector(CppDetectorApi):
def selinterface(self, i): def selinterface(self, i):
ut.set_using_dict(self.selectUDPInterface, 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)
""" """
---------------------------<<<Gotthard2 specific>>>--------------------------- ---------------------------<<<Gotthard2 specific>>>---------------------------
""" """
@ -2179,18 +2238,37 @@ class Detector(CppDetectorApi):
@property @property
@element @element
def filter(self): def filterresistor(self):
"""[Gotthard2] Set filter resistor. """
[Gotthard2][Jungfrau] Set filter resistor. Increasing values for increasing "
"resistance.
Note Note
---- ----
Default is 0. Options: 0-3. Advanced user command.
[Gotthard2] Default is 0. Options: 0-3.
[Jungfrau] Default is 1. Options: 0-1.
""" """
return self.getFilter() return self.getFilterResistor()
@filter.setter @filterresistor.setter
def filter(self, value): def filterresistor(self, value):
ut.set_using_dict(self.setFilter, value) ut.set_using_dict(self.setFilterResistor, value)
@property
@element
def filtercell(self):
"""
[Jungfrau] Set filter capacitor.
Note
----
[Jungfrau] Options: 0-12. Default: 0. Advanced user command.
"""
return self.getFilterCell()
@filtercell.setter
def filtercell(self, value):
ut.set_using_dict(self.setFilterCell, value)
@property @property
def maxclkphaseshift(self): def maxclkphaseshift(self):
""" """

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@ -1,17 +1,20 @@
"""
Automatically improt all enums from slsDetectorDefs and give an
alias with their name in the enum module. All names from the enum
module is later imported into slsdet
Example: detectorType = _slsdet.slsDetectorDefs.detectorType
Usage can later be:
from slsdet import detectorType
if dt === detectorType.EIGER:
#do something
"""
import _slsdet import _slsdet
runStatus = _slsdet.slsDetectorDefs.runStatus for name, cls in _slsdet.slsDetectorDefs.__dict__.items():
speedLevel = _slsdet.slsDetectorDefs.speedLevel if isinstance(cls, type):
detectorType = _slsdet.slsDetectorDefs.detectorType exec(f'{name} = {cls.__module__}.{cls.__qualname__}')
frameDiscardPolicy = _slsdet.slsDetectorDefs.frameDiscardPolicy
fileFormat = _slsdet.slsDetectorDefs.fileFormat
dimension = _slsdet.slsDetectorDefs.dimension
externalSignalFlag = _slsdet.slsDetectorDefs.externalSignalFlag
timingMode = _slsdet.slsDetectorDefs.timingMode
dacIndex = _slsdet.slsDetectorDefs.dacIndex
detectorSettings = _slsdet.slsDetectorDefs.detectorSettings
clockIndex = _slsdet.slsDetectorDefs.clockIndex
readoutMode = _slsdet.slsDetectorDefs.readoutMode
burstMode = _slsdet.slsDetectorDefs.burstMode
timingSourceType = _slsdet.slsDetectorDefs.timingSourceType
M3_GainCaps = _slsdet.slsDetectorDefs.M3_GainCaps

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@ -354,9 +354,28 @@ void init_det(py::module &m) {
py::arg(), py::arg() = Positions{}) py::arg(), py::arg() = Positions{})
.def("getDacList", (std::vector<defs::dacIndex>(Detector::*)() const) & .def("getDacList", (std::vector<defs::dacIndex>(Detector::*)() const) &
Detector::getDacList) Detector::getDacList)
.def("setDefaultDacs", .def("getDefaultDac",
(void (Detector::*)(sls::Positions)) & Detector::setDefaultDacs, (Result<int>(Detector::*)(defs::dacIndex, sls::Positions)) &
py::arg() = Positions{}) Detector::getDefaultDac,
py::arg(), py::arg() = Positions{})
.def("setDefaultDac",
(void (Detector::*)(defs::dacIndex, int, sls::Positions)) &
Detector::setDefaultDac,
py::arg(), py::arg(), py::arg() = Positions{})
.def("getDefaultDac",
(Result<int>(Detector::*)(defs::dacIndex, defs::detectorSettings,
sls::Positions)) &
Detector::getDefaultDac,
py::arg(), py::arg(), py::arg() = Positions{})
.def("setDefaultDac",
(void (Detector::*)(defs::dacIndex, int, defs::detectorSettings,
sls::Positions)) &
Detector::setDefaultDac,
py::arg(), py::arg(), py::arg(), py::arg() = Positions{})
.def("resetToDefaultDacs",
(void (Detector::*)(const bool, sls::Positions)) &
Detector::resetToDefaultDacs,
py::arg(), py::arg() = Positions{})
.def("getDAC", .def("getDAC",
(Result<int>(Detector::*)(defs::dacIndex, bool, sls::Positions) (Result<int>(Detector::*)(defs::dacIndex, bool, sls::Positions)
const) & const) &
@ -829,12 +848,12 @@ void init_det(py::module &m) {
(void (Detector::*)(bool, sls::Positions)) & (void (Detector::*)(bool, sls::Positions)) &
Detector::setOverFlowMode, Detector::setOverFlowMode,
py::arg(), py::arg() = Positions{}) py::arg(), py::arg() = Positions{})
.def("getBottom", .def("getFlipRows",
(Result<bool>(Detector::*)(sls::Positions) const) & (Result<bool>(Detector::*)(sls::Positions) const) &
Detector::getBottom, Detector::getFlipRows,
py::arg() = Positions{}) py::arg() = Positions{})
.def("setBottom", .def("setFlipRows",
(void (Detector::*)(bool, sls::Positions)) & Detector::setBottom, (void (Detector::*)(bool, sls::Positions)) & Detector::setFlipRows,
py::arg(), py::arg() = Positions{}) py::arg(), py::arg() = Positions{})
.def("getRateCorrection", .def("getRateCorrection",
(Result<sls::ns>(Detector::*)(sls::Positions) const) & (Result<sls::ns>(Detector::*)(sls::Positions) const) &
@ -923,6 +942,10 @@ void init_det(py::module &m) {
sls::Positions)) & sls::Positions)) &
Detector::setDataStream, Detector::setDataStream,
py::arg(), py::arg(), py::arg() = Positions{}) py::arg(), py::arg(), py::arg() = Positions{})
.def("getChipVersion",
(Result<double>(Detector::*)(sls::Positions) const) &
Detector::getChipVersion,
py::arg() = Positions{})
.def("getThresholdTemperature", .def("getThresholdTemperature",
(Result<int>(Detector::*)(sls::Positions) const) & (Result<int>(Detector::*)(sls::Positions) const) &
Detector::getThresholdTemperature, Detector::getThresholdTemperature,
@ -947,13 +970,21 @@ void init_det(py::module &m) {
(void (Detector::*)(sls::Positions)) & (void (Detector::*)(sls::Positions)) &
Detector::resetTemperatureEvent, Detector::resetTemperatureEvent,
py::arg() = Positions{}) py::arg() = Positions{})
.def("getAutoCompDisable", .def("getAutoComparatorDisable",
(Result<bool>(Detector::*)(sls::Positions) const) & (Result<bool>(Detector::*)(sls::Positions) const) &
Detector::getAutoCompDisable, Detector::getAutoComparatorDisable,
py::arg() = Positions{}) py::arg() = Positions{})
.def("setAutoCompDisable", .def("setAutoComparatorDisable",
(void (Detector::*)(bool, sls::Positions)) & (void (Detector::*)(bool, sls::Positions)) &
Detector::setAutoCompDisable, Detector::setAutoComparatorDisable,
py::arg(), py::arg() = Positions{})
.def("getComparatorDisableTime",
(Result<sls::ns>(Detector::*)(sls::Positions) const) &
Detector::getComparatorDisableTime,
py::arg() = Positions{})
.def("setComparatorDisableTime",
(void (Detector::*)(sls::ns, sls::Positions)) &
Detector::setComparatorDisableTime,
py::arg(), py::arg() = Positions{}) py::arg(), py::arg() = Positions{})
.def("getNumberOfAdditionalStorageCells", .def("getNumberOfAdditionalStorageCells",
(Result<int>(Detector::*)(sls::Positions) const) & (Result<int>(Detector::*)(sls::Positions) const) &
@ -979,6 +1010,17 @@ void init_det(py::module &m) {
(void (Detector::*)(sls::ns, sls::Positions)) & (void (Detector::*)(sls::ns, sls::Positions)) &
Detector::setStorageCellDelay, Detector::setStorageCellDelay,
py::arg(), py::arg() = Positions{}) py::arg(), py::arg() = Positions{})
.def("getGainModeList",
(std::vector<defs::gainMode>(Detector::*)() const) &
Detector::getGainModeList)
.def("getGainMode",
(Result<defs::gainMode>(Detector::*)(sls::Positions) const) &
Detector::getGainMode,
py::arg() = Positions{})
.def("setGainMode",
(void (Detector::*)(defs::gainMode, sls::Positions)) &
Detector::setGainMode,
py::arg(), py::arg() = Positions{})
.def("getROI", .def("getROI",
(Result<defs::ROI>(Detector::*)(sls::Positions) const) & (Result<defs::ROI>(Detector::*)(sls::Positions) const) &
Detector::getROI, Detector::getROI,
@ -1054,12 +1096,21 @@ void init_det(py::module &m) {
.def("setCDSGain", .def("setCDSGain",
(void (Detector::*)(bool, sls::Positions)) & Detector::setCDSGain, (void (Detector::*)(bool, sls::Positions)) & Detector::setCDSGain,
py::arg(), py::arg() = Positions{}) py::arg(), py::arg() = Positions{})
.def("getFilter", .def("getFilterResistor",
(Result<int>(Detector::*)(sls::Positions) const) & (Result<int>(Detector::*)(sls::Positions) const) &
Detector::getFilter, Detector::getFilterResistor,
py::arg() = Positions{}) py::arg() = Positions{})
.def("setFilter", .def("setFilterResistor",
(void (Detector::*)(int, sls::Positions)) & Detector::setFilter, (void (Detector::*)(int, sls::Positions)) &
Detector::setFilterResistor,
py::arg(), py::arg() = Positions{})
.def("getFilterCell",
(Result<int>(Detector::*)(sls::Positions) const) &
Detector::getFilterCell,
py::arg() = Positions{})
.def("setFilterCell",
(void (Detector::*)(int, sls::Positions)) &
Detector::setFilterCell,
py::arg(), py::arg() = Positions{}) py::arg(), py::arg() = Positions{})
.def("getCurrentSource", .def("getCurrentSource",
(Result<bool>(Detector::*)(sls::Positions) const) & (Result<bool>(Detector::*)(sls::Positions) const) &

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@ -210,13 +210,9 @@ void init_enums(py::module &m) {
.value("LOWGAIN", slsDetectorDefs::detectorSettings::LOWGAIN) .value("LOWGAIN", slsDetectorDefs::detectorSettings::LOWGAIN)
.value("MEDIUMGAIN", slsDetectorDefs::detectorSettings::MEDIUMGAIN) .value("MEDIUMGAIN", slsDetectorDefs::detectorSettings::MEDIUMGAIN)
.value("VERYHIGHGAIN", slsDetectorDefs::detectorSettings::VERYHIGHGAIN) .value("VERYHIGHGAIN", slsDetectorDefs::detectorSettings::VERYHIGHGAIN)
.value("DYNAMICHG0", slsDetectorDefs::detectorSettings::DYNAMICHG0) .value("HIGHGAIN0", slsDetectorDefs::detectorSettings::HIGHGAIN0)
.value("FIXGAIN1", slsDetectorDefs::detectorSettings::FIXGAIN1) .value("FIXGAIN1", slsDetectorDefs::detectorSettings::FIXGAIN1)
.value("FIXGAIN2", slsDetectorDefs::detectorSettings::FIXGAIN2) .value("FIXGAIN2", slsDetectorDefs::detectorSettings::FIXGAIN2)
.value("FORCESWITCHG1",
slsDetectorDefs::detectorSettings::FORCESWITCHG1)
.value("FORCESWITCHG2",
slsDetectorDefs::detectorSettings::FORCESWITCHG2)
.value("VERYLOWGAIN", slsDetectorDefs::detectorSettings::VERYLOWGAIN) .value("VERYLOWGAIN", slsDetectorDefs::detectorSettings::VERYLOWGAIN)
.value("G1_HIGHGAIN", slsDetectorDefs::detectorSettings::G1_HIGHGAIN) .value("G1_HIGHGAIN", slsDetectorDefs::detectorSettings::G1_HIGHGAIN)
.value("G1_LOWGAIN", slsDetectorDefs::detectorSettings::G1_LOWGAIN) .value("G1_LOWGAIN", slsDetectorDefs::detectorSettings::G1_LOWGAIN)
@ -230,6 +226,7 @@ void init_enums(py::module &m) {
slsDetectorDefs::detectorSettings::G2_LOWCAP_LOWGAIN) slsDetectorDefs::detectorSettings::G2_LOWCAP_LOWGAIN)
.value("G4_HIGHGAIN", slsDetectorDefs::detectorSettings::G4_HIGHGAIN) .value("G4_HIGHGAIN", slsDetectorDefs::detectorSettings::G4_HIGHGAIN)
.value("G4_LOWGAIN", slsDetectorDefs::detectorSettings::G4_LOWGAIN) .value("G4_LOWGAIN", slsDetectorDefs::detectorSettings::G4_LOWGAIN)
.value("GAIN0", slsDetectorDefs::detectorSettings::GAIN0)
.value("UNDEFINED", slsDetectorDefs::detectorSettings::UNDEFINED) .value("UNDEFINED", slsDetectorDefs::detectorSettings::UNDEFINED)
.value("UNINITIALIZED", .value("UNINITIALIZED",
slsDetectorDefs::detectorSettings::UNINITIALIZED) slsDetectorDefs::detectorSettings::UNINITIALIZED)
@ -309,4 +306,13 @@ void init_enums(py::module &m) {
.value("DEFAULT_ALGORITHM", .value("DEFAULT_ALGORITHM",
slsDetectorDefs::vetoAlgorithm::DEFAULT_ALGORITHM) slsDetectorDefs::vetoAlgorithm::DEFAULT_ALGORITHM)
.export_values(); .export_values();
py::enum_<slsDetectorDefs::gainMode>(Defs, "gainMode")
.value("DYNAMIC", slsDetectorDefs::gainMode::DYNAMIC)
.value("FORCE_SWITCH_G1", slsDetectorDefs::gainMode::FORCE_SWITCH_G1)
.value("FORCE_SWITCH_G2", slsDetectorDefs::gainMode::FORCE_SWITCH_G2)
.value("FIX_G1", slsDetectorDefs::gainMode::FIX_G1)
.value("FIX_G2", slsDetectorDefs::gainMode::FIX_G2)
.value("FIX_G0", slsDetectorDefs::gainMode::FIX_G0)
.export_values();
} }

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@ -7,7 +7,7 @@
<x>0</x> <x>0</x>
<y>0</y> <y>0</y>
<width>775</width> <width>775</width>
<height>345</height> <height>380</height>
</rect> </rect>
</property> </property>
<property name="sizePolicy"> <property name="sizePolicy">
@ -32,7 +32,7 @@
<string>Form</string> <string>Form</string>
</property> </property>
<layout class="QGridLayout" name="gridLayout_2"> <layout class="QGridLayout" name="gridLayout_2">
<item row="3" column="3"> <item row="4" column="3">
<widget class="QCheckBox" name="chkCounter2"> <widget class="QCheckBox" name="chkCounter2">
<property name="enabled"> <property name="enabled">
<bool>false</bool> <bool>false</bool>
@ -51,7 +51,7 @@
</property> </property>
</widget> </widget>
</item> </item>
<item row="3" column="4"> <item row="4" column="4">
<widget class="QCheckBox" name="chkCounter3"> <widget class="QCheckBox" name="chkCounter3">
<property name="enabled"> <property name="enabled">
<bool>false</bool> <bool>false</bool>
@ -70,7 +70,7 @@
</property> </property>
</widget> </widget>
</item> </item>
<item row="2" column="2" colspan="3"> <item row="3" column="2" colspan="3">
<widget class="QComboBox" name="comboDynamicRange"> <widget class="QComboBox" name="comboDynamicRange">
<property name="enabled"> <property name="enabled">
<bool>false</bool> <bool>false</bool>
@ -109,7 +109,7 @@
</item> </item>
</widget> </widget>
</item> </item>
<item row="1" column="2" colspan="3"> <item row="2" column="2" colspan="3">
<widget class="QSpinBox" name="spinThreshold"> <widget class="QSpinBox" name="spinThreshold">
<property name="enabled"> <property name="enabled">
<bool>false</bool> <bool>false</bool>
@ -146,7 +146,7 @@
</property> </property>
</widget> </widget>
</item> </item>
<item row="1" column="6"> <item row="2" column="6">
<widget class="QSpinBox" name="spinThreshold3"> <widget class="QSpinBox" name="spinThreshold3">
<property name="enabled"> <property name="enabled">
<bool>false</bool> <bool>false</bool>
@ -183,7 +183,7 @@
</property> </property>
</widget> </widget>
</item> </item>
<item row="2" column="0"> <item row="3" column="0">
<widget class="QLabel" name="lblDynamicRange"> <widget class="QLabel" name="lblDynamicRange">
<property name="enabled"> <property name="enabled">
<bool>false</bool> <bool>false</bool>
@ -205,7 +205,7 @@
</property> </property>
</widget> </widget>
</item> </item>
<item row="4" column="2"> <item row="5" column="2">
<spacer name="verticalSpacer"> <spacer name="verticalSpacer">
<property name="orientation"> <property name="orientation">
<enum>Qt::Vertical</enum> <enum>Qt::Vertical</enum>
@ -221,7 +221,7 @@
</property> </property>
</spacer> </spacer>
</item> </item>
<item row="1" column="8"> <item row="2" column="8">
<widget class="QPushButton" name="btnSetThreshold"> <widget class="QPushButton" name="btnSetThreshold">
<property name="enabled"> <property name="enabled">
<bool>true</bool> <bool>true</bool>
@ -334,7 +334,7 @@
</property> </property>
</spacer> </spacer>
</item> </item>
<item row="1" column="0"> <item row="2" column="0">
<widget class="QLabel" name="lblThreshold"> <widget class="QLabel" name="lblThreshold">
<property name="enabled"> <property name="enabled">
<bool>false</bool> <bool>false</bool>
@ -356,7 +356,7 @@
</property> </property>
</widget> </widget>
</item> </item>
<item row="1" column="5"> <item row="2" column="5">
<widget class="QSpinBox" name="spinThreshold2"> <widget class="QSpinBox" name="spinThreshold2">
<property name="enabled"> <property name="enabled">
<bool>false</bool> <bool>false</bool>
@ -393,7 +393,7 @@
</property> </property>
</widget> </widget>
</item> </item>
<item row="1" column="9"> <item row="2" column="9">
<spacer name="horizontalSpacer_2"> <spacer name="horizontalSpacer_2">
<property name="orientation"> <property name="orientation">
<enum>Qt::Horizontal</enum> <enum>Qt::Horizontal</enum>
@ -409,7 +409,7 @@
</property> </property>
</spacer> </spacer>
</item> </item>
<item row="3" column="0"> <item row="4" column="0">
<widget class="QLabel" name="lblCounter"> <widget class="QLabel" name="lblCounter">
<property name="enabled"> <property name="enabled">
<bool>false</bool> <bool>false</bool>
@ -431,7 +431,7 @@
</property> </property>
</widget> </widget>
</item> </item>
<item row="3" column="2"> <item row="4" column="2">
<widget class="QCheckBox" name="chkCounter1"> <widget class="QCheckBox" name="chkCounter1">
<property name="enabled"> <property name="enabled">
<bool>false</bool> <bool>false</bool>
@ -514,7 +514,7 @@
</item> </item>
<item> <item>
<property name="text"> <property name="text">
<string>Dynamic HG0</string> <string>High Gain 0</string>
</property> </property>
</item> </item>
<item> <item>
@ -527,16 +527,6 @@
<string>Fix Gain 2</string> <string>Fix Gain 2</string>
</property> </property>
</item> </item>
<item>
<property name="text">
<string>Force Switch G1</string>
</property>
</item>
<item>
<property name="text">
<string>Force Switch G2</string>
</property>
</item>
<item> <item>
<property name="text"> <property name="text">
<string>Very Low Gain</string> <string>Very Low Gain</string>
@ -582,6 +572,11 @@
<string>G4_LG</string> <string>G4_LG</string>
</property> </property>
</item> </item>
<item>
<property name="text">
<string>Gain 0</string>
</property>
</item>
<item> <item>
<property name="text"> <property name="text">
<string>Undefined</string> <string>Undefined</string>
@ -594,6 +589,86 @@
</item> </item>
</widget> </widget>
</item> </item>
<item row="1" column="0">
<widget class="QLabel" name="lblGainMode">
<property name="enabled">
<bool>false</bool>
</property>
<property name="minimumSize">
<size>
<width>110</width>
<height>0</height>
</size>
</property>
<property name="maximumSize">
<size>
<width>110</width>
<height>16777215</height>
</size>
</property>
<property name="text">
<string>Gain Mode:</string>
</property>
</widget>
</item>
<item row="1" column="2">
<widget class="QComboBox" name="comboGainMode">
<property name="enabled">
<bool>false</bool>
</property>
<property name="sizePolicy">
<sizepolicy hsizetype="Preferred" vsizetype="Fixed">
<horstretch>0</horstretch>
<verstretch>0</verstretch>
</sizepolicy>
</property>
<property name="minimumSize">
<size>
<width>140</width>
<height>25</height>
</size>
</property>
<property name="maximumSize">
<size>
<width>140</width>
<height>16777215</height>
</size>
</property>
<property name="toolTip">
<string>&lt;html&gt;&lt;head/&gt;&lt;body&gt;&lt;p&gt;Gain Mode of the detector&lt;/p&gt;&lt;p&gt; #gainmode#&lt;/p&gt;&lt;p&gt;&lt;br/&gt;&lt;/p&gt;&lt;p&gt;Fix G0 is to be used with utmost caution. Can damage the detector!&lt;/p&gt;&lt;/body&gt;&lt;/html&gt;</string>
</property>
<item>
<property name="text">
<string>Dynamic Gain</string>
</property>
</item>
<item>
<property name="text">
<string>Force Switch G1</string>
</property>
</item>
<item>
<property name="text">
<string>Force Switch G2</string>
</property>
</item>
<item>
<property name="text">
<string>Fix G1</string>
</property>
</item>
<item>
<property name="text">
<string>Fix G2</string>
</property>
</item>
<item>
<property name="text">
<string>Fix G0</string>
</property>
</item>
</widget>
</item>
</layout> </layout>
</widget> </widget>
<tabstops> <tabstops>

View File

@ -10,9 +10,12 @@ class qTabSettings : public QWidget, private Ui::TabSettingsObject {
qTabSettings(QWidget *parent, sls::Detector *detector); qTabSettings(QWidget *parent, sls::Detector *detector);
~qTabSettings(); ~qTabSettings();
void Refresh(); void Refresh();
public slots:
void SetExportMode(bool exportMode);
private slots: private slots:
void SetSettings(int index); void SetSettings(int index);
void SetGainMode(int index);
void SetDynamicRange(int index); void SetDynamicRange(int index);
void SetThresholdEnergy(int index); void SetThresholdEnergy(int index);
void SetThresholdEnergies(); void SetThresholdEnergies();
@ -21,9 +24,12 @@ class qTabSettings : public QWidget, private Ui::TabSettingsObject {
private: private:
void SetupWidgetWindow(); void SetupWidgetWindow();
void SetupDetectorSettings(); void SetupDetectorSettings();
void SetupGainMode();
void ShowFixG0(bool expertMode);
void Initialization(); void Initialization();
void GetSettings(); void GetSettings();
void GetGainMode();
void GetDynamicRange(); void GetDynamicRange();
void GetThresholdEnergy(); void GetThresholdEnergy();
void GetThresholdEnergies(); void GetThresholdEnergies();
@ -40,11 +46,9 @@ class qTabSettings : public QWidget, private Ui::TabSettingsObject {
LOWGAIN, LOWGAIN,
MEDIUMGAIN, MEDIUMGAIN,
VERYHIGHGAIN, VERYHIGHGAIN,
DYNAMICHG0, HIGHGAIN0,
FIXGAIN1, FIXGAIN1,
FIXGAIN2, FIXGAIN2,
FORCESWITCHG1,
FORCESWITCHG2,
VERLOWGAIN, VERLOWGAIN,
G1_HIGHGAIN, G1_HIGHGAIN,
G1_LOWGAIN, G1_LOWGAIN,
@ -54,9 +58,21 @@ class qTabSettings : public QWidget, private Ui::TabSettingsObject {
G2_LOWCAP_LOWGAIN, G2_LOWCAP_LOWGAIN,
G4_HIGHGAIN, G4_HIGHGAIN,
G4_LOWGAIN, G4_LOWGAIN,
GAIN0,
UNDEFINED, UNDEFINED,
UNINITIALIZED, UNINITIALIZED,
NUMSETTINGS NUMSETTINGS
}; };
enum {
DYNAMIC,
FORCE_SWITCH_G1,
FORCE_SWITCH_G2,
FIX_G1,
FIX_G2,
FIX_G0
};
bool isVisibleFixG0{false};
enum { DYNAMICRANGE_32, DYNAMICRANGE_16, DYNAMICRANGE_8, DYNAMICRANGE_4 }; enum { DYNAMICRANGE_32, DYNAMICRANGE_16, DYNAMICRANGE_8, DYNAMICRANGE_4 };
}; };

View File

@ -340,6 +340,7 @@ void qDetectorMain::EnableModes(QAction *action) {
actionLoadTrimbits->setVisible(enable && actionLoadTrimbits->setVisible(enable &&
(detType == slsDetectorDefs::EIGER || (detType == slsDetectorDefs::EIGER ||
detType == slsDetectorDefs::MYTHEN3)); detType == slsDetectorDefs::MYTHEN3));
tabSettings->SetExportMode(enable);
LOG(logINFO) << "Expert Mode: " << qDefs::stringEnable(enable); LOG(logINFO) << "Expert Mode: " << qDefs::stringEnable(enable);
} }

View File

@ -213,23 +213,16 @@ void qTabMeasurement::SetupTimingMode() {
index[i] = model->index(i, comboTimingMode->modelColumn(), index[i] = model->index(i, comboTimingMode->modelColumn(),
comboTimingMode->rootModelIndex()); comboTimingMode->rootModelIndex());
item[i] = model->itemFromIndex(index[i]); item[i] = model->itemFromIndex(index[i]);
item[i]->setEnabled(false);
} }
try {
item[(int)GATED]->setEnabled(false); auto res = det->getTimingModeList();
item[(int)BURST_TRIGGER]->setEnabled(false); for (auto it : res) {
item[(int)TRIGGER_GATED]->setEnabled(false); item[(int)it]->setEnabled(true);
switch (det->getDetectorType().squash()) { }
case slsDetectorDefs::EIGER:
item[(int)GATED]->setEnabled(true);
item[(int)BURST_TRIGGER]->setEnabled(true);
break;
case slsDetectorDefs::MYTHEN3:
item[(int)GATED]->setEnabled(true);
item[(int)TRIGGER_GATED]->setEnabled(true);
break;
default:
break;
} }
CATCH_DISPLAY(std::string("Could not setup timing mode"),
"qTabMeasurement::SetupTimingMode")
} }
} }

View File

@ -71,6 +71,9 @@ void qTabSettings::SetupWidgetWindow() {
comboDynamicRange->setEnabled(true); comboDynamicRange->setEnabled(true);
lblThreshold->setEnabled(true); lblThreshold->setEnabled(true);
spinThreshold->setEnabled(true); spinThreshold->setEnabled(true);
} else if (detType == slsDetectorDefs::JUNGFRAU) {
lblGainMode->setEnabled(true);
comboGainMode->setEnabled(true);
} }
// default settings for the disabled // default settings for the disabled
@ -83,82 +86,83 @@ void qTabSettings::SetupWidgetWindow() {
spinThreshold2->setValue(-1); spinThreshold2->setValue(-1);
spinThreshold3->setValue(-1); spinThreshold3->setValue(-1);
} }
// default for gain mode
if (comboGainMode->isEnabled()) {
SetupGainMode();
}
Initialization(); Initialization();
// default for the disabled // default for the disabled
GetDynamicRange(); GetDynamicRange();
Refresh(); Refresh();
} }
void qTabSettings::SetExportMode(bool exportMode) {
if (comboGainMode->isVisible()) {
ShowFixG0(exportMode);
}
}
void qTabSettings::SetupDetectorSettings() { void qTabSettings::SetupDetectorSettings() {
comboSettings->setCurrentIndex(UNINITIALIZED);
// enable only those available to detector
QStandardItemModel *model = QStandardItemModel *model =
qobject_cast<QStandardItemModel *>(comboSettings->model()); qobject_cast<QStandardItemModel *>(comboSettings->model());
const int numSettings = comboSettings->count();
if (model) { if (model) {
QModelIndex index[NUMSETTINGS]; std::vector<QModelIndex> index(numSettings);
QStandardItem *item[NUMSETTINGS]; std::vector<QStandardItem *> item(numSettings);
for (int i = 0; i < NUMSETTINGS; ++i) { for (size_t i = 0; i < index.size(); ++i) {
index[i] = model->index(i, comboSettings->modelColumn(), index[i] = model->index(i, comboSettings->modelColumn(),
comboSettings->rootModelIndex()); comboSettings->rootModelIndex());
item[i] = model->itemFromIndex(index[i]); item[i] = model->itemFromIndex(index[i]);
item[i]->setEnabled(false); item[i]->setEnabled(false);
} }
switch (det->getDetectorType().squash()) { try {
case slsDetectorDefs::EIGER: auto res = det->getSettingsList();
item[(int)STANDARD]->setEnabled(true); for (auto it : res) {
item[(int)HIGHGAIN]->setEnabled(true); item[(int)it]->setEnabled(true);
item[(int)LOWGAIN]->setEnabled(true); }
item[(int)VERYHIGHGAIN]->setEnabled(true);
item[(int)VERLOWGAIN]->setEnabled(true);
break;
case slsDetectorDefs::GOTTHARD:
item[(int)HIGHGAIN]->setEnabled(true);
item[(int)DYNAMICGAIN]->setEnabled(true);
item[(int)LOWGAIN]->setEnabled(true);
item[(int)MEDIUMGAIN]->setEnabled(true);
item[(int)VERYHIGHGAIN]->setEnabled(true);
break;
case slsDetectorDefs::JUNGFRAU:
item[(int)DYNAMICGAIN]->setEnabled(true);
item[(int)DYNAMICHG0]->setEnabled(true);
item[(int)FIXGAIN1]->setEnabled(true);
item[(int)FIXGAIN2]->setEnabled(true);
item[(int)FORCESWITCHG1]->setEnabled(true);
item[(int)FORCESWITCHG2]->setEnabled(true);
break;
case slsDetectorDefs::GOTTHARD2:
item[(int)DYNAMICGAIN]->setEnabled(true);
item[(int)FIXGAIN1]->setEnabled(true);
item[(int)FIXGAIN2]->setEnabled(true);
break;
case slsDetectorDefs::MOENCH:
item[(int)G1_HIGHGAIN]->setEnabled(true);
item[(int)G1_LOWGAIN]->setEnabled(true);
item[(int)G2_HIGHCAP_HIGHGAIN]->setEnabled(true);
item[(int)G2_HIGHCAP_LOWGAIN]->setEnabled(true);
item[(int)G2_LOWCAP_HIGHGAIN]->setEnabled(true);
item[(int)G2_LOWCAP_LOWGAIN]->setEnabled(true);
item[(int)G4_HIGHGAIN]->setEnabled(true);
item[(int)G4_LOWGAIN]->setEnabled(true);
break;
case slsDetectorDefs::MYTHEN3:
item[(int)STANDARD]->setEnabled(true);
item[(int)FAST]->setEnabled(true);
item[(int)HIGHGAIN]->setEnabled(true);
break;
default:
LOG(logDEBUG) << "Unknown detector type. Exiting GUI.";
qDefs::Message(qDefs::CRITICAL,
"Unknown detector type. Exiting GUI.",
"qTabSettings::SetupDetectorSettings");
exit(-1);
} }
CATCH_DISPLAY(std::string("Could not setup settings"),
"qTabSettings::SetupDetectorSettings")
} }
} }
void qTabSettings::SetupGainMode() {
comboGainMode->setCurrentIndex(DYNAMIC);
ShowFixG0(false);
}
void qTabSettings::ShowFixG0(bool expertMode) {
LOG(logINFO) << (expertMode ? "Showing" : "Hiding") << " FIX_G0";
// enable.disable Fix G0
QStandardItemModel *model =
qobject_cast<QStandardItemModel *>(comboGainMode->model());
const int numSettings = comboGainMode->count();
if (model) {
std::vector<QModelIndex> index(numSettings);
std::vector<QStandardItem *> item(numSettings);
index[FIX_G0] = model->index(FIX_G0, comboGainMode->modelColumn(),
comboGainMode->rootModelIndex());
item[FIX_G0] = model->itemFromIndex(index[FIX_G0]);
item[FIX_G0]->setEnabled(expertMode);
}
isVisibleFixG0 = expertMode;
}
void qTabSettings::Initialization() { void qTabSettings::Initialization() {
// Settings // Settings
if (comboSettings->isEnabled()) if (comboSettings->isEnabled())
connect(comboSettings, SIGNAL(currentIndexChanged(int)), this, connect(comboSettings, SIGNAL(currentIndexChanged(int)), this,
SLOT(SetSettings(int))); SLOT(SetSettings(int)));
// Gain mode
if (comboGainMode->isEnabled())
connect(comboGainMode, SIGNAL(currentIndexChanged(int)), this,
SLOT(SetGainMode(int)));
// Dynamic Range // Dynamic Range
if (comboDynamicRange->isEnabled()) if (comboDynamicRange->isEnabled())
@ -202,7 +206,7 @@ void qTabSettings::GetSettings() {
comboSettings->setCurrentIndex(UNINITIALIZED); comboSettings->setCurrentIndex(UNINITIALIZED);
break; break;
default: default:
if ((int)retval < -1 || (int)retval >= NUMSETTINGS) { if ((int)retval < -1 || (int)retval >= comboSettings->count()) {
throw sls::RuntimeError(std::string("Unknown settings: ") + throw sls::RuntimeError(std::string("Unknown settings: ") +
std::to_string(retval)); std::to_string(retval));
} }
@ -230,6 +234,60 @@ void qTabSettings::SetSettings(int index) {
} }
} }
void qTabSettings::GetGainMode() {
LOG(logDEBUG) << "Getting gain mode";
disconnect(comboGainMode, SIGNAL(currentIndexChanged(int)), this,
SLOT(SetGainMode(int)));
try {
auto retval = det->getGainMode().tsquash(
"Inconsistent gain mode for all detectors.");
if ((int)retval < 0 || (int)retval >= comboGainMode->count()) {
throw sls::RuntimeError(std::string("Unknown gain mode: ") +
std::to_string(retval));
}
// warning when using fix_g0 and not in export mode
if ((int)retval == FIX_G0 && !isVisibleFixG0) {
std::string message =
"<nobr>You are not in Expert Mode and Gain Mode is in FIX_G0. "
"</nobr><br><nobr>Could damage the detector when used without "
"caution! </nobr>";
qDefs::Message(qDefs::WARNING, message,
"qTabSettings::GetGainMode");
LOG(logWARNING) << message;
}
comboGainMode->setCurrentIndex((int)retval);
}
CATCH_DISPLAY("Could not get gain mode.", "qTabSettings::GetGainMode")
connect(comboGainMode, SIGNAL(currentIndexChanged(int)), this,
SLOT(SetGainMode(int)));
}
void qTabSettings::SetGainMode(int index) {
// warning for fix_G0 even in export mode
if (index == FIX_G0) {
if (qDefs::Message(
qDefs::QUESTION,
"<nobr>You are in Export mode, "
"</nobr><br><nobr>but setting Gain Mode to FIX_G0 could "
"damage the detector! </nobr><br><nobr>Proceed and set "
"gainmode to FIX_G0 anyway?</nobr>",
"qTabSettings::SetGainMode") == slsDetectorDefs::FAIL) {
GetGainMode();
return;
}
}
LOG(logINFO) << "Setting Gain Mode to "
<< comboGainMode->currentText().toAscii().data();
auto val = static_cast<slsDetectorDefs::gainMode>(index);
try {
det->setGainMode(val);
}
CATCH_HANDLE("Could not set gain mode.", "qTabSettings::SetGainMode", this,
&qTabSettings::GetGainMode)
}
void qTabSettings::GetDynamicRange() { void qTabSettings::GetDynamicRange() {
LOG(logDEBUG) << "Getting dynamic range"; LOG(logDEBUG) << "Getting dynamic range";
disconnect(comboDynamicRange, SIGNAL(activated(int)), this, disconnect(comboDynamicRange, SIGNAL(activated(int)), this,
@ -402,6 +460,10 @@ void qTabSettings::Refresh() {
GetSettings(); GetSettings();
} }
if (comboGainMode->isEnabled()) {
GetGainMode();
}
if (comboDynamicRange->isEnabled()) { if (comboDynamicRange->isEnabled()) {
GetDynamicRange(); GetDynamicRange();
} }

View File

@ -93,6 +93,7 @@ int eiger_virtual_interrupt_subframe = 0;
int eiger_virtual_left_datastream = 1; int eiger_virtual_left_datastream = 1;
int eiger_virtual_right_datastream = 1; int eiger_virtual_right_datastream = 1;
#endif #endif
int defaultDacValues[NDAC] = DEFAULT_DAC_VALS;
int isInitCheckDone() { return initCheckDone; } int isInitCheckDone() { return initCheckDone; }
@ -434,8 +435,9 @@ int readConfigFile() {
master = -1; master = -1;
top = -1; top = -1;
char fname[128]; const int fileNameSize = 128;
if (getAbsPath(fname, 128, CONFIG_FILE) == FAIL) { char fname[fileNameSize];
if (getAbsPath(fname, fileNameSize, CONFIG_FILE) == FAIL) {
return FAIL; return FAIL;
} }
@ -684,7 +686,7 @@ void allocateDetectorStructureMemory() {
void setupDetector() { void setupDetector() {
allocateDetectorStructureMemory(); allocateDetectorStructureMemory();
setDefaultDacs(); resetToDefaultDacs(0);
#ifdef VIRTUAL #ifdef VIRTUAL
sharedMemory_setStatus(IDLE); sharedMemory_setStatus(IDLE);
#endif #endif
@ -746,21 +748,53 @@ void setupDetector() {
LOG(logDEBUG1, ("Setup detector done\n\n")); LOG(logDEBUG1, ("Setup detector done\n\n"));
} }
int setDefaultDacs() { int resetToDefaultDacs(int hardReset) {
// reset defaults to hardcoded defaults
if (hardReset) {
const int vals[] = DEFAULT_DAC_VALS;
for (int i = 0; i < NDAC; ++i) {
defaultDacValues[i] = vals[i];
}
}
// reset dacs to defaults
int ret = OK; int ret = OK;
LOG(logINFOBLUE, ("Setting Default Dac values\n")); LOG(logINFOBLUE, ("Setting Default Dac values\n"));
const int defaultvals[NDAC] = DEFAULT_DAC_VALS;
for (int i = 0; i < NDAC; ++i) { for (int i = 0; i < NDAC; ++i) {
setDAC((enum DACINDEX)i, defaultvals[i], 0); setDAC((enum DACINDEX)i, defaultDacValues[i], 0);
if ((detectorModules)->dacs[i] != defaultvals[i]) { if ((detectorModules)->dacs[i] != defaultDacValues[i]) {
ret = FAIL; ret = FAIL;
LOG(logERROR, ("Setting dac %d failed, wrote %d, read %d\n", i, LOG(logERROR, ("Setting dac %d failed, wrote %d, read %d\n", i,
defaultvals[i], (detectorModules)->dacs[i])); defaultDacValues[i], (detectorModules)->dacs[i]));
} }
} }
return ret; return ret;
} }
int getDefaultDac(enum DACINDEX index, enum detectorSettings sett,
int *retval) {
if (sett != UNDEFINED) {
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
*retval = defaultDacValues[index];
return OK;
}
int setDefaultDac(enum DACINDEX index, enum detectorSettings sett, int value) {
if (sett != UNDEFINED) {
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
char *dac_names[] = {DAC_NAMES};
LOG(logINFO, ("Setting Default Dac [%d - %s]: %d\n", (int)index,
dac_names[index], value));
defaultDacValues[index] = value;
return OK;
}
/* advanced read/write reg */ /* advanced read/write reg */
int writeRegister(uint32_t offset, uint32_t data) { int writeRegister(uint32_t offset, uint32_t data) {
#ifdef VIRTUAL #ifdef VIRTUAL

View File

@ -49,6 +49,7 @@ int highvoltage = 0;
int dacValues[NDAC] = {}; int dacValues[NDAC] = {};
int onChipdacValues[ONCHIP_NDAC][NCHIP] = {}; int onChipdacValues[ONCHIP_NDAC][NCHIP] = {};
int defaultDacValues[NDAC] = {}; int defaultDacValues[NDAC] = {};
int hardCodedDefaultDacValues[NDAC] = {};
int defaultOnChipdacValues[ONCHIP_NDAC][NCHIP] = {}; int defaultOnChipdacValues[ONCHIP_NDAC][NCHIP] = {};
int injectedChannelsOffset = 0; int injectedChannelsOffset = 0;
int injectedChannelsIncrement = 0; int injectedChannelsIncrement = 0;
@ -62,7 +63,7 @@ int64_t numTriggersReg = 1;
int64_t delayReg = 0; int64_t delayReg = 0;
int64_t numBurstsReg = 1; int64_t numBurstsReg = 1;
int64_t burstPeriodReg = 0; int64_t burstPeriodReg = 0;
int filter = 0; int filterResistor = 0;
int cdsGain = 0; int cdsGain = 0;
int detPos[2] = {}; int detPos[2] = {};
@ -387,12 +388,13 @@ void setupDetector() {
delayReg = 0; delayReg = 0;
numBurstsReg = 1; numBurstsReg = 1;
burstPeriodReg = 0; burstPeriodReg = 0;
filter = 0; filterResistor = 0;
cdsGain = 0; cdsGain = 0;
memset(clkPhase, 0, sizeof(clkPhase)); memset(clkPhase, 0, sizeof(clkPhase));
memset(dacValues, 0, sizeof(dacValues)); memset(dacValues, 0, sizeof(dacValues));
for (int i = 0; i < NDAC; ++i) { for (int i = 0; i < NDAC; ++i) {
defaultDacValues[i] = -1; defaultDacValues[i] = -1;
hardCodedDefaultDacValues[i] = -1;
} }
for (int i = 0; i < ONCHIP_NDAC; ++i) { for (int i = 0; i < ONCHIP_NDAC; ++i) {
for (int j = 0; j < NCHIP; ++j) { for (int j = 0; j < NCHIP; ++j) {
@ -465,7 +467,7 @@ void setupDetector() {
return; return;
} }
setBurstMode(DEFAULT_BURST_MODE); setBurstMode(DEFAULT_BURST_MODE);
setFilter(DEFAULT_FILTER); setFilterResistor(DEFAULT_FILTER_RESISTOR);
setCDSGain(DEFAILT_CDS_GAIN); setCDSGain(DEFAILT_CDS_GAIN);
setSettings(DEFAULT_SETTINGS); setSettings(DEFAULT_SETTINGS);
@ -481,7 +483,14 @@ void setupDetector() {
setCurrentSource(DEFAULT_CURRENT_SOURCE); setCurrentSource(DEFAULT_CURRENT_SOURCE);
} }
int setDefaultDacs() { int resetToDefaultDacs(int hardReset) {
// reset defaults to hardcoded defaults
if (hardReset) {
for (int i = 0; i < NDAC; ++i) {
defaultDacValues[i] = hardCodedDefaultDacValues[i];
}
}
// reset dacs to defaults
int ret = OK; int ret = OK;
LOG(logINFOBLUE, ("Setting Default Dac values\n")); LOG(logINFOBLUE, ("Setting Default Dac values\n"));
for (int i = 0; i < NDAC; ++i) { for (int i = 0; i < NDAC; ++i) {
@ -515,6 +524,31 @@ int setDefaultDacs() {
return ret; return ret;
} }
int getDefaultDac(enum DACINDEX index, enum detectorSettings sett,
int *retval) {
if (sett != UNDEFINED) {
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
*retval = defaultDacValues[index];
return OK;
}
int setDefaultDac(enum DACINDEX index, enum detectorSettings sett, int value) {
if (sett != UNDEFINED) {
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
char *dac_names[] = {DAC_NAMES};
LOG(logINFO, ("Setting Default Dac [%d - %s]: %d\n", (int)index,
dac_names[index], value));
defaultDacValues[index] = value;
return OK;
}
int readConfigFile() { int readConfigFile() {
if (initError == FAIL) { if (initError == FAIL) {
@ -530,8 +564,9 @@ int readConfigFile() {
usleep(INITIAL_STARTUP_WAIT); usleep(INITIAL_STARTUP_WAIT);
char fname[128]; const int fileNameSize = 128;
if (getAbsPath(fname, 128, CONFIG_FILE) == FAIL) { char fname[fileNameSize];
if (getAbsPath(fname, fileNameSize, CONFIG_FILE) == FAIL) {
return FAIL; return FAIL;
} }
@ -805,6 +840,7 @@ int readConfigFile() {
// set default dac variables // set default dac variables
defaultDacValues[idac] = value; defaultDacValues[idac] = value;
hardCodedDefaultDacValues[idac] = value;
// set dac // set dac
setDAC(idac, value, 0); setDAC(idac, value, 0);
@ -2422,7 +2458,7 @@ int setBurstMode(enum burstMode burst) {
} }
int configureASICGlobalSettings() { int configureASICGlobalSettings() {
int value = ((filter << ASIC_FILTER_OFST) & ASIC_FILTER_MSK) | int value = ((filterResistor << ASIC_FILTER_OFST) & ASIC_FILTER_MSK) |
((cdsGain << ASIC_CDS_GAIN_OFST) & ASIC_CDS_GAIN_MSK); ((cdsGain << ASIC_CDS_GAIN_OFST) & ASIC_CDS_GAIN_MSK);
switch (burstMode) { switch (burstMode) {
case BURST_INTERNAL: case BURST_INTERNAL:
@ -2437,9 +2473,9 @@ int configureASICGlobalSettings() {
value |= (ASIC_CONT_MODE_MSK | ASIC_EXT_TIMING_MSK); value |= (ASIC_CONT_MODE_MSK | ASIC_EXT_TIMING_MSK);
break; break;
} }
LOG(logINFO, ("\tSending Global Chip settings:0x%x (filter:%d, " LOG(logINFO, ("\tSending Global Chip settings:0x%x (filterResistor:%d, "
"cdsgain:%d)\n", "cdsgain:%d)\n",
value, filter, cdsGain)); value, filterResistor, cdsGain));
const int padding = 6; // due to address (4) to make it byte aligned const int padding = 6; // due to address (4) to make it byte aligned
const int lenTotalBits = padding + ASIC_GLOBAL_SETT_MAX_BITS + const int lenTotalBits = padding + ASIC_GLOBAL_SETT_MAX_BITS +
@ -2515,17 +2551,17 @@ int setCDSGain(int enable) {
int getCDSGain() { return cdsGain; } int getCDSGain() { return cdsGain; }
int setFilter(int value) { int setFilterResistor(int value) {
if (value < 0 || value > ASIC_FILTER_MAX_VALUE) { if (value < 0 || value > ASIC_FILTER_MAX_RES_VALUE) {
LOG(logERROR, ("Invalid filter value %d\n", value)); LOG(logERROR, ("Invalid filter resistor value %d\n", value));
return FAIL; return FAIL;
} }
filter = value; filterResistor = value;
LOG(logINFO, ("Setting Filter to %d\n", filter)); LOG(logINFO, ("Setting Filter Resistor to %d\n", filterResistor));
return configureASICGlobalSettings(); return configureASICGlobalSettings();
} }
int getFilter() { return filter; } int getFilterResistor() { return filterResistor; }
void setCurrentSource(int value) { void setCurrentSource(int value) {
uint32_t addr = ASIC_CONFIG_REG; uint32_t addr = ASIC_CONFIG_REG;

View File

@ -35,7 +35,7 @@
/** Default Parameters */ /** Default Parameters */
#define DEFAULT_BURST_MODE (BURST_INTERNAL) #define DEFAULT_BURST_MODE (BURST_INTERNAL)
#define DEFAULT_FILTER (0) #define DEFAULT_FILTER_RESISTOR (0)
#define DEFAILT_CDS_GAIN (0) #define DEFAILT_CDS_GAIN (0)
#define DEFAULT_NUM_FRAMES (1) #define DEFAULT_NUM_FRAMES (1)
#define DEFAULT_NUM_CYCLES (1) #define DEFAULT_NUM_CYCLES (1)
@ -149,7 +149,7 @@ enum PLLINDEX { READOUT_PLL, SYSTEM_PLL };
#define ASIC_CONT_MODE_MSK (0x1 << ASIC_CONT_MODE_OFST) #define ASIC_CONT_MODE_MSK (0x1 << ASIC_CONT_MODE_OFST)
#define ASIC_FILTER_OFST (3) #define ASIC_FILTER_OFST (3)
#define ASIC_FILTER_MSK (0x3 << ASIC_FILTER_OFST) #define ASIC_FILTER_MSK (0x3 << ASIC_FILTER_OFST)
#define ASIC_FILTER_MAX_VALUE (3) #define ASIC_FILTER_MAX_RES_VALUE (3)
#define ASIC_CDS_GAIN_OFST (5) #define ASIC_CDS_GAIN_OFST (5)
#define ASIC_CDS_GAIN_MSK (0x1 << ASIC_CDS_GAIN_OFST) #define ASIC_CDS_GAIN_MSK (0x1 << ASIC_CDS_GAIN_OFST)

View File

@ -45,6 +45,7 @@ int detPos[2] = {};
int detectorFirstServer = 1; int detectorFirstServer = 1;
int dacValues[NDAC] = {}; int dacValues[NDAC] = {};
int defaultDacValues[NDAC] = DEFAULT_DAC_VALS;
enum detectorSettings thisSettings = UNINITIALIZED; enum detectorSettings thisSettings = UNINITIALIZED;
enum externalSignalFlag signalMode = 0; enum externalSignalFlag signalMode = 0;
@ -405,7 +406,7 @@ void setupDetector() {
DAC_MAX_MV); DAC_MAX_MV);
LTC2620_Disable(); LTC2620_Disable();
LTC2620_Configure(); LTC2620_Configure();
setDefaultDacs(); resetToDefaultDacs(0);
// temp // temp
bus_w(TEMP_SPI_IN_REG, TEMP_SPI_IN_IDLE_MSK); bus_w(TEMP_SPI_IN_REG, TEMP_SPI_IN_IDLE_MSK);
@ -433,21 +434,53 @@ void setupDetector() {
setDelayAfterTrigger(DEFAULT_DELAY); setDelayAfterTrigger(DEFAULT_DELAY);
} }
int setDefaultDacs() { int resetToDefaultDacs(int hardReset) {
// reset defaults to hardcoded defaults
if (hardReset) {
const int vals[] = DEFAULT_DAC_VALS;
for (int i = 0; i < NDAC; ++i) {
defaultDacValues[i] = vals[i];
}
}
// reset dacs to defaults
int ret = OK; int ret = OK;
LOG(logINFOBLUE, ("Setting Default Dac values\n")); LOG(logINFOBLUE, ("Setting Default Dac values\n"));
const int defaultvals[NDAC] = DEFAULT_DAC_VALS;
for (int i = 0; i < NDAC; ++i) { for (int i = 0; i < NDAC; ++i) {
setDAC((enum DACINDEX)i, defaultvals[i], 0); setDAC((enum DACINDEX)i, defaultDacValues[i], 0);
if (dacValues[i] != defaultvals[i]) { if (dacValues[i] != defaultDacValues[i]) {
ret = FAIL; ret = FAIL;
LOG(logERROR, ("Setting dac %d failed, wrote %d, read %d\n", i, LOG(logERROR, ("Setting dac %d failed, wrote %d, read %d\n", i,
defaultvals[i], dacValues[i])); defaultDacValues[i], dacValues[i]));
} }
} }
return ret; return ret;
} }
int getDefaultDac(enum DACINDEX index, enum detectorSettings sett,
int *retval) {
if (sett != UNDEFINED) {
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
*retval = defaultDacValues[index];
return OK;
}
int setDefaultDac(enum DACINDEX index, enum detectorSettings sett, int value) {
if (sett != UNDEFINED) {
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
char *dac_names[] = {DAC_NAMES};
LOG(logINFO, ("Setting Default Dac [%d - %s]: %d\n", (int)index,
dac_names[index], value));
defaultDacValues[index] = value;
return OK;
}
uint32_t writeRegister16And32(uint32_t offset, uint32_t data) { uint32_t writeRegister16And32(uint32_t offset, uint32_t data) {
if (((offset << MEM_MAP_SHIFT) == CONTROL_REG) || if (((offset << MEM_MAP_SHIFT) == CONTROL_REG) ||
((offset << MEM_MAP_SHIFT) == FIFO_DATA_REG)) { ((offset << MEM_MAP_SHIFT) == FIFO_DATA_REG)) {
@ -588,8 +621,9 @@ void setGbitReadout() {
} }
int readConfigFile() { int readConfigFile() {
char fname[128]; const int fileNameSize = 128;
if (getAbsPath(fname, 128, CONFIG_FILE) == FAIL) { char fname[fileNameSize];
if (getAbsPath(fname, fileNameSize, CONFIG_FILE) == FAIL) {
return FAIL; return FAIL;
} }

View File

@ -36,4 +36,6 @@ set_target_properties(jungfrauDetectorServer_virtual PROPERTIES
install(TARGETS jungfrauDetectorServer_virtual install(TARGETS jungfrauDetectorServer_virtual
EXPORT "${TARGETS_EXPORT_NAME}" EXPORT "${TARGETS_EXPORT_NAME}"
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR} RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR}
) )
configure_file(config_jungfrau.txt ${CMAKE_BINARY_DIR}/bin/config_jungfrau.txt COPYONLY)

View File

@ -32,6 +32,7 @@ $(PROGS): $(OBJS)
mkdir -p $(DESTDIR) mkdir -p $(DESTDIR)
$(CC) -o $@ $^ $(CFLAGS) $(LDLIBS) $(CC) -o $@ $^ $(CFLAGS) $(LDLIBS)
mv $(PROGS) $(DESTDIR) mv $(PROGS) $(DESTDIR)
cp config_jungfrau.txt $(DESTDIR)
rm *.gdb rm *.gdb
rm $(main_src)*.o rm $(main_src)*.o

View File

@ -1,498 +1,475 @@
#pragma once #pragma once
// clang-format off
/* Definitions for FPGA*/ /* Definitions for FPGA*/
#define MEM_MAP_SHIFT 1 #define MEM_MAP_SHIFT 1
/* FPGA Version register */ /* FPGA Version register */
#define FPGA_VERSION_REG (0x00 << MEM_MAP_SHIFT) #define FPGA_VERSION_REG (0x00 << MEM_MAP_SHIFT)
#define FPGA_COMPILATION_DATE_OFST (0) #define FPGA_COMPILATION_DATE_OFST (0)
#define FPGA_COMPILATION_DATE_MSK (0x00FFFFFF << FPGA_COMPILATION_DATE_OFST) #define FPGA_COMPILATION_DATE_MSK (0x00FFFFFF << FPGA_COMPILATION_DATE_OFST)
#define DETECTOR_TYPE_OFST (24) #define DETECTOR_TYPE_OFST (24)
#define DETECTOR_TYPE_MSK (0x000000FF << DETECTOR_TYPE_OFST) #define DETECTOR_TYPE_MSK (0x000000FF << DETECTOR_TYPE_OFST)
/* Fix pattern register */ /* Fix pattern register */
#define FIX_PATT_REG (0x01 << MEM_MAP_SHIFT) #define FIX_PATT_REG (0x01 << MEM_MAP_SHIFT)
#define FIX_PATT_VAL (0xACDC2014) #define FIX_PATT_VAL (0xACDC2014)
/* Status register */ /* Status register */
#define STATUS_REG (0x02 << MEM_MAP_SHIFT) #define STATUS_REG (0x02 << MEM_MAP_SHIFT)
#define RUN_BUSY_OFST (0) #define RUN_BUSY_OFST (0)
#define RUN_BUSY_MSK (0x00000001 << RUN_BUSY_OFST) #define RUN_BUSY_MSK (0x00000001 << RUN_BUSY_OFST)
#define WAITING_FOR_TRIGGER_OFST (3) #define WAITING_FOR_TRIGGER_OFST (3)
#define WAITING_FOR_TRIGGER_MSK (0x00000001 << WAITING_FOR_TRIGGER_OFST) #define WAITING_FOR_TRIGGER_MSK (0x00000001 << WAITING_FOR_TRIGGER_OFST)
#define DELAYBEFORE_OFST (4) // Not used in software #define DELAYBEFORE_OFST (4) // Not used in software
#define DELAYBEFORE_MSK (0x00000001 << DELAYBEFORE_OFST) // Not used in software #define DELAYBEFORE_MSK (0x00000001 << DELAYBEFORE_OFST) // Not used in software
#define DELAYAFTER_OFST (5) // Not used in software #define DELAYAFTER_OFST (5) // Not used in software
#define DELAYAFTER_MSK (0x00000001 << DELAYAFTER_OFST) // Not used in software #define DELAYAFTER_MSK (0x00000001 << DELAYAFTER_OFST) // Not used in software
#define STOPPED_OFST (15) #define STOPPED_OFST (15)
#define STOPPED_MSK (0x00000001 << STOPPED_OFST) #define STOPPED_MSK (0x00000001 << STOPPED_OFST)
#define RUNMACHINE_BUSY_OFST (17) #define RUNMACHINE_BUSY_OFST (17)
#define RUNMACHINE_BUSY_MSK (0x00000001 << RUNMACHINE_BUSY_OFST) #define RUNMACHINE_BUSY_MSK (0x00000001 << RUNMACHINE_BUSY_OFST)
/* Look at me register */ /* Look at me register */
#define LOOK_AT_ME_REG \ #define LOOK_AT_ME_REG (0x03 << MEM_MAP_SHIFT) // Not used in firmware or software
(0x03 << MEM_MAP_SHIFT) // Not used in firmware or software
/* System Status register */ /* System Status register */
#define SYSTEM_STATUS_REG (0x04 << MEM_MAP_SHIFT) // Not used in software #define SYSTEM_STATUS_REG (0x04 << MEM_MAP_SHIFT) // Not used in software
#define DDR3_CAL_DONE_OFST (0) // Not used in software #define DDR3_CAL_DONE_OFST (0) // Not used in software
#define DDR3_CAL_DONE_MSK \ #define DDR3_CAL_DONE_MSK (0x00000001 << DDR3_CAL_DONE_OFST) // Not used in software
(0x00000001 << DDR3_CAL_DONE_OFST) // Not used in software #define DDR3_CAL_FAIL_OFST (1) // Not used in software
#define DDR3_CAL_FAIL_OFST (1) // Not used in software #define DDR3_CAL_FAIL_MSK (0x00000001 << DDR3_CAL_FAIL_OFST) // Not used in software
#define DDR3_CAL_FAIL_MSK \ #define DDR3_INIT_DONE_OFST (2) // Not used in software
(0x00000001 << DDR3_CAL_FAIL_OFST) // Not used in software #define DDR3_INIT_DONE_MSK (0x00000001 << DDR3_INIT_DONE_OFST) // Not used in software
#define DDR3_INIT_DONE_OFST (2) // Not used in software #define RECONFIG_PLL_LCK_OFST (3) // Not used in software
#define DDR3_INIT_DONE_MSK \ #define RECONFIG_PLL_LCK_MSK (0x00000001 << RECONFIG_PLL_LCK_OFST) // Not used in software
(0x00000001 << DDR3_INIT_DONE_OFST) // Not used in software #define PLL_A_LCK_OFST (4) // Not used in software
#define RECONFIG_PLL_LCK_OFST (3) // Not used in software #define PLL_A_LCK_MSK (0x00000001 << PLL_A_LCK_OFST) // Not used in software
#define RECONFIG_PLL_LCK_MSK \ #define DD3_PLL_LCK_OFST (5) // Not used in software
(0x00000001 << RECONFIG_PLL_LCK_OFST) // Not used in software #define DD3_PLL_LCK_MSK (0x00000001 << DD3_PLL_LCK_OFST) // Not used in software
#define PLL_A_LCK_OFST (4) // Not used in software
#define PLL_A_LCK_MSK (0x00000001 << PLL_A_LCK_OFST) // Not used in software
#define DD3_PLL_LCK_OFST (5) // Not used in software
#define DD3_PLL_LCK_MSK (0x00000001 << DD3_PLL_LCK_OFST) // Not used in software
/* Module Control Board Serial Number Register */ /* Module Control Board Serial Number Register */
#define MOD_SERIAL_NUM_REG (0x0A << MEM_MAP_SHIFT) #define MOD_SERIAL_NUM_REG (0x0A << MEM_MAP_SHIFT)
#define HARDWARE_SERIAL_NUM_OFST (0) #define HARDWARE_SERIAL_NUM_OFST (0)
#define HARDWARE_SERIAL_NUM_MSK (0x000000FF << HARDWARE_SERIAL_NUM_OFST) #define HARDWARE_SERIAL_NUM_MSK (0x000000FF << HARDWARE_SERIAL_NUM_OFST)
#define HARDWARE_VERSION_NUM_OFST (16) #define HARDWARE_VERSION_NUM_OFST (16)
#define HARDWARE_VERSION_NUM_MSK (0x0000003F << HARDWARE_VERSION_NUM_OFST) #define HARDWARE_VERSION_NUM_MSK (0x0000003F << HARDWARE_VERSION_NUM_OFST)
#define HARDWARE_VERSION_2_VAL \ #define HARDWARE_VERSION_2_VAL ((0x2 << HARDWARE_VERSION_NUM_OFST) & HARDWARE_VERSION_NUM_MSK)
((0x2 << HARDWARE_VERSION_NUM_OFST) & HARDWARE_VERSION_NUM_MSK)
/* API Version Register */ /* API Version Register */
#define API_VERSION_REG (0x0F << MEM_MAP_SHIFT) #define API_VERSION_REG (0x0F << MEM_MAP_SHIFT)
#define API_VERSION_OFST (0) #define API_VERSION_OFST (0)
#define API_VERSION_MSK (0x00FFFFFF << API_VERSION_OFST) #define API_VERSION_MSK (0x00FFFFFF << API_VERSION_OFST)
#define API_VERSION_DETECTOR_TYPE_OFST (24) // Not used in software #define API_VERSION_DETECTOR_TYPE_OFST (24) // Not used in software
#define API_VERSION_DETECTOR_TYPE_MSK \ #define API_VERSION_DETECTOR_TYPE_MSK (0x000000FF << API_VERSION_DETECTOR_TYPE_OFST) // Not used in software
(0x000000FF << API_VERSION_DETECTOR_TYPE_OFST) // Not used in software
/* Time from Start 64 bit register */ /* Time from Start 64 bit register */
#define TIME_FROM_START_LSB_REG (0x10 << MEM_MAP_SHIFT) #define TIME_FROM_START_LSB_REG (0x10 << MEM_MAP_SHIFT)
#define TIME_FROM_START_MSB_REG (0x11 << MEM_MAP_SHIFT) #define TIME_FROM_START_MSB_REG (0x11 << MEM_MAP_SHIFT)
/* Get Delay 64 bit register */ /* Get Delay 64 bit register */
#define GET_DELAY_LSB_REG (0x12 << MEM_MAP_SHIFT) // different kind of delay #define GET_DELAY_LSB_REG (0x12 << MEM_MAP_SHIFT) // different kind of delay
#define GET_DELAY_MSB_REG (0x13 << MEM_MAP_SHIFT) // different kind of delay #define GET_DELAY_MSB_REG (0x13 << MEM_MAP_SHIFT) // different kind of delay
/* Get Triggers 64 bit register */ /* Get Triggers 64 bit register */
#define GET_CYCLES_LSB_REG (0x14 << MEM_MAP_SHIFT) #define GET_CYCLES_LSB_REG (0x14 << MEM_MAP_SHIFT)
#define GET_CYCLES_MSB_REG (0x15 << MEM_MAP_SHIFT) #define GET_CYCLES_MSB_REG (0x15 << MEM_MAP_SHIFT)
/* Get Frames 64 bit register */ /* Get Frames 64 bit register */
#define GET_FRAMES_LSB_REG (0x16 << MEM_MAP_SHIFT) #define GET_FRAMES_LSB_REG (0x16 << MEM_MAP_SHIFT)
#define GET_FRAMES_MSB_REG (0x17 << MEM_MAP_SHIFT) #define GET_FRAMES_MSB_REG (0x17 << MEM_MAP_SHIFT)
/* Get Period 64 bit register tT = T x 50 ns */ /* Get Period 64 bit register tT = T x 50 ns */
#define GET_PERIOD_LSB_REG (0x18 << MEM_MAP_SHIFT) #define GET_PERIOD_LSB_REG (0x18 << MEM_MAP_SHIFT)
#define GET_PERIOD_MSB_REG (0x19 << MEM_MAP_SHIFT) #define GET_PERIOD_MSB_REG (0x19 << MEM_MAP_SHIFT)
/** Get Temperature Carlos, incorrectl as get gates */ /** Get Temperature Carlos, incorrectl as get gates */
#define GET_TEMPERATURE_TMP112_REG \ #define GET_TEMPERATURE_TMP112_REG (0x1c << MEM_MAP_SHIFT) // (after multiplying by 625) in 10ths of
(0x1c << MEM_MAP_SHIFT) // (after multiplying by 625) in 10ths of
// millidegrees of TMP112 // millidegrees of TMP112
#define TEMPERATURE_VALUE_BIT (0) #define TEMPERATURE_VALUE_BIT (0)
#define TEMPERATURE_VALUE_MSK (0x000007FF << TEMPERATURE_VALUE_BIT) #define TEMPERATURE_VALUE_MSK (0x000007FF << TEMPERATURE_VALUE_BIT)
#define TEMPERATURE_POLARITY_BIT (11) #define TEMPERATURE_POLARITY_BIT (11)
#define TEMPERATURE_POLARITY_MSK (0x00000001 << TEMPERATURE_POLARITY_BIT) #define TEMPERATURE_POLARITY_MSK (0x00000001 << TEMPERATURE_POLARITY_BIT)
/* Config Status Register for chip 1.1 */
#define CONFIG_V11_STATUS_REG (0x1D << MEM_MAP_SHIFT)
#define CONFIG_V11_STATUS_FLTR_CLL_OFST (0)
#define CONFIG_V11_STATUS_FLTR_CLL_MSK (0x00000FFF << CONFIG_V11_STATUS_FLTR_CLL_OFST)
#define CONFIG_V11_STATUS_STRG_CLL_OFST (12)
#define CONFIG_V11_STATUS_STRG_CLL_MSK (0x0000000F << CONFIG_V11_STATUS_STRG_CLL_OFST)
// CSM mode = high current (100%), low current (16%)
#define CONFIG_V11_STATUS_CRRNT_SRC_LOW_OFST (19)
#define CONFIG_V11_STATUS_CRRNT_SRC_LOW_MSK (0x00000001 << CONFIG_V11_STATUS_CRRNT_SRC_LOW_OFST)
#define CONFIG_V11_STATUS_FLTR_RSSTR_SMLR_OFST (21)
#define CONFIG_V11_STATUS_FLTR_RSSTR_SMLR_MSK (0x00000001 << CONFIG_V11_STATUS_FLTR_RSSTR_SMLR_OFST)
#define CONFIG_V11_STATUS_AUTO_MODE_OVRRD_OFST (23)
#define CONFIG_V11_STATUS_AUTO_MODE_OVRRD_MSK (0x00000001 << CONFIG_V11_STATUS_AUTO_MODE_OVRRD_OFST)
/* Get Frames from Start 64 bit register (frames from last reset using /* Get Frames from Start 64 bit register (frames from last reset using
* CONTROL_CRST) */ * CONTROL_CRST) */
#define FRAMES_FROM_START_LSB_REG (0x22 << MEM_MAP_SHIFT) #define FRAMES_FROM_START_LSB_REG (0x22 << MEM_MAP_SHIFT)
#define FRAMES_FROM_START_MSB_REG (0x23 << MEM_MAP_SHIFT) #define FRAMES_FROM_START_MSB_REG (0x23 << MEM_MAP_SHIFT)
/* Get Starting Frame Number */ /* Get Starting Frame Number */
#define GET_FRAME_NUMBER_LSB_REG (0x24 << MEM_MAP_SHIFT) #define GET_FRAME_NUMBER_LSB_REG (0x24 << MEM_MAP_SHIFT)
#define GET_FRAME_NUMBER_MSB_REG (0x25 << MEM_MAP_SHIFT) #define GET_FRAME_NUMBER_MSB_REG (0x25 << MEM_MAP_SHIFT)
/* Measurement Time 64 bit register (timestamp at a frame start until reset)*/ /* Measurement Time 64 bit register (timestamp at a frame start until reset)*/
#define START_FRAME_TIME_LSB_REG (0x26 << MEM_MAP_SHIFT) #define START_FRAME_TIME_LSB_REG (0x26 << MEM_MAP_SHIFT)
#define START_FRAME_TIME_MSB_REG (0x27 << MEM_MAP_SHIFT) #define START_FRAME_TIME_MSB_REG (0x27 << MEM_MAP_SHIFT)
/* SPI (Serial Peripheral Interface) Register */ /* SPI (Serial Peripheral Interface) Register */
#define SPI_REG (0x40 << MEM_MAP_SHIFT) #define SPI_REG (0x40 << MEM_MAP_SHIFT)
#define SPI_DAC_SRL_DGTL_OTPT_OFST (0) #define SPI_DAC_SRL_DGTL_OTPT_OFST (0)
#define SPI_DAC_SRL_DGTL_OTPT_MSK (0x00000001 << SPI_DAC_SRL_DGTL_OTPT_OFST) #define SPI_DAC_SRL_DGTL_OTPT_MSK (0x00000001 << SPI_DAC_SRL_DGTL_OTPT_OFST)
#define SPI_DAC_SRL_CLK_OTPT_OFST (1) #define SPI_DAC_SRL_CLK_OTPT_OFST (1)
#define SPI_DAC_SRL_CLK_OTPT_MSK (0x00000001 << SPI_DAC_SRL_CLK_OTPT_OFST) #define SPI_DAC_SRL_CLK_OTPT_MSK (0x00000001 << SPI_DAC_SRL_CLK_OTPT_OFST)
#define SPI_DAC_SRL_CS_OTPT_OFST (2) #define SPI_DAC_SRL_CS_OTPT_OFST (2)
#define SPI_DAC_SRL_CS_OTPT_MSK (0x00000001 << SPI_DAC_SRL_CS_OTPT_OFST) #define SPI_DAC_SRL_CS_OTPT_MSK (0x00000001 << SPI_DAC_SRL_CS_OTPT_OFST)
#define SPI_HV_SRL_DGTL_OTPT_OFST (8) #define SPI_HV_SRL_DGTL_OTPT_OFST (8)
#define SPI_HV_SRL_DGTL_OTPT_MSK (0x00000001 << SPI_HV_SRL_DGTL_OTPT_OFST) #define SPI_HV_SRL_DGTL_OTPT_MSK (0x00000001 << SPI_HV_SRL_DGTL_OTPT_OFST)
#define SPI_HV_SRL_CLK_OTPT_OFST (9) #define SPI_HV_SRL_CLK_OTPT_OFST (9)
#define SPI_HV_SRL_CLK_OTPT_MSK (0x00000001 << SPI_HV_SRL_CLK_OTPT_OFST) #define SPI_HV_SRL_CLK_OTPT_MSK (0x00000001 << SPI_HV_SRL_CLK_OTPT_OFST)
#define SPI_HV_SRL_CS_OTPT_OFST (10) #define SPI_HV_SRL_CS_OTPT_OFST (10)
#define SPI_HV_SRL_CS_OTPT_MSK (0x00000001 << SPI_HV_SRL_CS_OTPT_OFST) #define SPI_HV_SRL_CS_OTPT_MSK (0x00000001 << SPI_HV_SRL_CS_OTPT_OFST)
/* ADC SPI (Serial Peripheral Interface) Register */ /* ADC SPI (Serial Peripheral Interface) Register */
#define ADC_SPI_REG (0x41 << MEM_MAP_SHIFT) #define ADC_SPI_REG (0x41 << MEM_MAP_SHIFT)
#define ADC_SPI_SRL_CLK_OTPT_OFST (0) #define ADC_SPI_SRL_CLK_OTPT_OFST (0)
#define ADC_SPI_SRL_CLK_OTPT_MSK (0x00000001 << ADC_SPI_SRL_CLK_OTPT_OFST) #define ADC_SPI_SRL_CLK_OTPT_MSK (0x00000001 << ADC_SPI_SRL_CLK_OTPT_OFST)
#define ADC_SPI_SRL_DT_OTPT_OFST (1) #define ADC_SPI_SRL_DT_OTPT_OFST (1)
#define ADC_SPI_SRL_DT_OTPT_MSK (0x00000001 << ADC_SPI_SRL_DT_OTPT_OFST) #define ADC_SPI_SRL_DT_OTPT_MSK (0x00000001 << ADC_SPI_SRL_DT_OTPT_OFST)
#define ADC_SPI_SRL_CS_OTPT_OFST (2) #define ADC_SPI_SRL_CS_OTPT_OFST (2)
#define ADC_SPI_SRL_CS_OTPT_MSK (0x0000000F << ADC_SPI_SRL_CS_OTPT_OFST) #define ADC_SPI_SRL_CS_OTPT_MSK (0x0000000F << ADC_SPI_SRL_CS_OTPT_OFST)
/* ADC offset Register */ /* ADC offset Register */
#define ADC_OFST_REG (0x42 << MEM_MAP_SHIFT) #define ADC_OFST_REG (0x42 << MEM_MAP_SHIFT)
/* ADC Port Invert Register */ /* ADC Port Invert Register */
#define ADC_PORT_INVERT_REG (0x43 << MEM_MAP_SHIFT) #define ADC_PORT_INVERT_REG (0x43 << MEM_MAP_SHIFT)
#define ADC_PORT_INVERT_ADC_0_OFST (0) #define ADC_PORT_INVERT_ADC_0_OFST (0)
#define ADC_PORT_INVERT_ADC_0_MSK (0x000000FF << ADC_PORT_INVERT_ADC_0_OFST) #define ADC_PORT_INVERT_ADC_0_MSK (0x000000FF << ADC_PORT_INVERT_ADC_0_OFST)
#define ADC_PORT_INVERT_ADC_1_OFST (8) #define ADC_PORT_INVERT_ADC_1_OFST (8)
#define ADC_PORT_INVERT_ADC_1_MSK (0x000000FF << ADC_PORT_INVERT_ADC_1_OFST) #define ADC_PORT_INVERT_ADC_1_MSK (0x000000FF << ADC_PORT_INVERT_ADC_1_OFST)
#define ADC_PORT_INVERT_ADC_2_OFST (16) #define ADC_PORT_INVERT_ADC_2_OFST (16)
#define ADC_PORT_INVERT_ADC_2_MSK (0x000000FF << ADC_PORT_INVERT_ADC_2_OFST) #define ADC_PORT_INVERT_ADC_2_MSK (0x000000FF << ADC_PORT_INVERT_ADC_2_OFST)
#define ADC_PORT_INVERT_ADC_3_OFST (24) #define ADC_PORT_INVERT_ADC_3_OFST (24)
#define ADC_PORT_INVERT_ADC_3_MSK (0x000000FF << ADC_PORT_INVERT_ADC_3_OFST) #define ADC_PORT_INVERT_ADC_3_MSK (0x000000FF << ADC_PORT_INVERT_ADC_3_OFST)
/* Configuration Register */ /* Configuration Register */
#define CONFIG_REG (0x4D << MEM_MAP_SHIFT) #define CONFIG_REG (0x4D << MEM_MAP_SHIFT)
// readout timer (from chip) to stabilize (esp in burst acquisition mode) tRDT = // readout timer (from chip) to stabilize (esp in burst acquisition mode) tRDT =
// (RDT + 1) * 25ns // (RDT + 1) * 25ns
#define CONFIG_RDT_TMR_OFST (0) #define CONFIG_RDT_TMR_OFST (0)
#define CONFIG_RDT_TMR_MSK (0x0000FFFF << CONFIG_RDT_TMR_OFST) #define CONFIG_RDT_TMR_MSK (0x0000FFFF << CONFIG_RDT_TMR_OFST)
#define CONFIG_OPRTN_MDE_2_X_10GbE_OFST (16)
#define CONFIG_OPRTN_MDE_2_X_10GbE_MSK \
(0x00000001 << CONFIG_OPRTN_MDE_2_X_10GbE_OFST)
// if 0, outer is the primary interface // if 0, outer is the primary interface
#define CONFIG_INNR_PRIMRY_INTRFCE_OFST (17) // bottom via port 0 (outer)
#define CONFIG_INNR_PRIMRY_INTRFCE_MSK \ #define CONFIG_OPRTN_MDE_2_X_10GbE_OFST (16)
(0x00000001 << CONFIG_INNR_PRIMRY_INTRFCE_OFST) #define CONFIG_OPRTN_MDE_2_X_10GbE_MSK (0x00000001 << CONFIG_OPRTN_MDE_2_X_10GbE_OFST)
#define CONFIG_READOUT_SPEED_OFST (20) #define CONFIG_INNR_PRIMRY_INTRFCE_OFST (17)
#define CONFIG_READOUT_SPEED_MSK (0x00000003 << CONFIG_READOUT_SPEED_OFST) #define CONFIG_INNR_PRIMRY_INTRFCE_MSK (0x00000001 << CONFIG_INNR_PRIMRY_INTRFCE_OFST)
#define CONFIG_QUARTER_SPEED_10MHZ_VAL \ #define CONFIG_READOUT_SPEED_OFST (20)
((0x0 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK) #define CONFIG_READOUT_SPEED_MSK (0x00000003 << CONFIG_READOUT_SPEED_OFST)
#define CONFIG_HALF_SPEED_20MHZ_VAL \ #define CONFIG_QUARTER_SPEED_10MHZ_VAL ((0x0 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK)
((0x1 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK) #define CONFIG_HALF_SPEED_20MHZ_VAL ((0x1 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK)
#define CONFIG_FULL_SPEED_40MHZ_VAL \ #define CONFIG_FULL_SPEED_40MHZ_VAL ((0x2 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK)
((0x2 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK) #define CONFIG_TDMA_ENABLE_OFST (24)
#define CONFIG_TDMA_ENABLE_OFST (24) #define CONFIG_TDMA_ENABLE_MSK (0x00000001 << CONFIG_TDMA_ENABLE_OFST)
#define CONFIG_TDMA_ENABLE_MSK (0x00000001 << CONFIG_TDMA_ENABLE_OFST) #define CONFIG_TDMA_TIMESLOT_OFST (25) // 1ms
#define CONFIG_TDMA_TIMESLOT_OFST (25) // 1ms #define CONFIG_TDMA_TIMESLOT_MSK (0x0000001F << CONFIG_TDMA_TIMESLOT_OFST)
#define CONFIG_TDMA_TIMESLOT_MSK (0x0000001F << CONFIG_TDMA_TIMESLOT_OFST) #define CONFIG_BOTTOM_INVERT_STREAM_OFST (30)
#define CONFIG_ETHRNT_FLW_CNTRL_OFST (31) #define CONFIG_BOTTOM_INVERT_STREAM_MSK (0x00000001 << CONFIG_BOTTOM_INVERT_STREAM_OFST)
#define CONFIG_ETHRNT_FLW_CNTRL_MSK (0x00000001 << CONFIG_ETHRNT_FLW_CNTRL_OFST) #define CONFIG_ETHRNT_FLW_CNTRL_OFST (31)
#define CONFIG_ETHRNT_FLW_CNTRL_MSK (0x00000001 << CONFIG_ETHRNT_FLW_CNTRL_OFST)
/* External Signal Register */ /* External Signal Register */
#define EXT_SIGNAL_REG (0x4E << MEM_MAP_SHIFT) #define EXT_SIGNAL_REG (0x4E << MEM_MAP_SHIFT)
#define EXT_SIGNAL_OFST (0) #define EXT_SIGNAL_OFST (0)
#define EXT_SIGNAL_MSK (0x00000001 << EXT_SIGNAL_OFST) #define EXT_SIGNAL_MSK (0x00000001 << EXT_SIGNAL_OFST)
/* Control Register */ /* Control Register */
#define CONTROL_REG (0x4F << MEM_MAP_SHIFT) #define CONTROL_REG (0x4F << MEM_MAP_SHIFT)
#define CONTROL_START_ACQ_OFST (0) #define CONTROL_START_ACQ_OFST (0)
#define CONTROL_START_ACQ_MSK (0x00000001 << CONTROL_START_ACQ_OFST) #define CONTROL_START_ACQ_MSK (0x00000001 << CONTROL_START_ACQ_OFST)
#define CONTROL_STOP_ACQ_OFST (1) #define CONTROL_STOP_ACQ_OFST (1)
#define CONTROL_STOP_ACQ_MSK (0x00000001 << CONTROL_STOP_ACQ_OFST) #define CONTROL_STOP_ACQ_MSK (0x00000001 << CONTROL_STOP_ACQ_OFST)
#define CONTROL_CORE_RST_OFST (10) #define CONTROL_CORE_RST_OFST (10)
#define CONTROL_CORE_RST_MSK (0x00000001 << CONTROL_CORE_RST_OFST) #define CONTROL_CORE_RST_MSK (0x00000001 << CONTROL_CORE_RST_OFST)
#define CONTROL_PERIPHERAL_RST_OFST (11) // DDR3 HMem Ctrlr, GBE, Temp #define CONTROL_PERIPHERAL_RST_OFST (11) // DDR3 HMem Ctrlr, GBE, Temp
#define CONTROL_PERIPHERAL_RST_MSK \ #define CONTROL_PERIPHERAL_RST_MSK (0x00000001 << CONTROL_PERIPHERAL_RST_OFST) // DDR3 HMem Ctrlr, GBE, Temp
(0x00000001 << CONTROL_PERIPHERAL_RST_OFST) // DDR3 HMem Ctrlr, GBE, Temp #define CONTROL_DDR3_MEM_RST_OFST (12) // only PHY, not DDR3 PLL ,Not used in software
#define CONTROL_DDR3_MEM_RST_OFST \ #define CONTROL_DDR3_MEM_RST_MSK (0x00000001 << CONTROL_DDR3_MEM_RST_OFST) // only PHY, not DDR3 PLL ,Not used in software
(12) // only PHY, not DDR3 PLL ,Not used in software #define CONTROL_ACQ_FIFO_CLR_OFST (14)
#define CONTROL_DDR3_MEM_RST_MSK \ #define CONTROL_ACQ_FIFO_CLR_MSK (0x00000001 << CONTROL_ACQ_FIFO_CLR_OFST)
(0x00000001 << CONTROL_DDR3_MEM_RST_OFST) // only PHY, not DDR3 PLL ,Not #define CONTROL_STORAGE_CELL_NUM_OFST (16)
// used in software #define CONTROL_STORAGE_CELL_NUM_MSK (0x0000000F << CONTROL_STORAGE_CELL_NUM_OFST)
#define CONTROL_ACQ_FIFO_CLR_OFST (14) #define CONTROL_RX_ADDTNL_ENDPTS_NUM_OFST (20)
#define CONTROL_ACQ_FIFO_CLR_MSK (0x00000001 << CONTROL_ACQ_FIFO_CLR_OFST) #define CONTROL_RX_ADDTNL_ENDPTS_NUM_MSK (0x0000003F << CONTROL_RX_ADDTNL_ENDPTS_NUM_OFST)
#define CONTROL_STORAGE_CELL_NUM_OFST (16) #define CONTROL_RX_ENDPTS_START_OFST (26)
#define CONTROL_STORAGE_CELL_NUM_MSK \ #define CONTROL_RX_ENDPTS_START_MSK (0x0000003F << CONTROL_RX_ENDPTS_START_OFST)
(0x0000000F << CONTROL_STORAGE_CELL_NUM_OFST)
#define CONTROL_RX_ADDTNL_ENDPTS_NUM_OFST (20)
#define CONTROL_RX_ADDTNL_ENDPTS_NUM_MSK \
(0x0000003F << CONTROL_RX_ADDTNL_ENDPTS_NUM_OFST)
#define CONTROL_RX_ENDPTS_START_OFST (26)
#define CONTROL_RX_ENDPTS_START_MSK (0x0000003F << CONTROL_RX_ENDPTS_START_OFST)
/* Reconfiguratble PLL Paramater Register */ /* Reconfiguratble PLL Paramater Register */
#define PLL_PARAM_REG (0x50 << MEM_MAP_SHIFT) #define PLL_PARAM_REG (0x50 << MEM_MAP_SHIFT)
/* Reconfiguratble PLL Control Regiser */ /* Reconfiguratble PLL Control Regiser */
#define PLL_CNTRL_REG (0x51 << MEM_MAP_SHIFT) #define PLL_CNTRL_REG (0x51 << MEM_MAP_SHIFT)
#define PLL_CNTRL_RCNFG_PRMTR_RST_OFST (0) // parameter reset #define PLL_CNTRL_RCNFG_PRMTR_RST_OFST (0) // parameter reset
#define PLL_CNTRL_RCNFG_PRMTR_RST_MSK \ #define PLL_CNTRL_RCNFG_PRMTR_RST_MSK (0x00000001 << PLL_CNTRL_RCNFG_PRMTR_RST_OFST) // parameter reset
(0x00000001 << PLL_CNTRL_RCNFG_PRMTR_RST_OFST) // parameter reset #define PLL_CNTRL_WR_PRMTR_OFST (2)
#define PLL_CNTRL_WR_PRMTR_OFST (2) #define PLL_CNTRL_WR_PRMTR_MSK (0x00000001 << PLL_CNTRL_WR_PRMTR_OFST)
#define PLL_CNTRL_WR_PRMTR_MSK (0x00000001 << PLL_CNTRL_WR_PRMTR_OFST) #define PLL_CNTRL_PLL_RST_OFST (3)
#define PLL_CNTRL_PLL_RST_OFST (3) #define PLL_CNTRL_PLL_RST_MSK (0x00000001 << PLL_CNTRL_PLL_RST_OFST)
#define PLL_CNTRL_PLL_RST_MSK (0x00000001 << PLL_CNTRL_PLL_RST_OFST) #define PLL_CNTRL_DBIT_WR_PRMTR_OFST (5)
#define PLL_CNTRL_DBIT_WR_PRMTR_OFST (5) #define PLL_CNTRL_DBIT_WR_PRMTR_MSK (0x00000001 << PLL_CNTRL_DBIT_WR_PRMTR_OFST)
#define PLL_CNTRL_DBIT_WR_PRMTR_MSK (0x00000001 << PLL_CNTRL_DBIT_WR_PRMTR_OFST) #define PLL_CNTRL_ADDR_OFST (16)
#define PLL_CNTRL_ADDR_OFST (16) #define PLL_CNTRL_ADDR_MSK (0x0000003F << PLL_CNTRL_ADDR_OFST)
#define PLL_CNTRL_ADDR_MSK (0x0000003F << PLL_CNTRL_ADDR_OFST)
/* Config Register for chip 1.1 */
#define CONFIG_V11_REG (0x58 << MEM_MAP_SHIFT)
#define CONFIG_V11_FLTR_CLL_OFST (0)
#define CONFIG_V11_FLTR_CLL_MSK (0x00000FFF << CONFIG_V11_FLTR_CLL_OFST)
#define CONFIG_V11_STRG_CLL_OFST (12)
#define CONFIG_V11_STRG_CLL_MSK (0x0000000F << CONFIG_V11_STRG_CLL_OFST)
// CSM mode = high current (100%), low current (16%)
#define CONFIG_V11_CRRNT_SRC_LOW_OFST (19)
#define CONFIG_V11_CRRNT_SRC_LOW_MSK (0x00000001 << CONFIG_V11_CRRNT_SRC_LOW_OFST)
#define CONFIG_V11_FLTR_RSSTR_SMLR_OFST (21)
#define CONFIG_V11_FLTR_RSSTR_SMLR_MSK (0x00000001 << CONFIG_V11_FLTR_RSSTR_SMLR_OFST)
#define CONFIG_V11_AUTO_MODE_OVRRD_OFST (23)
#define CONFIG_V11_AUTO_MODE_OVRRD_MSK (0x00000001 << CONFIG_V11_AUTO_MODE_OVRRD_OFST)
/* Sample Register */ /* Sample Register */
#define SAMPLE_REG (0x59 << MEM_MAP_SHIFT) #define SAMPLE_REG (0x59 << MEM_MAP_SHIFT)
#define SAMPLE_ADC_SAMPLE_SEL_OFST (0) #define SAMPLE_ADC_SAMPLE_SEL_OFST (0)
#define SAMPLE_ADC_SAMPLE_SEL_MSK (0x00000007 << SAMPLE_ADC_SAMPLE_SEL_OFST) #define SAMPLE_ADC_SAMPLE_SEL_MSK (0x00000007 << SAMPLE_ADC_SAMPLE_SEL_OFST)
#define SAMPLE_ADC_SAMPLE_0_VAL \ #define SAMPLE_ADC_SAMPLE_0_VAL ((0x0 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
((0x0 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK) #define SAMPLE_ADC_SAMPLE_1_VAL ((0x1 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
#define SAMPLE_ADC_SAMPLE_1_VAL \ #define SAMPLE_ADC_SAMPLE_2_VAL ((0x2 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
((0x1 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK) #define SAMPLE_ADC_SAMPLE_3_VAL ((0x3 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
#define SAMPLE_ADC_SAMPLE_2_VAL \ #define SAMPLE_ADC_SAMPLE_4_VAL ((0x4 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
((0x2 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK) #define SAMPLE_ADC_SAMPLE_5_VAL ((0x5 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
#define SAMPLE_ADC_SAMPLE_3_VAL \ #define SAMPLE_ADC_SAMPLE_6_VAL ((0x6 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
((0x3 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK) #define SAMPLE_ADC_SAMPLE_7_VAL ((0x7 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
#define SAMPLE_ADC_SAMPLE_4_VAL \
((0x4 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
#define SAMPLE_ADC_SAMPLE_5_VAL \
((0x5 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
#define SAMPLE_ADC_SAMPLE_6_VAL \
((0x6 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
#define SAMPLE_ADC_SAMPLE_7_VAL \
((0x7 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
// Decimation = ADF + 1 // Decimation = ADF + 1
#define SAMPLE_ADC_DECMT_FACTOR_OFST (4) #define SAMPLE_ADC_DECMT_FACTOR_OFST (4)
#define SAMPLE_ADC_DECMT_FACTOR_MSK (0x00000007 << SAMPLE_ADC_DECMT_FACTOR_OFST) #define SAMPLE_ADC_DECMT_FACTOR_MSK (0x00000007 << SAMPLE_ADC_DECMT_FACTOR_OFST)
#define SAMPLE_ADC_DECMT_FACTOR_0_VAL \ #define SAMPLE_ADC_DECMT_FACTOR_0_VAL ((0x0 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
((0x0 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK) #define SAMPLE_ADC_DECMT_FACTOR_1_VAL ((0x1 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
#define SAMPLE_ADC_DECMT_FACTOR_1_VAL \ #define SAMPLE_ADC_DECMT_FACTOR_2_VAL ((0x2 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
((0x1 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK) #define SAMPLE_ADC_DECMT_FACTOR_3_VAL ((0x3 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
#define SAMPLE_ADC_DECMT_FACTOR_2_VAL \ #define SAMPLE_ADC_DECMT_FACTOR_4_VAL ((0x4 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
((0x2 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK) #define SAMPLE_ADC_DECMT_FACTOR_5_VAL ((0x5 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
#define SAMPLE_ADC_DECMT_FACTOR_3_VAL \ #define SAMPLE_ADC_DECMT_FACTOR_6_VAL ((0x6 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
((0x3 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK) #define SAMPLE_ADC_DECMT_FACTOR_7_VAL ((0x7 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
#define SAMPLE_ADC_DECMT_FACTOR_4_VAL \
((0x4 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
#define SAMPLE_ADC_DECMT_FACTOR_5_VAL \
((0x5 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
#define SAMPLE_ADC_DECMT_FACTOR_6_VAL \
((0x6 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
#define SAMPLE_ADC_DECMT_FACTOR_7_VAL \
((0x7 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
#define SAMPLE_DGTL_SAMPLE_SEL_OFST (8) #define SAMPLE_DGTL_SAMPLE_SEL_OFST (8)
#define SAMPLE_DGTL_SAMPLE_SEL_MSK (0x0000000F << SAMPLE_DGTL_SAMPLE_SEL_OFST) #define SAMPLE_DGTL_SAMPLE_SEL_MSK (0x0000000F << SAMPLE_DGTL_SAMPLE_SEL_OFST)
#define SAMPLE_DGTL_SAMPLE_0_VAL \ #define SAMPLE_DGTL_SAMPLE_0_VAL ((0x0 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
((0x0 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK) #define SAMPLE_DGTL_SAMPLE_1_VAL ((0x1 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_1_VAL \ #define SAMPLE_DGTL_SAMPLE_2_VAL ((0x2 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
((0x1 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK) #define SAMPLE_DGTL_SAMPLE_3_VAL ((0x3 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_2_VAL \ #define SAMPLE_DGTL_SAMPLE_4_VAL ((0x4 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
((0x2 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK) #define SAMPLE_DGTL_SAMPLE_5_VAL ((0x5 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_3_VAL \ #define SAMPLE_DGTL_SAMPLE_6_VAL ((0x6 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
((0x3 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK) #define SAMPLE_DGTL_SAMPLE_7_VAL ((0x7 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_4_VAL \ #define SAMPLE_DGTL_SAMPLE_8_VAL ((0x8 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
((0x4 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK) #define SAMPLE_DGTL_SAMPLE_9_VAL ((0x9 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_5_VAL \ #define SAMPLE_DGTL_SAMPLE_10_VAL ((0xa << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
((0x5 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK) #define SAMPLE_DGTL_SAMPLE_11_VAL ((0xb << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_6_VAL \ #define SAMPLE_DGTL_SAMPLE_12_VAL ((0xc << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
((0x6 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK) #define SAMPLE_DGTL_SAMPLE_13_VAL ((0xd << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_7_VAL \ #define SAMPLE_DGTL_SAMPLE_14_VAL ((0xe << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
((0x7 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK) #define SAMPLE_DGTL_SAMPLE_15_VAL ((0xf << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_8_VAL \
((0x8 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_9_VAL \
((0x9 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_10_VAL \
((0xa << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_11_VAL \
((0xb << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_12_VAL \
((0xc << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_13_VAL \
((0xd << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_14_VAL \
((0xe << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_SAMPLE_15_VAL \
((0xf << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
#define SAMPLE_DGTL_DECMT_FACTOR_OFST (12) #define SAMPLE_DGTL_DECMT_FACTOR_OFST (12)
#define SAMPLE_DGTL_DECMT_FACTOR_MSK \ #define SAMPLE_DGTL_DECMT_FACTOR_MSK (0x00000003 << SAMPLE_DGTL_DECMT_FACTOR_OFST)
(0x00000003 << SAMPLE_DGTL_DECMT_FACTOR_OFST) #define SAMPLE_DECMT_FACTOR_FULL_VAL ((0x0 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK)
#define SAMPLE_DECMT_FACTOR_FULL_VAL \ #define SAMPLE_DECMT_FACTOR_HALF_VAL ((0x1 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK)
((0x0 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK) #define SAMPLE_DECMT_FACTOR_QUARTER_VAL ((0x2 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK)
#define SAMPLE_DECMT_FACTOR_HALF_VAL \
((0x1 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK) /** Current Source Column 0 (0 - 31)) */
#define SAMPLE_DECMT_FACTOR_QUARTER_VAL \ #define CRRNT_SRC_COL_LSB_REG (0x5A << MEM_MAP_SHIFT)
((0x2 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK)
/** Current Source Column 1 (32 - 63) */
#define CRRNT_SRC_COL_MSB_REG (0x5B << MEM_MAP_SHIFT)
/** Vref Comp Mod Register */ /** Vref Comp Mod Register */
#define EXT_DAQ_CTRL_REG (0x5C << MEM_MAP_SHIFT) #define EXT_DAQ_CTRL_REG (0x5C << MEM_MAP_SHIFT)
#define EXT_DAQ_CTRL_VREF_COMP_OFST (0) #define EXT_DAQ_CTRL_VREF_COMP_OFST (0)
#define EXT_DAQ_CTRL_VREF_COMP_MSK (0x00000FFF << EXT_DAQ_CTRL_VREF_COMP_OFST) #define EXT_DAQ_CTRL_VREF_COMP_MSK (0x00000FFF << EXT_DAQ_CTRL_VREF_COMP_OFST)
#define EXT_DAQ_CTRL_CMP_LGC_ENBL_OFST (15) #define EXT_DAQ_CTRL_CMP_LGC_ENBL_OFST (15)
#define EXT_DAQ_CTRL_CMP_LGC_ENBL_MSK \ #define EXT_DAQ_CTRL_CMP_LGC_ENBL_MSK (0x00000001 << EXT_DAQ_CTRL_CMP_LGC_ENBL_OFST)
(0x00000001 << EXT_DAQ_CTRL_CMP_LGC_ENBL_OFST) #define EXT_DAQ_CTRL_INPT_DETECT_OFST (16)
#define EXT_DAQ_CTRL_INPT_DETECT_OFST (16) #define EXT_DAQ_CTRL_INPT_DETECT_MSK (0x00000007 << EXT_DAQ_CTRL_INPT_DETECT_OFST)
#define EXT_DAQ_CTRL_INPT_DETECT_MSK \ #define EXT_DAQ_CTRL_INPT_DETECT_ENBL_OFST (19)
(0x00000007 << EXT_DAQ_CTRL_INPT_DETECT_OFST) #define EXT_DAQ_CTRL_INPT_DETECT_ENBL_MSK (0x00000001 << EXT_DAQ_CTRL_INPT_DETECT_ENBL_OFST)
#define EXT_DAQ_CTRL_INPT_DETECT_ENBL_OFST (19)
#define EXT_DAQ_CTRL_INPT_DETECT_ENBL_MSK \
(0x00000001 << EXT_DAQ_CTRL_INPT_DETECT_ENBL_OFST)
/** DAQ Register */ /** DAQ Register */
#define DAQ_REG (0x5D << MEM_MAP_SHIFT) #define DAQ_REG (0x5D << MEM_MAP_SHIFT)
#define DAQ_SETTINGS_MSK \ // dynamic gain (default)
(DAQ_HIGH_GAIN_MSK | DAQ_FIX_GAIN_MSK | DAQ_FRCE_SWTCH_GAIN_MSK) #define DAQ_HIGH_GAIN_OFST (0)
#define DAQ_HIGH_GAIN_OFST (0) #define DAQ_HIGH_GAIN_MSK (0x00000001 << DAQ_HIGH_GAIN_OFST)
#define DAQ_HIGH_GAIN_MSK (0x00000001 << DAQ_HIGH_GAIN_OFST) #define DAQ_FIX_GAIN_OFST (1)
#define DAQ_FIX_GAIN_DYNMC_VAL ((0x0 << DAQ_HIGH_GAIN_OFST) & DAQ_HIGH_GAIN_MSK) #define DAQ_FIX_GAIN_MSK (0x00000003 << DAQ_FIX_GAIN_OFST)
#define DAQ_FIX_GAIN_HIGHGAIN_VAL \ #define DAQ_FIX_GAIN_STG_1_VAL ((0x1 << DAQ_FIX_GAIN_OFST) & DAQ_FIX_GAIN_MSK)
((0x1 << DAQ_HIGH_GAIN_OFST) & DAQ_HIGH_GAIN_MSK) #define DAQ_FIX_GAIN_STG_2_VAL ((0x3 << DAQ_FIX_GAIN_OFST) & DAQ_FIX_GAIN_MSK)
#define DAQ_FIX_GAIN_OFST (1) #define DAQ_CMP_RST_OFST (4)
#define DAQ_FIX_GAIN_MSK (0x00000003 << DAQ_FIX_GAIN_OFST) #define DAQ_CMP_RST_MSK (0x00000001 << DAQ_CMP_RST_OFST)
#define DAQ_FIX_GAIN_STG_1_VAL ((0x1 << DAQ_FIX_GAIN_OFST) & DAQ_FIX_GAIN_MSK) #define DAQ_STRG_CELL_SLCT_OFST (8)
#define DAQ_FIX_GAIN_STG_2_VAL ((0x3 << DAQ_FIX_GAIN_OFST) & DAQ_FIX_GAIN_MSK) #define DAQ_STRG_CELL_SLCT_MSK (0x0000000F << DAQ_STRG_CELL_SLCT_OFST)
#define DAQ_CMP_RST_OFST (4) #define DAQ_FRCE_SWTCH_GAIN_OFST (12)
#define DAQ_CMP_RST_MSK (0x00000001 << DAQ_CMP_RST_OFST) #define DAQ_FRCE_SWTCH_GAIN_MSK (0x00000003 << DAQ_FRCE_SWTCH_GAIN_OFST)
#define DAQ_STRG_CELL_SLCT_OFST (8) #define DAQ_FRCE_GAIN_STG_0_VAL ((0x0 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK)
#define DAQ_STRG_CELL_SLCT_MSK (0x0000000F << DAQ_STRG_CELL_SLCT_OFST) #define DAQ_FRCE_GAIN_STG_1_VAL ((0x1 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK)
#define DAQ_FRCE_SWTCH_GAIN_OFST (12) #define DAQ_FRCE_GAIN_STG_2_VAL ((0x3 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK)
#define DAQ_FRCE_SWTCH_GAIN_MSK (0x00000003 << DAQ_FRCE_SWTCH_GAIN_OFST) #define DAQ_ELCTRN_CLLCTN_MDE_OFST (14)
#define DAQ_FRCE_GAIN_STG_1_VAL \ #define DAQ_ELCTRN_CLLCTN_MDE_MSK (0x00000001 << DAQ_ELCTRN_CLLCTN_MDE_OFST)
((0x1 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK) #define DAQ_G2_CNNT_OFST (15)
#define DAQ_FRCE_GAIN_STG_2_VAL \ #define DAQ_G2_CNNT_MSK (0x00000001 << DAQ_G2_CNNT_OFST)
((0x3 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK) #define DAQ_CRRNT_SRC_ENBL_OFST (16)
#define DAQ_ELCTRN_CLLCTN_MDE_OFST (14) #define DAQ_CRRNT_SRC_ENBL_MSK (0x00000001 << DAQ_CRRNT_SRC_ENBL_OFST)
#define DAQ_ELCTRN_CLLCTN_MDE_MSK (0x00000001 << DAQ_ELCTRN_CLLCTN_MDE_OFST) #define DAQ_CRRNT_SRC_CLMN_FIX_OFST (17)
#define DAQ_G2_CNNT_OFST (15) #define DAQ_CRRNT_SRC_CLMN_FIX_MSK (0x00000001 << DAQ_CRRNT_SRC_CLMN_FIX_OFST)
#define DAQ_G2_CNNT_MSK (0x00000001 << DAQ_G2_CNNT_OFST) #define DAQ_CRRNT_SRC_CLMN_SLCT_OFST (20)
#define DAQ_CRRNT_SRC_ENBL_OFST (16) #define DAQ_CRRNT_SRC_CLMN_SLCT_MSK (0x0000003F << DAQ_CRRNT_SRC_CLMN_SLCT_OFST)
#define DAQ_CRRNT_SRC_ENBL_MSK (0x00000001 << DAQ_CRRNT_SRC_ENBL_OFST) #define DAQ_GAIN_MODE_MASK (DAQ_FRCE_SWTCH_GAIN_MSK | DAQ_FIX_GAIN_MSK | DAQ_CMP_RST_MSK)
#define DAQ_CRRNT_SRC_CLMN_FIX_OFST (17)
#define DAQ_CRRNT_SRC_CLMN_FIX_MSK (0x00000001 << DAQ_CRRNT_SRC_CLMN_FIX_OFST)
#define DAQ_CRRNT_SRC_CLMN_SLCT_OFST (20)
#define DAQ_CRRNT_SRC_CLMN_SLCT_MSK (0x0000003F << DAQ_CRRNT_SRC_CLMN_SLCT_OFST)
/** Chip Power Register */ /** Chip Power Register */
#define CHIP_POWER_REG (0x5E << MEM_MAP_SHIFT) #define CHIP_POWER_REG (0x5E << MEM_MAP_SHIFT)
#define CHIP_POWER_ENABLE_OFST (0) #define CHIP_POWER_ENABLE_OFST (0)
#define CHIP_POWER_ENABLE_MSK (0x00000001 << CHIP_POWER_ENABLE_OFST) #define CHIP_POWER_ENABLE_MSK (0x00000001 << CHIP_POWER_ENABLE_OFST)
#define CHIP_POWER_STATUS_OFST (1) #define CHIP_POWER_STATUS_OFST (1)
#define CHIP_POWER_STATUS_MSK (0x00000001 << CHIP_POWER_STATUS_OFST) #define CHIP_POWER_STATUS_MSK (0x00000001 << CHIP_POWER_STATUS_OFST)
/** Temperature Control Register */ /** Temperature Control Register */
#define TEMP_CTRL_REG (0x5F << MEM_MAP_SHIFT) #define TEMP_CTRL_REG (0x5F << MEM_MAP_SHIFT)
#define TEMP_CTRL_PROTCT_THRSHLD_OFST (0) #define TEMP_CTRL_PROTCT_THRSHLD_OFST (0)
#define TEMP_CTRL_PROTCT_THRSHLD_MSK \ #define TEMP_CTRL_PROTCT_THRSHLD_MSK (0x000007FF << TEMP_CTRL_PROTCT_THRSHLD_OFST)
(0x000007FF << TEMP_CTRL_PROTCT_THRSHLD_OFST) #define TEMP_CTRL_PROTCT_ENABLE_OFST (16)
#define TEMP_CTRL_PROTCT_ENABLE_OFST (16) #define TEMP_CTRL_PROTCT_ENABLE_MSK (0x00000001 << TEMP_CTRL_PROTCT_ENABLE_OFST)
#define TEMP_CTRL_PROTCT_ENABLE_MSK (0x00000001 << TEMP_CTRL_PROTCT_ENABLE_OFST)
// set when temp higher than over threshold, write 1 to clear it // set when temp higher than over threshold, write 1 to clear it
#define TEMP_CTRL_OVR_TMP_EVNT_OFST (31) #define TEMP_CTRL_OVR_TMP_EVNT_OFST (31)
#define TEMP_CTRL_OVR_TMP_EVNT_MSK (0x00000001 << TEMP_CTRL_OVR_TMP_EVNT_OFST) #define TEMP_CTRL_OVR_TMP_EVNT_MSK (0x00000001 << TEMP_CTRL_OVR_TMP_EVNT_OFST)
/* Set Delay 64 bit register */ /* Set Delay 64 bit register */
#define SET_DELAY_LSB_REG (0x60 << MEM_MAP_SHIFT) // different kind of delay #define SET_DELAY_LSB_REG (0x60 << MEM_MAP_SHIFT) // different kind of delay
#define SET_DELAY_MSB_REG (0x61 << MEM_MAP_SHIFT) // different kind of delay #define SET_DELAY_MSB_REG (0x61 << MEM_MAP_SHIFT) // different kind of delay
/* Set Triggers 64 bit register */ /* Set Triggers 64 bit register */
#define SET_CYCLES_LSB_REG (0x62 << MEM_MAP_SHIFT) #define SET_CYCLES_LSB_REG (0x62 << MEM_MAP_SHIFT)
#define SET_CYCLES_MSB_REG (0x63 << MEM_MAP_SHIFT) #define SET_CYCLES_MSB_REG (0x63 << MEM_MAP_SHIFT)
/* Set Frames 64 bit register */ /* Set Frames 64 bit register */
#define SET_FRAMES_LSB_REG (0x64 << MEM_MAP_SHIFT) #define SET_FRAMES_LSB_REG (0x64 << MEM_MAP_SHIFT)
#define SET_FRAMES_MSB_REG (0x65 << MEM_MAP_SHIFT) #define SET_FRAMES_MSB_REG (0x65 << MEM_MAP_SHIFT)
/* Set Period 64 bit register tT = T x 50 ns */ /* Set Period 64 bit register tT = T x 50 ns */
#define SET_PERIOD_LSB_REG (0x66 << MEM_MAP_SHIFT) #define SET_PERIOD_LSB_REG (0x66 << MEM_MAP_SHIFT)
#define SET_PERIOD_MSB_REG (0x67 << MEM_MAP_SHIFT) #define SET_PERIOD_MSB_REG (0x67 << MEM_MAP_SHIFT)
/* Set Exptime 64 bit register eEXP = Exp x 25 ns */ /* Set Exptime 64 bit register eEXP = Exp x 25 ns */
#define SET_EXPTIME_LSB_REG (0x68 << MEM_MAP_SHIFT) #define SET_EXPTIME_LSB_REG (0x68 << MEM_MAP_SHIFT)
#define SET_EXPTIME_MSB_REG (0x69 << MEM_MAP_SHIFT) #define SET_EXPTIME_MSB_REG (0x69 << MEM_MAP_SHIFT)
/* Starting Frame number 64 bit register */ /* Starting Frame number 64 bit register */
#define FRAME_NUMBER_LSB_REG (0x6A << MEM_MAP_SHIFT) #define FRAME_NUMBER_LSB_REG (0x6A << MEM_MAP_SHIFT)
#define FRAME_NUMBER_MSB_REG (0x6B << MEM_MAP_SHIFT) #define FRAME_NUMBER_MSB_REG (0x6B << MEM_MAP_SHIFT)
/* Comparator disable time (chipv1.1) 32 bit register tT = T x 25 ns
Time before end of exposure when comparator is disabled */
#define COMP_DSBLE_TIME_REG (0x6C << MEM_MAP_SHIFT)
/* Trigger Delay 32 bit register */ /* Trigger Delay 32 bit register */
#define SET_TRIGGER_DELAY_LSB_REG (0x70 << MEM_MAP_SHIFT) #define SET_TRIGGER_DELAY_LSB_REG (0x70 << MEM_MAP_SHIFT)
#define SET_TRIGGER_DELAY_MSB_REG (0x71 << MEM_MAP_SHIFT) #define SET_TRIGGER_DELAY_MSB_REG (0x71 << MEM_MAP_SHIFT)
/** Module row coordinates */ /** Module row coordinates */
#define COORD_ROW_REG (0x7C << MEM_MAP_SHIFT) #define COORD_ROW_REG (0x7C << MEM_MAP_SHIFT)
#define COORD_ROW_OUTER_OFST (0) #define COORD_ROW_OUTER_OFST (0)
#define COORD_ROW_OUTER_MSK (0x0000FFFF << COORD_ROW_OUTER_OFST) #define COORD_ROW_OUTER_MSK (0x0000FFFF << COORD_ROW_OUTER_OFST)
#define COORD_ROW_INNER_OFST (16) #define COORD_ROW_INNER_OFST (16)
#define COORD_ROW_INNER_MSK (0x0000FFFF << COORD_ROW_INNER_OFST) #define COORD_ROW_INNER_MSK (0x0000FFFF << COORD_ROW_INNER_OFST)
/** Module column coordinates */ /** Module column coordinates */
#define COORD_COL_REG (0x7D << MEM_MAP_SHIFT) #define COORD_COL_REG (0x7D << MEM_MAP_SHIFT)
#define COORD_COL_OUTER_OFST (0) #define COORD_COL_OUTER_OFST (0)
#define COORD_COL_OUTER_MSK (0x0000FFFF << COORD_COL_OUTER_OFST) #define COORD_COL_OUTER_MSK (0x0000FFFF << COORD_COL_OUTER_OFST)
#define COORD_COL_INNER_OFST (16) #define COORD_COL_INNER_OFST (16)
#define COORD_COL_INNER_MSK (0x0000FFFF << COORD_COL_INNER_OFST) #define COORD_COL_INNER_MSK (0x0000FFFF << COORD_COL_INNER_OFST)
/** Module column coordinates */ /** Module column coordinates */
#define COORD_RESERVED_REG (0x7E << MEM_MAP_SHIFT) #define COORD_RESERVED_REG (0x7E << MEM_MAP_SHIFT)
#define COORD_RESERVED_OUTER_OFST (0) #define COORD_RESERVED_OUTER_OFST (0)
#define COORD_RESERVED_OUTER_MSK (0x0000FFFF << COORD_RESERVED_OUTER_OFST) #define COORD_RESERVED_OUTER_MSK (0x0000FFFF << COORD_RESERVED_OUTER_OFST)
#define COORD_RESERVED_INNER_OFST (16) #define COORD_RESERVED_INNER_OFST (16)
#define COORD_RESERVED_INNER_MSK (0x0000FFFF << COORD_RESERVED_INNER_OFST) #define COORD_RESERVED_INNER_MSK (0x0000FFFF << COORD_RESERVED_INNER_OFST)
/* ASIC Control Register */ /* ASIC Control Register */
#define ASIC_CTRL_REG (0x7F << MEM_MAP_SHIFT) #define ASIC_CTRL_REG (0x7F << MEM_MAP_SHIFT)
// tPC = (PCT + 1) * 25ns // tPC = (PCT + 1) * 25ns
#define ASIC_CTRL_PRCHRG_TMR_OFST (0) #define ASIC_CTRL_PRCHRG_TMR_OFST (0)
#define ASIC_CTRL_PRCHRG_TMR_MSK (0x000000FF << ASIC_CTRL_PRCHRG_TMR_OFST) #define ASIC_CTRL_PRCHRG_TMR_MSK (0x000000FF << ASIC_CTRL_PRCHRG_TMR_OFST)
#define ASIC_CTRL_PRCHRG_TMR_VAL \ #define ASIC_CTRL_PRCHRG_TMR_VAL ((0x1F << ASIC_CTRL_PRCHRG_TMR_OFST) & ASIC_CTRL_PRCHRG_TMR_MSK)
((0x1F << ASIC_CTRL_PRCHRG_TMR_OFST) & ASIC_CTRL_PRCHRG_TMR_MSK)
// tDS = (DST + 1) * 25ns // tDS = (DST + 1) * 25ns
#define ASIC_CTRL_DS_TMR_OFST (8) #define ASIC_CTRL_DS_TMR_OFST (8)
#define ASIC_CTRL_DS_TMR_MSK (0x000000FF << ASIC_CTRL_DS_TMR_OFST) #define ASIC_CTRL_DS_TMR_MSK (0x000000FF << ASIC_CTRL_DS_TMR_OFST)
#define ASIC_CTRL_DS_TMR_VAL \ #define ASIC_CTRL_DS_TMR_VAL ((0x1F << ASIC_CTRL_DS_TMR_OFST) & ASIC_CTRL_DS_TMR_MSK)
((0x1F << ASIC_CTRL_DS_TMR_OFST) & ASIC_CTRL_DS_TMR_MSK)
// tET = (ET + 1) * 25ns (increase timeout range between 2 consecutive storage // tET = (ET + 1) * 25ns (increase timeout range between 2 consecutive storage
// cells) // cells)
#define ASIC_CTRL_EXPSRE_TMR_OFST (16) #define ASIC_CTRL_EXPSRE_TMR_OFST (16)
#define ASIC_CTRL_EXPSRE_TMR_MSK (0x0000FFFF << ASIC_CTRL_EXPSRE_TMR_OFST) #define ASIC_CTRL_EXPSRE_TMR_MSK (0x0000FFFF << ASIC_CTRL_EXPSRE_TMR_OFST)
#define ASIC_CTRL_EXPSRE_TMR_MAX_VAL (0x0000FFFF / (CLK_RUN * 1E-3)) #define ASIC_CTRL_EXPSRE_TMR_MAX_VAL (0x0000FFFF / (CLK_RUN * 1E-3))
/* ADC 0 Deserializer Control */ /* ADC 0 Deserializer Control */
#define ADC_DSRLZR_0_REG (0xF0 << MEM_MAP_SHIFT) #define ADC_DSRLZR_0_REG (0xF0 << MEM_MAP_SHIFT)
#define ADC_DSRLZR_0_RFRSH_ALGNMNT_OFST (31) /* Refresh alignment */ #define ADC_DSRLZR_0_RFRSH_ALGNMNT_OFST (31) /* Refresh alignment */
#define ADC_DSRLZR_0_RFRSH_ALGNMNT_MSK \ #define ADC_DSRLZR_0_RFRSH_ALGNMNT_MSK (0x00000001 << ADC_DSRLZR_0_RFRSH_ALGNMNT_OFST)
(0x00000001 << ADC_DSRLZR_0_RFRSH_ALGNMNT_OFST)
/* ADC 0 Deserializer Control */ /* ADC 0 Deserializer Control */
#define ADC_DSRLZR_1_REG (0xF1 << MEM_MAP_SHIFT) #define ADC_DSRLZR_1_REG (0xF1 << MEM_MAP_SHIFT)
#define ADC_DSRLZR_1_RFRSH_ALGNMNT_OFST (31) #define ADC_DSRLZR_1_RFRSH_ALGNMNT_OFST (31)
#define ADC_DSRLZR_1_RFRSH_ALGNMNT_MSK \ #define ADC_DSRLZR_1_RFRSH_ALGNMNT_MSK (0x00000001 << ADC_DSRLZR_1_RFRSH_ALGNMNT_OFST)
(0x00000001 << ADC_DSRLZR_1_RFRSH_ALGNMNT_OFST)
/* ADC 0 Deserializer Control */ /* ADC 0 Deserializer Control */
#define ADC_DSRLZR_2_REG (0xF2 << MEM_MAP_SHIFT) #define ADC_DSRLZR_2_REG (0xF2 << MEM_MAP_SHIFT)
#define ADC_DSRLZR_2_RFRSH_ALGNMNT_OFST (31) #define ADC_DSRLZR_2_RFRSH_ALGNMNT_OFST (31)
#define ADC_DSRLZR_2_RFRSH_ALGNMNT_MSK \ #define ADC_DSRLZR_2_RFRSH_ALGNMNT_MSK (0x00000001 << ADC_DSRLZR_2_RFRSH_ALGNMNT_OFST)
(0x00000001 << ADC_DSRLZR_2_RFRSH_ALGNMNT_OFST)
/* ADC 0 Deserializer Control */ /* ADC 0 Deserializer Control */
#define ADC_DSRLZR_3_REG (0xF3 << MEM_MAP_SHIFT) #define ADC_DSRLZR_3_REG (0xF3 << MEM_MAP_SHIFT)
#define ADC_DSRLZR_3_RFRSH_ALGNMNT_OFST (31) #define ADC_DSRLZR_3_RFRSH_ALGNMNT_OFST (31)
#define ADC_DSRLZR_3_RFRSH_ALGNMNT_MSK \ #define ADC_DSRLZR_3_RFRSH_ALGNMNT_MSK (0x00000001 << ADC_DSRLZR_3_RFRSH_ALGNMNT_OFST)
(0x00000001 << ADC_DSRLZR_3_RFRSH_ALGNMNT_OFST)
/* Round Robin */ /* Round Robin */
#define RXR_ENDPOINTS_MAX (64) #define RXR_ENDPOINTS_MAX (64)
#define RXR_ENDPOINT_OUTER_START_REG (0x1000 << MEM_MAP_SHIFT) #define RXR_ENDPOINT_OUTER_START_REG (0x1000 << MEM_MAP_SHIFT)
#define RXR_ENDPOINT_INNER_START_REG (0x2000 << MEM_MAP_SHIFT) #define RXR_ENDPOINT_INNER_START_REG (0x2000 << MEM_MAP_SHIFT)
#define RXR_ENDPOINT_OFST (0x10 << MEM_MAP_SHIFT) #define RXR_ENDPOINT_OFST (0x10 << MEM_MAP_SHIFT)
// clang-format on

View File

@ -0,0 +1,4 @@
#chip version version (multiplied by 10)
chipversion 11

View File

@ -43,8 +43,13 @@ int virtual_image_test_mode = 0;
enum detectorSettings thisSettings = UNINITIALIZED; enum detectorSettings thisSettings = UNINITIALIZED;
int highvoltage = 0; int highvoltage = 0;
int dacValues[NDAC] = {}; int dacValues[NDAC] = {};
int defaultDacValues[] = DEFAULT_DAC_VALS;
int defaultDacValue_G0[] = SPECIAL_DEFAULT_DYNAMIC_GAIN_VALS;
int defaultDacValue_HG0[] = SPECIAL_DEFAULT_DYNAMICHG0_GAIN_VALS;
int32_t clkPhase[NUM_CLOCKS] = {}; int32_t clkPhase[NUM_CLOCKS] = {};
int detPos[4] = {}; int detPos[4] = {};
int chipVersion = 10; // (1.0)
int chipConfigured = 0;
int isInitCheckDone() { return initCheckDone; } int isInitCheckDone() { return initCheckDone; }
@ -101,6 +106,7 @@ void basictests() {
if (fwversion >= MIN_REQRD_VRSN_T_RD_API) if (fwversion >= MIN_REQRD_VRSN_T_RD_API)
sw_fw_apiversion = getFirmwareAPIVersion(); sw_fw_apiversion = getFirmwareAPIVersion();
LOG(logINFOBLUE, LOG(logINFOBLUE,
("************ Jungfrau Server *********************\n" ("************ Jungfrau Server *********************\n"
"Hardware Version:\t\t 0x%x\n" "Hardware Version:\t\t 0x%x\n"
@ -283,12 +289,17 @@ u_int16_t getHardwareSerialNumber() {
// is board 1.0?, with value 2 (resistor network) // is board 1.0?, with value 2 (resistor network)
int isHardwareVersion2() { int isHardwareVersion2() {
#ifdef VIRTUAL
return 0;
#endif
return (((bus_r(MOD_SERIAL_NUM_REG) & HARDWARE_VERSION_NUM_MSK) == return (((bus_r(MOD_SERIAL_NUM_REG) & HARDWARE_VERSION_NUM_MSK) ==
HARDWARE_VERSION_2_VAL) HARDWARE_VERSION_2_VAL)
? 1 ? 1
: 0); : 0);
} }
int getChipVersion() { return chipVersion; }
u_int32_t getDetectorNumber() { u_int32_t getDetectorNumber() {
#ifdef VIRTUAL #ifdef VIRTUAL
return 0; return 0;
@ -379,10 +390,16 @@ void setupDetector() {
for (int i = 0; i < NUM_CLOCKS; ++i) { for (int i = 0; i < NUM_CLOCKS; ++i) {
clkPhase[i] = 0; clkPhase[i] = 0;
} }
chipConfigured = 0;
#ifdef VIRTUAL #ifdef VIRTUAL
sharedMemory_setStatus(IDLE); sharedMemory_setStatus(IDLE);
#endif #endif
// get chip version
if (readConfigFile() == FAIL) {
return;
}
ALTERA_PLL_ResetPLL(); ALTERA_PLL_ResetPLL();
resetCore(); resetCore();
resetPeripheral(); resetPeripheral();
@ -409,7 +426,7 @@ void setupDetector() {
DAC_MAX_MV); DAC_MAX_MV);
LTC2620_Disable(); LTC2620_Disable();
LTC2620_Configure(); LTC2620_Configure();
setDefaultDacs(); resetToDefaultDacs(0);
// altera pll // altera pll
ALTERA_PLL_SetDefines( ALTERA_PLL_SetDefines(
@ -434,15 +451,21 @@ void setupDetector() {
// Initialization of acquistion parameters // Initialization of acquistion parameters
setSettings(DEFAULT_SETTINGS); setSettings(DEFAULT_SETTINGS);
setGainMode(DEFAULT_GAINMODE);
setNumFrames(DEFAULT_NUM_FRAMES); setNumFrames(DEFAULT_NUM_FRAMES);
setNumTriggers(DEFAULT_NUM_CYCLES); setNumTriggers(DEFAULT_NUM_CYCLES);
setExpTime(DEFAULT_EXPTIME); setExpTime(DEFAULT_EXPTIME);
setPeriod(DEFAULT_PERIOD); setPeriod(DEFAULT_PERIOD);
setDelayAfterTrigger(DEFAULT_DELAY); setDelayAfterTrigger(DEFAULT_DELAY);
setNumAdditionalStorageCells(DEFAULT_NUM_STRG_CLLS); if (getChipVersion() == 11) {
setStorageCellDelay(DEFAULT_STRG_CLL_DLY); selectStoragecellStart(DEFAULT_STRG_CLL_STRT_CHIP11);
selectStoragecellStart(DEFAULT_STRG_CLL_STRT); } else {
setNumAdditionalStorageCells(DEFAULT_NUM_STRG_CLLS);
selectStoragecellStart(DEFAULT_STRG_CLL_STRT);
// not applicable for chipv1.1
setStorageCellDelay(DEFAULT_STRG_CLL_DLY);
}
/*setClockDivider(RUN_CLK, HALF_SPEED); depends if all the previous stuff /*setClockDivider(RUN_CLK, HALF_SPEED); depends if all the previous stuff
* works*/ * works*/
setTiming(DEFAULT_TIMING_MODE); setTiming(DEFAULT_TIMING_MODE);
@ -451,21 +474,259 @@ void setupDetector() {
// temp threshold and reset event // temp threshold and reset event
setThresholdTemperature(DEFAULT_TMP_THRSHLD); setThresholdTemperature(DEFAULT_TMP_THRSHLD);
setTemperatureEvent(0); setTemperatureEvent(0);
setFlipRows(DEFAULT_FLIP_ROWS);
if (getChipVersion() == 11) {
setFilterResistor(DEFAULT_FILTER_RESISTOR);
setFilterCell(DEFAULT_FILTER_CELL);
}
disableCurrentSource();
} }
int setDefaultDacs() { int resetToDefaultDacs(int hardReset) {
int ret = OK; LOG(logINFOBLUE, ("Resetting %s to Default Dac values\n",
LOG(logINFOBLUE, ("Setting Default Dac values\n")); (hardReset == 1 ? "hard" : "")));
const int defaultvals[NDAC] = DEFAULT_DAC_VALS;
// reset defaults to hardcoded defaults
if (hardReset) {
const int vals[] = DEFAULT_DAC_VALS;
for (int i = 0; i < NDAC; ++i) {
defaultDacValues[i] = vals[i];
}
const int vals_G0[] = SPECIAL_DEFAULT_DYNAMIC_GAIN_VALS;
for (int i = 0; i < NSPECIALDACS; ++i) {
defaultDacValue_G0[i] = vals_G0[i];
}
const int vals_HG0[] = SPECIAL_DEFAULT_DYNAMICHG0_GAIN_VALS;
for (int i = 0; i < NSPECIALDACS; ++i) {
defaultDacValue_HG0[i] = vals_HG0[i];
}
}
// remember settings
enum detectorSettings oldSettings = thisSettings;
// reset dacs to defaults
const int specialDacs[] = SPECIALDACINDEX;
for (int i = 0; i < NDAC; ++i) { for (int i = 0; i < NDAC; ++i) {
setDAC((enum DACINDEX)i, defaultvals[i], 0); int value = defaultDacValues[i];
if (dacValues[i] != defaultvals[i]) {
ret = FAIL; for (int j = 0; j < NSPECIALDACS; ++j) {
// special dac: replace default value
if (specialDacs[j] == i) {
switch (oldSettings) {
case GAIN0:
value = defaultDacValue_G0[j];
break;
case HIGHGAIN0:
value = defaultDacValue_HG0[j];
break;
default:
break;
}
break;
}
}
// set to defualt
setDAC((enum DACINDEX)i, value, 0);
if (dacValues[i] != value) {
LOG(logERROR, ("Setting dac %d failed, wrote %d, read %d\n", i, LOG(logERROR, ("Setting dac %d failed, wrote %d, read %d\n", i,
defaultvals[i], dacValues[i])); value, dacValues[i]));
return FAIL;
} }
} }
return ret; return OK;
}
int getDefaultDac(enum DACINDEX index, enum detectorSettings sett,
int *retval) {
// settings only for special dacs
if (sett != UNDEFINED) {
const int specialDacs[] = SPECIALDACINDEX;
// find special dac index
for (int i = 0; i < NSPECIALDACS; ++i) {
if ((int)index == specialDacs[i]) {
switch (sett) {
case GAIN0:
*retval = defaultDacValue_G0[i];
return OK;
case HIGHGAIN0:
*retval = defaultDacValue_HG0[i];
return OK;
// unknown settings
default:
return FAIL;
}
}
}
// not a special dac
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
*retval = defaultDacValues[index];
return OK;
}
int setDefaultDac(enum DACINDEX index, enum detectorSettings sett, int value) {
char *dac_names[] = {DAC_NAMES};
// settings only for special dacs
if (sett != UNDEFINED) {
const int specialDacs[] = SPECIALDACINDEX;
// find special dac index
for (int i = 0; i < NSPECIALDACS; ++i) {
if ((int)index == specialDacs[i]) {
switch (sett) {
case GAIN0:
LOG(logINFO, ("Setting Default Dac [%d - %s, gain0]: %d\n",
(int)index, dac_names[index], value));
defaultDacValue_G0[i] = value;
return OK;
case HIGHGAIN0:
LOG(logINFO,
("Setting Default Dac [%d - %s, highgain0]: %d\n",
(int)index, dac_names[index], value));
defaultDacValue_HG0[i] = value;
return OK;
// unknown settings
default:
return FAIL;
}
}
}
// not a special dac
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
LOG(logINFO, ("Setting Default Dac [%d - %s]: %d\n", (int)index,
dac_names[index], value));
defaultDacValues[index] = value;
return OK;
}
int readConfigFile() {
if (initError == FAIL) {
return initError;
}
const int fileNameSize = 128;
char fname[fileNameSize];
if (getAbsPath(fname, fileNameSize, CONFIG_FILE) == FAIL) {
return FAIL;
}
// open config file
FILE *fd = fopen(fname, "r");
if (fd == NULL) {
sprintf(initErrorMessage,
"Could not open on-board detector server config file [%s].\n",
CONFIG_FILE);
initError = FAIL;
LOG(logERROR, ("%s\n\n", initErrorMessage));
return FAIL;
}
LOG(logINFOBLUE, ("Reading config file %s\n", CONFIG_FILE));
// Initialization
const size_t LZ = 256;
char line[LZ];
memset(line, 0, LZ);
char command[LZ];
// keep reading a line
while (fgets(line, LZ, fd)) {
// ignore comments
if (line[0] == '#') {
LOG(logDEBUG1, ("Ignoring Comment\n"));
continue;
}
// ignore empty lines
if (strlen(line) <= 1) {
LOG(logDEBUG1, ("Ignoring Empty line\n"));
continue;
}
// removing leading spaces
if (line[0] == ' ' || line[0] == '\t') {
int len = strlen(line);
// find first valid character
int i = 0;
for (i = 0; i < len; ++i) {
if (line[i] != ' ' && line[i] != '\t') {
break;
}
}
// ignore the line full of spaces (last char \n)
if (i >= len - 1) {
LOG(logDEBUG1, ("Ignoring line full of spaces\n"));
continue;
}
// copying only valid char
char temp[LZ];
memset(temp, 0, LZ);
memcpy(temp, line + i, strlen(line) - i);
memset(line, 0, LZ);
memcpy(line, temp, strlen(temp));
LOG(logDEBUG1, ("Removing leading spaces.\n"));
}
LOG(logDEBUG1, ("Command to process: (size:%d) %.*s\n", strlen(line),
strlen(line) - 1, line));
memset(command, 0, LZ);
// chipversion command
if (!strncmp(line, "chipversion", strlen("chipversion"))) {
int version = 0;
// cannot scan values
if (sscanf(line, "%s %d", command, &version) != 2) {
sprintf(
initErrorMessage,
"Could not scan chipversion commands from on-board server "
"config file. Line:[%s].\n",
line);
break;
}
// validations
if (version != 10 && version != 11) {
sprintf(initErrorMessage,
"Could not set chip version from on-board server "
"config file. Invalid chip version %d. Line:[%s].\n",
version, line);
break;
}
// validations
chipVersion = version;
LOG(logINFOBLUE, ("Chip Version: v%.01f\n", chipVersion / 10.0));
// version 1.1 and HW 1.0 (version reg value = 2) is incompatible
if (chipVersion == 11 && isHardwareVersion2()) {
strcpy(initErrorMessage,
"Chip version 1.1 (from on-board config file) is incompatible with old board (v1.0). Please update board or correct on-board config file.\n");
break;
}
}
memset(line, 0, LZ);
}
fclose(fd);
if (strlen(initErrorMessage)) {
initError = FAIL;
LOG(logERROR, ("%s\n\n", initErrorMessage));
} else {
LOG(logINFOBLUE, ("Successfully read config file\n"));
}
return initError;
} }
/* firmware functions (resets) */ /* firmware functions (resets) */
@ -523,14 +784,57 @@ uint32_t getADCInvertRegister() {
/* parameters - timer */ /* parameters - timer */
int selectStoragecellStart(int pos) { int selectStoragecellStart(int pos) {
int value = pos;
uint32_t addr = DAQ_REG;
uint32_t mask = DAQ_STRG_CELL_SLCT_MSK;
int offset = DAQ_STRG_CELL_SLCT_OFST;
if (getChipVersion() == 11) {
// set the bit
value = 1 << pos;
addr = CONFIG_V11_REG;
mask = CONFIG_V11_STRG_CLL_MSK;
offset = CONFIG_V11_STRG_CLL_OFST;
}
if (pos >= 0) { if (pos >= 0) {
LOG(logINFO, ("Setting storage cell start: %d\n", pos)); LOG(logINFO, ("Setting storage cell start: %d\n", pos));
bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_STRG_CELL_SLCT_MSK); bus_w(addr, bus_r(addr) & ~mask);
bus_w(DAQ_REG, bus_r(DAQ_REG) | ((pos << DAQ_STRG_CELL_SLCT_OFST) & bus_w(addr, bus_r(addr) | ((value << offset) & mask));
DAQ_STRG_CELL_SLCT_MSK)); // should not do a get to verify (status register does not update
// immediately during acquisition)
if (getChipVersion() == 11) {
return pos;
}
}
// read value back
// chipv1.1, writing and reading registers are different
#ifndef VIRTUAL
if (getChipVersion() == 11) {
addr = CONFIG_V11_STATUS_REG;
mask = CONFIG_V11_STATUS_STRG_CLL_MSK;
offset = CONFIG_V11_STATUS_STRG_CLL_OFST;
}
#endif
int retval = ((bus_r(addr) & mask) >> offset);
if (getChipVersion() == 11) {
// get which bit
int max = getMaxStoragecellStart();
for (int i = 0; i != max + 1; ++i) {
if (retval & (1 << i)) {
return i;
}
}
}
// chip v1.0
return retval;
}
int getMaxStoragecellStart() {
if (getChipVersion() == 11) {
return MAX_STORAGE_CELL_CHIP11_VAL;
} else {
return MAX_STORAGE_CELL_VAL;
} }
return ((bus_r(DAQ_REG) & DAQ_STRG_CELL_SLCT_MSK) >>
DAQ_STRG_CELL_SLCT_OFST);
} }
int setNextFrameNumber(uint64_t value) { int setNextFrameNumber(uint64_t value) {
@ -749,95 +1053,140 @@ enum detectorSettings setSettings(enum detectorSettings sett) {
if (sett == UNINITIALIZED) if (sett == UNINITIALIZED)
return thisSettings; return thisSettings;
int *dacVals = NULL;
// set settings // set settings
switch (sett) { switch (sett) {
case DYNAMICGAIN: case GAIN0:
bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_SETTINGS_MSK); bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_HIGH_GAIN_MSK);
LOG(logINFO, LOG(logINFO,
("Set settings - Dyanmic Gain, DAQ Reg: 0x%x\n", bus_r(DAQ_REG))); ("Set settings - Gain 0 [DAQ Reg:0x%x]\n", bus_r(DAQ_REG)));
dacVals = defaultDacValue_G0;
break; break;
case DYNAMICHG0: case HIGHGAIN0:
bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_SETTINGS_MSK); bus_w(DAQ_REG, bus_r(DAQ_REG) | DAQ_HIGH_GAIN_MSK);
bus_w(DAQ_REG, bus_r(DAQ_REG) | DAQ_FIX_GAIN_HIGHGAIN_VAL);
LOG(logINFO, ("Set settings - Dyanmic High Gain 0, DAQ Reg: 0x%x\n",
bus_r(DAQ_REG)));
break;
case FIXGAIN1:
bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_SETTINGS_MSK);
bus_w(DAQ_REG, bus_r(DAQ_REG) | DAQ_FIX_GAIN_STG_1_VAL);
LOG(logINFO, LOG(logINFO,
("Set settings - Fix Gain 1, DAQ Reg: 0x%x\n", bus_r(DAQ_REG))); ("Set settings - High Gain 0 [DAQ Reg:0x%x]\n", bus_r(DAQ_REG)));
break; dacVals = defaultDacValue_HG0;
case FIXGAIN2:
bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_SETTINGS_MSK);
bus_w(DAQ_REG, bus_r(DAQ_REG) | DAQ_FIX_GAIN_STG_2_VAL);
LOG(logINFO,
("Set settings - Fix Gain 2, DAQ Reg: 0x%x\n", bus_r(DAQ_REG)));
break;
case FORCESWITCHG1:
bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_SETTINGS_MSK);
bus_w(DAQ_REG, bus_r(DAQ_REG) | DAQ_FRCE_GAIN_STG_1_VAL);
LOG(logINFO, ("Set settings - Force Switch Gain 1, DAQ Reg: 0x%x\n",
bus_r(DAQ_REG)));
break;
case FORCESWITCHG2:
bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_SETTINGS_MSK);
bus_w(DAQ_REG, bus_r(DAQ_REG) | DAQ_FRCE_GAIN_STG_2_VAL);
LOG(logINFO, ("Set settings - Force Switch Gain 2, DAQ Reg: 0x%x\n",
bus_r(DAQ_REG)));
break; break;
default: default:
LOG(logERROR, LOG(logERROR, ("This settings %d is not defined\n", (int)sett));
("This settings is not defined for this detector %d\n", (int)sett));
return -1; return -1;
} }
thisSettings = sett; thisSettings = sett;
// set special dacs
const int specialDacs[] = SPECIALDACINDEX;
for (int i = 0; i < NSPECIALDACS; ++i) {
setDAC(specialDacs[i], dacVals[i], 0);
}
// if chip 1.1, and power chip on, configure chip
if (getChipVersion() == 11 && powerChip(-1)) {
configureChip();
}
return getSettings(); return getSettings();
} }
enum detectorSettings getSettings() { enum detectorSettings getSettings() {
if (bus_r(DAQ_REG) & DAQ_HIGH_GAIN_MSK)
return HIGHGAIN0;
return GAIN0;
}
enum gainMode getGainMode() {
uint32_t regval = bus_r(DAQ_REG); uint32_t regval = bus_r(DAQ_REG);
uint32_t val = regval & DAQ_SETTINGS_MSK; uint32_t retval_force = regval & DAQ_FRCE_SWTCH_GAIN_MSK;
LOG(logDEBUG1, ("Getting Settings\n Reading DAQ Register :0x%x\n", val)); uint32_t retval_fix = regval & DAQ_FIX_GAIN_MSK;
uint32_t retval_cmp_rst = regval & DAQ_CMP_RST_MSK;
switch (val) { // only one set should be valid
case DAQ_FIX_GAIN_DYNMC_VAL: if ((retval_force && retval_fix) || (retval_fix && retval_cmp_rst) ||
thisSettings = DYNAMICGAIN; (retval_force && retval_cmp_rst)) {
LOG(logDEBUG1, LOG(logERROR, ("undefined gain mode. DAQ reg: 0x%x\n", regval));
("Settings read: Dynamic Gain. DAQ Reg: 0x%x\n", regval));
break;
case DAQ_FIX_GAIN_HIGHGAIN_VAL:
thisSettings = DYNAMICHG0;
LOG(logDEBUG1,
("Settings read: Dynamig High Gain. DAQ Reg: 0x%x\n", regval));
break;
case DAQ_FIX_GAIN_STG_1_VAL:
thisSettings = FIXGAIN1;
LOG(logDEBUG1, ("Settings read: Fix Gain 1. DAQ Reg: 0x%x\n", regval));
break;
case DAQ_FIX_GAIN_STG_2_VAL:
thisSettings = FIXGAIN2;
LOG(logDEBUG1, ("Settings read: Fix Gain 2. DAQ Reg: 0x%x\n", regval));
break;
case DAQ_FRCE_GAIN_STG_1_VAL:
thisSettings = FORCESWITCHG1;
LOG(logDEBUG1,
("Settings read: Force Switch Gain 1. DAQ Reg: 0x%x\n", regval));
break;
case DAQ_FRCE_GAIN_STG_2_VAL:
thisSettings = FORCESWITCHG2;
LOG(logDEBUG1,
("Settings read: Force Switch Gain 2. DAQ Reg: 0x%x\n", regval));
break;
default:
thisSettings = UNDEFINED;
LOG(logERROR, ("Settings read: Undefined. DAQ Reg: 0x%x\n", regval));
} }
return thisSettings; // dynamic gain, when nothing is set
if (retval_force == 0 && retval_fix == 0 && retval_cmp_rst == 0) {
return DYNAMIC;
}
switch (retval_force) {
case DAQ_FRCE_GAIN_STG_1_VAL:
return FORCE_SWITCH_G1;
case DAQ_FRCE_GAIN_STG_2_VAL:
return FORCE_SWITCH_G2;
default:
break;
}
switch (retval_fix) {
case DAQ_FIX_GAIN_STG_1_VAL:
return FIX_G1;
case DAQ_FIX_GAIN_STG_2_VAL:
return FIX_G2;
default:
break;
}
if (retval_cmp_rst) {
return FIX_G0;
}
LOG(logERROR, ("This gain mode is undefined [DAQ reg: %d]\n", regval));
return -1;
}
void setGainMode(enum gainMode mode) {
uint32_t addr = DAQ_REG;
uint32_t value = bus_r(addr);
switch (mode) {
case DYNAMIC:
value &= ~(DAQ_GAIN_MODE_MASK);
bus_w(addr, value);
LOG(logINFO,
("Set gain mode - Dynamic Gain [DAQ Reg:0x%x]\n", bus_r(DAQ_REG)));
break;
case FORCE_SWITCH_G1:
value &= ~(DAQ_GAIN_MODE_MASK);
value |= DAQ_FRCE_GAIN_STG_1_VAL;
bus_w(addr, value);
LOG(logINFO, ("Set gain mode - Force Switch G1 [DAQ Reg:0x%x]\n",
bus_r(DAQ_REG)));
break;
case FORCE_SWITCH_G2:
value &= ~(DAQ_GAIN_MODE_MASK);
value |= DAQ_FRCE_GAIN_STG_2_VAL;
bus_w(addr, value);
LOG(logINFO, ("Set gain mode - Force Switch G2 [DAQ Reg:0x%x]\n",
bus_r(DAQ_REG)));
break;
case FIX_G1:
value &= ~(DAQ_GAIN_MODE_MASK);
value |= DAQ_FIX_GAIN_STG_1_VAL;
bus_w(addr, value);
LOG(logINFO,
("Set gain mode - Fix G1 [DAQ Reg:0x%x]\n", bus_r(DAQ_REG)));
break;
case FIX_G2:
value &= ~(DAQ_GAIN_MODE_MASK);
value |= DAQ_FIX_GAIN_STG_2_VAL;
bus_w(addr, value);
LOG(logINFO,
("Set gain mode - Fix G2 [DAQ Reg:0x%x]\n", bus_r(DAQ_REG)));
break;
case FIX_G0:
value &= ~(DAQ_GAIN_MODE_MASK);
value |= DAQ_CMP_RST_MSK;
bus_w(addr, value);
LOG(logINFO,
("Set gain mode - Fix G0 [DAQ Reg:0x%x]\n", bus_r(DAQ_REG)));
break;
default:
LOG(logERROR, ("This gain mode %d is not defined\n", (int)mode));
}
} }
/* parameters - dac, adc, hv */ /* parameters - dac, adc, hv */
@ -846,11 +1195,10 @@ void setDAC(enum DACINDEX ind, int val, int mV) {
return; return;
char *dac_names[] = {DAC_NAMES}; char *dac_names[] = {DAC_NAMES};
LOG(logINFO, ("Setting DAC %s\n", dac_names[ind]));
LOG(logDEBUG1, ("Setting dac[%d - %s]: %d %s \n", (int)ind, dac_names[ind],
val, (mV ? "mV" : "dac units")));
int dacval = val; int dacval = val;
#ifdef VIRTUAL #ifdef VIRTUAL
LOG(logINFO, ("Setting dac[%d - %s]: %d %s \n", (int)ind, dac_names[ind],
val, (mV ? "mV" : "dac units")));
if (!mV) { if (!mV) {
dacValues[ind] = val; dacValues[ind] = val;
} }
@ -859,6 +1207,7 @@ void setDAC(enum DACINDEX ind, int val, int mV) {
dacValues[ind] = dacval; dacValues[ind] = dacval;
} }
#else #else
LOG(logINFO, ("Setting DAC %s\n", dac_names[ind]));
if (LTC2620_SetDACValue((int)ind, val, mV, &dacval) == OK) { if (LTC2620_SetDACValue((int)ind, val, mV, &dacval) == OK) {
dacValues[ind] = dacval; dacValues[ind] = dacval;
if (ind == J_VREF_COMP && if (ind == J_VREF_COMP &&
@ -1280,13 +1629,17 @@ void initReadoutConfiguration() {
int powerChip(int on) { int powerChip(int on) {
if (on != -1) { if (on != -1) {
if (on) { if (on) {
LOG(logINFO, ("Powering chip: on\n")); LOG(logINFOBLUE, ("Powering chip: on\n"));
bus_w(CHIP_POWER_REG, bus_w(CHIP_POWER_REG,
bus_r(CHIP_POWER_REG) | CHIP_POWER_ENABLE_MSK); bus_r(CHIP_POWER_REG) | CHIP_POWER_ENABLE_MSK);
configureChip();
} else { } else {
LOG(logINFO, ("Powering chip: off\n")); LOG(logINFOBLUE, ("Powering chip: off\n"));
bus_w(CHIP_POWER_REG, bus_w(CHIP_POWER_REG,
bus_r(CHIP_POWER_REG) & ~CHIP_POWER_ENABLE_MSK); bus_r(CHIP_POWER_REG) & ~CHIP_POWER_ENABLE_MSK);
chipConfigured = 0;
} }
} }
#ifdef VIRTUAL #ifdef VIRTUAL
@ -1297,6 +1650,22 @@ int powerChip(int on) {
CHIP_POWER_STATUS_OFST); CHIP_POWER_STATUS_OFST);
} }
int isChipConfigured() {
return chipConfigured;
}
void configureChip() {
// only for chipv1.1
if (chipVersion == 11) {
LOG(logINFOBLUE, ("Configuring chip\n"));
// write same register values back to configure chip
uint32_t val = bus_r(CONFIG_V11_REG);
bus_w(CONFIG_V11_REG, val);
chipConfigured = 1;
}
}
int autoCompDisable(int on) { int autoCompDisable(int on) {
if (on != -1) { if (on != -1) {
if (on) { if (on) {
@ -1314,6 +1683,32 @@ int autoCompDisable(int on) {
EXT_DAQ_CTRL_CMP_LGC_ENBL_OFST); EXT_DAQ_CTRL_CMP_LGC_ENBL_OFST);
} }
int setComparatorDisableTime(int64_t val) {
if (getChipVersion() != 11) {
return FAIL;
}
if (val < 0) {
LOG(logERROR,
("Invalid comp disable time: %lld ns\n", (long long int)val));
return FAIL;
}
LOG(logINFO, ("Setting comp disable time %lld ns\n", (long long int)val));
val *= (1E-3 * CLK_RUN);
bus_w(COMP_DSBLE_TIME_REG, val);
// validate for tolerance
int64_t retval = getComparatorDisableTime();
val /= (1E-3 * CLK_RUN);
if (val != retval) {
return FAIL;
}
return OK;
}
int64_t getComparatorDisableTime() {
return bus_r(COMP_DSBLE_TIME_REG) / (1E-3 * CLK_RUN);
}
void configureASICTimer() { void configureASICTimer() {
LOG(logINFO, ("Configuring ASIC Timer\n")); LOG(logINFO, ("Configuring ASIC Timer\n"));
bus_w(ASIC_CTRL_REG, (bus_r(ASIC_CTRL_REG) & ~ASIC_CTRL_PRCHRG_TMR_MSK) | bus_w(ASIC_CTRL_REG, (bus_r(ASIC_CTRL_REG) & ~ASIC_CTRL_PRCHRG_TMR_MSK) |
@ -1613,6 +2008,167 @@ void alignDeserializer() {
bus_r(ADC_DSRLZR_3_REG) & (~(ADC_DSRLZR_3_RFRSH_ALGNMNT_MSK))); bus_r(ADC_DSRLZR_3_REG) & (~(ADC_DSRLZR_3_RFRSH_ALGNMNT_MSK)));
} }
int getFlipRows() {
return ((bus_r(CONFIG_REG) & CONFIG_BOTTOM_INVERT_STREAM_MSK) >>
CONFIG_BOTTOM_INVERT_STREAM_OFST);
}
void setFlipRows(int arg) {
if (arg >= 0) {
if (arg == 0) {
LOG(logINFO, ("Switching off bottom row flipping\n"));
bus_w(CONFIG_REG,
bus_r(CONFIG_REG) & ~CONFIG_BOTTOM_INVERT_STREAM_MSK);
} else {
LOG(logINFO, ("Switching on bottom row flipping\n"));
bus_w(CONFIG_REG,
bus_r(CONFIG_REG) | CONFIG_BOTTOM_INVERT_STREAM_MSK);
}
}
}
int getFilterResistor() {
#ifdef VIRTUAL
uint32_t addr = CONFIG_V11_REG;
#else
uint32_t addr = CONFIG_V11_STATUS_REG;
#endif
// 0 for lower value, 1 for higher value
if (bus_r(addr) & CONFIG_V11_STATUS_FLTR_RSSTR_SMLR_MSK) {
return 0;
}
return 1;
}
int setFilterResistor(int value) {
// lower resistor
if (value == 0) {
LOG(logINFO, ("Setting Lower Filter Resistor\n"));
bus_w(CONFIG_V11_REG,
bus_r(CONFIG_V11_REG) | CONFIG_V11_FLTR_RSSTR_SMLR_MSK);
return OK;
}
// higher resistor
else if (value == 1) {
LOG(logINFO, ("Setting Higher Filter Resistor\n"));
bus_w(CONFIG_V11_REG,
bus_r(CONFIG_V11_REG) & ~CONFIG_V11_FLTR_RSSTR_SMLR_MSK);
return OK;
}
LOG(logERROR, ("Could not set Filter Resistor. Invalid value %d\n", value));
return FAIL;
}
int getFilterCell() {
#ifdef VIRTUAL
uint32_t addr = CONFIG_V11_REG;
#else
uint32_t addr = CONFIG_V11_STATUS_REG;
#endif
uint32_t value = (bus_r(addr) & CONFIG_V11_FLTR_CLL_MSK) >> CONFIG_V11_FLTR_CLL_OFST;
// count number of bits = which icell
return (__builtin_popcount(value));
}
void setFilterCell(int iCell) {
uint32_t value = 0;
// sets the corresponding cell and the cells before it
if (iCell != 0) {
value = iCell;
if (value > 1) {
value += (value - 1);
}
}
uint32_t addr = CONFIG_V11_REG;
bus_w(addr, bus_r(addr) &~ CONFIG_V11_FLTR_CLL_MSK);
bus_w(addr, bus_r(addr) | ((value << CONFIG_V11_FLTR_CLL_OFST) & CONFIG_V11_FLTR_CLL_MSK));
LOG(logINFO, ("Setting Filter Cell to %d [Reg:0x%x]\n", iCell, bus_r(addr)));
}
void disableCurrentSource() {
LOG(logINFO, ("Disabling Current Source\n"));
bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_CRRNT_SRC_ENBL_MSK);
}
void enableCurrentSource(int fix, uint64_t select, int normal) {
if (chipVersion == 11) {
LOG(logINFO, ("Enabling current source [fix:%d, select:%lld]\n", fix,
(long long int)select));
} else {
LOG(logINFO,
("Enabling current source [fix:%d, select:0x%llx, normal:%d]\n",
fix, (long long int)select, normal));
}
disableCurrentSource();
LOG(logINFO, ("\tSetting current source parameters\n"));
// fix
if (fix) {
bus_w(DAQ_REG, bus_r(DAQ_REG) | DAQ_CRRNT_SRC_CLMN_FIX_MSK);
} else {
bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_CRRNT_SRC_CLMN_FIX_MSK);
}
if (chipVersion == 10) {
// select
bus_w(DAQ_REG, bus_r(DAQ_REG) & ~DAQ_CRRNT_SRC_CLMN_SLCT_MSK);
bus_w(DAQ_REG,
bus_r(DAQ_REG) | ((select << DAQ_CRRNT_SRC_CLMN_SLCT_OFST) &
DAQ_CRRNT_SRC_CLMN_SLCT_MSK));
} else {
// select
set64BitReg(select, CRRNT_SRC_COL_LSB_REG, CRRNT_SRC_COL_MSB_REG);
// normal
if (normal) {
bus_w(CONFIG_V11_REG,
bus_r(CONFIG_V11_REG) & ~CONFIG_V11_CRRNT_SRC_LOW_MSK);
} else {
bus_w(CONFIG_V11_REG,
bus_r(CONFIG_V11_REG) | CONFIG_V11_CRRNT_SRC_LOW_MSK);
}
}
// validating before enabling current source
if (getFixCurrentSource() != fix || getSelectCurrentSource() != select) {
LOG(logERROR,
("Could not set fix or select parameters for current source.\n"))
return;
}
// not validating normal because the status register might not update during
// acquisition
// enabling current source
LOG(logINFO, ("Enabling Current Source\n"));
bus_w(DAQ_REG, bus_r(DAQ_REG) | DAQ_CRRNT_SRC_ENBL_MSK);
}
int getCurrentSource() {
return ((bus_r(DAQ_REG) & DAQ_CRRNT_SRC_ENBL_MSK) >>
DAQ_CRRNT_SRC_ENBL_OFST);
}
int getFixCurrentSource() {
return ((bus_r(DAQ_REG) & DAQ_CRRNT_SRC_CLMN_FIX_MSK) >>
DAQ_CRRNT_SRC_CLMN_FIX_OFST);
}
int getNormalCurrentSource() {
if (getChipVersion() == 11) {
int low = ((bus_r(CONFIG_V11_STATUS_REG) &
CONFIG_V11_STATUS_CRRNT_SRC_LOW_MSK) >>
CONFIG_V11_STATUS_CRRNT_SRC_LOW_OFST);
return (low == 0 ? 1 : 0);
}
return -1;
}
uint64_t getSelectCurrentSource() {
if (chipVersion == 10) {
return ((bus_r(DAQ_REG) & DAQ_CRRNT_SRC_CLMN_SLCT_MSK) >>
DAQ_CRRNT_SRC_CLMN_SLCT_OFST);
} else {
return get64BitReg(CRRNT_SRC_COL_LSB_REG, CRRNT_SRC_COL_MSB_REG);
}
}
int getTenGigaFlowControl() { int getTenGigaFlowControl() {
return ((bus_r(CONFIG_REG) & CONFIG_ETHRNT_FLW_CNTRL_MSK) >> return ((bus_r(CONFIG_REG) & CONFIG_ETHRNT_FLW_CNTRL_MSK) >>
CONFIG_ETHRNT_FLW_CNTRL_OFST); CONFIG_ETHRNT_FLW_CNTRL_OFST);

View File

@ -3,8 +3,8 @@
#include "sls/sls_detector_defs.h" #include "sls/sls_detector_defs.h"
#define MIN_REQRD_VRSN_T_RD_API 0x171220 #define MIN_REQRD_VRSN_T_RD_API 0x171220
#define REQRD_FRMWRE_VRSN_BOARD2 0x210218 // 1.0 pcb #define REQRD_FRMWRE_VRSN_BOARD2 0x210621 // 1.0 pcb (version = 010)
#define REQRD_FRMWRE_VRSN 0x200721 // 2.0 pcb #define REQRD_FRMWRE_VRSN 0x210622 // 2.0 pcb (version = 011)
#define CTRL_SRVR_INIT_TIME_US (300 * 1000) #define CTRL_SRVR_INIT_TIME_US (300 * 1000)
@ -62,6 +62,15 @@ enum DACINDEX {
480, /* J_VREF_DS */ \ 480, /* J_VREF_DS */ \
420 /* J_VREF_COMP */ \ 420 /* J_VREF_COMP */ \
}; };
#define NUMSETTINGS (2)
#define NSPECIALDACS (3)
#define SPECIALDACINDEX {J_VREF_PRECH, J_VREF_DS, J_VREF_COMP};
#define SPECIAL_DEFAULT_DYNAMIC_GAIN_VALS \
{ 1000, 500, 400 }
#define SPECIAL_DEFAULT_DYNAMICHG0_GAIN_VALS \
{ 1500, 550, 450 }
enum NETWORKINDEX { TXN_FRAME, FLOWCTRL_10G }; enum NETWORKINDEX { TXN_FRAME, FLOWCTRL_10G };
enum CLKINDEX { RUN_CLK, ADC_CLK, DBIT_CLK, NUM_CLOCKS }; enum CLKINDEX { RUN_CLK, ADC_CLK, DBIT_CLK, NUM_CLOCKS };
#define CLK_NAMES "run", "adc", "dbit" #define CLK_NAMES "run", "adc", "dbit"
@ -77,6 +86,7 @@ enum CLKINDEX { RUN_CLK, ADC_CLK, DBIT_CLK, NUM_CLOCKS };
#define CLK_SYNC (20) // MHz #define CLK_SYNC (20) // MHz
#define ADC_CLK_INDEX (1) #define ADC_CLK_INDEX (1)
#define DBIT_CLK_INDEX (0) #define DBIT_CLK_INDEX (0)
#define CONFIG_FILE ("config_jungfrau.txt")
/** Default Parameters */ /** Default Parameters */
#define DEFAULT_NUM_FRAMES (100 * 1000 * 1000) #define DEFAULT_NUM_FRAMES (100 * 1000 * 1000)
@ -87,24 +97,33 @@ enum CLKINDEX { RUN_CLK, ADC_CLK, DBIT_CLK, NUM_CLOCKS };
#define DEFAULT_DELAY (0) #define DEFAULT_DELAY (0)
#define DEFAULT_HIGH_VOLTAGE (0) #define DEFAULT_HIGH_VOLTAGE (0)
#define DEFAULT_TIMING_MODE (AUTO_TIMING) #define DEFAULT_TIMING_MODE (AUTO_TIMING)
#define DEFAULT_SETTINGS (DYNAMICGAIN) #define DEFAULT_SETTINGS (GAIN0)
#define DEFAULT_GAINMODE (DYNAMIC)
#define DEFAULT_TX_UDP_PORT (0x7e9a) #define DEFAULT_TX_UDP_PORT (0x7e9a)
#define DEFAULT_TMP_THRSHLD (65 * 1000) // milli degree Celsius #define DEFAULT_TMP_THRSHLD (65 * 1000) // milli degree Celsius
#define DEFAULT_NUM_STRG_CLLS (0) #define DEFAULT_NUM_STRG_CLLS (0)
#define DEFAULT_STRG_CLL_STRT (0xf) #define DEFAULT_STRG_CLL_STRT (0xf)
#define DEFAULT_STRG_CLL_STRT_CHIP11 (0x3)
#define DEFAULT_STRG_CLL_DLY (0) #define DEFAULT_STRG_CLL_DLY (0)
#define DEFAULT_FLIP_ROWS (0)
#define DEFAULT_FILTER_RESISTOR (1) // higher resistor
#define DEFAULT_FILTER_CELL (0)
#define HIGHVOLTAGE_MIN (60) #define HIGHVOLTAGE_MIN (60)
#define HIGHVOLTAGE_MAX (200) #define HIGHVOLTAGE_MAX (200)
#define DAC_MIN_MV (0) #define DAC_MIN_MV (0)
#define DAC_MAX_MV (2500) #define DAC_MAX_MV (2500)
#define MAX_FILTER_CELL_VAL (12)
/* Defines in the Firmware */ /* Defines in the Firmware */
#define MAX_TIMESLOT_VAL (0x1F) #define MAX_TIMESLOT_VAL (0x1F)
#define MAX_THRESHOLD_TEMP_VAL (127999) // millidegrees #define MAX_THRESHOLD_TEMP_VAL (127999) // millidegrees
#define MAX_STORAGE_CELL_VAL (15) // 0xF #define MAX_STORAGE_CELL_VAL (15) // 0xF
#define MAX_STORAGE_CELL_CHIP11_VAL (3)
#define MAX_STORAGE_CELL_DLY_NS_VAL (ASIC_CTRL_EXPSRE_TMR_MAX_VAL) #define MAX_STORAGE_CELL_DLY_NS_VAL (ASIC_CTRL_EXPSRE_TMR_MAX_VAL)
#define ACQ_TIME_MIN_CLOCK (2) #define ACQ_TIME_MIN_CLOCK (2)
#define ASIC_FILTER_MAX_RES_VALUE (1)
#define MAX_SELECT_CHIP10_VAL (63)
#define MAX_PHASE_SHIFTS (240) #define MAX_PHASE_SHIFTS (240)
#define BIT16_MASK (0xFFFF) #define BIT16_MASK (0xFFFF)

View File

@ -61,6 +61,7 @@ uint8_t adcEnableMask_10g = 0;
int32_t clkPhase[NUM_CLOCKS] = {}; int32_t clkPhase[NUM_CLOCKS] = {};
uint32_t clkFrequency[NUM_CLOCKS] = {40, 20, 20, 200}; uint32_t clkFrequency[NUM_CLOCKS] = {40, 20, 20, 200};
int dacValues[NDAC] = {}; int dacValues[NDAC] = {};
int defaultDacValues[NDAC] = DEFAULT_DAC_VALS;
// software limit that depends on the current chip on the ctb // software limit that depends on the current chip on the ctb
int vLimit = 0; int vLimit = 0;
enum detectorSettings thisSettings = UNINITIALIZED; enum detectorSettings thisSettings = UNINITIALIZED;
@ -516,7 +517,7 @@ void setupDetector() {
DAC_MAX_MV); // has to be before setvchip DAC_MAX_MV); // has to be before setvchip
LTC2620_Disable(); LTC2620_Disable();
LTC2620_Configure(); LTC2620_Configure();
setDefaultDacs(); resetToDefaultDacs(0);
// altera pll // altera pll
ALTERA_PLL_SetDefines(PLL_CNTRL_REG, PLL_PARAM_REG, ALTERA_PLL_SetDefines(PLL_CNTRL_REG, PLL_PARAM_REG,
@ -613,20 +614,51 @@ void updateDataBytes() {
dataBytes = analogDataBytes; dataBytes = analogDataBytes;
} }
int setDefaultDacs() { int resetToDefaultDacs(int hardReset) {
// reset defaults to hardcoded defaults
if (hardReset) {
const int vals[] = DEFAULT_DAC_VALS;
for (int i = 0; i < NDAC; ++i) {
defaultDacValues[i] = vals[i];
}
}
// reset dacs to defaults
int ret = OK; int ret = OK;
LOG(logINFOBLUE, ("Setting Default Dac values\n")); LOG(logINFOBLUE, ("Setting Default Dac values\n"));
const int defaultvals[NDAC] = DEFAULT_DAC_VALS;
for (int i = 0; i < NDAC; ++i) { for (int i = 0; i < NDAC; ++i) {
setDAC((enum DACINDEX)i, defaultvals[i], 0); setDAC((enum DACINDEX)i, defaultDacValues[i], 0);
if (dacValues[i] != defaultvals[i]) { if (dacValues[i] != defaultDacValues[i]) {
ret = FAIL; ret = FAIL;
LOG(logERROR, ("Setting dac %d failed, wrote %d, read %d\n", i, LOG(logERROR, ("Setting dac %d failed, wrote %d, read %d\n", i,
defaultvals[i], dacValues[i])); defaultDacValues[i], dacValues[i]));
} }
} }
return ret; return ret;
} }
int getDefaultDac(enum DACINDEX index, enum detectorSettings sett,
int *retval) {
if (sett != UNDEFINED) {
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
*retval = defaultDacValues[index];
return OK;
}
int setDefaultDac(enum DACINDEX index, enum detectorSettings sett, int value) {
if (sett != UNDEFINED) {
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
char *dac_names[] = {DAC_NAMES};
LOG(logINFO, ("Setting Default Dac [%d - %s]: %d\n", (int)index,
dac_names[index], value));
defaultDacValues[index] = value;
return OK;
}
/* firmware functions (resets) */ /* firmware functions (resets) */

View File

@ -42,11 +42,15 @@ pthread_t pthread_virtual_tid;
int64_t virtual_currentFrameNumber = 2; int64_t virtual_currentFrameNumber = 2;
#endif #endif
enum detectorSettings thisSettings; enum detectorSettings thisSettings = UNINITIALIZED;
sls_detector_module *detectorModules = NULL; sls_detector_module *detectorModules = NULL;
int *detectorChans = NULL; int *detectorChans = NULL;
int *detectorDacs = NULL; int *detectorDacs = NULL;
int *channelMask = NULL; int *channelMask = NULL;
int defaultDacValues[NDAC] = DEFAULT_DAC_VALS;
int defaultDacValue_standard[] = SPECIAL_DEFAULT_STANDARD_DAC_VALS;
int defaultDacValue_fast[] = SPECIAL_DEFAULT_FAST_DAC_VALS;
int defaultDacValue_highgain[] = SPECIAL_DEFAULT_HIGHGAIN_DAC_VALS;
int32_t clkPhase[NUM_CLOCKS] = {}; int32_t clkPhase[NUM_CLOCKS] = {};
uint32_t clkDivider[NUM_CLOCKS] = {}; uint32_t clkDivider[NUM_CLOCKS] = {};
@ -446,7 +450,7 @@ void setupDetector() {
// defaults // defaults
setHighVoltage(DEFAULT_HIGH_VOLTAGE); setHighVoltage(DEFAULT_HIGH_VOLTAGE);
setDefaultDacs(); resetToDefaultDacs(0);
setASICDefaults(); setASICDefaults();
setADIFDefaults(); setADIFDefaults();
@ -523,21 +527,147 @@ void setupDetector() {
setAllTrimbits(DEFAULT_TRIMBIT_VALUE); setAllTrimbits(DEFAULT_TRIMBIT_VALUE);
} }
int setDefaultDacs() { int resetToDefaultDacs(int hardReset) {
int ret = OK; LOG(logINFOBLUE, ("Resetting %s to Default Dac values\n",
LOG(logINFOBLUE, ("Setting Default Dac values\n")); (hardReset == 1 ? "hard" : "")));
{
const int defaultvals[NDAC] = DEFAULT_DAC_VALS; // reset defaults to hardcoded defaults
if (hardReset) {
const int vals[] = DEFAULT_DAC_VALS;
for (int i = 0; i < NDAC; ++i) { for (int i = 0; i < NDAC; ++i) {
setDAC((enum DACINDEX)i, defaultvals[i], 0); defaultDacValues[i] = vals[i];
if (detectorDacs[i] != defaultvals[i]) { }
ret = FAIL; const int vals_standard[] = SPECIAL_DEFAULT_STANDARD_DAC_VALS;
LOG(logERROR, ("Setting dac %d failed, wrote %d, read %d\n", i, for (int i = 0; i < NSPECIALDACS; ++i) {
defaultvals[i], detectorDacs[i])); defaultDacValue_standard[i] = vals_standard[i];
}
const int vals_fast[] = SPECIAL_DEFAULT_FAST_DAC_VALS;
for (int i = 0; i < NSPECIALDACS; ++i) {
defaultDacValue_fast[i] = vals_fast[i];
}
const int vals_highgain[] = SPECIAL_DEFAULT_HIGHGAIN_DAC_VALS;
for (int i = 0; i < NSPECIALDACS; ++i) {
defaultDacValue_highgain[i] = vals_highgain[i];
}
}
// remember settings
enum detectorSettings oldSettings = thisSettings;
// reset dacs to defaults
const int specialDacs[] = SPECIALDACINDEX;
for (int i = 0; i < NDAC; ++i) {
int value = defaultDacValues[i];
for (int j = 0; j < NSPECIALDACS; ++j) {
// special dac: replace default value
if (specialDacs[j] == i) {
switch (oldSettings) {
case STANDARD:
value = defaultDacValue_standard[j];
break;
case FAST:
value = defaultDacValue_fast[j];
break;
case HIGHGAIN:
value = defaultDacValue_highgain[j];
break;
default:
break;
}
break;
} }
} }
// set to defualt
setDAC((enum DACINDEX)i, value, 0);
if (detectorDacs[i] != value) {
LOG(logERROR, ("Setting dac %d failed, wrote %d, read %d\n", i,
value, detectorDacs[i]));
return FAIL;
}
} }
return ret; return OK;
}
int getDefaultDac(enum DACINDEX index, enum detectorSettings sett,
int *retval) {
// settings only for special dacs
if (sett != UNDEFINED) {
const int specialDacs[] = SPECIALDACINDEX;
// find special dac index
for (int i = 0; i < NSPECIALDACS; ++i) {
if ((int)index == specialDacs[i]) {
switch (sett) {
case STANDARD:
*retval = defaultDacValue_standard[i];
return OK;
case FAST:
*retval = defaultDacValue_fast[i];
return OK;
case HIGHGAIN:
*retval = defaultDacValue_highgain[i];
return OK;
// unknown settings
default:
return FAIL;
}
}
}
// not a special dac
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
*retval = defaultDacValues[index];
return OK;
}
int setDefaultDac(enum DACINDEX index, enum detectorSettings sett, int value) {
char *dac_names[] = {DAC_NAMES};
// settings only for special dacs
if (sett != UNDEFINED) {
const int specialDacs[] = SPECIALDACINDEX;
// find special dac index
for (int i = 0; i < NSPECIALDACS; ++i) {
if ((int)index == specialDacs[i]) {
switch (sett) {
case STANDARD:
LOG(logINFO,
("Setting Default Dac [%d - %s, standard]: %d\n",
(int)index, dac_names[index], value));
defaultDacValue_standard[i] = value;
return OK;
case FAST:
LOG(logINFO, ("Setting Default Dac [%d - %s, fast]: %d\n",
(int)index, dac_names[index], value));
defaultDacValue_fast[i] = value;
return OK;
case HIGHGAIN:
LOG(logINFO,
("Setting Default Dac [%d - %s, highgain]: %d\n",
(int)index, dac_names[index], value));
defaultDacValue_highgain[i] = value;
return OK;
// unknown settings
default:
return FAIL;
}
}
}
// not a special dac
return FAIL;
}
if (index < 0 || index >= NDAC)
return FAIL;
LOG(logINFO, ("Setting Default Dac [%d - %s]: %d\n", (int)index,
dac_names[index], value));
defaultDacValues[index] = value;
return OK;
} }
void setASICDefaults() { void setASICDefaults() {
@ -1201,24 +1331,19 @@ int getAllTrimbits() {
} }
enum detectorSettings setSettings(enum detectorSettings sett) { enum detectorSettings setSettings(enum detectorSettings sett) {
int *dacVals = NULL;
switch (sett) { switch (sett) {
case STANDARD: case STANDARD:
LOG(logINFOBLUE, ("Setting to standard settings\n")); LOG(logINFOBLUE, ("Setting to standard settings\n"));
thisSettings = sett; dacVals = defaultDacValue_standard;
setDAC(M_VRPREAMP, DEFAULT_STANDARD_VRPREAMP, 0);
setDAC(M_VRSHAPER, DEFAULT_STANDARD_VRSHAPER, 0);
break; break;
case FAST: case FAST:
LOG(logINFOBLUE, ("Setting to fast settings\n")); LOG(logINFOBLUE, ("Setting to fast settings\n"));
thisSettings = sett; dacVals = defaultDacValue_fast;
setDAC(M_VRPREAMP, DEFAULT_FAST_VRPREAMP, 0);
setDAC(M_VRSHAPER, DEFAULT_FAST_VRSHAPER, 0);
break; break;
case HIGHGAIN: case HIGHGAIN:
LOG(logINFOBLUE, ("Setting to high gain settings\n")); LOG(logINFOBLUE, ("Setting to high gain settings\n"));
thisSettings = sett; dacVals = defaultDacValue_highgain;
setDAC(M_VRPREAMP, DEFAULT_HIGHGAIN_VRPREAMP, 0);
setDAC(M_VRSHAPER, DEFAULT_HIGHGAIN_VRSHAPER, 0);
break; break;
default: default:
LOG(logERROR, LOG(logERROR,
@ -1226,34 +1351,54 @@ enum detectorSettings setSettings(enum detectorSettings sett) {
return thisSettings; return thisSettings;
} }
thisSettings = sett;
// set special dacs
const int specialDacs[] = SPECIALDACINDEX;
for (int i = 0; i < NSPECIALDACS; ++i) {
setDAC(specialDacs[i], dacVals[i], 0);
}
LOG(logINFO, ("Settings: %d\n", thisSettings)); LOG(logINFO, ("Settings: %d\n", thisSettings));
return thisSettings; return thisSettings;
} }
void validateSettings() { void validateSettings() {
if (detectorDacs[M_VRPREAMP] == DEFAULT_STANDARD_VRPREAMP && // if any special dac value is changed individually => undefined
detectorDacs[M_VRSHAPER] == DEFAULT_STANDARD_VRSHAPER) { const int specialDacs[NSPECIALDACS] = SPECIALDACINDEX;
if (thisSettings != STANDARD) { int *specialDacValues[] = {defaultDacValue_standard, defaultDacValue_fast,
thisSettings = STANDARD; defaultDacValue_highgain};
LOG(logINFOBLUE, ("Validated Settings changed to standard!\n")); int settList[] = {STANDARD, FAST, HIGHGAIN};
enum detectorSettings sett = UNDEFINED;
for (int isett = 0; isett != NUMSETTINGS; ++isett) {
// assume it matches current setting in list
sett = settList[isett];
// if one value does not match, = undefined
for (int i = 0; i < NSPECIALDACS; ++i) {
if (getDAC(specialDacs[i], 0) != specialDacValues[isett][i]) {
sett = UNDEFINED;
break;
}
} }
} else if (detectorDacs[M_VRPREAMP] == DEFAULT_FAST_VRPREAMP &&
detectorDacs[M_VRSHAPER] == DEFAULT_FAST_VRSHAPER) { // all values matchd a setting
if (thisSettings != FAST) { if (sett != UNDEFINED) {
thisSettings = FAST; break;
LOG(logINFOBLUE, ("Validated Settings changed to fast!\n"));
} }
} else if (detectorDacs[M_VRPREAMP] == DEFAULT_HIGHGAIN_VRPREAMP && }
detectorDacs[M_VRSHAPER] == DEFAULT_HIGHGAIN_VRSHAPER) { // update settings
if (thisSettings != HIGHGAIN) { if (thisSettings != sett) {
thisSettings = HIGHGAIN; LOG(logINFOBLUE,
LOG(logINFOBLUE, ("Validated Settings changed to highgain!\n")); ("Validated settings to %s (%d)\n",
} (sett == STANDARD
} else { ? "standard"
thisSettings = UNDEFINED; : (sett == FAST
LOG(logWARNING, ? "fast"
("Settings set to undefined [vrpreamp: %d, vrshaper: %d]\n", : (sett == HIGHGAIN ? "highgain" : "undefined"))),
detectorDacs[M_VRPREAMP], detectorDacs[M_VRSHAPER])); sett));
thisSettings = sett;
} }
} }
@ -1335,8 +1480,11 @@ void setGeneralDAC(enum DACINDEX ind, int val, int mV) {
detectorDacs[ind] = dacval; detectorDacs[ind] = dacval;
} }
#endif #endif
if (ind == M_VRPREAMP || ind == M_VRSHAPER) { const int specialDacs[NSPECIALDACS] = SPECIALDACINDEX;
validateSettings(); for (int i = 0; i < NSPECIALDACS; ++i) {
if ((int)ind == specialDacs[i]) {
validateSettings();
}
} }
} }
@ -2425,6 +2573,7 @@ int setChipStatusRegister(int csr) {
} }
int setGainCaps(int caps) { int setGainCaps(int caps) {
LOG(logINFO, ("Setting gain caps to: %u\n", caps));
// Update only gain caps, leave the rest of the CSR unchanged // Update only gain caps, leave the rest of the CSR unchanged
int csr = getChipStatusRegister(); int csr = getChipStatusRegister();
csr &= ~GAIN_MASK; csr &= ~GAIN_MASK;

View File

@ -42,13 +42,6 @@
#define DEFAULT_TRIMBIT_VALUE (0) #define DEFAULT_TRIMBIT_VALUE (0)
#define DEFAULT_COUNTER_DISABLED_VTH_VAL (2800) #define DEFAULT_COUNTER_DISABLED_VTH_VAL (2800)
#define DEFAULT_STANDARD_VRPREAMP (1100)
#define DEFAULT_FAST_VRPREAMP (300)
#define DEFAULT_HIGHGAIN_VRPREAMP (1300)
#define DEFAULT_STANDARD_VRSHAPER (1280)
#define DEFAULT_FAST_VRSHAPER (1500)
#define DEFAULT_HIGHGAIN_VRSHAPER (1100)
#define DEFAULT_READOUT_C0 (10) //(100000000) // rdo_clk, 100 MHz #define DEFAULT_READOUT_C0 (10) //(100000000) // rdo_clk, 100 MHz
#define DEFAULT_READOUT_C1 (10) //(100000000) // smp sample clk (x2), 100 MHz #define DEFAULT_READOUT_C1 (10) //(100000000) // smp sample clk (x2), 100 MHz
#define DEFAULT_SYSTEM_C0 (10) //(100000000) // run_clk, 100 MHz #define DEFAULT_SYSTEM_C0 (10) //(100000000) // run_clk, 100 MHz
@ -118,6 +111,17 @@ enum DACINDEX {
2800, /* vTrim */ \ 2800, /* vTrim */ \
800 /* VdcSh */ \ 800 /* VdcSh */ \
}; };
#define NUMSETTINGS (3)
#define NSPECIALDACS (2)
#define SPECIALDACINDEX {M_VRPREAMP, M_VRSHAPER};
#define SPECIAL_DEFAULT_STANDARD_DAC_VALS \
{ 1100, 1280 }
#define SPECIAL_DEFAULT_FAST_DAC_VALS \
{ 300, 1500 }
#define SPECIAL_DEFAULT_HIGHGAIN_DAC_VALS \
{ 1300, 1100 }
enum CLKINDEX { enum CLKINDEX {
READOUT_C0, READOUT_C0,
READOUT_C1, READOUT_C1,

View File

@ -87,6 +87,7 @@ u_int16_t getHardwareSerialNumber();
#endif #endif
#ifdef JUNGFRAUD #ifdef JUNGFRAUD
int isHardwareVersion2(); int isHardwareVersion2();
int getChipVersion();
#endif #endif
#if defined(EIGERD) || defined(MYTHEN3D) #if defined(EIGERD) || defined(MYTHEN3D)
void readDetectorNumber(); void readDetectorNumber();
@ -116,13 +117,15 @@ void updateDataBytes();
#endif #endif
#ifndef CHIPTESTBOARDD #ifndef CHIPTESTBOARDD
int setDefaultDacs(); int resetToDefaultDacs(int hardReset);
int getDefaultDac(enum DACINDEX index, enum detectorSettings sett, int *retval);
int setDefaultDac(enum DACINDEX index, enum detectorSettings sett, int value);
#endif #endif
#ifdef MYTHEN3D #ifdef MYTHEN3D
void setASICDefaults(); void setASICDefaults();
void setADIFDefaults(); void setADIFDefaults();
#endif #endif
#if defined(GOTTHARD2D) || defined(EIGERD) #if defined(GOTTHARD2D) || defined(EIGERD) || defined(JUNGFRAUD)
int readConfigFile(); int readConfigFile();
#endif #endif
#ifdef EIGERD #ifdef EIGERD
@ -199,6 +202,7 @@ int getReadoutMode();
// parameters - timer // parameters - timer
#ifdef JUNGFRAUD #ifdef JUNGFRAUD
int selectStoragecellStart(int pos); int selectStoragecellStart(int pos);
int getMaxStoragecellStart();
#endif #endif
#if defined(JUNGFRAUD) || defined(EIGERD) #if defined(JUNGFRAUD) || defined(EIGERD)
int setNextFrameNumber(uint64_t value); int setNextFrameNumber(uint64_t value);
@ -293,10 +297,11 @@ int getAllTrimbits();
#ifndef CHIPTESTBOARDD #ifndef CHIPTESTBOARDD
enum detectorSettings setSettings(enum detectorSettings sett); enum detectorSettings setSettings(enum detectorSettings sett);
#endif #endif
#ifdef MYTHEN3D
void validateSettings();
#endif
enum detectorSettings getSettings(); enum detectorSettings getSettings();
#ifdef JUNGFRAUD
enum gainMode getGainMode();
void setGainMode(enum gainMode mode);
#endif
// parameters - threshold // parameters - threshold
#ifdef EIGERD #ifdef EIGERD
@ -439,7 +444,11 @@ void setDigitalIODelay(uint64_t pinMask, int delay);
#ifdef JUNGFRAUD #ifdef JUNGFRAUD
void initReadoutConfiguration(); void initReadoutConfiguration();
int powerChip(int on); int powerChip(int on);
int isChipConfigured();
void configureChip();
int autoCompDisable(int on); int autoCompDisable(int on);
int setComparatorDisableTime(int64_t val);
int64_t getComparatorDisableTime();
void configureASICTimer(); void configureASICTimer();
int setClockDivider(enum CLKINDEX ind, int val); int setClockDivider(enum CLKINDEX ind, int val);
int getClockDivider(enum CLKINDEX ind); int getClockDivider(enum CLKINDEX ind);
@ -451,6 +460,18 @@ int setThresholdTemperature(int val);
int setTemperatureControl(int val); int setTemperatureControl(int val);
int setTemperatureEvent(int val); int setTemperatureEvent(int val);
void alignDeserializer(); void alignDeserializer();
int getFlipRows();
void setFlipRows(int arg);
int setFilterResistor(int value);
int getFilterResistor();
int getFilterCell();
void setFilterCell(int iCell);
void disableCurrentSource();
void enableCurrentSource(int fix, uint64_t select, int normal);
int getCurrentSource();
int getFixCurrentSource();
int getNormalCurrentSource();
uint64_t getSelectCurrentSource();
// eiger specific - iodelay, pulse, rate, temp, activate, delay nw parameter // eiger specific - iodelay, pulse, rate, temp, activate, delay nw parameter
#elif EIGERD #elif EIGERD
@ -522,8 +543,8 @@ int configureASICGlobalSettings();
enum burstMode getBurstMode(); enum burstMode getBurstMode();
int setCDSGain(int enable); int setCDSGain(int enable);
int getCDSGain(); int getCDSGain();
int setFilter(int value); int setFilterResistor(int value);
int getFilter(); int getFilterResistor();
void setCurrentSource(int value); void setCurrentSource(int value);
int getCurrentSource(); int getCurrentSource();
void setTimingSource(enum timingSourceType value); void setTimingSource(enum timingSourceType value);

View File

@ -40,6 +40,7 @@ int get_adc(int);
int write_register(int); int write_register(int);
int read_register(int); int read_register(int);
int set_module(int); int set_module(int);
void validate_settings(enum detectorSettings sett);
int set_settings(int); int set_settings(int);
int get_threshold_energy(int); int get_threshold_energy(int);
int acquire(int blocking, int file_des); int acquire(int blocking, int file_des);
@ -228,8 +229,8 @@ int set_scan(int);
int get_scan_error_message(int); int get_scan_error_message(int);
int get_cds_gain(int); int get_cds_gain(int);
int set_cds_gain(int); int set_cds_gain(int);
int get_filter(int); int get_filter_resistor(int);
int set_filter(int); int set_filter_resistor(int);
int get_adc_config(int); int get_adc_config(int);
int set_adc_config(int); int set_adc_config(int);
int get_bad_channels(int); int get_bad_channels(int);
@ -238,7 +239,7 @@ int reconfigure_udp(int);
int validate_udp_configuration(int); int validate_udp_configuration(int);
int get_bursts_left(int); int get_bursts_left(int);
int start_readout(int); int start_readout(int);
int set_default_dacs(int); int reset_to_default_dacs(int);
int is_virtual(int); int is_virtual(int);
int get_pattern(int); int get_pattern(int);
int load_default_pattern(int); int load_default_pattern(int);
@ -253,3 +254,14 @@ int get_veto_stream(int);
int set_veto_stream(int); int set_veto_stream(int);
int get_veto_algorithm(int); int get_veto_algorithm(int);
int set_veto_algorithm(int); int set_veto_algorithm(int);
int get_chip_version(int);
int get_default_dac(int);
int set_default_dac(int);
int get_gain_mode(int);
int set_gain_mode(int);
int get_comp_disable_time(int);
int set_comp_disable_time(int);
int get_flip_rows(int);
int set_flip_rows(int);
int get_filter_cell(int);
int set_filter_cell(int);

View File

@ -113,8 +113,7 @@ class Detector {
/** [Jungfrau][Gotthard][Gotthard2][Mythen3] */ /** [Jungfrau][Gotthard][Gotthard2][Mythen3] */
Result<defs::detectorSettings> getSettings(Positions pos = {}) const; Result<defs::detectorSettings> getSettings(Positions pos = {}) const;
/** [Jungfrau] DYNAMICGAIN, DYNAMICHG0, FIXGAIN1, FIXGAIN2, /** [Jungfrau] GAIN0, HIGHGAIN0 \n [Gotthard] DYNAMICGAIN, HIGHGAIN,
* FORCESWITCHG1, FORCESWITCHG2 \n [Gotthard] DYNAMICGAIN, HIGHGAIN,
* LOWGAIN, MEDIUMGAIN, VERYHIGHGAIN \n [Gotthard2] DYNAMICGAIN, * LOWGAIN, MEDIUMGAIN, VERYHIGHGAIN \n [Gotthard2] DYNAMICGAIN,
* FIXGAIN1, FIXGAIN2 \n [Moench] G1_HIGHGAIN, G1_LOWGAIN, * FIXGAIN1, FIXGAIN2 \n [Moench] G1_HIGHGAIN, G1_LOWGAIN,
* G2_HIGHCAP_HIGHGAIN, G2_HIGHCAP_LOWGAIN, G2_LOWCAP_HIGHGAIN, * G2_HIGHCAP_HIGHGAIN, G2_HIGHCAP_LOWGAIN, G2_LOWCAP_HIGHGAIN,
@ -173,6 +172,17 @@ class Detector {
*/ */
void setGapPixelsinCallback(const bool enable); void setGapPixelsinCallback(const bool enable);
/** [Eiger][Jungfrau] */
Result<bool> getFlipRows(Positions pos = {}) const;
/** [Eiger] flips rows paramater sent to slsreceiver to stream as json
* parameter to flip rows in gui \n[Jungfrau] flips rows in the detector
* itself. For bottom module and number of interfaces must be set to 2.
* slsReceiver and slsDetectorGui does not handle.slsReceiver and
* slsDetectorGui does not handle
*/
void setFlipRows(bool value, Positions pos = {});
Result<bool> isVirtualDetectorServer(Positions pos = {}) const; Result<bool> isVirtualDetectorServer(Positions pos = {}) const;
///@{ ///@{
@ -383,7 +393,7 @@ class Detector {
* [Moench] Default is disabled. \n * [Moench] Default is disabled. \n
* [Jungfrau] Default is disabled. Get will return power status. Can be off * [Jungfrau] Default is disabled. Get will return power status. Can be off
* if temperature event occured (temperature over temp_threshold with * if temperature event occured (temperature over temp_threshold with
* temp_control enabled. \n [Mythen3][Gotthard2] Default is 1. If module not * 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. * connected or wrong module, powerchip will fail.
*/ */
void setPowerChip(bool on, Positions pos = {}); void setPowerChip(bool on, Positions pos = {});
@ -414,7 +424,24 @@ class Detector {
std::vector<defs::dacIndex> getDacList() const; std::vector<defs::dacIndex> getDacList() const;
/** [Eiger][Jungfrau][Moench][Gotthard][Gotthard2][Mythen3] */ /** [Eiger][Jungfrau][Moench][Gotthard][Gotthard2][Mythen3] */
void setDefaultDacs(Positions pos = {}); Result<int> getDefaultDac(defs::dacIndex index, Positions pos = {});
/** [Eiger][Jungfrau][Moench][Gotthard][Gotthard2][Mythen3] */
void setDefaultDac(defs::dacIndex index, int defaultValue,
Positions pos = {});
/** [Jungfrau][Mythen3] */
Result<int> getDefaultDac(defs::dacIndex index, defs::detectorSettings sett,
Positions pos = {});
/** [Jungfrau][Mythen3] */
void setDefaultDac(defs::dacIndex index, int defaultValue,
defs::detectorSettings sett, Positions pos = {});
/** [Eiger][Jungfrau][Moench][Gotthard][Gotthard2][Mythen3]
reset to defaults, hardReset will reset to hardcoded defaults on on-board
server */
void resetToDefaultDacs(const bool hardReset, Positions pos = {});
Result<int> getDAC(defs::dacIndex index, bool mV = false, Result<int> getDAC(defs::dacIndex index, bool mV = false,
Positions pos = {}) const; Positions pos = {}) const;
@ -452,6 +479,23 @@ class Detector {
* [Mythen3] If exposure time is too short, acquisition will return with an * [Mythen3] If exposure time is too short, acquisition will return with an
* ERROR and take fewer frames than expected */ * ERROR and take fewer frames than expected */
void setParallelMode(bool value, Positions pos = {}); void setParallelMode(bool value, Positions pos = {});
/** [Gotthard2][Jungfrau] */
Result<int> getFilterResistor(Positions pos = {}) const;
/** [Gotthard2][Jungfrau] Set filter resistor. Increasing values for
* increasing resistance.\n[Gotthard2] Options: [0|1|2|3]. Default is
* 0.\n[Jungfrau] Options: [0|1]. Default is 1.*/
void setFilterResistor(int value, Positions pos = {});
/** [Gotthard2][Jungfrau] */
Result<defs::currentSrcParameters>
getCurrentSource(Positions pos = {}) const;
/** [Gotthard2][Jungfrau] Please refer documentation on currentSrcParameters
* (sls_detector_defs.h) on the structure and its members */
void setCurrentSource(defs::currentSrcParameters par, Positions pos = {});
///@{ ///@{
/** @name Acquisition */ /** @name Acquisition */
@ -979,12 +1023,6 @@ class Detector {
/** [Eiger] Overflow in 32 bit mode. Default is disabled.*/ /** [Eiger] Overflow in 32 bit mode. Default is disabled.*/
void setOverFlowMode(bool value, Positions pos = {}); void setOverFlowMode(bool value, Positions pos = {});
/** [Eiger] */
Result<bool> getBottom(Positions pos = {}) const;
/** [Eiger] for client call back (gui) purposes to flip bottom image */
void setBottom(bool value, Positions pos = {});
/** [Eiger] deadtime in ns, 0 = disabled */ /** [Eiger] deadtime in ns, 0 = disabled */
Result<ns> getRateCorrection(Positions pos = {}) const; Result<ns> getRateCorrection(Positions pos = {}) const;
@ -1081,6 +1119,9 @@ class Detector {
* * * *
* ************************************************/ * ************************************************/
/** [Jungfrau] */
Result<double> getChipVersion(Positions pos = {}) const;
/** [Jungfrau] */ /** [Jungfrau] */
Result<int> getThresholdTemperature(Positions pos = {}) const; Result<int> getThresholdTemperature(Positions pos = {}) const;
@ -1108,24 +1149,32 @@ class Detector {
void resetTemperatureEvent(Positions pos = {}); void resetTemperatureEvent(Positions pos = {});
/** [Jungfrau] */ /** [Jungfrau] */
Result<bool> getAutoCompDisable(Positions pos = {}) const; Result<bool> getAutoComparatorDisable(Positions pos = {}) const;
/** [Jungfrau] Advanced /** [Jungfrau] Advanced
* //TODO naming * //TODO naming
* By default, the on-chip gain switching is active during the entire * By default, the on-chip gain switching is active during the
* exposure. This mode disables the on-chip gain switching comparator * entire exposure. This mode disables the on-chip gain switching comparator
* automatically after 93.75% of exposure time (only for longer than * automatically after 93.75% of exposure time (only for longer than 100us).
* 100us).\n * The % is for chipv1.0. One can set the duration for chipv1.1 using
* Default is false or this mode disabled(comparator enabled throughout). * setComparatorDisableTime\n Default is false or this mode
* true enables mode. 0 disables mode. * disabled(comparator enabled throughout). true enables mode. 0 disables
* mode.
*/ */
void setAutoCompDisable(bool value, Positions pos = {}); void setAutoComparatorDisable(bool value, Positions pos = {});
/** [Jungfrau] */
Result<ns> getComparatorDisableTime(Positions pos = {}) const;
/** [Jungfrau] Time before end of exposure when comparator is disabled. It
* is only possible for chipv1.1.*/
void setComparatorDisableTime(ns t, Positions pos = {});
/** [Jungfrau] Advanced TODO naming */ /** [Jungfrau] Advanced TODO naming */
Result<int> getNumberOfAdditionalStorageCells(Positions pos = {}) const; Result<int> getNumberOfAdditionalStorageCells(Positions pos = {}) const;
/** [Jungfrau] Advanced \n /** [Jungfrau] Advanced \n
* Options: 0 - 15. Default: 0. \n * Only for chipv1.0. Options: 0 - 15. Default: 0. \n
* The #images = #frames x #triggers x (#storagecells + 1) */ * The #images = #frames x #triggers x (#storagecells + 1) */
void setNumberOfAdditionalStorageCells(int value); void setNumberOfAdditionalStorageCells(int value);
@ -1133,7 +1182,7 @@ class Detector {
Result<int> getStorageCellStart(Positions pos = {}) const; Result<int> getStorageCellStart(Positions pos = {}) const;
/** [Jungfrau] Advanced. Sets the storage cell storing the first acquisition /** [Jungfrau] Advanced. Sets the storage cell storing the first acquisition
* of the series. Options: 0-15. Default: 15. * of the series. Options: 0-max. max is 15 (default) for chipv1.0 and 3 (default) for chipv1.1.
*/ */
void setStorageCellStart(int cell, Positions pos = {}); void setStorageCellStart(int cell, Positions pos = {});
@ -1141,9 +1190,30 @@ class Detector {
Result<ns> getStorageCellDelay(Positions pos = {}) const; Result<ns> getStorageCellDelay(Positions pos = {}) const;
/** [Jungfrau] Advanced \n Additional time delay between 2 consecutive /** [Jungfrau] Advanced \n Additional time delay between 2 consecutive
* exposures in burst mode. \n Options: (0-1638375 ns (resolution of 25ns) * exposures in burst mode. \n Options: (0-1638375 ns (resolution of 25ns)\n
* Only applicable for chipv1.0.
*/ */
void setStorageCellDelay(ns value, Positions pos = {}); void setStorageCellDelay(ns value, Positions pos = {});
/** list of possible gainmode */
std::vector<defs::gainMode> getGainModeList() const;
/** [Jungfrau]*/
Result<defs::gainMode> getGainMode(Positions pos = {}) const;
/** [Jungfrau] Options: 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!!!\n
*/
void setGainMode(const defs::gainMode mode, Positions pos = {});
/** [Jungfrau] Advanced */
Result<int> getFilterCell(Positions pos = {}) const;
/** [Jungfrau] Advanced Options[0-12]
*/
void setFilterCell(int cell, Positions pos = {});
///@{ ///@{
/** @name Gotthard Specific */ /** @name Gotthard Specific */
@ -1238,18 +1308,6 @@ class Detector {
/** default disabled */ /** default disabled */
void setCDSGain(bool value, Positions pos = {}); void setCDSGain(bool value, Positions pos = {});
/** [Gotthard2] */
Result<int> getFilter(Positions pos = {}) const;
/** [Gotthard2] Set filter resister. Options: 0-3. Default: 0 */
void setFilter(int value, Positions pos = {});
/** [Gotthard2] */
Result<bool> getCurrentSource(Positions pos = {}) const;
/** default disabled */
void setCurrentSource(bool value, Positions pos = {});
/** [Gotthard2] */ /** [Gotthard2] */
Result<defs::timingSourceType> getTimingSource(Positions pos = {}) const; Result<defs::timingSourceType> getTimingSource(Positions pos = {}) const;
@ -1776,7 +1834,6 @@ class Detector {
std::vector<int> getPortNumbers(int start_port); std::vector<int> getPortNumbers(int start_port);
void updateRxRateCorrections(); void updateRxRateCorrections();
void setNumberofUDPInterfaces_(int n, Positions pos); void setNumberofUDPInterfaces_(int n, Positions pos);
Result<int> getNumberofUDPInterfaces_(Positions pos) const;
}; };
} // namespace sls } // namespace sls

View File

@ -959,6 +959,68 @@ std::string CmdProxy::ExternalSignal(int action) {
return os.str(); return os.str();
} }
std::string CmdProxy::CurrentSource(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[0|1]\n\t[Gotthard2] Enable or disable current source. Default "
"is disabled.\n[0|1] [fix|nofix] [select source] [(only for "
"chipv1.1)normal|low]\n\t[Jungfrau] Disable or enable current "
"source with some parameters. The select source is 0-63 for "
"chipv1.0 and a 64 bit mask for chipv1.1. To disable, one needs "
"only one argument '0'."
<< '\n';
} else if (action == defs::GET_ACTION) {
if (args.size() != 0) {
WrongNumberOfParameters(0);
}
auto t = det->getCurrentSource(std::vector<int>{det_id});
os << OutString(t) << '\n';
} else if (action == defs::PUT_ACTION) {
if (args.size() == 1) {
det->setCurrentSource(
defs::currentSrcParameters(StringTo<bool>(args[0])));
} else if (args.size() >= 3) {
// scan fix
bool fix = false;
if (args[1] == "fix") {
fix = true;
} else if (args[1] == "nofix") {
fix = false;
} else {
throw sls::RuntimeError("Invalid argument: " + args[1] +
". Did you mean fix or nofix?");
}
if (args.size() == 3) {
det->setCurrentSource(defs::currentSrcParameters(
fix, StringTo<int64_t>(args[2])));
} else if (args.size() == 4) {
bool normalCurrent = false;
if (args[3] == "normal") {
normalCurrent = true;
} else if (args[3] == "low") {
normalCurrent = false;
} else {
throw sls::RuntimeError("Invalid argument: " + args[3] +
". Did you mean normal or low?");
}
det->setCurrentSource(defs::currentSrcParameters(
fix, StringTo<int64_t>(args[2]), normalCurrent));
} else {
throw sls::RuntimeError(
"Invalid number of parareters for this command.");
}
} else {
throw sls::RuntimeError(
"Invalid number of parareters for this command.");
}
os << ToString(args) << '\n';
} else {
throw sls::RuntimeError("Unknown action");
}
return os.str();
}
/** temperature */ /** temperature */
std::string CmdProxy::TemperatureValues(int action) { std::string CmdProxy::TemperatureValues(int action) {
std::ostringstream os; std::ostringstream os;
@ -1095,6 +1157,82 @@ std::string CmdProxy::DacValues(int action) {
return os.str(); return os.str();
} }
std::string CmdProxy::ResetDacs(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[(optional) hard] "
"\n\t[Eiger][Jungfrau][Gotthard][Moench][Gotthard2]["
"Mythen3]Reset dac values to the defaults. A 'hard' optional "
"reset will reset the dacs to the hardcoded defaults in on-board "
"detector server."
<< '\n';
} else if (action == defs::GET_ACTION) {
throw sls::RuntimeError("Cannot get");
} else if (action == defs::PUT_ACTION) {
bool hardReset = false;
if (args.size() == 1) {
if (args[0] != "hard") {
throw sls::RuntimeError("Unknown argument " + args[0] +
". Did you mean hard?");
}
hardReset = true;
} else if (args.size() > 1) {
WrongNumberOfParameters(1);
}
det->resetToDefaultDacs(hardReset, std::vector<int>{det_id});
os << "successful\n";
} else {
throw sls::RuntimeError("Unknown action");
}
return os.str();
}
std::string CmdProxy::DefaultDac(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[dac name][value][(optional)setting]\n\tSets the default for "
"that dac to this value.\n\t[Jungfrau][Mythen3] When settings is "
"provided, it sets the default value only for that setting"
<< '\n';
} else if (action == defs::GET_ACTION) {
if (args.size() < 1) {
WrongNumberOfParameters(1);
}
// optional settings
if (args.size() == 2) {
auto t = det->getDefaultDac(
StringTo<defs::dacIndex>(args[0]),
sls::StringTo<slsDetectorDefs::detectorSettings>(args[1]),
std::vector<int>{det_id});
os << args[0] << ' ' << args[1] << ' ' << OutString(t) << '\n';
} else {
auto t = det->getDefaultDac(StringTo<defs::dacIndex>(args[0]),
std::vector<int>{det_id});
os << args[0] << ' ' << OutString(t) << '\n';
}
} else if (action == defs::PUT_ACTION) {
if (args.size() < 2) {
WrongNumberOfParameters(2);
}
// optional settings
if (args.size() == 3) {
det->setDefaultDac(
StringTo<defs::dacIndex>(args[0]), StringTo<int>(args[1]),
sls::StringTo<slsDetectorDefs::detectorSettings>(args[2]),
std::vector<int>{det_id});
os << args[0] << ' ' << args[2] << ' ' << args[1] << '\n';
} else {
det->setDefaultDac(StringTo<defs::dacIndex>(args[0]),
StringTo<int>(args[1]));
os << args[0] << ' ' << args[1] << '\n';
}
} else {
throw sls::RuntimeError("Unknown action");
}
return os.str();
}
/* acquisition */ /* acquisition */
std::string CmdProxy::ReceiverStatus(int action) { std::string CmdProxy::ReceiverStatus(int action) {

View File

@ -584,6 +584,7 @@ class CmdProxy {
{"detsizechan", "detsize"}, {"detsizechan", "detsize"},
{"trimdir", "settingspath"}, {"trimdir", "settingspath"},
{"settingsdir", "settingspath"}, {"settingsdir", "settingspath"},
{"flippeddatax", "fliprows"},
/* acquisition parameters */ /* acquisition parameters */
{"cycles", "triggers"}, {"cycles", "triggers"},
@ -591,6 +592,7 @@ class CmdProxy {
{"clkdivider", "speed"}, {"clkdivider", "speed"},
{"vhighvoltage", "highvoltage"}, {"vhighvoltage", "highvoltage"},
{"digitest", "imagetest"}, {"digitest", "imagetest"},
{"filter", "filterresistor"},
/** temperature */ /** temperature */
@ -671,6 +673,8 @@ class CmdProxy {
{"vipre_cds", "dac"}, {"vipre_cds", "dac"},
{"ibias_sfp", "dac"}, {"ibias_sfp", "dac"},
{"defaultdacs", "resetdacs"},
/* acquisition */ /* acquisition */
{"busy", "clearbusy"}, {"busy", "clearbusy"},
{"receiver", "rx_status"}, {"receiver", "rx_status"},
@ -767,6 +771,7 @@ class CmdProxy {
{"trimval", &CmdProxy::trimval}, {"trimval", &CmdProxy::trimval},
{"trimen", &CmdProxy::TrimEnergies}, {"trimen", &CmdProxy::TrimEnergies},
{"gappixels", &CmdProxy::GapPixels}, {"gappixels", &CmdProxy::GapPixels},
{"fliprows", &CmdProxy::fliprows},
/* acquisition parameters */ /* acquisition parameters */
{"acquire", &CmdProxy::Acquire}, {"acquire", &CmdProxy::Acquire},
@ -797,6 +802,8 @@ class CmdProxy {
{"imagetest", &CmdProxy::imagetest}, {"imagetest", &CmdProxy::imagetest},
{"extsig", &CmdProxy::ExternalSignal}, {"extsig", &CmdProxy::ExternalSignal},
{"parallel", &CmdProxy::parallel}, {"parallel", &CmdProxy::parallel},
{"filterresistor", &CmdProxy::filterresistor},
{"currentsource", &CmdProxy::CurrentSource},
/** temperature */ /** temperature */
{"templist", &CmdProxy::templist}, {"templist", &CmdProxy::templist},
@ -816,7 +823,8 @@ class CmdProxy {
{"dac", &CmdProxy::Dac}, {"dac", &CmdProxy::Dac},
{"daclist", &CmdProxy::daclist}, {"daclist", &CmdProxy::daclist},
{"dacvalues", &CmdProxy::DacValues}, {"dacvalues", &CmdProxy::DacValues},
{"defaultdacs", &CmdProxy::defaultdacs}, {"resetdacs", &CmdProxy::ResetDacs},
{"defaultdac", &CmdProxy::DefaultDac},
/* on chip dacs */ /* on chip dacs */
{"vchip_comp_fe", &CmdProxy::vchip_comp_fe}, {"vchip_comp_fe", &CmdProxy::vchip_comp_fe},
@ -903,7 +911,6 @@ class CmdProxy {
{"subexptime", &CmdProxy::subexptime}, {"subexptime", &CmdProxy::subexptime},
{"subdeadtime", &CmdProxy::subdeadtime}, {"subdeadtime", &CmdProxy::subdeadtime},
{"overflow", &CmdProxy::overflow}, {"overflow", &CmdProxy::overflow},
{"flippeddatax", &CmdProxy::flippeddatax},
{"ratecorr", &CmdProxy::RateCorrection}, {"ratecorr", &CmdProxy::RateCorrection},
{"readnlines", &CmdProxy::readnlines}, {"readnlines", &CmdProxy::readnlines},
{"interruptsubframe", &CmdProxy::interruptsubframe}, {"interruptsubframe", &CmdProxy::interruptsubframe},
@ -918,13 +925,17 @@ class CmdProxy {
{"datastream", &CmdProxy::DataStream}, {"datastream", &CmdProxy::DataStream},
/* Jungfrau Specific */ /* Jungfrau Specific */
{"chipversion", &CmdProxy::chipversion},
{"temp_threshold", &CmdProxy::temp_threshold}, {"temp_threshold", &CmdProxy::temp_threshold},
{"temp_control", &CmdProxy::temp_control}, {"temp_control", &CmdProxy::temp_control},
{"temp_event", &CmdProxy::TemperatureEvent}, {"temp_event", &CmdProxy::TemperatureEvent},
{"auto_comp_disable", &CmdProxy::auto_comp_disable}, {"auto_comp_disable", &CmdProxy::auto_comp_disable},
{"comp_disable_time", &CmdProxy::comp_disable_time},
{"storagecells", &CmdProxy::storagecells}, {"storagecells", &CmdProxy::storagecells},
{"storagecell_start", &CmdProxy::storagecell_start}, {"storagecell_start", &CmdProxy::storagecell_start},
{"storagecell_delay", &CmdProxy::storagecell_delay}, {"storagecell_delay", &CmdProxy::storagecell_delay},
{"gainmode", &CmdProxy::gainmode},
{"filtercell", &CmdProxy::filtercell},
/* Gotthard Specific */ /* Gotthard Specific */
{"roi", &CmdProxy::ROI}, {"roi", &CmdProxy::ROI},
@ -941,8 +952,6 @@ class CmdProxy {
{"vetofile", &CmdProxy::VetoFile}, {"vetofile", &CmdProxy::VetoFile},
{"burstmode", &CmdProxy::BurstMode}, {"burstmode", &CmdProxy::BurstMode},
{"cdsgain", &CmdProxy::cdsgain}, {"cdsgain", &CmdProxy::cdsgain},
{"filter", &CmdProxy::filter},
{"currentsource", &CmdProxy::currentsource},
{"timingsource", &CmdProxy::timingsource}, {"timingsource", &CmdProxy::timingsource},
{"veto", &CmdProxy::veto}, {"veto", &CmdProxy::veto},
{"vetostream", &CmdProxy::VetoStreaming}, {"vetostream", &CmdProxy::VetoStreaming},
@ -1088,11 +1097,14 @@ class CmdProxy {
std::string MaxClockPhaseShift(int action); std::string MaxClockPhaseShift(int action);
std::string ClockDivider(int action); std::string ClockDivider(int action);
std::string ExternalSignal(int action); std::string ExternalSignal(int action);
std::string CurrentSource(int action);
/** temperature */ /** temperature */
std::string TemperatureValues(int action); std::string TemperatureValues(int action);
/* dacs */ /* dacs */
std::string Dac(int action); std::string Dac(int action);
std::string DacValues(int action); std::string DacValues(int action);
std::string ResetDacs(int action);
std::string DefaultDac(int action);
/* acquisition */ /* acquisition */
std::string ReceiverStatus(int action); std::string ReceiverStatus(int action);
std::string DetectorStatus(int action); std::string DetectorStatus(int action);
@ -1195,13 +1207,12 @@ class CmdProxy {
settings, getSettings, setSettings, settings, getSettings, setSettings,
sls::StringTo<slsDetectorDefs::detectorSettings>, sls::StringTo<slsDetectorDefs::detectorSettings>,
"[standard, fast, highgain, dynamicgain, lowgain, " "[standard, fast, highgain, dynamicgain, lowgain, "
"mediumgain, veryhighgain, dynamichg0, " "mediumgain, veryhighgain, highgain0, "
"fixgain1, fixgain2, forceswitchg1, forceswitchg2, " "fixgain1, fixgain2, forceswitchg1, forceswitchg2, "
"verylowgain, g1_hg, g1_lg, g2_hc_hg, g2_hc_lg, " "verylowgain, g1_hg, g1_lg, g2_hc_hg, g2_hc_lg, "
"g2_lc_hg, g2_lc_lg, g4_hg, g4_lg]" "g2_lc_hg, g2_lc_lg, g4_hg, g4_lg, gain0]"
"\n\t Detector Settings" "\n\t Detector Settings"
"\n\t[Jungfrau] - [dynamicgain | dynamichg0 | fixgain1 | " "\n\t[Jungfrau] - [ gain0 | highgain0]"
"fixgain2 | forceswitchg1 | forceswitchg2]"
"\n\t[Gotthard] - [dynamicgain | highgain | lowgain | " "\n\t[Gotthard] - [dynamicgain | highgain | lowgain | "
"mediumgain | veryhighgain]" "mediumgain | veryhighgain]"
"\n\t[Gotthard2] - [dynamicgain | fixgain1 | fixgain2]" "\n\t[Gotthard2] - [dynamicgain | fixgain1 | fixgain2]"
@ -1226,6 +1237,14 @@ class CmdProxy {
"[n_trimval]\n\t[Eiger][Mythen3] All trimbits set to this " "[n_trimval]\n\t[Eiger][Mythen3] All trimbits set to this "
"value. Returns -1 if all trimbits are different values."); "value. Returns -1 if all trimbits are different values.");
INTEGER_COMMAND_VEC_ID(
fliprows, getFlipRows, setFlipRows, StringTo<int>,
"[0, 1]\n\t[Eiger] flips rows paramater sent to slsreceiver "
"to stream as json parameter to flip rows in gui \n\t[Jungfrau] flips "
"rows in the detector itself. For bottom module and number of "
"interfaces must be set to 2. slsReceiver and slsDetectorGui "
"does not handle.");
/* acquisition parameters */ /* acquisition parameters */
INTEGER_COMMAND_SET_NOID_GET_ID( INTEGER_COMMAND_SET_NOID_GET_ID(
@ -1314,7 +1333,7 @@ class CmdProxy {
"the chip. \n\t[Moench] Default is 0. \n\t[Jungfrau] Default is 0. Get " "the chip. \n\t[Moench] Default is 0. \n\t[Jungfrau] Default is 0. Get "
"will return power status. Can be off if temperature event occured " "will return power status. Can be off if temperature event occured "
"(temperature over temp_threshold with temp_control " "(temperature over temp_threshold with temp_control "
"enabled.\n\t[Mythen3][Gotthard2] Default is 1. If module not " "enabled. Will configure chip (only chip v1.1)\n\t[Mythen3][Gotthard2] Default is 1. If module not "
"connected or wrong module, powerchip will fail."); "connected or wrong module, powerchip will fail.");
INTEGER_COMMAND_VEC_ID( INTEGER_COMMAND_VEC_ID(
@ -1331,6 +1350,12 @@ class CmdProxy {
"acquisition will return ERROR status and take fewer " "acquisition will return ERROR status and take fewer "
"frames than expected."); "frames than expected.");
INTEGER_COMMAND_VEC_ID(
filterresistor, getFilterResistor, setFilterResistor, StringTo<int>,
"[value] [Gotthard2][Jungfrau] Set filter resistor. Increasing values "
"for increasing resistance.\n\t[Gotthard2] Options: [0|1|2|3]. Default "
"is 0.\n\t[Jungfrau] Options: [0|1]. Default is 1.");
/** temperature */ /** temperature */
GET_COMMAND_NOID( GET_COMMAND_NOID(
templist, getTemperatureList, templist, getTemperatureList,
@ -1381,10 +1406,6 @@ class CmdProxy {
daclist, getDacList, daclist, getDacList,
"\n\tGets the list of commands for every dac for this detector."); "\n\tGets the list of commands for every dac for this detector.");
EXECUTE_SET_COMMAND(defaultdacs, setDefaultDacs,
"\n\t[Eiger][Jungfrau][Gotthard][Moench][Gotthard2]["
"Mythen3]Sets default dacs on to the detector.");
/* on chip dacs */ /* on chip dacs */
INTEGER_USER_IND_COMMAND( INTEGER_USER_IND_COMMAND(
vchip_comp_fe, getOnChipDAC, setOnChipDAC, StringTo<int>, vchip_comp_fe, getOnChipDAC, setOnChipDAC, StringTo<int>,
@ -1775,13 +1796,6 @@ class CmdProxy {
"[0, 1]\n\t[Eiger] Enable or disable show overflow flag in " "[0, 1]\n\t[Eiger] Enable or disable show overflow flag in "
"32 bit mode. Default is disabled."); "32 bit mode. Default is disabled.");
INTEGER_COMMAND_VEC_ID(
flippeddatax, getBottom, setBottom, StringTo<int>,
"[0, 1]\n\t[Eiger] Top or Bottom Half of Eiger module. 1 is bottom, 0 "
"is top. Used to let Gui (via zmq from receiver) know to flip the "
"bottom image over the x axis. Files are not written without the flip "
"however.");
INTEGER_COMMAND_VEC_ID( INTEGER_COMMAND_VEC_ID(
readnlines, getPartialReadout, setPartialReadout, StringTo<int>, readnlines, getPartialReadout, setPartialReadout, StringTo<int>,
"[1 - 256]\n\t[Eiger] Number of rows to readout per half module " "[1 - 256]\n\t[Eiger] Number of rows to readout per half module "
@ -1812,6 +1826,9 @@ class CmdProxy {
/* Jungfrau Specific */ /* Jungfrau Specific */
GET_COMMAND(chipversion, getChipVersion,
"\n\t[Jungfrau] Returns chip version. Can be 1.0 or 1.1");
INTEGER_COMMAND_VEC_ID( INTEGER_COMMAND_VEC_ID(
temp_threshold, getThresholdTemperature, setThresholdTemperature, temp_threshold, getThresholdTemperature, setThresholdTemperature,
StringTo<int>, StringTo<int>,
@ -1832,33 +1849,52 @@ class CmdProxy {
"cleared."); "cleared.");
INTEGER_COMMAND_VEC_ID( INTEGER_COMMAND_VEC_ID(
auto_comp_disable, getAutoCompDisable, setAutoCompDisable, auto_comp_disable, getAutoComparatorDisable, setAutoComparatorDisable,
StringTo<int>, StringTo<int>,
"[0, 1]\n\t[Jungfrau] Auto comparator disable mode. By default, the " "[0, 1]\n\t[Jungfrau] Auto comparator disable mode. By default, the "
"on-chip gain switching is active during the entire exposure.This mode " "on-chip gain switching is active during the entire exposure.This mode "
"disables the on - chip gain switching comparator automatically after " "disables the on - chip gain switching comparator automatically after "
"93.75% of exposure time (only for longer than 100us). \n\tDefault is " "93.75% (only for chipv1.0) of exposure time (only for longer than "
"0 or this mode disabled(comparator enabled throughout). 1 enables " "100us). It is possible to set the duration for chipv1.1 using "
"mode. 0 disables mode. "); "comp_disable_time command.\n\tDefault is 0 or this mode "
"disabled(comparator enabled throughout). 1 enables mode. 0 disables "
"mode. ");
TIME_COMMAND(comp_disable_time, getComparatorDisableTime,
setComparatorDisableTime,
"[duration] [(optional unit) ns|us|ms|s]\n\t[Jungfrau] Time "
"before end of exposure when comparator is disabled. It is "
"only possible for chipv1.1.");
INTEGER_COMMAND_SET_NOID_GET_ID( INTEGER_COMMAND_SET_NOID_GET_ID(
storagecells, getNumberOfAdditionalStorageCells, storagecells, getNumberOfAdditionalStorageCells,
setNumberOfAdditionalStorageCells, StringTo<int>, setNumberOfAdditionalStorageCells, StringTo<int>,
"[0-15]\n\t[Jungfrau] Number of additional storage cells. Default is " "[0-15]\n\t[Jungfrau] Only for chipv1.0. Number of additional storage cells. Default is "
"0. For advanced users only. \n\tThe #images = #frames x #triggers x " "0. For advanced users only. \n\tThe #images = #frames x #triggers x "
"(#storagecells + 1)."); "(#storagecells + 1).");
INTEGER_COMMAND_VEC_ID( INTEGER_COMMAND_VEC_ID(
storagecell_start, getStorageCellStart, setStorageCellStart, storagecell_start, getStorageCellStart, setStorageCellStart,
StringTo<int>, StringTo<int>,
"[0-15]\n\t[Jungfrau] Storage cell that stores the first acquisition " "[0-max]\n\t[Jungfrau] Storage cell that stores the first acquisition "
"of the series. Default is 15. For advanced users only."); "of the series. max is 15 (default) for chipv1.0 and 3 (default) for chipv1.1. For advanced users only.");
TIME_COMMAND( TIME_COMMAND(
storagecell_delay, getStorageCellDelay, setStorageCellDelay, storagecell_delay, getStorageCellDelay, setStorageCellDelay,
"[duration (0-1638375 ns)] [(optional unit) ns|us|ms|s]\n\t[Jungfrau] " "[duration (0-1638375 ns)] [(optional unit) ns|us|ms|s]\n\t[Jungfrau] "
"Additional time delay between 2 consecutive exposures in burst mode " "Additional time delay between 2 consecutive exposures in burst mode "
"(resolution of 25ns). For advanced users only."); "(resolution of 25ns). Only applicable for chipv1.0. For advanced users only.");
INTEGER_COMMAND_VEC_ID(
gainmode, getGainMode, setGainMode,
sls::StringTo<slsDetectorDefs::gainMode>,
"[dynamicgain|forceswitchg1|forceswitchg2|fixg1|fixg2|fixg0]\n\t["
"Jungfrau] Gain mode.\n\tCAUTION: Do not use fixg0 without caution, "
"you can damage the detector!!!");
INTEGER_COMMAND_VEC_ID(
filtercell, getFilterCell, setFilterCell, sls::StringTo<int>,
"[0-12]\n\t[Jungfrau] Set Filter Cell. Advanced user Command");
/* Gotthard Specific */ /* Gotthard Specific */
TIME_GET_COMMAND(exptimel, getExptimeLeft, TIME_GET_COMMAND(exptimel, getExptimeLeft,
@ -1886,15 +1922,6 @@ class CmdProxy {
"[0, 1]\n\t[Gotthard2] Enable or disable CDS gain. Default " "[0, 1]\n\t[Gotthard2] Enable or disable CDS gain. Default "
"is disabled."); "is disabled.");
INTEGER_COMMAND_VEC_ID(
filter, getFilter, setFilter, StringTo<int>,
"[0|1|2|3]\n\t[Gotthard2] Set filter resistor. Default is 0.");
INTEGER_COMMAND_VEC_ID(
currentsource, getCurrentSource, setCurrentSource, StringTo<int>,
"[0, 1]\n\t[Gotthard2] Enable or disable current source. "
"Default is disabled.");
INTEGER_COMMAND_VEC_ID( INTEGER_COMMAND_VEC_ID(
timingsource, getTimingSource, setTimingSource, timingsource, getTimingSource, setTimingSource,
sls::StringTo<slsDetectorDefs::timingSourceType>, sls::StringTo<slsDetectorDefs::timingSourceType>,

View File

@ -158,13 +158,11 @@ std::vector<defs::detectorSettings> Detector::getSettingsList() const {
defs::HIGHGAIN, defs::DYNAMICGAIN, defs::LOWGAIN, defs::MEDIUMGAIN, defs::HIGHGAIN, defs::DYNAMICGAIN, defs::LOWGAIN, defs::MEDIUMGAIN,
defs::VERYHIGHGAIN}; defs::VERYHIGHGAIN};
case defs::JUNGFRAU: case defs::JUNGFRAU:
return std::vector<defs::detectorSettings>{ return std::vector<defs::detectorSettings>{defs::GAIN0,
defs::DYNAMICGAIN, defs::DYNAMICHG0, defs::FIXGAIN1, defs::HIGHGAIN0};
defs::FIXGAIN2, defs::FORCESWITCHG1, defs::FORCESWITCHG2};
case defs::GOTTHARD2: case defs::GOTTHARD2:
return std::vector<defs::detectorSettings>{ return std::vector<defs::detectorSettings>{
defs::DYNAMICGAIN, defs::DYNAMICHG0, defs::FIXGAIN1, defs::DYNAMICGAIN, defs::FIXGAIN1, defs::FIXGAIN2};
defs::FIXGAIN2};
case defs::MOENCH: case defs::MOENCH:
return std::vector<defs::detectorSettings>{ return std::vector<defs::detectorSettings>{
defs::G1_HIGHGAIN, defs::G1_LOWGAIN, defs::G1_HIGHGAIN, defs::G1_LOWGAIN,
@ -281,6 +279,14 @@ void Detector::setGapPixelsinCallback(bool enable) {
pimpl->setGapPixelsinCallback(enable); pimpl->setGapPixelsinCallback(enable);
} }
Result<bool> Detector::getFlipRows(Positions pos) const {
return pimpl->Parallel(&Module::getFlipRows, pos);
}
void Detector::setFlipRows(bool value, Positions pos) {
pimpl->Parallel(&Module::setFlipRows, pos, value);
}
Result<bool> Detector::isVirtualDetectorServer(Positions pos) const { Result<bool> Detector::isVirtualDetectorServer(Positions pos) const {
return pimpl->Parallel(&Module::isVirtualDetectorServer, pos); return pimpl->Parallel(&Module::isVirtualDetectorServer, pos);
} }
@ -621,8 +627,38 @@ std::vector<defs::dacIndex> Detector::getDacList() const {
return retval; return retval;
} }
void Detector::setDefaultDacs(Positions pos) { Result<int> Detector::getDefaultDac(defs::dacIndex index, Positions pos) {
pimpl->Parallel(&Module::setDefaultDacs, pos); return pimpl->getDefaultDac(index, defs::UNDEFINED, pos);
}
void Detector::setDefaultDac(defs::dacIndex index, int defaultValue,
Positions pos) {
pimpl->setDefaultDac(index, defaultValue, defs::UNDEFINED, pos);
}
Result<int> Detector::getDefaultDac(defs::dacIndex index,
defs::detectorSettings sett,
Positions pos) {
if (sett == defs::UNDEFINED) {
throw RuntimeError("Invalid settings given for default dac");
}
return pimpl->getDefaultDac(index, sett, pos);
}
void Detector::setDefaultDac(defs::dacIndex index, int defaultValue,
defs::detectorSettings sett, Positions pos) {
if (sett == defs::UNDEFINED) {
throw RuntimeError("Invalid settings given for default dac");
}
pimpl->setDefaultDac(index, defaultValue, sett, pos);
}
void Detector::resetToDefaultDacs(const bool hardReset, Positions pos) {
pimpl->Parallel(&Module::resetToDefaultDacs, pos, hardReset);
} }
Result<int> Detector::getDAC(defs::dacIndex index, bool mV, Result<int> Detector::getDAC(defs::dacIndex index, bool mV,
@ -663,6 +699,22 @@ void Detector::setParallelMode(bool value, Positions pos) {
pimpl->Parallel(&Module::setParallelMode, pos, value); pimpl->Parallel(&Module::setParallelMode, pos, value);
} }
Result<int> Detector::getFilterResistor(Positions pos) const {
return pimpl->Parallel(&Module::getFilterResistor, pos);
}
void Detector::setFilterResistor(int value, Positions pos) {
pimpl->Parallel(&Module::setFilterResistor, pos, value);
}
Result<defs::currentSrcParameters>
Detector::getCurrentSource(Positions pos) const {
return pimpl->Parallel(&Module::getCurrentSource, pos);
}
void Detector::setCurrentSource(defs::currentSrcParameters par, Positions pos) {
pimpl->Parallel(&Module::setCurrentSource, pos, par);
}
// Acquisition // Acquisition
void Detector::acquire() { pimpl->acquire(); } void Detector::acquire() { pimpl->acquire(); }
@ -754,7 +806,7 @@ Result<int> Detector::getNumberofUDPInterfaces(Positions pos) const {
"Cannot set number of udp interfaces for this detector."); "Cannot set number of udp interfaces for this detector.");
} }
// also called by vetostream (for gotthard2) // also called by vetostream (for gotthard2)
return getNumberofUDPInterfaces_(pos); return pimpl->getNumberofUDPInterfaces(pos);
} }
void Detector::setNumberofUDPInterfaces(int n, Positions pos) { void Detector::setNumberofUDPInterfaces(int n, Positions pos) {
@ -766,10 +818,6 @@ void Detector::setNumberofUDPInterfaces(int n, Positions pos) {
setNumberofUDPInterfaces_(n, pos); setNumberofUDPInterfaces_(n, pos);
} }
Result<int> Detector::getNumberofUDPInterfaces_(Positions pos) const {
return pimpl->Parallel(&Module::getNumberofUDPInterfaces, pos);
}
void Detector::setNumberofUDPInterfaces_(int n, Positions pos) { void Detector::setNumberofUDPInterfaces_(int n, Positions pos) {
bool previouslyClientStreaming = pimpl->getDataStreamingToClient(); bool previouslyClientStreaming = pimpl->getDataStreamingToClient();
bool useReceiver = getUseReceiverFlag().squash(false); bool useReceiver = getUseReceiverFlag().squash(false);
@ -1280,14 +1328,6 @@ void Detector::setOverFlowMode(bool value, Positions pos) {
pimpl->Parallel(&Module::setOverFlowMode, pos, value); pimpl->Parallel(&Module::setOverFlowMode, pos, value);
} }
Result<bool> Detector::getBottom(Positions pos) const {
return pimpl->Parallel(&Module::getFlippedDataX, pos);
}
void Detector::setBottom(bool value, Positions pos) {
pimpl->Parallel(&Module::setFlippedDataX, pos, value);
}
Result<ns> Detector::getRateCorrection(Positions pos) const { Result<ns> Detector::getRateCorrection(Positions pos) const {
return pimpl->Parallel(&Module::getRateCorrection, pos); return pimpl->Parallel(&Module::getRateCorrection, pos);
} }
@ -1398,6 +1438,9 @@ void Detector::setDataStream(const defs::portPosition port, const bool enable,
} }
// Jungfrau Specific // Jungfrau Specific
Result<double> Detector::getChipVersion(Positions pos) const {
return pimpl->Parallel(&Module::getChipVersion, pos);
}
Result<int> Detector::getThresholdTemperature(Positions pos) const { Result<int> Detector::getThresholdTemperature(Positions pos) const {
return pimpl->Parallel(&Module::getThresholdTemperature, pos); return pimpl->Parallel(&Module::getThresholdTemperature, pos);
@ -1423,14 +1466,22 @@ void Detector::resetTemperatureEvent(Positions pos) {
pimpl->Parallel(&Module::resetTemperatureEvent, pos); pimpl->Parallel(&Module::resetTemperatureEvent, pos);
} }
Result<bool> Detector::getAutoCompDisable(Positions pos) const { Result<bool> Detector::getAutoComparatorDisable(Positions pos) const {
return pimpl->Parallel(&Module::getAutoComparatorDisableMode, pos); return pimpl->Parallel(&Module::getAutoComparatorDisableMode, pos);
} }
void Detector::setAutoCompDisable(bool value, Positions pos) { void Detector::setAutoComparatorDisable(bool value, Positions pos) {
pimpl->Parallel(&Module::setAutoComparatorDisableMode, pos, value); pimpl->Parallel(&Module::setAutoComparatorDisableMode, pos, value);
} }
Result<ns> Detector::getComparatorDisableTime(Positions pos) const {
return pimpl->Parallel(&Module::getComparatorDisableTime, pos);
}
void Detector::setComparatorDisableTime(ns t, Positions pos) {
pimpl->Parallel(&Module::setComparatorDisableTime, pos, t.count());
}
Result<int> Detector::getNumberOfAdditionalStorageCells(Positions pos) const { Result<int> Detector::getNumberOfAdditionalStorageCells(Positions pos) const {
return pimpl->Parallel(&Module::getNumberOfAdditionalStorageCells, pos); return pimpl->Parallel(&Module::getNumberOfAdditionalStorageCells, pos);
} }
@ -1455,6 +1506,37 @@ void Detector::setStorageCellDelay(ns value, Positions pos) {
pimpl->Parallel(&Module::setStorageCellDelay, pos, value.count()); pimpl->Parallel(&Module::setStorageCellDelay, pos, value.count());
} }
std::vector<defs::gainMode> Detector::getGainModeList() const {
switch (getDetectorType().squash()) {
case defs::JUNGFRAU:
return std::vector<defs::gainMode>{defs::DYNAMIC,
defs::FORCE_SWITCH_G1,
defs::FORCE_SWITCH_G2,
defs::FIX_G1,
defs::FIX_G2,
defs::FIX_G0};
break;
default:
throw RuntimeError("Gain mode is not implemented for this detector.");
}
}
Result<defs::gainMode> Detector::getGainMode(Positions pos) const {
return pimpl->Parallel(&Module::getGainMode, pos);
}
void Detector::setGainMode(const defs::gainMode mode, Positions pos) {
pimpl->Parallel(&Module::setGainMode, pos, mode);
}
Result<int> Detector::getFilterCell(Positions pos) const {
return pimpl->Parallel(&Module::getFilterCell, pos);
}
void Detector::setFilterCell(int cell, Positions pos) {
pimpl->Parallel(&Module::setFilterCell, pos, cell);
}
// Gotthard Specific // Gotthard Specific
Result<defs::ROI> Detector::getROI(Positions pos) const { Result<defs::ROI> Detector::getROI(Positions pos) const {
@ -1546,22 +1628,6 @@ void Detector::setCDSGain(bool value, Positions pos) {
pimpl->Parallel(&Module::setCDSGain, pos, value); pimpl->Parallel(&Module::setCDSGain, pos, value);
} }
Result<int> Detector::getFilter(Positions pos) const {
return pimpl->Parallel(&Module::getFilter, pos);
}
void Detector::setFilter(int value, Positions pos) {
pimpl->Parallel(&Module::setFilter, pos, value);
}
Result<bool> Detector::getCurrentSource(Positions pos) const {
return pimpl->Parallel(&Module::getCurrentSource, pos);
}
void Detector::setCurrentSource(bool value, Positions pos) {
pimpl->Parallel(&Module::setCurrentSource, pos, value);
}
Result<defs::timingSourceType> Detector::getTimingSource(Positions pos) const { Result<defs::timingSourceType> Detector::getTimingSource(Positions pos) const {
return pimpl->Parallel(&Module::getTimingSource, pos); return pimpl->Parallel(&Module::getTimingSource, pos);
} }
@ -1582,7 +1648,7 @@ Result<defs::streamingInterface> Detector::getVetoStream(Positions pos) const {
// 3gbe // 3gbe
auto r3 = pimpl->Parallel(&Module::getVetoStream, pos); auto r3 = pimpl->Parallel(&Module::getVetoStream, pos);
// 10gbe (debugging interface) opens 2nd udp interface in receiver // 10gbe (debugging interface) opens 2nd udp interface in receiver
auto r10 = getNumberofUDPInterfaces_(pos); auto r10 = pimpl->getNumberofUDPInterfaces(pos);
Result<defs::streamingInterface> res(r3.size()); Result<defs::streamingInterface> res(r3.size());
for (unsigned int i = 0; i < res.size(); ++i) { for (unsigned int i = 0; i < res.size(); ++i) {
@ -1602,7 +1668,7 @@ void Detector::setVetoStream(defs::streamingInterface interface, Positions pos)
pimpl->Parallel(&Module::setVetoStream, pos, LOW_LATENCY_LINK); pimpl->Parallel(&Module::setVetoStream, pos, LOW_LATENCY_LINK);
// 10gbe (debugging interface) opens 2nd udp interface in receiver // 10gbe (debugging interface) opens 2nd udp interface in receiver
int old_numinterfaces = getNumberofUDPInterfaces_(pos).tsquash( int old_numinterfaces = pimpl->getNumberofUDPInterfaces(pos).tsquash(
"retrieved inconsistent number of udp interfaces"); "retrieved inconsistent number of udp interfaces");
int numinterfaces = (((interface & defs::streamingInterface::ETHERNET_10GB) == int numinterfaces = (((interface & defs::streamingInterface::ETHERNET_10GB) ==
defs::streamingInterface::ETHERNET_10GB) defs::streamingInterface::ETHERNET_10GB)
@ -2167,7 +2233,7 @@ std::vector<int> Detector::getPortNumbers(int start_port) {
break; break;
case defs::JUNGFRAU: case defs::JUNGFRAU:
case defs::GOTTHARD2: case defs::GOTTHARD2:
if (getNumberofUDPInterfaces_({}).squash() == 2) { if (pimpl->getNumberofUDPInterfaces({}).squash() == 2) {
num_sockets_per_detector *= 2; num_sockets_per_detector *= 2;
} }
break; break;

View File

@ -490,8 +490,7 @@ void DetectorImpl::readFrameFromReceiver() {
uint64_t currentAcquisitionIndex = -1, currentFrameIndex = -1, uint64_t currentAcquisitionIndex = -1, currentFrameIndex = -1,
currentFileIndex = -1; currentFileIndex = -1;
double currentProgress = 0.00; double currentProgress = 0.00;
uint32_t currentSubFrameIndex = -1, coordX = -1, coordY = -1, uint32_t currentSubFrameIndex = -1, coordX = -1, coordY = -1, flipRows = -1;
flippedDataX = -1;
while (numZmqRunning != 0) { while (numZmqRunning != 0) {
// reset data // reset data
@ -571,7 +570,7 @@ void DetectorImpl::readFrameFromReceiver() {
if (eiger) { if (eiger) {
coordY = (nY - 1) - coordY; coordY = (nY - 1) - coordY;
} }
flippedDataX = zHeader.flippedDataX; flipRows = zHeader.flipRows;
if (zHeader.completeImage == 0) { if (zHeader.completeImage == 0) {
completeImage = false; completeImage = false;
} }
@ -585,7 +584,7 @@ void DetectorImpl::readFrameFromReceiver() {
<< "\n\tcurrentSubFrameIndex: " << currentSubFrameIndex << "\n\tcurrentSubFrameIndex: " << currentSubFrameIndex
<< "\n\tcurrentProgress: " << currentProgress << "\n\tcurrentProgress: " << currentProgress
<< "\n\tcoordX: " << coordX << "\n\tcoordY: " << coordY << "\n\tcoordX: " << coordX << "\n\tcoordY: " << coordY
<< "\n\tflippedDataX: " << flippedDataX << "\n\tflipRows: " << flipRows
<< "\n\tcompleteImage: " << completeImage; << "\n\tcompleteImage: " << completeImage;
} }
@ -609,7 +608,7 @@ void DetectorImpl::readFrameFromReceiver() {
<< "\n\tsingledetrowoffset: " << singledetrowoffset << "\n\tsingledetrowoffset: " << singledetrowoffset
<< "\n\trowoffset: " << rowoffset; << "\n\trowoffset: " << rowoffset;
if (eiger && (flippedDataX != 0U)) { if (eiger && (flipRows != 0U)) {
for (uint32_t i = 0; i < nPixelsY; ++i) { for (uint32_t i = 0; i < nPixelsY; ++i) {
memcpy((multiframe.get()) + memcpy((multiframe.get()) +
((yoffset + (nPixelsY - 1 - i)) * ((yoffset + (nPixelsY - 1 - i)) *
@ -1369,4 +1368,19 @@ std::vector<char> DetectorImpl::readProgrammingFile(const std::string &fname) {
return buffer; return buffer;
} }
sls::Result<int> DetectorImpl::getNumberofUDPInterfaces(Positions pos) const {
return Parallel(&Module::getNumberofUDPInterfaces, pos);
}
sls::Result<int> DetectorImpl::getDefaultDac(defs::dacIndex index,
defs::detectorSettings sett,
Positions pos) {
return Parallel(&Module::getDefaultDac, pos, index, sett);
}
void DetectorImpl::setDefaultDac(defs::dacIndex index, int defaultValue,
defs::detectorSettings sett, Positions pos) {
Parallel(&Module::setDefaultDac, pos, index, defaultValue, sett);
}
} // namespace sls } // namespace sls

View File

@ -291,6 +291,14 @@ class DetectorImpl : public virtual slsDetectorDefs {
*/ */
std::vector<char> readProgrammingFile(const std::string &fname); std::vector<char> readProgrammingFile(const std::string &fname);
sls::Result<int> getNumberofUDPInterfaces(Positions pos) const;
void setNumberofUDPInterfaces(int n, Positions pos);
sls::Result<int> getDefaultDac(defs::dacIndex index,
defs::detectorSettings sett,
Positions pos = {});
void setDefaultDac(defs::dacIndex index, int defaultValue,
defs::detectorSettings sett, Positions pos);
private: private:
/** /**
* Creates/open shared memory, initializes detector structure and members * Creates/open shared memory, initializes detector structure and members

View File

@ -458,6 +458,21 @@ int Module::setTrimEn(const std::vector<int> &energies) {
return shm()->trimEnergies.size(); return shm()->trimEnergies.size();
} }
bool Module::getFlipRows() const {
if (shm()->myDetectorType == EIGER) {
return sendToReceiver<int>(F_GET_FLIP_ROWS_RECEIVER);
}
return sendToDetector<int>(F_GET_FLIP_ROWS);
}
void Module::setFlipRows(bool value) {
if (shm()->myDetectorType == EIGER) {
sendToReceiver<int>(F_SET_FLIP_ROWS_RECEIVER, static_cast<int>(value));
} else {
sendToDetector(F_SET_FLIP_ROWS, static_cast<int>(value), nullptr);
}
}
bool Module::isVirtualDetectorServer() const { bool Module::isVirtualDetectorServer() const {
return sendToDetector<int>(F_IS_VIRTUAL); return sendToDetector<int>(F_IS_VIRTUAL);
} }
@ -618,8 +633,21 @@ int Module::getDAC(dacIndex index, bool mV) const {
int args[]{static_cast<int>(index), static_cast<int>(mV), GET_FLAG}; int args[]{static_cast<int>(index), static_cast<int>(mV), GET_FLAG};
return sendToDetector<int>(F_SET_DAC, args); return sendToDetector<int>(F_SET_DAC, args);
} }
int Module::getDefaultDac(slsDetectorDefs::dacIndex index,
slsDetectorDefs::detectorSettings sett) {
int args[]{static_cast<int>(index), static_cast<int>(sett)};
return sendToDetector<int>(F_GET_DEFAULT_DAC, args);
}
void Module::setDefaultDac(slsDetectorDefs::dacIndex index, int defaultValue,
defs::detectorSettings sett) {
int args[]{static_cast<int>(index), static_cast<int>(sett), defaultValue};
return sendToDetector(F_SET_DEFAULT_DAC, args, nullptr);
}
void Module::setDefaultDacs() { sendToDetector(F_SET_DEFAULT_DACS); } void Module::resetToDefaultDacs(const bool hardReset) {
sendToDetector(F_RESET_TO_DEFAULT_DACS, static_cast<int>(hardReset),
nullptr);
}
void Module::setDAC(int val, dacIndex index, bool mV) { void Module::setDAC(int val, dacIndex index, bool mV) {
int args[]{static_cast<int>(index), static_cast<int>(mV), val}; int args[]{static_cast<int>(index), static_cast<int>(mV), val};
@ -676,6 +704,22 @@ void Module::setParallelMode(const bool enable) {
sendToDetector(F_SET_PARALLEL_MODE, static_cast<int>(enable), nullptr); sendToDetector(F_SET_PARALLEL_MODE, static_cast<int>(enable), nullptr);
} }
int Module::getFilterResistor() const {
return sendToDetector<int>(F_GET_FILTER_RESISTOR);
}
void Module::setFilterResistor(int value) {
sendToDetector(F_SET_FILTER_RESISTOR, value, nullptr);
}
defs::currentSrcParameters Module::getCurrentSource() const {
return sendToDetector<defs::currentSrcParameters>(F_GET_CURRENT_SOURCE);
}
void Module::setCurrentSource(defs::currentSrcParameters par) {
sendToDetector(F_SET_CURRENT_SOURCE, par, nullptr);
}
// Acquisition // Acquisition
void Module::startReceiver() { void Module::startReceiver() {
@ -1385,14 +1429,6 @@ void Module::setOverFlowMode(const bool enable) {
sendToDetector(F_SET_OVERFLOW_MODE, static_cast<int>(enable), nullptr); sendToDetector(F_SET_OVERFLOW_MODE, static_cast<int>(enable), nullptr);
} }
bool Module::getFlippedDataX() const {
return sendToReceiver<int>(F_SET_FLIPPED_DATA_RECEIVER, GET_FLAG);
}
void Module::setFlippedDataX(bool value) {
sendToReceiver<int>(F_SET_FLIPPED_DATA_RECEIVER, static_cast<int>(value));
}
int64_t Module::getRateCorrection() const { int64_t Module::getRateCorrection() const {
return sendToDetector<int64_t>(F_GET_RATE_CORRECT); return sendToDetector<int64_t>(F_GET_RATE_CORRECT);
} }
@ -1522,6 +1558,9 @@ void Module::setDataStream(const portPosition port, const bool enable) {
} }
// Jungfrau Specific // Jungfrau Specific
double Module::getChipVersion() const {
return (sendToDetector<int>(F_GET_CHIP_VERSION)) / 10.00;
}
int Module::getThresholdTemperature() const { int Module::getThresholdTemperature() const {
auto retval = sendToDetectorStop<int>(F_THRESHOLD_TEMP, GET_FLAG); auto retval = sendToDetectorStop<int>(F_THRESHOLD_TEMP, GET_FLAG);
@ -1561,6 +1600,14 @@ void Module::setAutoComparatorDisableMode(bool val) {
sendToDetector<int>(F_AUTO_COMP_DISABLE, static_cast<int>(val)); sendToDetector<int>(F_AUTO_COMP_DISABLE, static_cast<int>(val));
} }
int64_t Module::getComparatorDisableTime() const {
return sendToDetector<int64_t>(F_GET_COMP_DISABLE_TIME);
}
void Module::setComparatorDisableTime(int64_t value) {
sendToDetector(F_SET_COMP_DISABLE_TIME, value, nullptr);
}
int Module::getNumberOfAdditionalStorageCells() const { int Module::getNumberOfAdditionalStorageCells() const {
return sendToDetector<int>(F_GET_NUM_ADDITIONAL_STORAGE_CELLS); return sendToDetector<int>(F_GET_NUM_ADDITIONAL_STORAGE_CELLS);
} }
@ -1585,6 +1632,22 @@ void Module::setStorageCellDelay(int64_t value) {
sendToDetector(F_SET_STORAGE_CELL_DELAY, value, nullptr); sendToDetector(F_SET_STORAGE_CELL_DELAY, value, nullptr);
} }
slsDetectorDefs::gainMode Module::getGainMode() const {
return sendToDetector<gainMode>(F_GET_GAIN_MODE);
}
void Module::setGainMode(const slsDetectorDefs::gainMode mode) {
sendToDetector(F_SET_GAIN_MODE, mode, nullptr);
}
int Module::getFilterCell() const {
return sendToDetector<int>(F_GET_FILTER_CELL);
}
void Module::setFilterCell(int value) {
sendToDetector(F_SET_FILTER_CELL, value, nullptr);
}
// Gotthard Specific // Gotthard Specific
slsDetectorDefs::ROI Module::getROI() const { slsDetectorDefs::ROI Module::getROI() const {
@ -1859,20 +1922,6 @@ void Module::setCDSGain(bool value) {
sendToDetector(F_SET_CDS_GAIN, static_cast<int>(value), nullptr); sendToDetector(F_SET_CDS_GAIN, static_cast<int>(value), nullptr);
} }
int Module::getFilter() const { return sendToDetector<int>(F_GET_FILTER); }
void Module::setFilter(int value) {
sendToDetector(F_SET_FILTER, value, nullptr);
}
bool Module::getCurrentSource() const {
return sendToDetector<int>(F_GET_CURRENT_SOURCE);
}
void Module::setCurrentSource(bool value) {
sendToDetector(F_SET_CURRENT_SOURCE, static_cast<int>(value), nullptr);
}
slsDetectorDefs::timingSourceType Module::getTimingSource() const { slsDetectorDefs::timingSourceType Module::getTimingSource() const {
return sendToDetector<timingSourceType>(F_GET_TIMING_SOURCE); return sendToDetector<timingSourceType>(F_GET_TIMING_SOURCE);
} }

View File

@ -114,6 +114,8 @@ class Module : public virtual slsDetectorDefs {
void setAllTrimbits(int val); void setAllTrimbits(int val);
std::vector<int> getTrimEn() const; std::vector<int> getTrimEn() const;
int setTrimEn(const std::vector<int> &energies = {}); int setTrimEn(const std::vector<int> &energies = {});
bool getFlipRows() const;
void setFlipRows(bool value);
bool isVirtualDetectorServer() const; bool isVirtualDetectorServer() const;
/************************************************** /**************************************************
@ -148,8 +150,11 @@ class Module : public virtual slsDetectorDefs {
int getMaxClockPhaseShift(int clkIndex) const; int getMaxClockPhaseShift(int clkIndex) const;
int getClockFrequency(int clkIndex) const; int getClockFrequency(int clkIndex) const;
void setClockFrequency(int clkIndex, int value); void setClockFrequency(int clkIndex, int value);
/** [Eiger][Jungfrau][Moench][Gotthard][Gotthard2][Mythen3] */ int getDefaultDac(slsDetectorDefs::dacIndex index,
void setDefaultDacs(); slsDetectorDefs::detectorSettings sett);
void setDefaultDac(slsDetectorDefs::dacIndex index, int defaultValue,
defs::detectorSettings sett);
void resetToDefaultDacs(const bool hardReset);
int getDAC(dacIndex index, bool mV) const; int getDAC(dacIndex index, bool mV) const;
void setDAC(int val, dacIndex index, bool mV); void setDAC(int val, dacIndex index, bool mV);
bool getPowerChip() const; bool getPowerChip() const;
@ -165,7 +170,10 @@ class Module : public virtual slsDetectorDefs {
void setExternalSignalFlags(int signalIndex, externalSignalFlag type); void setExternalSignalFlags(int signalIndex, externalSignalFlag type);
bool getParallelMode() const; bool getParallelMode() const;
void setParallelMode(const bool enable); void setParallelMode(const bool enable);
int getFilterResistor() const;
void setFilterResistor(int value);
defs::currentSrcParameters getCurrentSource() const;
void setCurrentSource(defs::currentSrcParameters par);
/************************************************** /**************************************************
* * * *
* Acquisition * * Acquisition *
@ -320,8 +328,6 @@ class Module : public virtual slsDetectorDefs {
void setSubDeadTime(int64_t value); void setSubDeadTime(int64_t value);
bool getOverFlowMode() const; bool getOverFlowMode() const;
void setOverFlowMode(const bool enable); void setOverFlowMode(const bool enable);
bool getFlippedDataX() const;
void setFlippedDataX(bool value);
int64_t getRateCorrection() const; int64_t getRateCorrection() const;
void setDefaultRateCorrection(); void setDefaultRateCorrection();
void setRateCorrection(int64_t t = 0); void setRateCorrection(int64_t t = 0);
@ -351,6 +357,7 @@ class Module : public virtual slsDetectorDefs {
* Jungfrau Specific * * Jungfrau Specific *
* * * *
* ************************************************/ * ************************************************/
double getChipVersion() const;
int getThresholdTemperature() const; int getThresholdTemperature() const;
void setThresholdTemperature(int val); void setThresholdTemperature(int val);
bool getTemperatureControl() const; bool getTemperatureControl() const;
@ -359,13 +366,19 @@ class Module : public virtual slsDetectorDefs {
void resetTemperatureEvent(); void resetTemperatureEvent();
bool getAutoComparatorDisableMode() const; bool getAutoComparatorDisableMode() const;
void setAutoComparatorDisableMode(bool val); void setAutoComparatorDisableMode(bool val);
int64_t getComparatorDisableTime() const;
void setComparatorDisableTime(int64_t value);
int getNumberOfAdditionalStorageCells() const; int getNumberOfAdditionalStorageCells() const;
void setNumberOfAdditionalStorageCells(int value); void setNumberOfAdditionalStorageCells(int value);
int getStorageCellStart() const; int getStorageCellStart() const;
void setStorageCellStart(int pos); void setStorageCellStart(int pos);
int64_t getStorageCellDelay() const; int64_t getStorageCellDelay() const;
void setStorageCellDelay(int64_t value); void setStorageCellDelay(int64_t value);
gainMode getGainMode() const;
void setGainMode(const gainMode mode);
int getFilterCell() const;
void setFilterCell(int value);
/************************************************** /**************************************************
* * * *
* Gotthard Specific * * Gotthard Specific *
@ -400,10 +413,6 @@ class Module : public virtual slsDetectorDefs {
void setBurstMode(burstMode value); void setBurstMode(burstMode value);
bool getCDSGain() const; bool getCDSGain() const;
void setCDSGain(bool value); void setCDSGain(bool value);
int getFilter() const;
void setFilter(int value);
bool getCurrentSource() const;
void setCurrentSource(bool value);
slsDetectorDefs::timingSourceType getTimingSource() const; slsDetectorDefs::timingSourceType getTimingSource() const;
void setTimingSource(slsDetectorDefs::timingSourceType value); void setTimingSource(slsDetectorDefs::timingSourceType value);
bool getVeto() const; bool getVeto() const;

View File

@ -340,27 +340,6 @@ TEST_CASE("overflow", "[.cmd]") {
} }
} }
TEST_CASE("flippeddatax", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER) {
auto previous = det.getBottom();
std::ostringstream oss1, oss2, oss3;
proxy.Call("flippeddatax", {"1"}, -1, PUT, oss1);
REQUIRE(oss1.str() == "flippeddatax 1\n");
proxy.Call("flippeddatax", {}, -1, GET, oss2);
REQUIRE(oss2.str() == "flippeddatax 1\n");
proxy.Call("flippeddatax", {"0"}, -1, PUT, oss3);
REQUIRE(oss3.str() == "flippeddatax 0\n");
for (int i = 0; i != det.size(); ++i) {
det.setBottom(previous[i], {i});
}
} else {
REQUIRE_THROWS(proxy.Call("flippeddatax", {}, -1, GET));
}
}
TEST_CASE("ratecorr", "[.cmd]") { TEST_CASE("ratecorr", "[.cmd]") {
Detector det; Detector det;
CmdProxy proxy(&det); CmdProxy proxy(&det);

View File

@ -519,66 +519,6 @@ TEST_CASE("cdsgain", "[.cmd]") {
} }
} }
TEST_CASE("filter", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::GOTTHARD2) {
auto prev_val = det.getFilter();
{
std::ostringstream oss;
proxy.Call("filter", {"1"}, -1, PUT, oss);
REQUIRE(oss.str() == "filter 1\n");
}
{
std::ostringstream oss;
proxy.Call("filter", {"0"}, -1, PUT, oss);
REQUIRE(oss.str() == "filter 0\n");
}
{
std::ostringstream oss;
proxy.Call("filter", {}, -1, GET, oss);
REQUIRE(oss.str() == "filter 0\n");
}
for (int i = 0; i != det.size(); ++i) {
det.setFilter(prev_val[i], {i});
}
} else {
REQUIRE_THROWS(proxy.Call("filter", {}, -1, GET));
}
}
TEST_CASE("currentsource", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::GOTTHARD2) {
auto prev_val = det.getCurrentSource();
{
std::ostringstream oss;
proxy.Call("currentsource", {"1"}, -1, PUT, oss);
REQUIRE(oss.str() == "currentsource 1\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {"0"}, -1, PUT, oss);
REQUIRE(oss.str() == "currentsource 0\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {}, -1, GET, oss);
REQUIRE(oss.str() == "currentsource 0\n");
}
for (int i = 0; i != det.size(); ++i) {
det.setCurrentSource(prev_val[i], {i});
}
} else {
REQUIRE_THROWS(proxy.Call("currentsource", {}, -1, GET));
}
}
TEST_CASE("timingsource", "[.cmd]") { TEST_CASE("timingsource", "[.cmd]") {
Detector det; Detector det;
CmdProxy proxy(&det); CmdProxy proxy(&det);

View File

@ -190,6 +190,18 @@ TEST_CASE("temp_threshold", "[.cmd]") {
} }
} }
TEST_CASE("chipversion", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
REQUIRE_NOTHROW(proxy.Call("chipversion", {}, -1, GET));
} else {
REQUIRE_THROWS(proxy.Call("chipversion", {}, -1, GET));
}
REQUIRE_THROWS(proxy.Call("chipversion", {"0"}, -1, PUT));
}
TEST_CASE("temp_control", "[.cmd]") { TEST_CASE("temp_control", "[.cmd]") {
Detector det; Detector det;
CmdProxy proxy(&det); CmdProxy proxy(&det);
@ -246,7 +258,7 @@ TEST_CASE("auto_comp_disable", "[.cmd]") {
CmdProxy proxy(&det); CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash(); auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) { if (det_type == defs::JUNGFRAU) {
auto prev_val = det.getAutoCompDisable(); auto prev_val = det.getAutoComparatorDisable();
{ {
std::ostringstream oss; std::ostringstream oss;
proxy.Call("auto_comp_disable", {"0"}, -1, PUT, oss); proxy.Call("auto_comp_disable", {"0"}, -1, PUT, oss);
@ -263,7 +275,7 @@ TEST_CASE("auto_comp_disable", "[.cmd]") {
REQUIRE(oss.str() == "auto_comp_disable 1\n"); REQUIRE(oss.str() == "auto_comp_disable 1\n");
} }
for (int i = 0; i != det.size(); ++i) { for (int i = 0; i != det.size(); ++i) {
det.setAutoCompDisable(prev_val[i], {i}); det.setAutoComparatorDisable(prev_val[i], {i});
} }
} else { } else {
REQUIRE_THROWS(proxy.Call("auto_comp_disable", {}, -1, GET)); REQUIRE_THROWS(proxy.Call("auto_comp_disable", {}, -1, GET));
@ -271,35 +283,73 @@ TEST_CASE("auto_comp_disable", "[.cmd]") {
} }
} }
TEST_CASE("comp_disable_time", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
auto prev_val = det.getComparatorDisableTime();
{
std::ostringstream oss;
proxy.Call("comp_disable_time", {"125ns"}, -1, PUT, oss);
REQUIRE(oss.str() == "comp_disable_time 125ns\n");
}
{
std::ostringstream oss;
proxy.Call("comp_disable_time", {}, -1, GET, oss);
REQUIRE(oss.str() == "comp_disable_time 125ns\n");
}
{
std::ostringstream oss;
proxy.Call("comp_disable_time", {"0"}, -1, PUT, oss);
REQUIRE(oss.str() == "comp_disable_time 0\n");
}
for (int i = 0; i != det.size(); ++i) {
det.setComparatorDisableTime(prev_val[i], {i});
}
} else {
REQUIRE_THROWS(proxy.Call("comp_disable_time", {}, -1, GET));
REQUIRE_THROWS(proxy.Call("comp_disable_time", {"0"}, -1, PUT));
}
}
TEST_CASE("storagecells", "[.cmd]") { TEST_CASE("storagecells", "[.cmd]") {
Detector det; Detector det;
CmdProxy proxy(&det); CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash(); auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) { if (det_type == defs::JUNGFRAU) {
auto prev_val = det.getNumberOfAdditionalStorageCells().tsquash( // chip version 1.0
"inconsistent #additional storage cells to test"); if (det.getChipVersion().squash()*10 == 10) {
{ auto prev_val = det.getNumberOfAdditionalStorageCells().tsquash(
std::ostringstream oss; "inconsistent #additional storage cells to test");
proxy.Call("storagecells", {"1"}, -1, PUT, oss); {
REQUIRE(oss.str() == "storagecells 1\n"); std::ostringstream oss;
proxy.Call("storagecells", {"1"}, -1, PUT, oss);
REQUIRE(oss.str() == "storagecells 1\n");
}
{
std::ostringstream oss;
proxy.Call("storagecells", {"15"}, -1, PUT, oss);
REQUIRE(oss.str() == "storagecells 15\n");
}
{
std::ostringstream oss;
proxy.Call("storagecells", {"0"}, -1, PUT, oss);
REQUIRE(oss.str() == "storagecells 0\n");
}
{
std::ostringstream oss;
proxy.Call("storagecells", {}, -1, GET, oss);
REQUIRE(oss.str() == "storagecells 0\n");
}
REQUIRE_THROWS(proxy.Call("storagecells", {"16"}, -1, PUT));
det.setNumberOfAdditionalStorageCells(prev_val);
}
// chip version 1.1
else {
// cannot set number of addl. storage cells
REQUIRE_THROWS(proxy.Call("storagecells", {"1"}, -1, PUT));
} }
{
std::ostringstream oss;
proxy.Call("storagecells", {"15"}, -1, PUT, oss);
REQUIRE(oss.str() == "storagecells 15\n");
}
{
std::ostringstream oss;
proxy.Call("storagecells", {"0"}, -1, PUT, oss);
REQUIRE(oss.str() == "storagecells 0\n");
}
{
std::ostringstream oss;
proxy.Call("storagecells", {}, -1, GET, oss);
REQUIRE(oss.str() == "storagecells 0\n");
}
REQUIRE_THROWS(proxy.Call("storagecells", {"16"}, -1, PUT));
det.setNumberOfAdditionalStorageCells(prev_val);
} else { } else {
REQUIRE_THROWS(proxy.Call("storagecells", {}, -1, GET)); REQUIRE_THROWS(proxy.Call("storagecells", {}, -1, GET));
REQUIRE_THROWS(proxy.Call("storagecells", {"0"}, -1, PUT)); REQUIRE_THROWS(proxy.Call("storagecells", {"0"}, -1, PUT));
@ -317,10 +367,19 @@ TEST_CASE("storagecell_start", "[.cmd]") {
proxy.Call("storagecell_start", {"1"}, -1, PUT, oss); proxy.Call("storagecell_start", {"1"}, -1, PUT, oss);
REQUIRE(oss.str() == "storagecell_start 1\n"); REQUIRE(oss.str() == "storagecell_start 1\n");
} }
{ // chip version 1.0
if (det.getChipVersion().squash()*10 == 10) {
std::ostringstream oss; std::ostringstream oss;
proxy.Call("storagecell_start", {"15"}, -1, PUT, oss); proxy.Call("storagecell_start", {"15"}, -1, PUT, oss);
REQUIRE(oss.str() == "storagecell_start 15\n"); REQUIRE(oss.str() == "storagecell_start 15\n");
}
// chip version 1.1
else {
// max is 3
REQUIRE_THROWS(proxy.Call("storagecell_start", {"15"}, -1, PUT));
std::ostringstream oss;
proxy.Call("storagecell_start", {"3"}, -1, PUT, oss);
REQUIRE(oss.str() == "storagecell_start 3\n");
} }
{ {
std::ostringstream oss; std::ostringstream oss;
@ -347,28 +406,130 @@ TEST_CASE("storagecell_delay", "[.cmd]") {
CmdProxy proxy(&det); CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash(); auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) { if (det_type == defs::JUNGFRAU) {
auto prev_val = det.getStorageCellDelay(); // chip version 1.0
{ if (det.getChipVersion().squash()*10 == 10) {
std::ostringstream oss; auto prev_val = det.getStorageCellDelay();
proxy.Call("storagecell_delay", {"1.62ms"}, -1, PUT, oss); {
REQUIRE(oss.str() == "storagecell_delay 1.62ms\n"); std::ostringstream oss;
} proxy.Call("storagecell_delay", {"1.62ms"}, -1, PUT, oss);
{ REQUIRE(oss.str() == "storagecell_delay 1.62ms\n");
std::ostringstream oss; }
proxy.Call("storagecell_delay", {}, -1, GET, oss); {
REQUIRE(oss.str() == "storagecell_delay 1.62ms\n"); std::ostringstream oss;
} proxy.Call("storagecell_delay", {}, -1, GET, oss);
{ REQUIRE(oss.str() == "storagecell_delay 1.62ms\n");
std::ostringstream oss; }
proxy.Call("storagecell_delay", {"0"}, -1, PUT, oss); {
REQUIRE(oss.str() == "storagecell_delay 0\n"); std::ostringstream oss;
} proxy.Call("storagecell_delay", {"0"}, -1, PUT, oss);
REQUIRE_THROWS(proxy.Call("storagecell_delay", {"1638376ns"}, -1, PUT)); REQUIRE(oss.str() == "storagecell_delay 0\n");
for (int i = 0; i != det.size(); ++i) { }
det.setStorageCellDelay(prev_val[i], {i}); REQUIRE_THROWS(proxy.Call("storagecell_delay", {"1638376ns"}, -1, PUT));
for (int i = 0; i != det.size(); ++i) {
det.setStorageCellDelay(prev_val[i], {i});
}
}
// chip version 1.1
else {
// cannot set storage cell delay
REQUIRE_THROWS(proxy.Call("storagecell_delay", {"1.62ms"}, -1, PUT));
} }
} else { } else {
REQUIRE_THROWS(proxy.Call("storagecell_delay", {}, -1, GET)); REQUIRE_THROWS(proxy.Call("storagecell_delay", {}, -1, GET));
REQUIRE_THROWS(proxy.Call("storagecell_delay", {"0"}, -1, PUT)); REQUIRE_THROWS(proxy.Call("storagecell_delay", {"0"}, -1, PUT));
} }
} }
TEST_CASE("gainmode", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
auto prev_val = det.getGainMode();
{
std::ostringstream oss;
proxy.Call("gainmode", {"forceswitchg1"}, -1, PUT, oss);
REQUIRE(oss.str() == "gainmode forceswitchg1\n");
}
{
std::ostringstream oss;
proxy.Call("gainmode", {}, -1, GET, oss);
REQUIRE(oss.str() == "gainmode forceswitchg1\n");
}
{
std::ostringstream oss;
proxy.Call("gainmode", {"dynamic"}, -1, PUT, oss);
REQUIRE(oss.str() == "gainmode dynamic\n");
}
{
std::ostringstream oss;
proxy.Call("gainmode", {"forceswitchg2"}, -1, PUT, oss);
REQUIRE(oss.str() == "gainmode forceswitchg2\n");
}
{
std::ostringstream oss;
proxy.Call("gainmode", {"fixg1"}, -1, PUT, oss);
REQUIRE(oss.str() == "gainmode fixg1\n");
}
{
std::ostringstream oss;
proxy.Call("gainmode", {"fixg2"}, -1, PUT, oss);
REQUIRE(oss.str() == "gainmode fixg2\n");
}
{
std::ostringstream oss;
proxy.Call("gainmode", {"fixg0"}, -1, PUT, oss);
REQUIRE(oss.str() == "gainmode fixg0\n");
}
for (int i = 0; i != det.size(); ++i) {
det.setGainMode(prev_val[i], {i});
}
} else {
REQUIRE_THROWS(proxy.Call("gainmode", {}, -1, GET));
}
}
TEST_CASE("filtercell", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
// chip version 1.1
if (det.getChipVersion().squash() * 10 == 11) {
auto prev_val = det.getFilterCell();
{
std::ostringstream oss;
proxy.Call("filtercell", {"1"}, -1, PUT, oss);
REQUIRE(oss.str() == "filtercell 1\n");
}
{
std::ostringstream oss;
proxy.Call("filtercell", {"12"}, -1, PUT, oss);
REQUIRE(oss.str() == "filtercell 12\n");
}
{
std::ostringstream oss;
proxy.Call("filtercell", {"0"}, -1, PUT, oss);
REQUIRE(oss.str() == "filtercell 0\n");
}
{
std::ostringstream oss;
proxy.Call("filtercell", {}, -1, GET, oss);
REQUIRE(oss.str() == "filtercell 0\n");
}
REQUIRE_THROWS(proxy.Call("filtercell", {"13"}, -1, PUT));
for (int i = 0; i != det.size(); ++i) {
det.setFilterCell(prev_val[i], {i});
}
}
// chip version 1.0
else {
// cannot set/get filter cell
REQUIRE_THROWS(proxy.Call("filtercell", {"1"}, -1, PUT));
REQUIRE_THROWS(proxy.Call("filtercell", {}, -1, GET));
}
} else {
REQUIRE_THROWS(proxy.Call("filtercell", {}, -1, GET));
REQUIRE_THROWS(proxy.Call("filtercell", {"0"}, -1, PUT));
}
}

View File

@ -142,15 +142,35 @@ TEST_CASE("settings", "[.cmd]") {
Detector det; Detector det;
CmdProxy proxy(&det); CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash(); auto det_type = det.getDetectorType().squash();
std::vector<std::string> allSett;
allSett.push_back("standard");
allSett.push_back("fast");
allSett.push_back("highgain");
allSett.push_back("dynamicgain");
allSett.push_back("lowgain");
allSett.push_back("mediumgain");
allSett.push_back("veryhighgain");
allSett.push_back("highgain0");
allSett.push_back("fixgain1");
allSett.push_back("fixgain2");
allSett.push_back("verylowgain");
allSett.push_back("g1_hg");
allSett.push_back("g1_lg");
allSett.push_back("g2_hc_hg");
allSett.push_back("g2_hc_lg");
allSett.push_back("g2_lc_hg");
allSett.push_back("g2_lc_lg");
allSett.push_back("g4_hg");
allSett.push_back("g4_lg");
allSett.push_back("forceswitchg1");
allSett.push_back("forceswitchg2");
allSett.push_back("gain0");
std::vector<std::string> sett; std::vector<std::string> sett;
switch (det_type) { switch (det_type) {
case defs::JUNGFRAU: case defs::JUNGFRAU:
sett.push_back("dynamicgain"); sett.push_back("gain0");
sett.push_back("dynamichg0"); sett.push_back("highgain0");
sett.push_back("fixgain1");
sett.push_back("fixgain2");
sett.push_back("forceswitchg1");
sett.push_back("forceswitchg2");
break; break;
case defs::GOTTHARD: case defs::GOTTHARD:
sett.push_back("highgain"); sett.push_back("highgain");
@ -203,6 +223,11 @@ TEST_CASE("settings", "[.cmd]") {
REQUIRE(oss.str() == "settings " + it + "\n"); REQUIRE(oss.str() == "settings " + it + "\n");
} }
} }
for (auto &it : allSett) {
if (std::find(sett.begin(), sett.end(), it) == sett.end()) {
REQUIRE_THROWS(proxy.Call("settings", {it}, -1, PUT));
}
}
for (int i = 0; i != det.size(); ++i) { for (int i = 0; i != det.size(); ++i) {
if (prev_val[i] != defs::UNDEFINED && if (prev_val[i] != defs::UNDEFINED &&
prev_val[i] != defs::UNINITIALIZED) { prev_val[i] != defs::UNINITIALIZED) {
@ -485,6 +510,34 @@ TEST_CASE("gappixels", "[.cmd]") {
} }
} }
TEST_CASE("fliprows", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU) {
auto previous = det.getFlipRows();
auto previous_numudp = det.getNumberofUDPInterfaces();
if (det_type == defs::JUNGFRAU) {
det.setNumberofUDPInterfaces(2);
}
std::ostringstream oss1, oss2, oss3;
proxy.Call("fliprows", {"1"}, -1, PUT, oss1);
REQUIRE(oss1.str() == "fliprows 1\n");
proxy.Call("fliprows", {}, -1, GET, oss2);
REQUIRE(oss2.str() == "fliprows 1\n");
proxy.Call("fliprows", {"0"}, -1, PUT, oss3);
REQUIRE(oss3.str() == "fliprows 0\n");
for (int i = 0; i != det.size(); ++i) {
det.setFlipRows(previous[i], {i});
if (det_type == defs::JUNGFRAU) {
det.setNumberofUDPInterfaces(previous_numudp[i], {i});
}
}
} else {
REQUIRE_THROWS(proxy.Call("fliprows", {}, -1, GET));
}
}
/* acquisition parameters */ /* acquisition parameters */
// acquire: not testing // acquire: not testing
@ -1326,6 +1379,187 @@ TEST_CASE("parallel", "[.cmd]") {
} }
} }
TEST_CASE("filterresistor", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
// only for chipv1.1
bool chip11 = false;
if (det_type == defs::JUNGFRAU &&
det.getChipVersion().squash() * 10 == 11) {
chip11 = true;
}
if (det_type == defs::GOTTHARD2 || chip11) {
auto prev_val = det.getFilterResistor();
{
std::ostringstream oss;
proxy.Call("filterresistor", {"1"}, -1, PUT, oss);
REQUIRE(oss.str() == "filterresistor 1\n");
}
{
std::ostringstream oss;
proxy.Call("filterresistor", {"0"}, -1, PUT, oss);
REQUIRE(oss.str() == "filterresistor 0\n");
}
{
std::ostringstream oss;
proxy.Call("filterresistor", {}, -1, GET, oss);
REQUIRE(oss.str() == "filterresistor 0\n");
}
if (det_type == defs::GOTTHARD2) {
REQUIRE_NOTHROW(proxy.Call("filterresistor", {"2"}, -1, PUT));
REQUIRE_NOTHROW(proxy.Call("filterresistor", {"3"}, -1, PUT));
} else {
REQUIRE_THROWS(proxy.Call("filterresistor", {"2"}, -1, PUT));
REQUIRE_THROWS(proxy.Call("filterresistor", {"3"}, -1, PUT));
}
for (int i = 0; i != det.size(); ++i) {
det.setFilterResistor(prev_val[i], {i});
}
} else {
REQUIRE_THROWS(proxy.Call("filterresistor", {}, -1, GET));
}
}
TEST_CASE("currentsource", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::GOTTHARD2 || det_type == defs::JUNGFRAU) {
auto prev_val = det.getCurrentSource();
if (det_type == defs::GOTTHARD2) {
{
std::ostringstream oss;
proxy.Call("currentsource", {"1"}, -1, PUT, oss);
REQUIRE(oss.str() == "currentsource 1\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {"0"}, -1, PUT, oss);
REQUIRE(oss.str() == "currentsource 0\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {}, -1, GET, oss);
REQUIRE(oss.str() == "currentsource 0\n");
}
REQUIRE_THROWS(
proxy.Call("currentsource", {"1", "fix", "42"}, -1, PUT));
REQUIRE_THROWS(proxy.Call("currentsource",
{"1", "fix", "42", "normal"}, -1, PUT));
}
// jungfrau
else {
int chipVersion = det.getChipVersion().tsquash(
"inconsistent chip versions to test") *
10;
if (chipVersion == 10) {
REQUIRE_THROWS(proxy.Call("currentsource", {"1"}, -1, PUT));
REQUIRE_THROWS(
proxy.Call("currentsource", {"1", "fix"}, -1, PUT));
REQUIRE_THROWS(
proxy.Call("currentsource", {"1", "fix", "64"}, -1, PUT));
REQUIRE_THROWS(
proxy.Call("currentsource", {"1", "dfg", "64"}, -1, PUT));
REQUIRE_THROWS(proxy.Call(
"currentsource", {"1", "fix", "63", "normal"}, -1, PUT));
{
std::ostringstream oss;
proxy.Call("currentsource", {"1", "fix", "63"}, -1, PUT,
oss);
REQUIRE(oss.str() == "currentsource [1, fix, 63]\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {"0"}, -1, PUT, oss);
REQUIRE(oss.str() == "currentsource [0]\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {}, -1, GET, oss);
REQUIRE(oss.str() == "currentsource [disabled]\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {"1", "nofix", "63"}, -1, PUT,
oss);
REQUIRE(oss.str() == "currentsource [1, nofix, 63]\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {}, -1, GET, oss);
REQUIRE(oss.str() ==
"currentsource [enabled, nofix, 63]\n");
}
}
// chipv1.1
else {
REQUIRE_THROWS(proxy.Call("currentsource", {"1"}, -1, PUT));
REQUIRE_THROWS(
proxy.Call("currentsource", {"1", "fix"}, -1, PUT));
REQUIRE_THROWS(proxy.Call(
"currentsource", {"1", "ffgdfgix", "0x0000000000000041"},
-1, PUT));
REQUIRE_THROWS(proxy.Call(
"currentsource",
{"1", "fix", "0x0000000000000041", "normaldgf"}, -1, PUT));
{
std::ostringstream oss;
proxy.Call("currentsource",
{"1", "fix", "0x0000000000000041", "normal"}, -1,
PUT, oss);
REQUIRE(
oss.str() ==
"currentsource [1, fix, 0x0000000000000041, normal]\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {"0"}, -1, PUT, oss);
REQUIRE(oss.str() == "currentsource [0]\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {}, -1, GET, oss);
REQUIRE(oss.str() == "currentsource [disabled]\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource",
{"1", "nofix", "0x0000000000000041", "normal"},
-1, PUT, oss);
REQUIRE(oss.str() == "currentsource [1, nofix, "
"0x0000000000000041, normal]\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource", {}, -1, GET, oss);
REQUIRE(oss.str() == "currentsource [enabled, nofix, "
"0x0000000000000041, normal]\n");
}
{
std::ostringstream oss;
proxy.Call("currentsource",
{"1", "nofix", "0x0000000000000041", "low"}, -1,
PUT, oss);
REQUIRE(
oss.str() ==
"currentsource [1, nofix, 0x0000000000000041, low]\n");
}
}
}
for (int i = 0; i != det.size(); ++i) {
det.setCurrentSource(prev_val[i], {i});
}
} else {
REQUIRE_THROWS(proxy.Call("currentsource", {}, -1, GET));
}
}
/** temperature */ /** temperature */
TEST_CASE("templist", "[.cmd]") { TEST_CASE("templist", "[.cmd]") {
@ -1389,16 +1623,84 @@ TEST_CASE("dacvalues", "[.cmd]") {
REQUIRE_THROWS(proxy.Call("dacvalues", {}, -1, PUT)); REQUIRE_THROWS(proxy.Call("dacvalues", {}, -1, PUT));
} }
TEST_CASE("defaultdacs", "[.cmd]") { TEST_CASE("defaultdac", "[.cmd]") {
Detector det; Detector det;
CmdProxy proxy(&det); CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash(); auto det_type = det.getDetectorType().squash();
if (det_type != defs::CHIPTESTBOARD) { if (det_type != defs::CHIPTESTBOARD) {
REQUIRE_THROWS(proxy.Call("defaultdacs", {}, -1, GET)); REQUIRE_THROWS(proxy.Call("defaultdac", {}, -1, GET));
REQUIRE_NOTHROW(proxy.Call("defaultdacs", {}, -1, PUT)); REQUIRE_THROWS(proxy.Call("defaultdac", {"blabla"}, -1, PUT));
auto daclist = det.getDacList();
for (auto it : daclist) {
auto dacname = sls::ToString(it);
auto prev_val = det.getDefaultDac(it);
{
std::ostringstream oss;
proxy.Call("defaultdac", {dacname, "1000"}, -1, PUT, oss);
REQUIRE(oss.str() == std::string("defaultdac ") + dacname +
std::string(" 1000\n"));
}
{
std::ostringstream oss;
proxy.Call("defaultdac", {dacname}, -1, GET, oss);
REQUIRE(oss.str() == std::string("defaultdac ") + dacname +
std::string(" 1000\n"));
}
for (int i = 0; i != det.size(); ++i) {
det.setDefaultDac(it, prev_val[i], {i});
}
}
if (det_type == defs::JUNGFRAU) {
std::vector<defs::dacIndex> daclist = {defs::VB_COMP, defs::VREF_DS,
defs::VREF_COMP};
for (auto it : daclist) {
auto dacname = sls::ToString(it);
auto prev_val = det.getDefaultDac(it, defs::DYNAMICGAIN);
{
std::ostringstream oss;
proxy.Call("defaultdac", {dacname, "1000", "dynamicgain"}, -1,
PUT, oss);
REQUIRE(oss.str() ==
std::string("defaultdac ") + dacname +
std::string(" dynamicgain 1000\n"));
}
{
std::ostringstream oss;
proxy.Call("defaultdac", {dacname, "dynamicgain"}, -1, GET,
oss);
REQUIRE(oss.str() ==
std::string("defaultdac ") + dacname +
std::string(" dynamicgain 1000\n"));
}
for (int i = 0; i != det.size(); ++i) {
det.setDefaultDac(it, prev_val[i], defs::DYNAMICGAIN, {i});
}
}
}
} else { } else {
REQUIRE_THROWS(proxy.Call("defaultdacs", {}, -1, GET)); REQUIRE_THROWS(proxy.Call("defaultdac", {}, -1, GET));
REQUIRE_THROWS(proxy.Call("defaultdacs", {}, -1, PUT)); }
}
TEST_CASE("resetdacs", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type != defs::CHIPTESTBOARD) {
auto prev_val = det.getSettings();
REQUIRE_THROWS(proxy.Call("resetdacs", {}, -1, GET));
REQUIRE_NOTHROW(proxy.Call("resetdacs", {}, -1, PUT));
REQUIRE_NOTHROW(proxy.Call("resetdacs", {"hard"}, -1, PUT));
// settings should not change especially for jungfrau and m3
auto next_val = det.getSettings();
for (int i = 0; i != det.size(); ++i) {
REQUIRE(prev_val[i] == next_val[i]);
}
} else {
REQUIRE_THROWS(proxy.Call("resetdacs", {}, -1, GET));
REQUIRE_THROWS(proxy.Call("resetdacs", {}, -1, PUT));
} }
} }

View File

@ -156,7 +156,8 @@ int ClientInterface::functionTable(){
flist[F_SET_RECEIVER_STREAMING] = &ClientInterface::set_streaming; flist[F_SET_RECEIVER_STREAMING] = &ClientInterface::set_streaming;
flist[F_GET_RECEIVER_STREAMING] = &ClientInterface::get_streaming; flist[F_GET_RECEIVER_STREAMING] = &ClientInterface::get_streaming;
flist[F_RECEIVER_STREAMING_TIMER] = &ClientInterface::set_streaming_timer; flist[F_RECEIVER_STREAMING_TIMER] = &ClientInterface::set_streaming_timer;
flist[F_SET_FLIPPED_DATA_RECEIVER] = &ClientInterface::set_flipped_data; flist[F_GET_FLIP_ROWS_RECEIVER] = &ClientInterface::get_flip_rows;
flist[F_SET_FLIP_ROWS_RECEIVER] = &ClientInterface::set_flip_rows;
flist[F_SET_RECEIVER_FILE_FORMAT] = &ClientInterface::set_file_format; flist[F_SET_RECEIVER_FILE_FORMAT] = &ClientInterface::set_file_format;
flist[F_GET_RECEIVER_FILE_FORMAT] = &ClientInterface::get_file_format; flist[F_GET_RECEIVER_FILE_FORMAT] = &ClientInterface::get_file_format;
flist[F_SET_RECEIVER_STREAMING_PORT] = &ClientInterface::set_streaming_port; flist[F_SET_RECEIVER_STREAMING_PORT] = &ClientInterface::set_streaming_port;
@ -1020,21 +1021,33 @@ int ClientInterface::set_streaming_timer(Interface &socket) {
return socket.sendResult(retval); return socket.sendResult(retval);
} }
int ClientInterface::set_flipped_data(Interface &socket) { int ClientInterface::get_flip_rows(Interface &socket) {
if (myDetectorType != EIGER)
functionNotImplemented();
int retval = impl()->getFlipRows();
LOG(logDEBUG1) << "Flip rows:" << retval;
return socket.sendResult(retval);
}
int ClientInterface::set_flip_rows(Interface &socket) {
auto arg = socket.Receive<int>(); auto arg = socket.Receive<int>();
if (myDetectorType != EIGER) if (myDetectorType != EIGER)
functionNotImplemented(); functionNotImplemented();
if (arg >= 0) { if (arg != 0 && arg != 1) {
verifyIdle(socket); throw RuntimeError("Could not set flip rows. Invalid argument: " +
LOG(logDEBUG1) << "Setting flipped data:" << arg; std::to_string(arg));
impl()->setFlippedDataX(arg);
} }
int retval = impl()->getFlippedDataX(); verifyIdle(socket);
validate(arg, retval, std::string("set flipped data"), DEC); LOG(logDEBUG1) << "Setting flip rows:" << arg;
LOG(logDEBUG1) << "Flipped Data:" << retval; impl()->setFlipRows(static_cast<bool>(arg));
return socket.sendResult(retval);
int retval = impl()->getFlipRows();
validate(arg, retval, std::string("set flip rows"), DEC);
LOG(logDEBUG1) << "Flip rows:" << retval;
return socket.sendResult(retval);
} }
int ClientInterface::set_file_format(Interface &socket) { int ClientInterface::set_file_format(Interface &socket) {

View File

@ -107,7 +107,8 @@ class ClientInterface : private virtual slsDetectorDefs {
int set_streaming(sls::ServerInterface &socket); int set_streaming(sls::ServerInterface &socket);
int get_streaming(sls::ServerInterface &socket); int get_streaming(sls::ServerInterface &socket);
int set_streaming_timer(sls::ServerInterface &socket); int set_streaming_timer(sls::ServerInterface &socket);
int set_flipped_data(sls::ServerInterface &socket); int get_flip_rows(sls::ServerInterface &socket);
int set_flip_rows(sls::ServerInterface &socket);
int set_file_format(sls::ServerInterface &socket); int set_file_format(sls::ServerInterface &socket);
int get_file_format(sls::ServerInterface &socket); int get_file_format(sls::ServerInterface &socket);
int set_streaming_port(sls::ServerInterface &socket); int set_streaming_port(sls::ServerInterface &socket);

View File

@ -15,9 +15,9 @@
const std::string DataStreamer::TypeName = "DataStreamer"; const std::string DataStreamer::TypeName = "DataStreamer";
DataStreamer::DataStreamer(int ind, Fifo *f, uint32_t *dr, ROI *r, uint64_t *fi, DataStreamer::DataStreamer(int ind, Fifo *f, uint32_t *dr, ROI *r, uint64_t *fi,
int fd, int *nm, bool *qe, uint64_t *tot) bool fr, int *nm, bool *qe, uint64_t *tot)
: ThreadObject(ind, TypeName), fifo(f), dynamicRange(dr), roi(r), : ThreadObject(ind, TypeName), fifo(f), dynamicRange(dr), roi(r),
fileIndex(fi), flippedDataX(fd), quadEnable(qe), totalNumFrames(tot) { fileIndex(fi), flipRows(fr), quadEnable(qe), totalNumFrames(tot) {
numMods[0] = nm[0]; numMods[0] = nm[0];
numMods[1] = nm[1]; numMods[1] = nm[1];
@ -65,7 +65,7 @@ void DataStreamer::SetNumberofModules(int *nm) {
numMods[1] = nm[1]; numMods[1] = nm[1];
} }
void DataStreamer::SetFlippedDataX(int fd) { flippedDataX = fd; } void DataStreamer::SetFlipRows(bool fd) { flipRows = fd; }
void DataStreamer::SetAdditionalJsonHeader( void DataStreamer::SetAdditionalJsonHeader(
const std::map<std::string, std::string> &json) { const std::map<std::string, std::string> &json) {
@ -240,7 +240,7 @@ int DataStreamer::SendHeader(sls_receiver_header *rheader, uint32_t size,
zHeader.roundRNumber = header.roundRNumber; zHeader.roundRNumber = header.roundRNumber;
zHeader.detType = header.detType; zHeader.detType = header.detType;
zHeader.version = header.version; zHeader.version = header.version;
zHeader.flippedDataX = flippedDataX; zHeader.flipRows = static_cast<int>(flipRows);
zHeader.quad = *quadEnable; zHeader.quad = *quadEnable;
zHeader.completeImage = zHeader.completeImage =
(header.packetNumber < generalData->packetsPerFrame ? false : true); (header.packetNumber < generalData->packetsPerFrame ? false : true);

View File

@ -30,12 +30,12 @@ class DataStreamer : private virtual slsDetectorDefs, public ThreadObject {
* @param dr pointer to dynamic range * @param dr pointer to dynamic range
* @param r roi * @param r roi
* @param fi pointer to file index * @param fi pointer to file index
* @param fd flipped data enable for x dimension * @param fr flip rows
* @param nm pointer to number of modules in each dimension * @param nm pointer to number of modules in each dimension
* @param qe pointer to quad Enable * @param qe pointer to quad Enable
* @param tot pointer to total number of frames * @param tot pointer to total number of frames
*/ */
DataStreamer(int ind, Fifo *f, uint32_t *dr, ROI *r, uint64_t *fi, int fd, DataStreamer(int ind, Fifo *f, uint32_t *dr, ROI *r, uint64_t *fi, bool fr,
int *nm, bool *qe, uint64_t *tot); int *nm, bool *qe, uint64_t *tot);
/** /**
@ -68,10 +68,10 @@ class DataStreamer : private virtual slsDetectorDefs, public ThreadObject {
void SetNumberofModules(int *nm); void SetNumberofModules(int *nm);
/** /**
* Set Flipped data enable across x dimension * Set Flipped rows
* @param fd data enable in x dimension * @param fd flip rows enable
*/ */
void SetFlippedDataX(int fd); void SetFlipRows(bool fd);
/** /**
* Set additional json header * Set additional json header
@ -165,8 +165,8 @@ class DataStreamer : private virtual slsDetectorDefs, public ThreadObject {
/** Pointer to file index */ /** Pointer to file index */
uint64_t *fileIndex; uint64_t *fileIndex;
/** flipped data across x axis */ /** flip rows */
int flippedDataX; bool flipRows;
/** additional json header */ /** additional json header */
std::map<std::string, std::string> additionalJsonHeader; std::map<std::string, std::string> additionalJsonHeader;

View File

@ -893,15 +893,15 @@ void Implementation::setNumberofUDPInterfaces(const int n) {
// streamer threads // streamer threads
if (dataStreamEnable) { if (dataStreamEnable) {
try { try {
int fd = flippedDataX; bool flip = flipRows;
int nm[2] = {numMods[0], numMods[1]}; int nm[2] = {numMods[0], numMods[1]};
if (quadEnable) { if (quadEnable) {
fd = i; flip = (i == 1 ? true : false);
nm[0] = 1; nm[0] = 1;
nm[1] = 2; nm[1] = 2;
} }
dataStreamer.push_back(sls::make_unique<DataStreamer>( dataStreamer.push_back(sls::make_unique<DataStreamer>(
i, fifo[i].get(), &dynamicRange, &roi, &fileIndex, fd, i, fifo[i].get(), &dynamicRange, &roi, &fileIndex, flip,
(int *)nm, &quadEnable, &numberOfTotalFrames)); (int *)nm, &quadEnable, &numberOfTotalFrames));
dataStreamer[i]->SetGeneralData(generalData); dataStreamer[i]->SetGeneralData(generalData);
dataStreamer[i]->CreateZmqSockets( dataStreamer[i]->CreateZmqSockets(
@ -1022,15 +1022,15 @@ void Implementation::setDataStreamEnable(const bool enable) {
if (enable) { if (enable) {
for (int i = 0; i < numThreads; ++i) { for (int i = 0; i < numThreads; ++i) {
try { try {
int fd = flippedDataX; bool flip = flipRows;
int nm[2] = {numMods[0], numMods[1]}; int nm[2] = {numMods[0], numMods[1]};
if (quadEnable) { if (quadEnable) {
fd = i; flip = (i == 1 ? true : false);
nm[0] = 1; nm[0] = 1;
nm[1] = 2; nm[1] = 2;
} }
dataStreamer.push_back(sls::make_unique<DataStreamer>( dataStreamer.push_back(sls::make_unique<DataStreamer>(
i, fifo[i].get(), &dynamicRange, &roi, &fileIndex, fd, i, fifo[i].get(), &dynamicRange, &roi, &fileIndex, flip,
(int *)nm, &quadEnable, &numberOfTotalFrames)); (int *)nm, &quadEnable, &numberOfTotalFrames));
dataStreamer[i]->SetGeneralData(generalData); dataStreamer[i]->SetGeneralData(generalData);
dataStreamer[i]->CreateZmqSockets( dataStreamer[i]->CreateZmqSockets(
@ -1458,22 +1458,24 @@ void Implementation::setTenGigaEnable(const bool b) {
LOG(logINFO) << "Packets per Frame: " << (generalData->packetsPerFrame); LOG(logINFO) << "Packets per Frame: " << (generalData->packetsPerFrame);
} }
int Implementation::getFlippedDataX() const { return flippedDataX; } bool Implementation::getFlipRows() const { return flipRows; }
void Implementation::setFlippedDataX(int enable) { void Implementation::setFlipRows(bool enable) {
flippedDataX = (enable == 0) ? 0 : 1; flipRows = enable;
if (!quadEnable) { if (!quadEnable) {
for (const auto &it : dataStreamer) { for (const auto &it : dataStreamer) {
it->SetFlippedDataX(flippedDataX); it->SetFlipRows(flipRows);
}
} else {
if (dataStreamer.size() == 2) {
dataStreamer[0]->SetFlippedDataX(0);
dataStreamer[1]->SetFlippedDataX(1);
} }
} }
LOG(logINFO) << "Flipped Data X: " << flippedDataX; // quad
else {
if (dataStreamer.size() == 2) {
dataStreamer[0]->SetFlipRows(false);
dataStreamer[1]->SetFlipRows(true);
}
}
LOG(logINFO) << "Flip Rows: " << flipRows;
} }
bool Implementation::getQuad() const { return quadEnable; } bool Implementation::getQuad() const { return quadEnable; }
@ -1485,7 +1487,7 @@ void Implementation::setQuad(const bool b) {
if (!quadEnable) { if (!quadEnable) {
for (const auto &it : dataStreamer) { for (const auto &it : dataStreamer) {
it->SetNumberofModules(numMods); it->SetNumberofModules(numMods);
it->SetFlippedDataX(flippedDataX); it->SetFlipRows(flipRows);
} }
} else { } else {
int size[2] = {1, 2}; int size[2] = {1, 2};
@ -1493,8 +1495,8 @@ void Implementation::setQuad(const bool b) {
it->SetNumberofModules(size); it->SetNumberofModules(size);
} }
if (dataStreamer.size() == 2) { if (dataStreamer.size() == 2) {
dataStreamer[0]->SetFlippedDataX(0); dataStreamer[0]->SetFlipRows(false);
dataStreamer[1]->SetFlippedDataX(1); dataStreamer[1]->SetFlipRows(true);
} }
} }
} }

View File

@ -202,8 +202,8 @@ class Implementation : private virtual slsDetectorDefs {
bool getTenGigaEnable() const; bool getTenGigaEnable() const;
/* [Eiger][Ctb] */ /* [Eiger][Ctb] */
void setTenGigaEnable(const bool b); void setTenGigaEnable(const bool b);
int getFlippedDataX() const; bool getFlipRows() const;
void setFlippedDataX(int enable = -1); void setFlipRows(bool enable);
bool getQuad() const; bool getQuad() const;
/* [Eiger] */ /* [Eiger] */
void setQuad(const bool b); void setQuad(const bool b);
@ -347,7 +347,7 @@ class Implementation : private virtual slsDetectorDefs {
uint32_t dynamicRange{16}; uint32_t dynamicRange{16};
ROI roi{}; ROI roi{};
bool tengigaEnable{false}; bool tengigaEnable{false};
int flippedDataX{0}; bool flipRows{false};
bool quadEnable{false}; bool quadEnable{false};
bool activated{true}; bool activated{true};
std::array<bool, 2> detectorDataStream = {{true, true}}; std::array<bool, 2> detectorDataStream = {{true, true}};

View File

@ -40,6 +40,7 @@ std::string ToString(const defs::M3_GainCaps s);
std::string ToString(const defs::portPosition s); std::string ToString(const defs::portPosition s);
std::string ToString(const defs::streamingInterface s); std::string ToString(const defs::streamingInterface s);
std::string ToString(const defs::vetoAlgorithm s); std::string ToString(const defs::vetoAlgorithm s);
std::string ToString(const defs::gainMode s);
std::string ToString(const slsDetectorDefs::xy &coord); std::string ToString(const slsDetectorDefs::xy &coord);
std::ostream &operator<<(std::ostream &os, const slsDetectorDefs::xy &coord); std::ostream &operator<<(std::ostream &os, const slsDetectorDefs::xy &coord);
@ -51,7 +52,12 @@ std::ostream &operator<<(std::ostream &os,
std::string ToString(const slsDetectorDefs::scanParameters &r); std::string ToString(const slsDetectorDefs::scanParameters &r);
std::ostream &operator<<(std::ostream &os, std::ostream &operator<<(std::ostream &os,
const slsDetectorDefs::scanParameters &r); const slsDetectorDefs::scanParameters &r);
std::string ToString(const slsDetectorDefs::currentSrcParameters &r);
std::ostream &operator<<(std::ostream &os,
const slsDetectorDefs::currentSrcParameters &r);
const std::string &ToString(const std::string &s); const std::string &ToString(const std::string &s);
/** Convert std::chrono::duration with specified output unit */ /** Convert std::chrono::duration with specified output unit */
template <typename T, typename Rep = double> template <typename T, typename Rep = double>
typename std::enable_if<is_duration<T>::value, std::string>::type typename std::enable_if<is_duration<T>::value, std::string>::type
@ -305,6 +311,7 @@ template <> defs::M3_GainCaps StringTo(const std::string &s);
template <> defs::portPosition StringTo(const std::string &s); template <> defs::portPosition StringTo(const std::string &s);
template <> defs::streamingInterface StringTo(const std::string &s); template <> defs::streamingInterface StringTo(const std::string &s);
template <> defs::vetoAlgorithm StringTo(const std::string &s); template <> defs::vetoAlgorithm StringTo(const std::string &s);
template <> defs::gainMode StringTo(const std::string &s);
template <> uint32_t StringTo(const std::string &s); template <> uint32_t StringTo(const std::string &s);
template <> uint64_t StringTo(const std::string &s); template <> uint64_t StringTo(const std::string &s);

View File

@ -58,8 +58,8 @@ struct zmqHeader {
uint16_t roundRNumber{0}; uint16_t roundRNumber{0};
uint8_t detType{0}; uint8_t detType{0};
uint8_t version{0}; uint8_t version{0};
/** if image should be flipped across x axis */ /** if rows of image should be flipped */
int flippedDataX{0}; int flipRows{0};
/** quad type (eiger hardware specific) */ /** quad type (eiger hardware specific) */
uint32_t quad{0}; uint32_t quad{0};
/** true if complete image, else missing packets */ /** true if complete image, else missing packets */

View File

@ -345,11 +345,9 @@ typedef struct {
LOWGAIN, LOWGAIN,
MEDIUMGAIN, MEDIUMGAIN,
VERYHIGHGAIN, VERYHIGHGAIN,
DYNAMICHG0, HIGHGAIN0,
FIXGAIN1, FIXGAIN1,
FIXGAIN2, FIXGAIN2,
FORCESWITCHG1,
FORCESWITCHG2,
VERYLOWGAIN, VERYLOWGAIN,
G1_HIGHGAIN, G1_HIGHGAIN,
G1_LOWGAIN, G1_LOWGAIN,
@ -359,6 +357,7 @@ typedef struct {
G2_LOWCAP_LOWGAIN, G2_LOWCAP_LOWGAIN,
G4_HIGHGAIN, G4_HIGHGAIN,
G4_LOWGAIN, G4_LOWGAIN,
GAIN0,
UNDEFINED = 200, UNDEFINED = 200,
UNINITIALIZED UNINITIALIZED
}; };
@ -416,6 +415,15 @@ typedef struct {
enum vetoAlgorithm { DEFAULT_ALGORITHM }; enum vetoAlgorithm { DEFAULT_ALGORITHM };
enum gainMode {
DYNAMIC,
FORCE_SWITCH_G1,
FORCE_SWITCH_G2,
FIX_G1,
FIX_G2,
FIX_G0
};
#ifdef __cplusplus #ifdef __cplusplus
/** scan structure */ /** scan structure */
@ -448,6 +456,39 @@ typedef struct {
} }
} __attribute__((packed)); } __attribute__((packed));
struct currentSrcParameters {
int enable;
int fix;
int normal;
uint64_t select;
/** [Gotthard2][Jungfrau] disable */
currentSrcParameters() : enable(0), fix(-1), normal(-1), select(0) {}
/** [Gotthard2] enable or disable */
currentSrcParameters(bool ena)
: enable(static_cast<int>(ena)), fix(-1), normal(-1), select(0) {}
/** [Jungfrau](chipv1.0) enable current src with fix or no fix,
* selectColumn is 0 to 63 columns only */
currentSrcParameters(bool fixCurrent, uint64_t selectColumn)
: enable(1), fix(static_cast<int>(fixCurrent)), normal(-1),
select(selectColumn) {}
/** [Jungfrau](chipv1.1) enable current src, fixCurrent[fix|no fix],
* selectColumn is a mask of 63 bits (muliple columns can be selected
* simultaneously, normalCurrent [normal|low] */
currentSrcParameters(bool fixCurrent, uint64_t selectColumn,
bool normalCurrent)
: enable(1), fix(static_cast<int>(fixCurrent)),
normal(static_cast<int>(normalCurrent)), select(selectColumn) {}
bool operator==(const currentSrcParameters &other) const {
return ((enable == other.enable) && (fix == other.fix) &&
(normal == other.normal) && (select == other.select));
}
} __attribute__((packed));
/** /**
* structure to udpate receiver * structure to udpate receiver
*/ */

View File

@ -205,8 +205,8 @@ enum detFuncs {
F_GET_SCAN_ERROR_MESSAGE, F_GET_SCAN_ERROR_MESSAGE,
F_GET_CDS_GAIN, F_GET_CDS_GAIN,
F_SET_CDS_GAIN, F_SET_CDS_GAIN,
F_GET_FILTER, F_GET_FILTER_RESISTOR,
F_SET_FILTER, F_SET_FILTER_RESISTOR,
F_GET_ADC_CONFIGURATION, F_GET_ADC_CONFIGURATION,
F_SET_ADC_CONFIGURATION, F_SET_ADC_CONFIGURATION,
F_GET_BAD_CHANNELS, F_GET_BAD_CHANNELS,
@ -215,7 +215,7 @@ enum detFuncs {
F_VALIDATE_UDP_CONFIG, F_VALIDATE_UDP_CONFIG,
F_GET_BURSTS_LEFT, F_GET_BURSTS_LEFT,
F_START_READOUT, F_START_READOUT,
F_SET_DEFAULT_DACS, F_RESET_TO_DEFAULT_DACS,
F_IS_VIRTUAL, F_IS_VIRTUAL,
F_GET_PATTERN, F_GET_PATTERN,
F_LOAD_DEFAULT_PATTERN, F_LOAD_DEFAULT_PATTERN,
@ -230,6 +230,17 @@ enum detFuncs {
F_SET_VETO_STREAM, F_SET_VETO_STREAM,
F_GET_VETO_ALGORITHM, F_GET_VETO_ALGORITHM,
F_SET_VETO_ALGORITHM, F_SET_VETO_ALGORITHM,
F_GET_CHIP_VERSION,
F_GET_DEFAULT_DAC,
F_SET_DEFAULT_DAC,
F_GET_GAIN_MODE,
F_SET_GAIN_MODE,
F_GET_COMP_DISABLE_TIME,
F_SET_COMP_DISABLE_TIME,
F_GET_FLIP_ROWS,
F_SET_FLIP_ROWS,
F_GET_FILTER_CELL,
F_SET_FILTER_CELL,
NUM_DET_FUNCTIONS, NUM_DET_FUNCTIONS,
RECEIVER_ENUM_START = 256, /**< detector function should not exceed this RECEIVER_ENUM_START = 256, /**< detector function should not exceed this
@ -280,7 +291,8 @@ enum detFuncs {
F_SET_RECEIVER_STREAMING, F_SET_RECEIVER_STREAMING,
F_GET_RECEIVER_STREAMING, F_GET_RECEIVER_STREAMING,
F_RECEIVER_STREAMING_TIMER, F_RECEIVER_STREAMING_TIMER,
F_SET_FLIPPED_DATA_RECEIVER, F_GET_FLIP_ROWS_RECEIVER,
F_SET_FLIP_ROWS_RECEIVER,
F_SET_RECEIVER_FILE_FORMAT, F_SET_RECEIVER_FILE_FORMAT,
F_GET_RECEIVER_FILE_FORMAT, F_GET_RECEIVER_FILE_FORMAT,
F_SET_RECEIVER_STREAMING_PORT, F_SET_RECEIVER_STREAMING_PORT,
@ -542,8 +554,8 @@ const char* getFunctionNameFromEnum(enum detFuncs func) {
case F_GET_SCAN_ERROR_MESSAGE: return "F_GET_SCAN_ERROR_MESSAGE"; case F_GET_SCAN_ERROR_MESSAGE: return "F_GET_SCAN_ERROR_MESSAGE";
case F_GET_CDS_GAIN: return "F_GET_CDS_GAIN"; case F_GET_CDS_GAIN: return "F_GET_CDS_GAIN";
case F_SET_CDS_GAIN: return "F_SET_CDS_GAIN"; case F_SET_CDS_GAIN: return "F_SET_CDS_GAIN";
case F_GET_FILTER: return "F_GET_FILTER"; case F_GET_FILTER_RESISTOR: return "F_GET_FILTER_RESISTOR";
case F_SET_FILTER: return "F_SET_FILTER"; case F_SET_FILTER_RESISTOR: return "F_SET_FILTER_RESISTOR";
case F_SET_ADC_CONFIGURATION: return "F_SET_ADC_CONFIGURATION"; case F_SET_ADC_CONFIGURATION: return "F_SET_ADC_CONFIGURATION";
case F_GET_ADC_CONFIGURATION: return "F_GET_ADC_CONFIGURATION"; case F_GET_ADC_CONFIGURATION: return "F_GET_ADC_CONFIGURATION";
case F_GET_BAD_CHANNELS: return "F_GET_BAD_CHANNELS"; case F_GET_BAD_CHANNELS: return "F_GET_BAD_CHANNELS";
@ -552,7 +564,7 @@ const char* getFunctionNameFromEnum(enum detFuncs func) {
case F_VALIDATE_UDP_CONFIG: return "F_VALIDATE_UDP_CONFIG"; case F_VALIDATE_UDP_CONFIG: return "F_VALIDATE_UDP_CONFIG";
case F_GET_BURSTS_LEFT: return "F_GET_BURSTS_LEFT"; case F_GET_BURSTS_LEFT: return "F_GET_BURSTS_LEFT";
case F_START_READOUT: return "F_START_READOUT"; case F_START_READOUT: return "F_START_READOUT";
case F_SET_DEFAULT_DACS: return "F_SET_DEFAULT_DACS"; case F_RESET_TO_DEFAULT_DACS: return "F_RESET_TO_DEFAULT_DACS";
case F_IS_VIRTUAL: return "F_IS_VIRTUAL"; case F_IS_VIRTUAL: return "F_IS_VIRTUAL";
case F_GET_PATTERN: return "F_GET_PATTERN"; case F_GET_PATTERN: return "F_GET_PATTERN";
case F_LOAD_DEFAULT_PATTERN: return "F_LOAD_DEFAULT_PATTERN"; case F_LOAD_DEFAULT_PATTERN: return "F_LOAD_DEFAULT_PATTERN";
@ -566,6 +578,17 @@ const char* getFunctionNameFromEnum(enum detFuncs func) {
case F_SET_VETO_STREAM: return "F_SET_VETO_STREAM"; case F_SET_VETO_STREAM: return "F_SET_VETO_STREAM";
case F_GET_VETO_ALGORITHM: return "F_GET_VETO_ALGORITHM"; case F_GET_VETO_ALGORITHM: return "F_GET_VETO_ALGORITHM";
case F_SET_VETO_ALGORITHM: return "F_SET_VETO_ALGORITHM"; case F_SET_VETO_ALGORITHM: return "F_SET_VETO_ALGORITHM";
case F_GET_CHIP_VERSION: return "F_GET_CHIP_VERSION";
case F_GET_DEFAULT_DAC: return "F_GET_DEFAULT_DAC";
case F_SET_DEFAULT_DAC: return "F_SET_DEFAULT_DAC";
case F_GET_GAIN_MODE: return "F_GET_GAIN_MODE";
case F_SET_GAIN_MODE: return "F_SET_GAIN_MODE";
case F_GET_COMP_DISABLE_TIME: return "F_GET_COMP_DISABLE_TIME";
case F_SET_COMP_DISABLE_TIME: return "F_SET_COMP_DISABLE_TIME";
case F_GET_FLIP_ROWS: return "F_GET_FLIP_ROWS";
case F_SET_FLIP_ROWS: return "F_SET_FLIP_ROWS";
case F_GET_FILTER_CELL: return "F_GET_FILTER_CELL";
case F_SET_FILTER_CELL: return "F_SET_FILTER_CELL";
case NUM_DET_FUNCTIONS: return "NUM_DET_FUNCTIONS"; case NUM_DET_FUNCTIONS: return "NUM_DET_FUNCTIONS";
case RECEIVER_ENUM_START: return "RECEIVER_ENUM_START"; case RECEIVER_ENUM_START: return "RECEIVER_ENUM_START";
@ -615,7 +638,8 @@ const char* getFunctionNameFromEnum(enum detFuncs func) {
case F_SET_RECEIVER_STREAMING: return "F_SET_RECEIVER_STREAMING"; case F_SET_RECEIVER_STREAMING: return "F_SET_RECEIVER_STREAMING";
case F_GET_RECEIVER_STREAMING: return "F_GET_RECEIVER_STREAMING"; case F_GET_RECEIVER_STREAMING: return "F_GET_RECEIVER_STREAMING";
case F_RECEIVER_STREAMING_TIMER: return "F_RECEIVER_STREAMING_TIMER"; case F_RECEIVER_STREAMING_TIMER: return "F_RECEIVER_STREAMING_TIMER";
case F_SET_FLIPPED_DATA_RECEIVER: return "F_SET_FLIPPED_DATA_RECEIVER"; case F_GET_FLIP_ROWS_RECEIVER: return "F_GET_FLIP_ROWS_RECEIVER";
case F_SET_FLIP_ROWS_RECEIVER: return "F_SET_FLIP_ROWS_RECEIVER";
case F_SET_RECEIVER_FILE_FORMAT: return "F_SET_RECEIVER_FILE_FORMAT"; case F_SET_RECEIVER_FILE_FORMAT: return "F_SET_RECEIVER_FILE_FORMAT";
case F_GET_RECEIVER_FILE_FORMAT: return "F_GET_RECEIVER_FILE_FORMAT"; case F_GET_RECEIVER_FILE_FORMAT: return "F_GET_RECEIVER_FILE_FORMAT";
case F_SET_RECEIVER_STREAMING_PORT: return "F_SET_RECEIVER_STREAMING_PORT"; case F_SET_RECEIVER_STREAMING_PORT: return "F_SET_RECEIVER_STREAMING_PORT";

View File

@ -3,10 +3,11 @@
#define APILIB 0x210225 #define APILIB 0x210225
#define APIRECEIVER 0x210225 #define APIRECEIVER 0x210225
#define APIGUI 0x210225 #define APIGUI 0x210225
#define APICTB 0x210810
#define APIGOTTHARD 0x210810 #define APIEIGER 0x210811
#define APIGOTTHARD2 0x210810 #define APICTB 0x210811
#define APIJUNGFRAU 0x210810 #define APIGOTTHARD 0x210811
#define APIMYTHEN3 0x210810 #define APIGOTTHARD2 0x210811
#define APIMOENCH 0x210810 #define APIJUNGFRAU 0x210811
#define APIEIGER 0x210810 #define APIMYTHEN3 0x210811
#define APIMOENCH 0x210811

View File

@ -114,6 +114,40 @@ std::ostream &operator<<(std::ostream &os,
return os << ToString(r); return os << ToString(r);
} }
std::string ToString(const slsDetectorDefs::currentSrcParameters &r) {
std::ostringstream oss;
if (r.fix < -1 || r.fix > 1 || r.normal < -1 || r.normal > 1) {
throw sls::RuntimeError(
"Invalid current source parameters. Cannot print.");
}
oss << '[';
if (r.enable) {
oss << "enabled";
// [jungfrau]
if (r.fix != -1) {
oss << (r.fix == 1 ? ", fix" : ", nofix");
}
// [jungfrau chip v1.1]
if (r.normal != -1) {
oss << ", " << ToStringHex(r.select, 16);
oss << (r.normal == 1 ? ", normal" : ", low");
}
// [jungfrau chip v1.0]
else {
oss << ", " << r.select;
}
} else {
oss << "disabled";
}
oss << ']';
return oss.str();
}
std::ostream &operator<<(std::ostream &os,
const slsDetectorDefs::currentSrcParameters &r) {
return os << ToString(r);
}
std::string ToString(const defs::runStatus s) { std::string ToString(const defs::runStatus s) {
switch (s) { switch (s) {
case defs::ERROR: case defs::ERROR:
@ -170,16 +204,12 @@ std::string ToString(const defs::detectorSettings s) {
return std::string("mediumgain"); return std::string("mediumgain");
case defs::VERYHIGHGAIN: case defs::VERYHIGHGAIN:
return std::string("veryhighgain"); return std::string("veryhighgain");
case defs::DYNAMICHG0: case defs::HIGHGAIN0:
return std::string("dynamichg0"); return std::string("highgain0");
case defs::FIXGAIN1: case defs::FIXGAIN1:
return std::string("fixgain1"); return std::string("fixgain1");
case defs::FIXGAIN2: case defs::FIXGAIN2:
return std::string("fixgain2"); return std::string("fixgain2");
case defs::FORCESWITCHG1:
return std::string("forceswitchg1");
case defs::FORCESWITCHG2:
return std::string("forceswitchg2");
case defs::VERYLOWGAIN: case defs::VERYLOWGAIN:
return std::string("verylowgain"); return std::string("verylowgain");
case defs::G1_HIGHGAIN: case defs::G1_HIGHGAIN:
@ -198,6 +228,8 @@ std::string ToString(const defs::detectorSettings s) {
return std::string("g4_hg"); return std::string("g4_hg");
case defs::G4_LOWGAIN: case defs::G4_LOWGAIN:
return std::string("g4_lg"); return std::string("g4_lg");
case defs::GAIN0:
return std::string("gain0");
case defs::UNDEFINED: case defs::UNDEFINED:
return std::string("undefined"); return std::string("undefined");
case defs::UNINITIALIZED: case defs::UNINITIALIZED:
@ -583,6 +615,25 @@ std::string ToString(const defs::vetoAlgorithm s) {
} }
} }
std::string ToString(const defs::gainMode s) {
switch (s) {
case defs::DYNAMIC:
return std::string("dynamic");
case defs::FORCE_SWITCH_G1:
return std::string("forceswitchg1");
case defs::FORCE_SWITCH_G2:
return std::string("forceswitchg2");
case defs::FIX_G1:
return std::string("fixg1");
case defs::FIX_G2:
return std::string("fixg2");
case defs::FIX_G0:
return std::string("fixg0");
default:
return std::string("Unknown");
}
}
const std::string &ToString(const std::string &s) { return s; } const std::string &ToString(const std::string &s) { return s; }
template <> defs::detectorType StringTo(const std::string &s) { template <> defs::detectorType StringTo(const std::string &s) {
@ -618,16 +669,12 @@ template <> defs::detectorSettings StringTo(const std::string &s) {
return defs::MEDIUMGAIN; return defs::MEDIUMGAIN;
if (s == "veryhighgain") if (s == "veryhighgain")
return defs::VERYHIGHGAIN; return defs::VERYHIGHGAIN;
if (s == "dynamichg0") if (s == "highgain0")
return defs::DYNAMICHG0; return defs::HIGHGAIN0;
if (s == "fixgain1") if (s == "fixgain1")
return defs::FIXGAIN1; return defs::FIXGAIN1;
if (s == "fixgain2") if (s == "fixgain2")
return defs::FIXGAIN2; return defs::FIXGAIN2;
if (s == "forceswitchg1")
return defs::FORCESWITCHG1;
if (s == "forceswitchg2")
return defs::FORCESWITCHG2;
if (s == "verylowgain") if (s == "verylowgain")
return defs::VERYLOWGAIN; return defs::VERYLOWGAIN;
if (s == "g1_hg") if (s == "g1_hg")
@ -644,6 +691,8 @@ template <> defs::detectorSettings StringTo(const std::string &s) {
return defs::G2_LOWCAP_LOWGAIN; return defs::G2_LOWCAP_LOWGAIN;
if (s == "g4_hg") if (s == "g4_hg")
return defs::G4_HIGHGAIN; return defs::G4_HIGHGAIN;
if (s == "gain0")
return defs::GAIN0;
if (s == "g4_lg") if (s == "g4_lg")
return defs::G4_LOWGAIN; return defs::G4_LOWGAIN;
throw sls::RuntimeError("Unknown setting " + s); throw sls::RuntimeError("Unknown setting " + s);
@ -970,6 +1019,22 @@ template <> defs::vetoAlgorithm StringTo(const std::string &s) {
throw sls::RuntimeError("Unknown veto algorithm " + s); throw sls::RuntimeError("Unknown veto algorithm " + s);
} }
template <> defs::gainMode StringTo(const std::string &s) {
if (s == "dynamic")
return defs::DYNAMIC;
if (s == "forceswitchg1")
return defs::FORCE_SWITCH_G1;
if (s == "forceswitchg2")
return defs::FORCE_SWITCH_G2;
if (s == "fixg1")
return defs::FIX_G1;
if (s == "fixg2")
return defs::FIX_G2;
if (s == "fixg0")
return defs::FIX_G0;
throw sls::RuntimeError("Unknown gain mode " + s);
}
template <> uint32_t StringTo(const std::string &s) { template <> uint32_t StringTo(const std::string &s) {
int base = s.find("0x") != std::string::npos ? 16 : 10; int base = s.find("0x") != std::string::npos ? 16 : 10;
return std::stoul(s, nullptr, base); return std::stoul(s, nullptr, base);

View File

@ -160,7 +160,7 @@ int ZmqSocket::SendHeader(int index, zmqHeader header) {
"\"version\":%u, " "\"version\":%u, "
// additional stuff // additional stuff
"\"flippedDataX\":%u, " "\"flipRows\":%u, "
"\"quad\":%u" "\"quad\":%u"
; //"}\n"; ; //"}\n";
@ -177,7 +177,7 @@ int ZmqSocket::SendHeader(int index, zmqHeader header) {
header.detType, header.version, header.detType, header.version,
// additional stuff // additional stuff
header.flippedDataX, header.quad); header.flipRows, header.quad);
if (!header.addJsonHeader.empty()) { if (!header.addJsonHeader.empty()) {
strcat(header_buffer.get(), ", "); strcat(header_buffer.get(), ", ");
@ -303,7 +303,7 @@ int ZmqSocket::ParseHeader(const int index, int length, char *buff,
zHeader.detType = document["detType"].GetUint(); zHeader.detType = document["detType"].GetUint();
zHeader.version = document["version"].GetUint(); zHeader.version = document["version"].GetUint();
zHeader.flippedDataX = document["flippedDataX"].GetUint(); zHeader.flipRows = document["flipRows"].GetUint();
zHeader.quad = document["quad"].GetUint(); zHeader.quad = document["quad"].GetUint();
zHeader.completeImage = document["completeImage"].GetUint(); zHeader.completeImage = document["completeImage"].GetUint();