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base: detectors:7.0.3
Branches Tags
detectors:main detectors:dev/roi_per_port detectors:developer detectors:dev/fix_m3_hdf5_master_file_time_arrays detectors:pattern_unification detectors:gh-pages detectors:dev/client-osx detectors:dev/fix/test_frame_synchronizer_write_error_to_log_file detectors:dev/fix/block_set_transceiver_samples_when_running detectors:ctb/continuous_RO detectors:jf_h5reader detectors:dev/multirxr_proper_cleanup_on_ctrlc detectors:9.1.0/conda detectors:patrick_250211 detectors:802/anna_fixes detectors:802/fix_hdf5_fillvalue detectors:moench8.0.2.rc detectors:kp_highZ detectors:submodfix detectors:khalil detectors:jf_json_rxroi detectors:pip detectors:moench-warnings detectors:actions detectors:externalqwt detectors:ctbgatedclk detectors:rr_rxr detectors:random detectors:g2rxrgui detectors:newconda detectors:extbuild detectors:externalpy detectors:zmqcmake detectors:dacnames detectors:cmakemoench detectors:nozmqhack detectors:my3regs detectors:moench detectors:separateRxr detectors:con3 detectors:udp detectors:rhpatch detectors:debugInterpolation detectors:filip1 detectors:split-listener detectors:anna
detectors:9.2.0 detectors:9.1.1 detectors:9.1.0 detectors:9.0.0 detectors:8.0.2 detectors:8.0.1 detectors:7.0.3 detectors:8.0.0 detectors:7.0.2 detectors:7.0.1 detectors:2023.03.16.dev1 detectors:2023.03.13.dev0 detectors:7.0.0 detectors:7.0.0.rc4 detectors:7.0.0.rc3 detectors:7.0.0.rc2 detectors:7.0.0.rc1 detectors:6.1.2 detectors:2022.07.06.dev0 detectors:2022.06.07.dev0 detectors:2022.05.12.dev0 detectors:2022.05.22.dev0 detectors:2022.05.10.dev1 detectors:2022.05.10.dev0 detectors:2022.04.04.dev0 detectors:2022.2.23.dev0 detectors:2022.2.3.dev0 detectors:6.1.1 detectors:6.1.0 detectors:6.0.0 detectors:6.0.0-rc1 detectors:2021.5.10.dev0 detectors:5.1.0 detectors:5.1.0.rc3 detectors:5.1.0.rc2 detectors:5.1.0.rc1 detectors:2021.01.26.dev0 detectors:2021.01.20.dev0 detectors:2021.01.14.dev0 detectors:5.0.1 detectors:5.0.0 detectors:4.2.0 detectors:4.1.1 detectors:4.1.0 detectors:4.0.2 detectors:4.0.1 detectors:4.0.0 detectors:3.1.5 detectors:3.1.4 detectors:3.1.3 detectors:3.1.2 detectors:3.1.1 detectors:3.1.0 detectors:3.0.1 detectors:3.0.0 detectors:2.3.4 detectors:2.3.3 detectors:2.3.2 detectors:2.3.1 detectors:2.3.0 detectors:2.2.0 detectors:2.1.1 detectors:2.1.0 detectors:2.0.5 detectors:2020.11.09.dev1 detectors:2020.11.09.dev0 detectors:2020.11.02.dev0 detectors:2020.10.28.dev0 detectors:2020.10.12.dev0 detectors:5.0.0.rc2 detectors:5.0.0-rc2 detectors:2020.10.05.dev0 detectors:5.0.0-rc1 detectors:2020.09.25.dev0 detectors:2020.09.24.dev1 detectors:2020.09.24.dev0 detectors:2020.09.17.dev0 detectors:2020.09.11.dev0 detectors:2020.09.09.dev0 detectors:2020.08.12.dev0 detectors:2020.08.10.dev0 detectors:2020.07.23.dev0 detectors:2020.06.08.dev0 detectors:2020.05.08.dev0 detectors:2020.04.23.dev0 detectors:2020.04.08.dev1 detectors:2020.04.08.dev0 detectors:2020.04.07.dev0 detectors:2020.04.01.dev0 detectors:2020.03.18dev2 detectors:2020.03.18dev1 detectors:2020.03.18dev0 detectors:2020.03.17dev0 detectors:2020.03.11.dev0 detectors:2020.03.06.dev0 detectors:2020.03.02.dev0 detectors:ctb1.0 detectors:jungfrau_draft_2.0 detectors:moenchv0.1 detectors:olddeveloper detectors:sophieesrf detectors:gotthardDoubleModule
...
compare: detectors:actions
Branches Tags
detectors:dev/roi_per_port detectors:developer detectors:dev/fix_m3_hdf5_master_file_time_arrays detectors:pattern_unification detectors:gh-pages detectors:main detectors:dev/client-osx detectors:dev/fix/test_frame_synchronizer_write_error_to_log_file detectors:dev/fix/block_set_transceiver_samples_when_running detectors:ctb/continuous_RO detectors:jf_h5reader detectors:dev/multirxr_proper_cleanup_on_ctrlc detectors:9.1.0/conda detectors:patrick_250211 detectors:802/anna_fixes detectors:802/fix_hdf5_fillvalue detectors:moench8.0.2.rc detectors:kp_highZ detectors:submodfix detectors:khalil detectors:jf_json_rxroi detectors:pip detectors:moench-warnings detectors:actions detectors:externalqwt detectors:ctbgatedclk detectors:rr_rxr detectors:random detectors:g2rxrgui detectors:newconda detectors:extbuild detectors:externalpy detectors:zmqcmake detectors:dacnames detectors:cmakemoench detectors:nozmqhack detectors:my3regs detectors:moench detectors:separateRxr detectors:con3 detectors:udp detectors:rhpatch detectors:debugInterpolation detectors:filip1 detectors:split-listener detectors:anna
detectors:9.2.0 detectors:9.1.1 detectors:9.1.0 detectors:9.0.0 detectors:8.0.2 detectors:8.0.1 detectors:7.0.3 detectors:8.0.0 detectors:7.0.2 detectors:7.0.1 detectors:2023.03.16.dev1 detectors:2023.03.13.dev0 detectors:7.0.0 detectors:7.0.0.rc4 detectors:7.0.0.rc3 detectors:7.0.0.rc2 detectors:7.0.0.rc1 detectors:6.1.2 detectors:2022.07.06.dev0 detectors:2022.06.07.dev0 detectors:2022.05.12.dev0 detectors:2022.05.22.dev0 detectors:2022.05.10.dev1 detectors:2022.05.10.dev0 detectors:2022.04.04.dev0 detectors:2022.2.23.dev0 detectors:2022.2.3.dev0 detectors:6.1.1 detectors:6.1.0 detectors:6.0.0 detectors:6.0.0-rc1 detectors:2021.5.10.dev0 detectors:5.1.0 detectors:5.1.0.rc3 detectors:5.1.0.rc2 detectors:5.1.0.rc1 detectors:2021.01.26.dev0 detectors:2021.01.20.dev0 detectors:2021.01.14.dev0 detectors:5.0.1 detectors:5.0.0 detectors:4.2.0 detectors:4.1.1 detectors:4.1.0 detectors:4.0.2 detectors:4.0.1 detectors:4.0.0 detectors:3.1.5 detectors:3.1.4 detectors:3.1.3 detectors:3.1.2 detectors:3.1.1 detectors:3.1.0 detectors:3.0.1 detectors:3.0.0 detectors:2.3.4 detectors:2.3.3 detectors:2.3.2 detectors:2.3.1 detectors:2.3.0 detectors:2.2.0 detectors:2.1.1 detectors:2.1.0 detectors:2.0.5 detectors:2020.11.09.dev1 detectors:2020.11.09.dev0 detectors:2020.11.02.dev0 detectors:2020.10.28.dev0 detectors:2020.10.12.dev0 detectors:5.0.0.rc2 detectors:5.0.0-rc2 detectors:2020.10.05.dev0 detectors:5.0.0-rc1 detectors:2020.09.25.dev0 detectors:2020.09.24.dev1 detectors:2020.09.24.dev0 detectors:2020.09.17.dev0 detectors:2020.09.11.dev0 detectors:2020.09.09.dev0 detectors:2020.08.12.dev0 detectors:2020.08.10.dev0 detectors:2020.07.23.dev0 detectors:2020.06.08.dev0 detectors:2020.05.08.dev0 detectors:2020.04.23.dev0 detectors:2020.04.08.dev1 detectors:2020.04.08.dev0 detectors:2020.04.07.dev0 detectors:2020.04.01.dev0 detectors:2020.03.18dev2 detectors:2020.03.18dev1 detectors:2020.03.18dev0 detectors:2020.03.17dev0 detectors:2020.03.11.dev0 detectors:2020.03.06.dev0 detectors:2020.03.02.dev0 detectors:ctb1.0 detectors:jungfrau_draft_2.0 detectors:moenchv0.1 detectors:olddeveloper detectors:sophieesrf detectors:gotthardDoubleModule

51 Commits
7.0.3 ... actions

Author SHA1 Message Date
Erik Frojdh
a475f14c68 WIP 2023-03-28 16:00:34 +02:00
Erik Frojdh
805fa12705 WIP 2023-03-28 15:58:26 +02:00
Erik Frojdh
17ec888ff4 WIP 2023-03-28 15:51:28 +02:00
Erik Frojdh
acb2df8dc7 WIP 2023-03-28 15:35:52 +02:00
Erik Frojdh
0c474ac140 WIP 2023-03-28 15:29:32 +02:00
Erik Frojdh
9de917e5f2 WIP 2023-03-28 15:27:26 +02:00
Erik Frojdh
a5fdd3ef46 added zmq 2023-03-28 15:25:48 +02:00
Erik Frojdh
e8a7f65ad8 cmake build on gh 2023-03-21 09:37:47 +01:00
Dhanya Thattil
b67c6dea08 ensuring no duplicate rx hostname port combo (#604) 
* rx_hostname and port combo to one, or hostname to all, or a vector of hostnames and ports, ignoring none or empty, then verifying no duplicates for the host port combo including from shared memory

* extracted function for rx_hostname (#694)

* c++14 revert

* unique hostname-port combo for port, hostname, rx_tcpport (#696)

* verify unique combo for rx_port as well

* check unique hostname-port combo also when setting control port, hostname, rx_hostname and rx_tcpport

---------

Co-authored-by: Erik Fröjdh <erik.frojdh@gmail.com>
Co-authored-by: Erik Frojdh <erik.frojdh@psi.ch>
 2023-03-20 12:30:12 +01:00
Dhanya Thattil
c9215a6d9b fix old server version in 64 bits (#697) 
* check server version before initial checks, catch old server version exception, get old server version as 64 bit and print it alon gwith exception
 2023-03-20 10:31:27 +01:00
vhinger182
1bdf83e101 Resolve merge conflict in jungfrauExecutables 2023-03-17 16:43:08 +01:00
vhinger182
1bd813d620 Fix bug to allow larger clusters 2023-03-17 15:34:08 +01:00
vhinger182
943a85cbd5 Update data structures and eta functions for JF strixels 2023-03-17 15:33:01 +01:00
Dhanya Thattil
fc24558314 formatting 2023-03-17 14:42:11 +01:00
Dhanya Thattil
d23722a4b7 Eiger: add hardware version (#688) 
* eiger: hardwareversion, fix firmware version unable to read version scenarios, check to see if febl, febr and beb have same fw version

* feb versions can be picked up only after feb initialization
 2023-03-16 11:59:06 +01:00
Dhanya Thattil
bc46d0f6ab rx_arping handle sigchld (#691) 
* rx_arping pclose gave -1 due to sigchld being ignored, fixed with sig handler doing a wait
 2023-03-16 11:57:30 +01:00
Dhanya Thattil
532f76ed4f fix hdf5 compilation using det spec fields in header (#693) 
* fix hdf5 compilation using det spec fields in header
 2023-03-16 09:23:27 +01:00
Dhanya Thattil
21db57dd89 binaries in 2023-02-24 10:44:17 +01:00
Dhanya Thattil
dc5db905d4 merge from 7.0.0 2023-02-24 10:39:51 +01:00
Dhanya Thattil
48a684b95f dev:Eiger febl febr (#601) 
* eiger: get febl and febr versions in versions command, also added in python
 2023-02-24 10:06:11 +01:00
Dhanya Thattil
276dc52196 dev:removed storage cells for moench (#603) 
* removed storage cells for moench
* rxr: also setting moench like jungfrau in implementation of ports
 2023-02-24 10:00:31 +01:00
Dhanya Thattil
eb025b54ef Merge branch '7.0.0.rc' into developer 2023-01-18 13:59:04 +01:00
Dhanya Thattil
3bf6be41b4 merge from 7.0.0.rc 2023-01-17 09:48:59 +01:00
Erik Frojdh
7729e47685 also for rx_hostname 2023-01-16 13:34:07 +01:00
Erik Frojdh
f31fa92516 fixed hostname not split (+) in python 2023-01-16 13:34:01 +01:00
Dhanya Thattil
39b1f5bbf2 Moench rewrite (#597) 
* copied jungfrau server to moench and adapted

* fixed image size and num packets

* read n rows allows 16

* commneted out configure_asic_timer at server startup. To be removed later the ASIC_CTRL_REG and storage cell options

* moench:removing the decrement (which was in jf)  in read n rows to register

* removed lblsamples from gui
 2022-12-15 09:16:51 +01:00
Dhanya Thattil
7ab3b25f87 formatting 2022-12-13 10:07:13 +01:00
Dhanya Thattil
0f6f20a720 merge from 7.0.0.rc1 2022-12-13 10:03:57 +01:00
Dhanya Thattil
1340408c2d Merge branch '7.0.0.rc' into developer 2022-12-13 09:58:55 +01:00
Dhanya Thattil
7b7c4a2b86 Merge branch '7.0.0.rc' into developer 2022-12-08 09:01:03 +01:00
Dhanya Thattil
8fc45676b9 Merge branch '7.0.0.rc' into developer 2022-12-07 16:22:30 +01:00
Dhanya Thattil
53fe5f5116 Merge branch '7.0.0.rc' into developer 2022-12-07 11:14:02 +01:00
Dhanya Thattil
50f2165c55 Merge branch '7.0.0.rc' into developer 2022-12-06 11:30:14 +01:00
Dhanya Thattil
056f650b92 Test for moench done 2022-12-06 11:15:53 +01:00
Dhanya Thattil
3d54a4aa26 fix for tests ctb 2022-12-06 11:15:45 +01:00
Dhanya Thattil
3a89c2a61e fix tests for gottthard1 2022-12-06 11:15:31 +01:00
Dhanya Thattil
570a567a8c fix m3 tests 2022-12-06 11:15:22 +01:00
Dhanya Thattil
9874f596f6 fix to tests m3 2022-12-06 10:35:00 +01:00
Dhanya Thattil
984a59a9d7 fix tests to not allow setting veto stream at a single module level 2022-12-06 10:34:52 +01:00
Dhanya Thattil
e02b11fd1e fix tests to not allow setting udp interfaces at a single module level 2022-12-06 10:08:53 +01:00
Dhanya Thattil
68beba732e tests: transmission delay cannot be got for a single module for jf and m3, resetting fpga is not an option to test others 2022-12-05 17:45:00 +01:00
Dhanya Thattil
104bc6f619 fixed tests to get headwareversion number instead of serial number to know ic 2.0 jf boards nd also the set master fail only if more than 1 detector (fix intests only) 2022-12-05 17:44:54 +01:00
Dhanya Thattil
66cf1825ea fixed tests 2022-12-05 17:44:48 +01:00
Dhanya Thattil
d8e497dbb3 fix for changing udp socket buffer size 2022-12-05 17:44:42 +01:00
Dhanya Thattil
60502cfa8f datastream help, versions fix for eiger (hardwareversion not impl), fix for tests 2022-12-05 17:44:33 +01:00
Dhanya Thattil
b089dc90cd fix for changing udp socket buffer size 2022-12-05 16:34:13 +01:00
Dhanya Thattil
4caf10c12b datastream help, versions fix for eiger (hardwareversion not impl), fix for tests 2022-12-05 16:33:59 +01:00
lopez_c
32cbb11bb6 Corrected typo 2022-12-05 12:49:04 +01:00
Dhanya Thattil
339cb925c7 removed decrement for sls detector header version number for virtual servers for ctb moench jungfrau g2 and m3 2022-12-02 12:13:13 +01:00
Dhanya Thattil
f8a29c3000 reverted versions as the firmware dont increment (#590) 2022-11-29 16:37:28 +01:00
Dhanya Thattil
d431443dda allowing jungfrau to continue with just a waning if detid.txt file not found (#589) 2022-11-29 16:28:55 +01:00
104 changed files with 5764 additions and 5891 deletions
Expand all files Collapse all files

38
.github/workflows/cmake.yml vendored Normal file
View File

@ -0,0 +1,38 @@
name: CMake
on: [push, pull_request]
env:
# Customize the CMake build type here (Release, Debug, RelWithDebInfo, etc.)
BUILD_TYPE: Debug
jobs:
build:
# The CMake configure and build commands are platform agnostic and should work equally well on Windows or Mac.
# You can convert this to a matrix build if you need cross-platform coverage.
# See: https://docs.github.com/en/free-pro-team@latest/actions/learn-github-actions/managing-complex-workflows#using-a-build-matrix
runs-on: ubuntu-latest
name: Configure and build using cmake
steps:
- uses: actions/checkout@v3
- uses: awalsh128/cache-apt-pkgs-action@latest
with:
packages: libzmq3-dev libhdf5-dev qtbase5-dev qt5-qmake libqt5svg5-dev
version: 1.0
- name: Configure CMake
# Configure CMake in a 'build' subdirectory. `CMAKE_BUILD_TYPE` is only required if you are using a single-configuration generator such as make.
# See https://cmake.org/cmake/help/latest/variable/CMAKE_BUILD_TYPE.html?highlight=cmake_build_type
run: cmake -B ${{github.workspace}}/build -DCMAKE_BUILD_TYPE=${{env.BUILD_TYPE}} -DSLS_USE_TESTS=ON -DSLS_USE_HDF5=ON -DSLS_USE_GUI=ON
- name: Build
# Build your program with the given configuration
run: cmake --build ${{github.workspace}}/build -j2 --config ${{env.BUILD_TYPE}}
- name: Test
working-directory: ${{github.workspace}}/build
# Execute tests defined by the CMake configuration.
# See https://cmake.org/cmake/help/latest/manual/ctest.1.html for more detail
run: ctest -C ${{env.BUILD_TYPE}} -j1

916
RELEASE.txt
View File

@ -1,7 +1,7 @@
SLS Detector Package Major Release 7.0.0 released on 24.02.2023
SLS Detector Package Major Release 7.x.x released on xx.xx.2023
===============================================================
This document describes the differences between v7.0.0 and v6.1.2
This document describes the differences between v7.x.x and v7.0.0
@ -28,909 +28,14 @@ This document describes the differences between v7.0.0 and v6.1.2
=====================================
1.1 Compilation
==================
General:
--------
* Custom location to find ZeroMQ
Option to provide a custom location to look for ZeroMQ, if not found
using FindZeroMQ.cmake
For example, to use the system installed zmq:
Using cmake: -DZeroMQ_HINT=/usr/lib64
Using cmk.sh script: -q /usr/lib64
* Support external build
Assuming already installed version of the slsDetectorPacakge exists,
external build of python bindings, gui, ctbgui and moench has been added.
* Catch updated to latest 2.x version due to build failure in fedora
Gui:
----
* Qt5 and in-built compressed Qwt 6.1.5
Ported from Qt4 to Qt5. Minimum requirement: Qt 5.9
Compressed Qwt 6.1.5 added into the package in libs. It is unpacked and built
as a static library.This allows us to remove qwt as an external dependency
and reduces the risk of picking up the wrong version.
Python:
-------
* Install python extension
Option to copy the python extension (slsdet folder and _slsdet-..so)
to CMAKE_INSTALL_PREFIX/python using
-DSLS_INSTALL_PYTHONEXT
* Pybind11 (v2.10.0)
Pybind11 is removed as a submodule and instead built into package to
simplify for users. Now, there is no more need to clone with the '--recursive'
argument or to update submodule when switching to this package version
and above.
* Conda packages
Removed conda packages for python 3.6 and 3.7. Added for python 3.11.
1.2 Callback
=============
* Datatype of Metadata [registerCallBackRawDataReady,
registerCallBackRawDataModifyReady]
Datatype changed from char* to sls_receiver_header.
* Datatype of Size [registerCallBackRawDataReady,
registerCallBackRawDataModifyReady]
Datatype changed from uint32_t to size_t
* Datatype of file name and file path [registerCallBackStartAcquisition]
Datatype changed from string to const string reference.
* Incorrect image size [registerCallBackStartAcquisition]
Fixed. It used to give +120 bytes.
* [Gotthard2] 25um Image reconstruction for 2 modules
First module (master) interleaves with second modules(slave). First channel
of master is first channel of detector.
Requires firmware update to reverse channels of slaves.
1.3 Python
===========
* Python sub-microsecond resolution
Reading back sub-microsecond exposure times from the Python API fixed by
addig Python datetime supports only micro seconds as lowest unit.
This is fixed by introducing a new C++ type (DurationWrapper), which
holds number of nanoseconds as a uint64_t (only in python bindings) and
custom typecaster to convert to and from std::chrono::nanoseconds.
A get using API now returns in DurationWrapper, instead of datetime.
Refer exptime help for examples.
* Defines in sls_detector_defs
sls_detetor_defs parsed and #defines extracted into defines.py
For exmaple, one can use slsdet.LOCALHOST_IP
* Concatenated hostnames
Hostnames concatenated using '+' was not split up in Python API. Fixed.
* Added many commands to python API
1.4 Client
===========
Breaking API:
-------------
* Versioning
The client, receiver and detector servers now have semantic Versioning
along with the date and are managed with the Version class.
--version argument to the executable gives the complete versioning with date.
Using the client to get versions gives only the semantic version. An older
server will still give date. Hence, the return type is a string, breaking API.
Compatibility checks at hostname or rx_hostname command will only be for
backwards compatibility (ie. it only checks for the major version number).
If its an old server, then its expected to have the exact same date (as
before)
Setting intitialchecks to 0 also bypasses the receiver compatibility check.
* Detector Specific fields
bunchid ->detSpec1
reserved->detSpec2
debug->detSpec3
roundRnumber->detSpec4
Header version number stays the same in the UDP header as there is no
difference in the format from the detector. Only the structure memeber names
have changed in sls_detector_defs.h
Further details about each detector specific field can be found at:
https://slsdetectorgroup.github.io/devdoc/udpdetspec.html
* Namespace sls
All files in slsSupportLib and tests have now been moved to sls namespace
including macros. Using the LOG, for example, will require the sls qualifier.
* [Eiger] Number of UDP interfaces
Command line: numinterfaces, API: getNumberofUDPInterfaces
This command now reflects the actual number of udp interfaces for Eiger,
which is 2.
* [Eiger][Jungfrau] Row column
[Jungfrau] Fixed row column indexing for multi module 2 interfaces
[Eiger] The row indicies were switched across the Y axis for the callback
only for Eiger. This is now changed and kept similar to the other detectors.
The row indices would be in the order of the half modules in the hostname
command. Therefore, to keep the image from callback, invert the hostname
order in the config file.
* Deprecated CopyDetectorServer
Command line: copydetectorserver, API: copydetectorserver
Removed. Use updatedetectorserver
* [Eiger][Jugfrau][Mythen3] Deprecated specific transmission delay commands
txndelay_frame -> txdelay_frame
txndelay_left -> txdelay_left
txndelay_right -> txdelay_right
* [Eiger] Datastream only for 10GbE
Command line: datastream, API: getDataStream/ setDataStream
This command to enable/ disable data stream from left or right port
is now allowed only for 10GbE. Previously, it incorrectly allowed to do so.
* [Eiger][Jungfrau][Moench][Ctb] Stop command effect on next frame number
Stopping acquisition sometimes results in different next frame numbers
for different moduels. Hence, after a stop, if the next frame numbers are
different, they are all set to their maximum value + 1.
* Missing packets
Command line: rx_missingpackets, API: getNumMissingPackets
This now returns a signed 64 bit instead of unsigned. The negative polarity
depicts extra packets instead of missing packets and also takes care of
disabled ports.
* Frames caught and frame index
Command line rx_framescaught, rx_frameindex, API: getFramesCaught/ getRxCurrentFrameIndex
They now return a vector for each port when there are 2 udp interfaces
in the receiver.
* [Gotthard][Gotthard2] Num modules
Only 2 modules allowed maximum in a detector shared memory.
* [Moench][Ctb][Mythen3] Deprecated commands
Patloopx, patnloopx, patwaitx, patwaittimex
Please use instead patloop, patnloop, patwait and patwaittime commands
with the level as an argument.
Old commands work with warning, but the server expects the new ones
such as a default pattern file to be loaded at startup for Moench.
Renamed patternParameters struct member from 'loop' to 'startloop' and
'stoploop'.
* [Mythen3] Clock Divider 4 and 5
Cannot be set anymore. Only read back.
New commands:
-------------
* [Eiger][Gotthard][Gotthard2][Mythen3][Jungfrau] Master
Setting up from client:
[Eiger][Gotthard2][Jungfrau]
Command line: master, API: getMaster/ setMaster
All of them can get master mode from the client.
This can also be set up on the detector server. Please refer to notes
on that section.
* [Eiger] Top
Command line: top, API: getTop/ setTop
Sets the half module to top or bottom from the client.
This can also be set up on the detector server. Please refer to notes
on that section.
* [Mythen3][Eiger] Save settings file
Command line: trimbits (sls_detector_get), API: saveTrimbits
Added
* [Gotthard2] Parallel readout added
Command line: parallel, API: getParallelMode/ setParallelMode
Default for Gotthard2 is parallel. Non parallel mode only works in
continuous mode.
* [Jungfrau] Software trigger added
Command line: trigger, API: sendSoftwareTrigger
Send software trigger instead of harware trigger.
* [Eiger][Jungfrau] Blocking trigger
Commandline: blockingtrigger, API: sendSoftwareTrigger with argument true
Sends software trigger signal to detector and blocks until the frames
are sent out for that trigger.
* [Jungfrau] Sync
Command line: sync, API: getSynchronization/ setSynchronization
Enables or disables synchronization between modules
* [Gotthard2][Mythen3] Temperature readout
Command line: temp_fpga, API: getTemperature with TEMPERATURE_FPGA enum
Added
* [Gotthard2][Mythen3] Round robin added
Command line: udp_dstlist, API: getDestinationUDPList/ setDestinationUDPList
Command line: udp_numdst, API: getNumberofUDPDestinations
One can set up to 32 (64 for Mythen3) entries in the destination list.
* [Jungfrau] Module Id
Command line: moduleid, API: getModuleId
16 bit value (ideally unique) that is streamed out in the udp header of
the detector. The on-board detector server picks it up from a file
(if it exists) called detid_jungfrau.txt.
* [Jungfrau][[Gotthard2][Myhten3][Gotthard][Ctb][Moench] Hardware version
Command line: hardwareversion, API: getHardwareVersion
Gets the board or hardware version.
For example, Jungfrau returns 1.0 or 2.0.
It is also printed at on-board detector server start up.
Also printed before starting FPGA programming.
* [Eiger][Jugfrau][Mythen3] Transmission Delay
Command line: tx_delay, API: getTransmissionDelay/ setTransmissionDelay
Sets transmission delay for all modules in the detector using the step
size provided. Sets up for every module:
[Eiger] txdelay_left to (2 * mod_index * n_delay)
[Eiger] txdelay_right to ((2 * mod_index + 1) * n_delay)
[Eiger] txdelay_frame to (2 *num_modules * n_delay)
[Jungfrau][Mythen3] txdelay_frame to (num_modules * n_delay)
* [Mythen3] Bad channels
Command line: badchannels, API: getBadChannels/ setBadChannels
Set bad channels from file with a list of channels, which will be masked
out. Also does trimming. A detector level command will require the channel
numbers accordingly. The file and the command line is also extended to
include commas, colons range and removes duplicates.
API allows badchannels as a 2D vector (for every module) or
a 1D vector with positions.
Command line: Setting it to "none" or "0" will reset all the bad channels.
API: Empty vector will reset all the bad channels.
* [Moench][Ctb] Starting frame number
Command line: nextframenumber, API: getNextFrameNumber/ setNextFrameNumber
Added and default set up on detector server start up.
* [Ctb] DAC names
Command line: daclist, API: getDacNames/ setDacNames
Can set and get dac names in the dac list now.
* [Mythen3] Polarity, interpolation, pump probe, analog pulsing, digital pulsing
Command line: polarity, interpolation, pumpprobe, apulse, dpulse
API: getPolarity/ setPolarity, getInterpolation/ setInterpolation,
getPumpProbe/ setPumpProbe, getAnalogPulsing/ setAnalogPulsing,
getDigitalPulsing/ setDigitalPulsing
Added these commands.
Enabling interpolation will also enable all counters and disable vth3.
Disabling sets to previous counter mask and previous vth values.
In pump probe mode, only vth2 enabled. Disabling sets vth2 to prevevious
value.
Setting counter mask will check interpolation and pump probe mode
requirements, else sets vthx dacs according to counter mask.
Direct overwrite of any dac (including vthx) allowed using dac command
(as before).
New commands for Receiver only:
-------------------------------
* Arping for 10GbE
Command line: rx_arping API: getRxArping/ setRxArping
Starts a thread in the receiver to arping the interface it is listening
to in 10GbE mode every 60 s.
Changes NUM_RX_THREAD_IDS (sls_detector_defs.h) from 8 to 9.
* Receiver Region of Interest
Command line: rx_roi, API: getRxROI/ setRxROI
Command line: rx_clearroi, API: clearRxROI
One can set an ROI in the receiver to write to file. 1D detectors can set
xmin and xmax, whereas the 2D can also set ymin and ymax. -1 values signify
no ROI.
This is not at network level and can only be used to reduce size of file.
Virtual HDF5 files not created when this is enabled and also no link in
master file. No file created if module not in ROI.
There can only be one ROI per detector. Therefore, can be set only at
detector level, but can be retrieved at module level as well.
The GUI still shows the entire image, but has a yellow border around the
ROI. Status bar displays a message when Rx ROI enabled.
Additonal Features:
-------------------
* Non-blocking start
Allowing non-blocking start at modular level again.
* [Jungfrau][Moench][Ctb] Additional programming checks
Also checks if the drive to write to is a special file or a normal
file. If its a normal file, it throws asking to redo the command with a
'--please-delete' argument to delete the normal file and create the device
drive and restart FPGA programming.
More readable error message insetad of "programfpga not implemented for
this detector'. This happens when 'hostname' command fails due to
server-firmware/client compatibility and the detector type becomes
'GENERIC'. Fixed to suggest if 'hostname' executed properly.
* Udp Source IP
Command line: udp_srcip(2), API: getSourceUDPIP(2)/ setSourceUDPIP(2)
One can also set this to 'auto' for 1 GbE data and virtual detectors.
It will set to IP of detector. Not available for GotthardI.
* Incrementing default receiver tcp port
Automatically incrementing the default receiver tcp port for every module
when creating shared memory.
* Command line pattern commands also prints level index at output now.
* Zmq High water mark (hwm) and buffer size
When switching to the gui, hwm for the gui and the reciver was set to 2.
Now, if hwm is less than 25, the zmq receive buffer size is set to 1Mb
in the gui, else to 0 (os default). Similarly, zmq send buffer size is
also set for the receiver. These functions and option to rebind the zmq
publisher socket is also available now.
Changes or Fixes:
-----------------
* [Jungfrau][Gotthard2][Mythen3][Gotthard][Moench][Ctb] Can't stop
This bug was introduced in 6.1.1, when stopping an acquisition saying it
cannot stop, even though it was successful. It is fixed now.
Note: Only if the detector is not in idle or stopped status, will the
command to stop acquisition go to the detector. This was introduced in 6.1.2
to handle multiple modules getting asynchronous start and stops from
different processes.
* [Gotthard] Set delay exception
Set delay threw an exception as it adds master delay in verification
even if it was not a master. Fixed.
* Shared memory access failure
After a free, one could get seg fault if one called a function accessing
the shared memory structure without first loading the config file that
creates the shared memory. Fixed, a proper exception thrown if one tries
to access shared memory without creating it first.
* Stop detector when receiver is stuck
If receiver was stuck or crashed, stop acquisition command should
stop detector first before checking receiver status to restream
dummy header. Fixed.
* Free and config command fail
Free and config command checked mismatch of size of shared memory before
freeing or loading new config. Fixed.
* Incorrect user provided detector size
Command line: detsize, API: getDetectorSize/ setDetectorSize
If a user sets an incorrect detector size that is greater than the actual
detector size, then it would have set an incorrect number of modules,
affecting number of ports in the receiver. This has been fixed and now
the user can only set less than or equal to the maximum dimension
it could have.
* sls_detector_help or sls_detector_get -h
Should not create Detector object. Fixed.
* [Jungfrau] Storage cells in running receiver
Allowing the possibility to set this when receiver in running state.
* [Eiger] Vtr
Allow Vtrim to be interpolated for settings.
* [Mythen3] Incorrect gain caps when setting threshold energy
Gain caps overwritten with settings enum. Fixed.
* [Mythen3] Non blocking start acquisition
Non-blocking start acquisition was sent out twice to the master. Fixed.
* [Mythen3] Threshold
When settings trimbits or threshold, counter mask is set and hence,
vthx dacs are set accordingly.
setAllThresholdEnergy takes 3 values for each counter and if one of them
is -1, the trimbits and setings for that counter is picked up from the
detector.
* [Moench][Ctb] Pattern levels
Changed from 3 to 6.
* [Mythen3][Moench][Ctb] Default patwait and patloop addresses
Set default wait and loop addresses to 0x1fff (max value) for all levels
before loading pattern. Please use the pattern command instead of parameters.
This ensures defaults are set up and is faster.
* [Moench] Patsetbit and patsetmask
Command line: patsetbit API: getPatternBitMask/ setPatternBitMask
Command line: patmask API: getPatternMask/ setPatternMask
Exchanging the help and masks for patsetbit and patsetmask in the detector
server, especially in loading settings.
* [Moench][Ctb] ADC Vpp
Command line: adcvpp, API: getADCVpp/ setADCVpp
Moved from SetDAC function into into its own. One can use mV values or
option numbers as before.
* [Ctb] ADC command goes back to control server
Slow ADCs, slow ADC temperature, get measured current and voltage values
are requested via the control server again insetad of the stop server
due to configuration and definitions in the control server.
* UDP Source Mac addresses
Only allowing unicast addresses (LSB of first octet must be 0).
1.5 Detector Server
====================
Config file:
------------
* [Eiger][Gotthard2][Gotthard] Master
Using config file with 'master' with argument (master=1, slave=0)
* [Eiger] Top
Using config file with 'top' with argument (top=1, bottom=0)
Command line arguments:
-----------------------
* They have precedence over config files.
* [Eiger][Gotthard2 Virtual][Mythen3 Virtual][Gotthard Virtual] Master
Using command line '--master = 1' or '-m = 1' with argument
(master = 1, slave = 0)
* [Eiger] Top
Using command line '--top = 1' or '-t = 1' with argument (top=1, bottom=0)
* Ignore config file
The config files can also be ignored by an argument from the command line,
'--ignore-config' or '-i'.
Fixes:
------
* [Jungfrau][Eiger] Clear UDP destination
Command line: udp_cleardst, API: clearUDPDestinations
Clearing udp destination also clears it in the FPGA now.
* [Eiger] Incorrect next frame number
Command line: nextframenumber, API: getNextFrameNumber/ setNextFrameNumber
Get next frame number for 10g was connected to 1g registers and gave
incorrect values. Fixed.
* [Eiger] Quad Dynamic range
Could not set dyanamic range in an Eiger Quad. Fixed.
* [Eiger] Stop before first acquisition after power on
Firmware fixed to handle a stop command before first acquisition after
the module is powered on.
* [Mythen3][Gotthard2] System clock change effects
When changing the system clock (clkdiv 2), time settings should also be
affected (exptime, period etc.). Fixed.
[Gotthard2] System frequency should be same irrespective of timing source.
Fixed.
* [Mythen3] Kernel version compatibility test
Fix added to parse properly the kernel version with CET for corrected
version compatibility test.
* [Mythen3] Server crash for setting vthrehsold
Fixed.
* [Mythen3] trimming
Fixed deserializing in trimming.
* [Mythen3] Incorrect gaincaps
Setting threshold energy was overwriting gaincaps with settings enum. Fixed.
* [Ctb][Moench] Hostname fail in update mode.
Fixed
Changes:
--------
* [Jungfrau] Temporary fix for stop in 6.1.1
Temporary fix introduced in 6.1.1 for not being able to start after a
stop command has been issued is removed. Reset core right after also has
been removed. It has been fixed in firmware instead.
* [Gotthard2] Clock Divider defaults
When chancing burst mode, clock dividers (2, 3 and 4) set to their
defaults according to burst mode.
* [Mythen3] Change in default clock dividers.
* [Mythen3] DAC check for settings
Verify DAC values for each setting has been temporarily switched off
* [Mythen3] DAC min and max values
Vtrim minimum of 600 has been removed.
The threshold dacs minimum is 200 and maximum is 2400.
The other DACs minimum is 0 and maximum is 2800.
When out of range, will not throw, just a warning.
* [Mythen3] Vicin Dac changed to 800
* [Jungfrau][Moench][Ctb] PLL reset at server start up
PLL reset now at server start up.
* [Moench] ADC9257 Vref
ADC Vref voltage modified from 1.33V to 2V
* [Ctb] Allow all clock dividers for PLL
Fixed. For example, 133 MHz would not really be set previously. Fixed by
changing totaldiv from float to an integer.
Additional Features:
--------------------
* Stop server startup errors
Stop servers now also check for errors at startup (including version
compatibility) and like the control server, it will translate to the
client when connecting for the first time (hostname command).
* [Jungfrau][Moench][Ctb] Additional server update process
Removes old server binary or target of linked file when updating
detector server for blackfin detectors as there is less space on blackfin.
Clearing up absolute and respawn path (removing double '/')
Raise error if server name to be copied is the same as final soft link name.
* [Moench][Ctb] 1 GbE Non blocking acquisition
Previously non blocking acquisition in 1 GbE would not send data.
This feature added now.
* [Gotthard2] Adapted to new HDI version
HDI module ID written to FPGA register
1.6 Simulator
==============
* Command line arguments. Please refer to previous section on Detector Server.
* [Eiger] Only one executable
Only one executable for an Eiger virtual server. Master and top mode
can be provided via command line or config file to the detector server,
as well as via the client. See in Other New Features for more details.
One can start a module using:
eigerDetectorServer_virtual # reads default config file (top master)
eigerDetectorServer_virtual -i #ignores the config file (bottom slave)
* [Eiger][Junfrau][Gotthard2][Mythen3] Module Id
Added into udp header
* Minimum Configuration
One can setup with just:
hostname localhost
rx_hostname localhost
udp_dstip auto
* [Mythen3] Packet size
Fixed packet size calculation. Previously, sending only header with no data.
1.7 Receiver
=============
Breaking API:
-------------
* Namespace sls
All the receiver source files have also been added to namespace sls.
* HDF5 and Binary writer version
Changed from 6.3 to 6.4
* Master file format to json
The format has been changed from ASCII to json.
* Geometry metadata
Added geometry (number of modules in each direction) to metadata in file.
* HDF5 Dataset name
Changed to just "data" to simplify for user
* File write
File write is disabled by default.
Fixes:
------
* Refactored and fixed minor issues
Including memory structure and udp sockets.
Fixed progress also in discard partial packaets mode and deactivated ports.
Fixed 200% progress.
Completely padded images now have detector type or version in metadata.
Fixed getting stuck at stop receiver when using zmq
Fixed clang compiler warnings
* Multiple files
This bug was introduced in v6.0.0, where 1 file was created per frame
after the first file. Fixed by resetting the number of frames in
current file when creating a new one.
* [Eiger] Datastream command order
The order of commands to set datastream from client mattered previously.
Datastream had to be set before 10GbE enable. Order does not matter anymore.
* Udp destination MAC
If it has been set before, changing udp_dstip will not update udp_dstmac.
Fixed to always set it in detector even if it had a value before.
Udp_dstmac can still be used to overwrite again. This is useful when
using a router for example.
* Stuck when using zmq
More often in 6.1.1, gets stuck at stop receiver.
* [Mythen3] Incorrect number of packets calculated or tengiga not set up
Runnig config second time (with tengiga=0, dr !=32, counters !=0x7)
calculated incorrect image size expected due to inconsistent copy of
detector parameters. Fixed
* Storage cells in receiver
Previously not updated in receiver. Fixed.
* Virtual HDF5 Parameter datasets
Corner case bug when frames caught is not a multiple of frames per file.
Not found in virtual image datasets. Fixed.
Changes:
--------
* Master file created at end of acquisition
The file is now written at the end of acquisition. So if any metadata
is changed during an acquisition, it will reflect the last value.
* File name prefix
Slash '/' not allowed.
Additional Features:
--------------------
* [Gotthard2] 25um image reconstruction in virtual HDF5
Virtual HDF5 reconstructs complete image by interleaving first module
(master) with second module (slave). First channel of master is first
channel of detector.
Requires firmware update to reverse channels of slaves.
* Memory size
Increased an internal fifo header by 8 bytes to align memory allocated for
to receive images for efficiency.
1.8 Gui
========
* Refer Compilation topic for changes.
* [Jungfrau][Eiger] Gap pixels
Enabled by default in the gui.
* High voltage
Moved from Developer tab to Settings tab.
* Gain plot zooming
Zooming disabled. Instead, it automatically zooms in when you zoom in
the main plot or if min and max of x and y axis set up in plot tab.
* [Mythen3] Inconsistent timing mode
Timing mode of the slaves should be discarded before squashing. Fixed.
* [Mythen3][Gotthard2] Crashes
Additional locking Added
* File path set in detector after choosing a directory in dialog (without
pressing enter). Before, it was only set in the display box, but lost
when switching tabs.
* X, Y, Z axis limits
Did not reflect on the current plot. Fixed.
* Refer 'Client' notes on Zmq High water mark and Zmq buffer size for
fast detectors.
- moench being made compatible with jungfrau 2.0 boards (jungfrau structure, away from ctb)
- rx_hostname and port can be combo to one or to all, or vector or hostnames and ports. ignoring none or empty, then verifying no duplicates for the host port combo including from shared memory
- same for hostname and port combo (for virtual servers)
- eiger febl and febr in versions, ensure its the same as beb fw version
- eiger hardware version fx30 and fx70 (versions command)
- fixed rx_arping error
- fix hdf5 compilation (detspec fields)
- print server version atleast in exception msg when connecting to an older server, also able to add hostname to shm
@ -1113,4 +218,3 @@ This document describes the differences between v7.0.0 and v6.1.2
dhanya.thattil@psi.ch
erik.frojdh@psi.ch

200
python/slsdet/detector.py
View File

@ -230,7 +230,8 @@ class Detector(CppDetectorApi):
@element
def hardwareversion(self):
"""
[Jungfrau][Gotthard2][Myhten3][Gotthard][Ctb][Moench] Hardware version of detector.
[Jungfrau][Moench][Gotthard2][Myhten3][Gotthard][Ctb] Hardware version of detector. \n
[Eiger] Hardware version of front FPGA on detector.
"""
return self.getHardwareVersion()
@ -305,7 +306,7 @@ class Detector(CppDetectorApi):
-----
[Eiger] Options: 4, 8, 12, 16, 32. If set to 32, also sets clkdivider to 2 (quarter speed), else to 0 (full speed)\n
[Mythen3] Options: 8, 16, 32 \n
[Jungfrau][Gotthard][Ctb][Moench][Mythen3][Gotthard2] 16
[Jungfrau][Moench][Gotthard][Ctb][Mythen3][Gotthard2] 16
"""
return self.getDynamicRange()
@ -363,10 +364,9 @@ class Detector(CppDetectorApi):
-----
[Eiger] Use threshold command to load settings
[Jungfrau] GAIN0, HIGHGAIN0 \n
[Jungfrau][Moench] GAIN0, HIGHGAIN0 \n
[Gotthard] DYNAMICGAIN, HIGHGAIN, LOWGAIN, MEDIUMGAIN, VERYHIGHGAIN \n
[Gotthard2] DYNAMICGAIN, FIXGAIN1, FIXGAIN2 \n
[Moench] G1_HIGHGAIN, G1_LOWGAIN, G2_HIGHCAP_HIGHGAIN, G2_HIGHCAP_LOWGAIN, G2_LOWCAP_HIGHGAIN, G2_LOWCAP_LOWGAIN, G4_HIGHGAIN, G4_LOWGAIN \n
[Eiger] settings loaded from file found in settingspath
"""
return element_if_equal(self.getSettings())
@ -396,7 +396,7 @@ class Detector(CppDetectorApi):
@element
def framesl(self):
"""
[Gotthard][Jungfrau][Mythen3][Gotthard2][CTB][Moench] Number of frames left in acquisition.\n
[Gotthard][Jungfrau][Moench][Mythen3][Gotthard2][CTB] Number of frames left in acquisition.\n
[Gotthard2] only in continuous auto mode.
:setter: Not Implemented
@ -407,7 +407,7 @@ class Detector(CppDetectorApi):
@element
def framecounter(self):
"""
[Jungfrau][Mythen3][Gotthard2][Moench][CTB] Number of frames from start run control.
[Jungfrau][Moench][Mythen3][Gotthard2][CTB] Number of frames from start run control.
Note
-----
@ -436,12 +436,11 @@ class Detector(CppDetectorApi):
@element
def powerchip(self):
"""
[Jungfrau][Mythen3][Gotthard2][Moench] Power the chip.
[Jungfrau][Moench][Mythen3][Gotthard2] Power the chip.
Note
----
[Moench] Default is disabled. \n
[Jungfrau] Default is disabled. Get will return power status. Can be off if temperature event occured (temperature over temp_threshold with temp_control enabled. Will configure chip (only chip v1.1).\n
[Jungfrau][Moench] Default is disabled. Get will return power status. Can be off if temperature event occured (temperature over temp_threshold with temp_control enabled. Will configure chip (only chip v1.1).\n
[Mythen3][Gotthard2] Default is 1. If module not connected or wrong module, powerchip will fail.
"""
return self.getPowerChip()
@ -615,7 +614,7 @@ class Detector(CppDetectorApi):
@element
def periodl(self):
"""
[Gotthard][Jungfrau][CTB][Moench][Mythen3][Gotthard2] Period left for current frame.
[Gotthard][Jungfrau][Moench][CTB][Mythen3][Gotthard2] Period left for current frame.
Note
-----
@ -637,7 +636,7 @@ class Detector(CppDetectorApi):
@element
def delay(self):
"""
[Gotthard][Jungfrau][CTB][Moench][Mythen3][Gotthard2] Delay after trigger, accepts either a value in seconds, DurationWrapper or datetime.timedelta
[Gotthard][Jungfrau][Moench][CTB][Mythen3][Gotthard2] Delay after trigger, accepts either a value in seconds, DurationWrapper or datetime.timedelta
Note
-----
@ -682,7 +681,7 @@ class Detector(CppDetectorApi):
@element
def delayl(self):
"""
[Gotthard][Jungfrau][CTB][Moench][Mythen3][Gotthard2] Delay left after trigger during acquisition, accepts either a value in seconds, datetime.timedelta or DurationWrapper
[Gotthard][Jungfrau][Moench][CTB][Mythen3][Gotthard2] Delay left after trigger during acquisition, accepts either a value in seconds, datetime.timedelta or DurationWrapper
Note
-----
@ -741,7 +740,7 @@ class Detector(CppDetectorApi):
@element
def txdelay(self):
"""
[Eiger][Jungfrau][Mythen3] Set transmission delay for all modules in the detector using the step size provided.
[Eiger][Jungfrau][Moench][Mythen3] Set transmission delay for all modules in the detector using the step size provided.
Note
----
@ -749,7 +748,7 @@ class Detector(CppDetectorApi):
\t\t[Eiger] txdelay_left to (2 * mod_index * n_delay), \n
\t\t[Eiger] txdelay_right to ((2 * mod_index + 1) * n_delay) and \n
\t\t[Eiger] txdelay_frame to (2 *num_modules * n_delay) \n
\t\t[Jungfrau][Mythen3] txdelay_frame to (num_modules * n_delay)\n\n
\t\t[Jungfrau][Moench][Mythen3] txdelay_frame to (num_modules * n_delay)\n\n
Please refer txdelay_left, txdelay_right and txdelay_frame for details.
"""
return self.getTransmissionDelay()
@ -762,11 +761,11 @@ class Detector(CppDetectorApi):
@element
def txdelay_frame(self):
"""
[Eiger][Jungfrau][Mythen3] Transmission delay of first udp packet being streamed out of the module.\n
[Eiger][Jungfrau][Moench][Mythen3] Transmission delay of first udp packet being streamed out of the module.\n
Note
----
[Jungfrau] [0-31] Each value represents 1 ms. \n
[Jungfrau][Moench] [0-31] Each value represents 1 ms. \n
[Eiger] Additional delay to txdelay_left and txdelay_right. Each value represents 10ns. Typical value is 50000. \n
[Mythen3] [0-16777215] Each value represents 8 ns (125 MHz clock), max is 134 ms.
"""
@ -949,7 +948,7 @@ class Detector(CppDetectorApi):
@property
@element
def numinterfaces(self):
"""[Jungfrau][Gotthard2] Number of udp interfaces to stream data from detector. Default is 1.
"""[Jungfrau][Moench][Gotthard2] Number of udp interfaces to stream data from detector. Default is 1.
Note
-----
@ -1295,11 +1294,11 @@ class Detector(CppDetectorApi):
@element
def udp_dstip2(self):
"""
[Jungfrau][Gotthard2] Ip address of the receiver (destination) udp interface 2.
[Jungfrau][Moench][Gotthard2] Ip address of the receiver (destination) udp interface 2.
Note
----
[Jungfrau] bottom half \n
[Jungfrau][Moench] bottom half \n
[Gotthard2] veto debugging \n
If 'auto' used, then ip is set to ip of rx_hostname. \n
To set IPs for individual modules, use setDestinationUDPIP2.
@ -1348,13 +1347,13 @@ class Detector(CppDetectorApi):
@element
def udp_dstmac2(self):
"""
[Jungfrau][Gotthard2] Mac address of the receiver (destination) udp interface 2.
[Jungfrau][Moench][Gotthard2] Mac address of the receiver (destination) udp interface 2.
Note
----
Not mandatory to set as udp_dstip2 retrieves it from slsReceiver process but must be set if you use a custom receiver (not slsReceiver). \n
To set MACs for individual modules, use setDestinationUDPMAC2. \n
[Jungfrau] bottom half \n
[Jungfrau][Moench] bottom half \n
[Gotthard2] veto debugging \n
Use router mac if router between detector and receiver.
@ -1399,11 +1398,11 @@ class Detector(CppDetectorApi):
@element
def udp_srcmac2(self):
"""
[Jungfrau][Gotthard2] Mac address of the receiver (source) udp interface 2.
[Jungfrau][Moench][Gotthard2] Mac address of the receiver (source) udp interface 2.
Note
----
[Jungfrau] bottom half \n
[Jungfrau][Moench] bottom half \n
[Gotthard2] veto debugging \n
To set MACs for individual modules, use setSourceUDPMAC2.
@ -1449,11 +1448,11 @@ class Detector(CppDetectorApi):
@element
def udp_srcip2(self):
"""
[Jungfrau][Gotthard2] Ip address of the detector (source) udp interface 2.
[Jungfrau][Moench][Gotthard2] Ip address of the detector (source) udp interface 2.
Note
-----
[Jungfrau] bottom half \n
[Jungfrau][Moench] bottom half \n
[Gotthard2] veto debugging \n
Must be same subnet as destination udp ip2.\n
To set IPs for individual modules, use setSourceUDPIP2.
@ -1499,7 +1498,7 @@ class Detector(CppDetectorApi):
----
Default is 50002. \n
[Eiger] right half \n
[Jungfrau] bottom half \n
[Jungfrau][Moench] bottom half \n
[Gotthard2] veto debugging \n
Ports for each module is calculated (incremented by 2) \n
To set ports for individual modules, use setDestinationUDPPort2.
@ -1519,7 +1518,7 @@ class Detector(CppDetectorApi):
-----
[Gotthard] 0, 90, 110, 120, 150, 180, 200 \n
[Eiger][Mythen3][Gotthard2] 0 - 200 \n
[Jungfrau][Ctb][Moench] 0, 60 - 200
[Jungfrau][Moench][Ctb] 0, 60 - 200
"""
return self.getHighVoltage()
@ -1642,8 +1641,8 @@ class Detector(CppDetectorApi):
@element
def master(self):
"""
[Eiger][Gotthard2][Jungfrau] Sets (half) module to master and other(s) to slaves.\n
[Gotthard][Gotthard2][Mythen3][Eiger][Jungfrau] Gets if the current (half) module is master.
[Eiger][Gotthard2][Jungfrau][Moench] Sets (half) module to master and other(s) to slaves.\n
[Gotthard][Gotthard2][Mythen3][Eiger][Jungfrau][Moench] Gets if the current (half) module is master.
"""
return self.getMaster()
@ -1655,7 +1654,7 @@ class Detector(CppDetectorApi):
@element
def sync(self):
"""
[Jungfrau] Enables or disables synchronization between modules.
[Jungfrau][Moench] Enables or disables synchronization between modules.
"""
return self.getSynchronization()
@ -1809,7 +1808,7 @@ class Detector(CppDetectorApi):
@property
def adcreg(self):
"""[Jungfrau][Ctb][Moench][Gotthard] Writes to an adc register
"""[Jungfrau][Moench][Ctb][Gotthard] Writes to an adc register
Note
-----
@ -1822,7 +1821,7 @@ class Detector(CppDetectorApi):
@property
@element
def adcinvert(self):
"""[Ctb][Moench][Jungfrau] ADC Inversion Mask.
"""[Ctb][Jungfrau][Moench] ADC Inversion Mask.
Note
-----
@ -1838,7 +1837,7 @@ class Detector(CppDetectorApi):
@element
def triggersl(self):
"""
[Gotthard][Jungfrau][Mythen3][Gotthard2][CTB][Moench] Number of triggers left in acquisition.\n
[Gotthard][Jungfrau][Moench][Mythen3][Gotthard2][CTB] Number of triggers left in acquisition.\n
Note
----
@ -1851,7 +1850,7 @@ class Detector(CppDetectorApi):
@property
@element
def frametime(self):
"""[Jungfrau][Mythen3][Gotthard2][Moench][CTB] Timestamp at a frame start.
"""[Jungfrau][Moench][Mythen3][Gotthard2][CTB] Timestamp at a frame start.
Note
----
@ -1892,14 +1891,22 @@ class Detector(CppDetectorApi):
def versions(self):
version_list = {'type': self.type,
'package': self.packageversion,
'client': self.clientversion,
'firmware': self.firmwareversion,
'detectorserver': self.detectorserverversion,
'kernel': self.kernelversion}
if self.type != detectorType.EIGER:
'client': self.clientversion}
if self.type == detectorType.EIGER:
version_list ['firmware (Beb)'] = self.firmwareversion
version_list ['firmware(Febl)'] = self.getFrontEndFirmwareVersion(slsDetectorDefs.fpgaPosition.FRONT_LEFT)
version_list ['firmware (Febr)'] = self.getFrontEndFirmwareVersion(slsDetectorDefs.fpgaPosition.FRONT_RIGHT)
else:
version_list ['firmware'] = self.firmwareversion
version_list ['detectorserver'] = self.detectorserverversion
version_list ['kernel'] = self.kernelversion
version_list ['hardware'] = self.hardwareversion
if self.use_receiver:
version_list ['receiver'] = self.rx_version
return version_list
@property
@ -1967,10 +1974,10 @@ class Detector(CppDetectorApi):
Note
-----
[Jungfrau] FULL_SPEED, HALF_SPEED (Default), QUARTER_SPEED
[Jungfrau][Moench] FULL_SPEED, HALF_SPEED (Default), QUARTER_SPEED
[Eiger] FULL_SPEED (Default), HALF_SPEED, QUARTER_SPEED
[Gottthard2] G2_108MHZ (Default), G2_144MHZ
[Jungfrau] FULL_SPEED option only available from v2.0 boards and is recommended to set number of interfaces to 2. \n
[Jungfrau][Moench] FULL_SPEED option only available from v2.0 boards and is recommended to set number of interfaces to 2. \n
Also overwrites adcphase to recommended default.
"""
return element_if_equal(self.getReadoutSpeed())
@ -2056,7 +2063,7 @@ class Detector(CppDetectorApi):
Note
-----
Default: AUTO_TIMING \n
[Jungfrau][Gotthard][Ctb][Moench][Gotthard2] AUTO_TIMING, TRIGGER_EXPOSURE \n
[Jungfrau][Moench][Gotthard][Ctb][Gotthard2] AUTO_TIMING, TRIGGER_EXPOSURE \n
[Mythen3] AUTO_TIMING, TRIGGER_EXPOSURE, GATED, TRIGGER_GATED \n
[Eiger] AUTO_TIMING, TRIGGER_EXPOSURE, GATED, BURST_TRIGGER
"""
@ -2215,13 +2222,13 @@ class Detector(CppDetectorApi):
def readnrows(self):
"""
[Eiger] Number of rows to read out per half module starting from the centre.
[Jungfrau] Number of rows to read per module starting from the centre.
[Jungfrau][Moench] Number of rows to read per module starting from the centre.
Note
----
[Eiger] Options: 1 - 256. 256 is default. \n
[Eiger]The permissible values depend on dynamic range and 10Gbe enabled.\n\n
[Jungfrau] Options: 8 - 512 (multiples of 8)
[Jungfrau][Moench] Options: 8 - 512 (multiples of 8)
"""
return self.getReadNRows()
@ -2312,7 +2319,7 @@ class Detector(CppDetectorApi):
@property
@element
def tengiga(self):
"""[Eiger][Ctb][Moench][Mythen3] 10GbE Enable."""
"""[Eiger][Ctb][Mythen3] 10GbE Enable."""
return self.getTenGiga()
@tengiga.setter
@ -2332,7 +2339,7 @@ class Detector(CppDetectorApi):
@property
@element
def flowcontrol10g(self):
"""[Eiger][Jungfrau] Enable or disable 10GbE Flow Control."""
"""[Eiger][Jungfrau][Moench] Enable or disable 10GbE Flow Control."""
return self.getTenGigaFlowControl()
@flowcontrol10g.setter
@ -2352,7 +2359,7 @@ class Detector(CppDetectorApi):
@property
@element
def gappixels(self):
"""[Eiger][Jungfrau] Include Gap pixels in client data call back in Detecor api. Will not be in detector streaming, receiver file or streaming. Default is disabled. """
"""[Eiger][Jungfrau][Moench] Include Gap pixels in client data call back in Detecor api. Will not be in detector streaming, receiver file or streaming. Default is disabled. """
return self.getRxAddGapPixels()
@gappixels.setter
@ -2408,7 +2415,7 @@ class Detector(CppDetectorApi):
@element
def chipversion(self):
"""
[Jungfrau] Chip version of module. Can be 1.0 or 1.1.
[Jungfrau][Moench] Chip version of module. Can be 1.0 or 1.1.
Example
-------
@ -2421,7 +2428,7 @@ class Detector(CppDetectorApi):
@property
@element
def autocompdisable(self):
"""[Jungfrau] Enable or disable auto comparator disable mode.
"""[Jungfrau][Moench] Enable or disable auto comparator disable mode.
Note
-----
@ -2437,7 +2444,7 @@ class Detector(CppDetectorApi):
@property
@element
def compdisabletime(self):
"""[Jungfrau] Time before end of exposure when comparator is disabled.
"""[Jungfrau][Moench] Time before end of exposure when comparator is disabled.
Note
-----
@ -2483,7 +2490,7 @@ class Detector(CppDetectorApi):
@property
@element
def runtime(self):
"""[Jungfrau][Mythen3][Gotthard2][Moench][CTB] Time from detector start up.
"""[Jungfrau][Moench][Mythen3][Gotthard2][CTB] Time from detector start up.
Note
-----
@ -2576,7 +2583,7 @@ class Detector(CppDetectorApi):
@element
def temp_threshold(self):
"""
[Jungfrau] Threshold temperature in degrees.
[Jungfrau][Moench] Threshold temperature in degrees.
Note
-----
@ -2593,7 +2600,7 @@ class Detector(CppDetectorApi):
@element
def temp_event(self):
"""
[Jungfrau] 1, if a temperature event occured. \n
[Jungfrau][Moench] 1, if a temperature event occured. \n
Note
----
@ -2621,7 +2628,7 @@ class Detector(CppDetectorApi):
@element
def temp_control(self):
"""
[Jungfrau] Temperature control enable.
[Jungfrau][Moench] Temperature control enable.
Note
-----
@ -2638,7 +2645,7 @@ class Detector(CppDetectorApi):
@property
@element
def selinterface(self):
"""[Jungfrau] The udp interface to stream data from detector.
"""[Jungfrau][Moench] The udp interface to stream data from detector.
Note
-----
@ -2658,11 +2665,11 @@ class Detector(CppDetectorApi):
@property
def gainmode(self):
"""
[Jungfrau] Detector gain mode. Enum: gainMode
[Jungfrau][Moench] Detector gain mode. Enum: gainMode
Note
-----
[Jungfrau] DYNAMIC, FORCE_SWITCH_G1, FORCE_SWITCH_G2, FIX_G1, FIX_G2, FIX_G0 \n
[Jungfrau][Moench] 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())
@ -2717,14 +2724,14 @@ class Detector(CppDetectorApi):
@element
def filterresistor(self):
"""
[Gotthard2][Jungfrau] Set filter resistor. Increasing values for increasing "
[Gotthard2][Jungfrau][Moench] Set filter resistor. Increasing values for increasing "
"resistance.
Note
----
Advanced user command.
[Gotthard2] Default is 0. Options: 0-3.
[Jungfrau] Default is 1. Options: 0-1.
[Jungfrau][Moench] Default is 1. Options: 0-1.
"""
return self.getFilterResistor()
@ -2736,11 +2743,11 @@ class Detector(CppDetectorApi):
@element
def filtercells(self):
"""
[Jungfrau] Set filter capacitor.
[Jungfrau][Moench] Set filter capacitor.
Note
----
[Jungfrau] Options: 0-12. Default: 0. Advanced user command. Only for chipv1.1.
[Jungfrau][Moench] Options: 0-12. Default: 0. Advanced user command. Only for chipv1.1.
"""
return self.getNumberOfFilterCells()
@ -3076,7 +3083,7 @@ class Detector(CppDetectorApi):
@property
@element
def adcenable(self):
"""[Ctb][Moench] ADC Enable Mask for 1Gb. Enable for each 32 ADC channel."""
"""[Ctb] ADC Enable Mask for 1Gb. Enable for each 32 ADC channel."""
return self.getADCEnableMask()
@adcenable.setter
@ -3086,7 +3093,7 @@ class Detector(CppDetectorApi):
@property
@element
def adcenable10g(self):
"""[Ctb][Moench] ADC Enable Mask for 10Gb mode for each 32 ADC channel.
"""[Ctb] ADC Enable Mask for 10Gb mode for each 32 ADC channel.
Note
-----
@ -3103,7 +3110,6 @@ class Detector(CppDetectorApi):
def samples(self):
"""
[CTB] Number of samples (both analog and digitial) expected. \n
[Moench] Number of samples (analog only)
"""
return self.getNumberOfAnalogSamples()
@ -3114,7 +3120,7 @@ class Detector(CppDetectorApi):
@property
@element
def runclk(self):
"""[Ctb][Moench] Run clock in MHz."""
"""[Ctb] Run clock in MHz."""
return self.getRUNClock()
@runclk.setter
@ -3147,7 +3153,7 @@ class Detector(CppDetectorApi):
@property
@element
def asamples(self):
"""[Ctb][Moench] Number of analog samples expected. """
"""[Ctb] Number of analog samples expected. """
return element_if_equal(self.getNumberOfAnalogSamples())
@asamples.setter
@ -3167,7 +3173,7 @@ class Detector(CppDetectorApi):
@property
@element
def dbitphase(self):
"""[Ctb][Jungfrau] Phase shift of clock to latch digital bits. Absolute phase shift.
"""[Ctb][Jungfrau][Moench] Phase shift of clock to latch digital bits. Absolute phase shift.
Note
-----
@ -3219,7 +3225,7 @@ class Detector(CppDetectorApi):
@property
@element
def maxdbitphaseshift(self):
"""[CTB][Jungfrau] Absolute maximum Phase shift of of the clock to latch digital bits.
"""[CTB][Jungfrau][Moench] Absolute maximum Phase shift of of the clock to latch digital bits.
Note
-----
@ -3266,7 +3272,7 @@ class Detector(CppDetectorApi):
@property
@element
def maxadcphaseshift(self):
"""[Jungfrau][CTB][Moench] Absolute maximum Phase shift of ADC clock.
"""[Jungfrau][Moench][CTB] Absolute maximum Phase shift of ADC clock.
Note
-----
@ -3278,12 +3284,12 @@ class Detector(CppDetectorApi):
@property
@element
def adcphase(self):
"""[Gotthard][Jungfrau][CTB][Moench] Sets phase shift of ADC clock.
"""[Gotthard][Jungfrau][Moench][CTB] Sets phase shift of ADC clock.
Note
-----
[Jungfrau] Absolute phase shift. Changing Speed also resets adcphase to recommended defaults.\n
[Ctb][Moench] Absolute phase shift. Changing adcclk also resets adcphase and sets it to previous values.\n
[Jungfrau][Moench] Absolute phase shift. Changing Speed also resets adcphase to recommended defaults.\n
[Ctb] Absolute phase shift. Changing adcclk also resets adcphase and sets it to previous values.\n
[Gotthard] Relative phase shift.
:getter: Not implemented for Gotthard
@ -3297,7 +3303,7 @@ class Detector(CppDetectorApi):
@property
@element
def adcpipeline(self):
"""[Ctb][Moench] Sets pipeline for ADC clock. """
"""[Ctb] Sets pipeline for ADC clock. """
return self.getADCPipeline()
@adcpipeline.setter
@ -3307,7 +3313,7 @@ class Detector(CppDetectorApi):
@property
@element
def adcclk(self):
"""[Ctb][Moench] Sets ADC clock frequency in MHz. """
"""[Ctb] Sets ADC clock frequency in MHz. """
return self.getADCClock()
@adcclk.setter
@ -3318,7 +3324,7 @@ class Detector(CppDetectorApi):
@element
def syncclk(self):
"""
[Ctb][Moench] Sync clock in MHz.
[Ctb] Sync clock in MHz.
Note
-----
@ -3329,7 +3335,7 @@ class Detector(CppDetectorApi):
@property
def pattern(self):
"""[Mythen3][Moench][Ctb] Loads ASCII pattern file directly to server (instead of executing line by line).
"""[Mythen3][Ctb] Loads ASCII pattern file directly to server (instead of executing line by line).
Note
----
@ -3351,7 +3357,7 @@ class Detector(CppDetectorApi):
@property
@element
def patioctrl(self):
"""[Ctb][Moench] 64 bit mask defining input (0) and output (1) signals.
"""[Ctb] 64 bit mask defining input (0) and output (1) signals.
Example
--------
@ -3368,7 +3374,7 @@ class Detector(CppDetectorApi):
@property
@element
def patlimits(self):
"""[Ctb][Moench][Mythen3] Limits (start and stop address) of complete pattern.
"""[Ctb][Mythen3] Limits (start and stop address) of complete pattern.
Example
---------
@ -3388,7 +3394,7 @@ class Detector(CppDetectorApi):
@property
@element
def patsetbit(self):
"""[Ctb][Moench][Mythen3] Sets the mask applied to every pattern to the selected bits.
"""[Ctb][Mythen3] Sets the mask applied to every pattern to the selected bits.
Example
--------
@ -3405,7 +3411,7 @@ class Detector(CppDetectorApi):
@property
@element
def patmask(self):
"""[Ctb][Moench][Mythen3] Selects the bits that will have a pattern mask applied to the selected patmask for every pattern.
"""[Ctb][Mythen3] Selects the bits that will have a pattern mask applied to the selected patmask for every pattern.
Example
--------
@ -3423,7 +3429,7 @@ class Detector(CppDetectorApi):
# @element
def patwait(self):
"""
[Ctb][Moench][Mythen3] Wait address of loop level provided.
[Ctb][Mythen3] Wait address of loop level provided.
Example
-------
@ -3440,7 +3446,7 @@ class Detector(CppDetectorApi):
@property
@element
def patwait0(self):
"""[Ctb][Moench][Mythen3] Wait 0 address.
"""[Ctb][Mythen3] Wait 0 address.
Example
--------
@ -3460,7 +3466,7 @@ class Detector(CppDetectorApi):
@property
@element
def patwait1(self):
"""[Ctb][Moench][Mythen3] Wait 1 address.
"""[Ctb][Mythen3] Wait 1 address.
Example
--------
@ -3480,7 +3486,7 @@ class Detector(CppDetectorApi):
@property
@element
def patwait2(self):
"""[Ctb][Moench][Mythen3] Wait 2 address.
"""[Ctb][Mythen3] Wait 2 address.
Example
--------
@ -3500,7 +3506,7 @@ class Detector(CppDetectorApi):
@property
def patwaittime(self):
"""
[Ctb][Moench][Mythen3] Wait time in clock cycles of loop level provided.
[Ctb][Mythen3] Wait time in clock cycles of loop level provided.
Example
-------
@ -3517,7 +3523,7 @@ class Detector(CppDetectorApi):
@property
@element
def patwaittime0(self):
"""[Ctb][Moench][Mythen3] Wait 0 time in clock cycles."""
"""[Ctb][Mythen3] Wait 0 time in clock cycles."""
return self.getPatternWaitTime(0)
@patwaittime0.setter
@ -3528,7 +3534,7 @@ class Detector(CppDetectorApi):
@property
@element
def patwaittime1(self):
"""[Ctb][Moench][Mythen3] Wait 1 time in clock cycles."""
"""[Ctb][Mythen3] Wait 1 time in clock cycles."""
return self.getPatternWaitTime(1)
@patwaittime1.setter
@ -3539,7 +3545,7 @@ class Detector(CppDetectorApi):
@property
@element
def patwaittime2(self):
"""[Ctb][Moench][Mythen3] Wait 2 time in clock cycles."""
"""[Ctb][Mythen3] Wait 2 time in clock cycles."""
return self.getPatternWaitTime(2)
@patwaittime2.setter
@ -3551,7 +3557,7 @@ class Detector(CppDetectorApi):
@property
def patloop(self):
"""
[Ctb][Moench][Mythen3] Limits (start and stop address) of the loop provided.
[Ctb][Mythen3] Limits (start and stop address) of the loop provided.
Example
-------
@ -3568,7 +3574,7 @@ class Detector(CppDetectorApi):
@property
@element
def patloop0(self):
"""[Ctb][Moench][Mythen3] Limits (start and stop address) of loop 0.
"""[Ctb][Mythen3] Limits (start and stop address) of loop 0.
Example
---------
@ -3588,7 +3594,7 @@ class Detector(CppDetectorApi):
@property
@element
def patloop1(self):
"""[Ctb][Moench][Mythen3] Limits (start and stop address) of loop 1.
"""[Ctb][Mythen3] Limits (start and stop address) of loop 1.
Example
---------
@ -3609,7 +3615,7 @@ class Detector(CppDetectorApi):
@property
@element
def patloop2(self):
"""[Ctb][Moench][Mythen3] Limits (start and stop address) of loop 2.
"""[Ctb][Mythen3] Limits (start and stop address) of loop 2.
Example
---------
@ -3631,7 +3637,7 @@ class Detector(CppDetectorApi):
@property
def patnloop(self):
"""
[Ctb][Moench][Mythen3] Number of cycles of the loop provided.
[Ctb][Mythen3] Number of cycles of the loop provided.
Example
-------
@ -3648,7 +3654,7 @@ class Detector(CppDetectorApi):
@property
@element
def patnloop0(self):
"""[Ctb][Moench][Mythen3] Number of cycles of loop 0."""
"""[Ctb][Mythen3] Number of cycles of loop 0."""
return self.getPatternLoopCycles(0)
@patnloop0.setter
@ -3659,7 +3665,7 @@ class Detector(CppDetectorApi):
@property
@element
def patnloop1(self):
"""[Ctb][Moench][Mythen3] Number of cycles of loop 1."""
"""[Ctb][Mythen3] Number of cycles of loop 1."""
return self.getPatternLoopCycles(1)
@patnloop1.setter
@ -3670,7 +3676,7 @@ class Detector(CppDetectorApi):
@property
@element
def patnloop2(self):
"""[Ctb][Moench][Mythen3] Number of cycles of loop 2."""
"""[Ctb][Mythen3] Number of cycles of loop 2."""
return self.getPatternLoopCycles(2)
@patnloop2.setter
@ -3741,7 +3747,7 @@ class Detector(CppDetectorApi):
@property
@element
def v_limit(self):
"""[Ctb][Moench] Soft limit for power supplies (ctb only) and DACS in mV."""
"""[Ctb] Soft limit for power supplies (ctb only) and DACS in mV."""
return self.getDAC(dacIndex.V_LIMIT, True)
@v_limit.setter

5
python/src/detector.cpp
View File

@ -61,6 +61,11 @@ void init_det(py::module &m) {
(Result<int64_t>(Detector::*)(sls::Positions) const) &
Detector::getFirmwareVersion,
py::arg() = Positions{});
CppDetectorApi.def("getFrontEndFirmwareVersion",
(Result<int64_t>(Detector::*)(const defs::fpgaPosition,
sls::Positions) const) &
Detector::getFrontEndFirmwareVersion,
py::arg(), py::arg() = Positions{});
CppDetectorApi.def(
"getDetectorServerVersion",
(Result<std::string>(Detector::*)(sls::Positions) const) &

5
python/src/enums.cpp
View File

@ -286,6 +286,11 @@ void init_enums(py::module &m) {
.value("BOTTOM", slsDetectorDefs::portPosition::BOTTOM)
.export_values();
py::enum_<slsDetectorDefs::fpgaPosition>(Defs, "fpgaPosition")
.value("FRONT_LEFT", slsDetectorDefs::fpgaPosition::FRONT_LEFT)
.value("FRONT_RIGHT", slsDetectorDefs::fpgaPosition::FRONT_RIGHT)
.export_values();
py::enum_<slsDetectorDefs::streamingInterface>(Defs, "streamingInterface",
py::arithmetic())
.value("NONE", slsDetectorDefs::streamingInterface::NONE)

1
serverBin/ctbDetectorServer_developer Symbolic link
View File

@ -0,0 +1 @@
../slsDetectorServers/ctbDetectorServer/bin/ctbDetectorServer_developer

1
serverBin/eigerDetectorServer_developer Symbolic link
View File

@ -0,0 +1 @@
../slsDetectorServers/eigerDetectorServer/bin/eigerDetectorServer_developer

1
serverBin/gotthard2DetectorServer_developer Symbolic link
View File

@ -0,0 +1 @@
../slsDetectorServers/gotthard2DetectorServer/bin/gotthard2DetectorServer_developer

1
serverBin/gotthardDetectorServer_developer Symbolic link
View File

@ -0,0 +1 @@
../slsDetectorServers/gotthardDetectorServer/bin/gotthardDetectorServer_developer

1
serverBin/jungfrauDetectorServer_developer Symbolic link
View File

@ -0,0 +1 @@
../slsDetectorServers/jungfrauDetectorServer/bin/jungfrauDetectorServer_developer

1
serverBin/moenchDetectorServer_developer Symbolic link
View File

@ -0,0 +1 @@
../slsDetectorServers/moenchDetectorServer/bin/moenchDetectorServer_developer

1
serverBin/mythen3DetectorServer_developer Symbolic link
View File

@ -0,0 +1 @@
../slsDetectorServers/mythen3DetectorServer/bin/mythen3DetectorServer_developer

3
slsDetectorCalibration/analogDetector.h
View File

@ -1097,6 +1097,9 @@ template <class dataType> class analogDetector {
return thr;
};
virtual int setClusterSize(int n = -1) {
};
/**
gets threshold value for conversion into number of photons
\returns threshold value

85
slsDetectorCalibration/dataStructures/jungfrauLGADStrixelsData.h
View File

@ -2,7 +2,11 @@
// Copyright (C) 2021 Contributors to the SLS Detector Package
#ifndef JUNGFRAULGADSTRIXELDATA_H
#define JUNGFRAULGADSTRIXELDATA_H
#ifdef CINT
#include "sls/sls_detector_defs_CINT.h"
#else
#include "sls/sls_detector_defs.h"
#endif
#include "slsDetectorData.h"
/*
@ -32,7 +36,7 @@ typedef struct {
uint64_t bunchNumber; /**< is the frame number */
uint64_t pre; /**< something */
} jf_header;
} jf_header; //Aldo's header
using namespace std;
@ -41,7 +45,11 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
private:
int iframe;
#ifdef ALDO //VH
using header = jf_header; //VH
#else //VH
using header = sls::defs::sls_receiver_header;
#endif //VH
public:
/**
Implements the slsReceiverData structure for the moench02 prototype read
@ -53,6 +61,9 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
: slsDetectorData<uint16_t>(1024/5, 512*5,
512 * 1024 * 2 + sizeof(header)) {
cout << "aaa" << endl;
#ifdef ALDO //VH
cout<< "using reduced jf_header" << endl; //VH
#endif //VH
for (int ix = 0; ix < 1024/5; ix++) {
for (int iy = 0; iy < 512*5; iy++) {
dataMap[iy][ix] = sizeof(header);//+ ( 1024 * 5 + 300) * 2; //somewhere on the guardring of the LGAD
@ -61,44 +72,51 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
#endif
}
}
int x0=256+10, x1=256+246;
int y0=10, y1=256-10;
//chip1
/*
* TL;DR comments: y0 is too high by 1, group 1 and group 2 are by one row too short
* group34 by 2 rows, x is by one column too short
* NOTE: If x0, x1, y0 are changed, likely also ox (and oy and ooy) will be affected!
*/
cout << "G0" << endl; //chip coordinates of chip1 group1: x=255+10 to x=255+246, y=10 to y=64
//9 pixels guard ring, bonding shift by one pixel in y, one square pixel in x on the left
int x0=256+10, x1=256+246; //excludes first column (in chip coordinates)
int y0=10, y1=256-10; //y1 does nothing
int ix,iy;
int ox=0, oy=0, ooy=0;
ox=0;
cout << "G0" << endl;
//chip1
for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0; ipy<y0+54; ipy++) {
for (int ipy=y0; ipy<y0+54; ipy++) { //y0+54 excludes the last row (in chip coordinates), should be y0+55 to include all rows
ix=(ipx-x0+ox)/3;
iy=(ipx-x0+ox)%3+(ipy-y0+oy)*3+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
// cout << ipx << " " << ipy << " " << ix << " " << iy << endl;
}
}
cout << "G1" << endl;
cout << "G1" << endl; //chip coordinates of chip1 group2: x=255+12 to x=255+246, y=65 to y=128
//3 square pixels in x on the left
oy=-54;
ooy=54*3;
ox=3;
for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0+54; ipy<y0+64+54; ipy++) {
for (int ipy=y0+54; ipy<y0+64+54; ipy++) { //I think y0+54 catches the last row of group1! Should be y0+55 if we want to include all rows? And y0+55+64
ix=(ipx-x0+ox)/5;
iy=(ipx-x0+ox)%5+(ipy-y0+oy)*5+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
}
}
cout << "G2" << endl;
cout << "G2" << endl; //chip coordinates of chip1 group34: x=255+11 to x=255+246, y=129 to y=247
//2 square pixels on the left
oy=-54-64;
ooy=54*3+64*5;
ox=3;
for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0+64+54; ipy<y0+64*2+54*2; ipy++) {
for (int ipy=y0+64+54; ipy<y0+64*2+54*2; ipy++) { //Same as above, I think it should be y0+55+64 and y0+55*2+64*2 to include all rows
ix=(ipx-x0+ox)/4;
iy=(ipx-x0+ox)%4+(ipy-y0+oy)*4+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
@ -106,43 +124,50 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
}
//chip 6
/*
* TL;DR comments: y0 is too high by 3, group34 and group 1 are by one row too short
* x is by two columns too short
* NOTE: If x0, x1, y0 are changed, likely also ox (and oy and ooy) will be affected!
*/
cout << "G0" << endl; //chip coordinates of chip6 group34: x=255+256+9 to x=255+256+244, y=255+8 to y=255+126
//9 pixels guard ring, bonding shift by one pixel in -y, 2 square pixels in x on the right
x0=256*2+10;
y0=256+10;
x1=256*2+246;
ooy=256*5;
oy=0;
ox=1;
cout << "G0" << endl;
for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0; ipy<y0+54+64; ipy++) {
for (int ipy=y0; ipy<y0+54+64; ipy++) { //shifted by 3 rows because of y0, if y0 is corrected it should be y0+55+64 to include all rows
ix=(ipx-x0+ox)/4;
iy=(ipx-x0+ox)%4+(ipy-y0+oy)*4+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
if (ipx==x0)
cout << ipx << " " << ipy << " " << ix << " " << iy << endl;
//if (ipx==x0)
// cout << ipx << " " << ipy << " " << ix << " " << iy << endl;
}
}
cout << "G1" << endl;
cout << "G1" << endl; //chip coordinates of chip6 group2: x=255+256+9 to x=255+256+243, y=255+127 to y=255+190
//3 square pixels in x on the right
oy=-54-64;
ooy+=(54+64)*4;
ox=1;
for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0+54+64; ipy<y0+64*2+54; ipy++) {
for (int ipy=y0+54+64; ipy<y0+64*2+54; ipy++) { //shifted by 3 rows because of y0, if y0 is corrected it should be y0+55+64 and y0+55+64*2 to include all rows
ix=(ipx-x0+ox)/5;
iy=(ipx-x0+ox)%5+(ipy-y0+oy)*5+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
}
}
cout << "G2" << endl;
cout << "G2" << endl; //chip coordinates of chip6 group1: x=255+256+9 to x=255+256+245, y=255+191 to y=255+245
//one square pixel in x on the right
oy=-54-64*2;
ooy+=64*5;
ox=1;
for (int ipx=x0; ipx<x1; ipx++) {
for (int ipy=y0+64*2+54; ipy<y0+64*2+54*2; ipy++) {
for (int ipy=y0+64*2+54; ipy<y0+64*2+54*2; ipy++) { //shifted by 3 rows because of y0, if y0 is corrected it should be y0+55+64*2 and y0+55*2+64*2
ix=(ipx-x0+ox)/3;
iy=(ipx-x0+ox)%3+(ipy-y0+oy)*3+ooy;
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
@ -206,7 +231,11 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
int getFrameNumber(char *buff) {
#ifdef ALDO //VH
return ((header *)buff)->bunchNumber; //VH
#else //VH
return ((header *)buff)->detHeader.frameNumber;
#endif //VH
};
/**
@ -219,7 +248,11 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
*/
int getPacketNumber(char *buff) {
#ifdef ALDO //VH
return -1; //VH //TODO: Keep in mind in case of bugs!
#else //VH
return ((header *)buff)->detHeader.packetNumber;
#endif //VH
};
@ -265,8 +298,6 @@ class jungfrauLGADStrixelsData : public slsDetectorData<uint16_t> {
return NULL;
};
/* /**
/* Loops over a memory slot until a complete frame is found (i.e. all */
/* packets 0 to nPackets, same frame number). purely virtual func \param */
/* data pointer to the memory to be analyzed \param ndata reference to the */

305
slsDetectorCalibration/dataStructures/jungfrauLGADStrixelsDataSingleChip.h Normal file
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@ -0,0 +1,305 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#ifndef JUNGFRAULGADSTRIXELSDATASINGLECHIP_H
#define JUNGFRAULGADSTRIXELSDATASINGLECHIP_H
#ifdef CINT
#include "sls/sls_detector_defs_CINT.h"
#else
#include "sls/sls_detector_defs.h"
#endif
#include "slsDetectorData.h"
/*
/afs/psi.ch/project/mythen/Anna/slsDetectorPackageDeveloperMpc2011/slsDetectorCalibration/jungfrauExecutables
make -f Makefile.rawdataprocess jungfrauRawDataProcessStrx
../dataStructures/jungfrauLGADStrixelsData.h
*/
//#define VERSION_V2
/**
@short structure for a Detector Packet or Image Header
@li frameNumber is the frame number
@li expLength is the subframe number (32 bit eiger) or real time exposure
time in 100ns (others)
@li packetNumber is the packet number
@li bunchId is the bunch id from beamline
@li timestamp is the time stamp with 10 MHz clock
@li modId is the unique module id (unique even for left, right, top, bottom)
@li xCoord is the x coordinate in the complete detector system
@li yCoord is the y coordinate in the complete detector system
@li zCoord is the z coordinate in the complete detector system
@li debug is for debugging purposes
@li roundRNumber is the round robin set number
@li detType is the detector type see :: detectorType
@li version is the version number of this structure format
*/
namespace strixelSingleChip {
constexpr int nc_chip = 256;
constexpr int nr_chip = 256;
constexpr int gr = 9;
//Group 1: 25um pitch, groups of 3, 1 column of square pixels
constexpr int g1_ncols{ (nc_chip-(2*gr)-1)/3 }; //79
constexpr int g1_nrows{ ( (nr_chip/4)-gr )*3 }; //165
//Group 2: 15um pitch, groups of 5, 3 columns of square pixels
constexpr int g2_ncols{ (nc_chip-(2*gr)-3)/5 }; //47
constexpr int g2_nrows{ (nr_chip/4)*5 }; //320
//Group 3: 18.75um pitch, groups of 4, 2 columns of square pixels (double the size of the other groups)
constexpr int g3_ncols{ (nc_chip-(2*gr)-2)/4 }; //59
constexpr int g3_nrows{ ( ((nr_chip/4)*2)-gr )*4 }; //476
constexpr int nc_strixel = 2*gr + 1 + g1_ncols; //group 1 is the "longest" group in x and has one extra square pixel
constexpr int nr_strixel = 2*gr + g1_nrows + g2_nrows + g3_nrows;
}
typedef struct {
uint64_t bunchNumber; /**< is the frame number */
uint64_t pre; /**< something */
} jf_header; //Aldo's header
using namespace strixelSingleChip;
class jungfrauLGADStrixelsDataSingleChip : public slsDetectorData<uint16_t> {
private:
int iframe;
int mchip;
void remapGroup( const int group ) {
int ix, iy;
int x0, y0, x1, y1, shifty;
int multiplicator;
switch (group) {
default:
case 1:
multiplicator = 3;
break;
case 2:
multiplicator = 5;
break;
case 3:
multiplicator = 4;
break;
}
if ( mchip == 1 ) {
switch (group) {
default:
case 1:
x0 = 10;
x1 = 247;
y0 = 10;
y1 = 65;
shifty = 0;
break;
case 2:
x0 = 12;
x1 = 247;
y0 = 65;
y1 = 129;
shifty = ( (nr_chip/4)-gr )*3;
break;
case 3:
x0 = 11;
x1 = 247;
y0 = 129;
y1 = 248;
shifty = ( (nr_chip/4)-gr )*3 + (nr_chip/4)*5;
break;
}
}
if ( mchip == 6 ) {
switch (group) {
default:
case 1:
x0 = 9;
x1 = 246;
y0 = 191;
y1 = 246;
shifty = ( (nr_chip/4)-gr+(nr_chip/4) )*4 + (nr_chip/4)*5;
break;
case 2:
x0 = 9;
x1 = 244;
y0 = 127;
y1 = 191;
shifty = ( (nr_chip/4)-gr+(nr_chip/4) )*4;
break;
case 3:
x0 = 9;
x1 = 245;
y0 = 8;
y1 = 127;
shifty = 0;
break;
}
}
//remapping loop
for ( int ipx=x0; ipx!=x1; ++ipx ) {
for ( int ipy=y0; ipy!=y1; ++ipy) {
ix = (ipx-x0)/multiplicator;
for ( int m=0; m!=multiplicator; ++m ) {
if ( (ipx-x0)%multiplicator==m ) iy=(ipy-y0)*multiplicator + m + shifty;
}
dataMap[iy][ix] = sizeof(header) + (nc_chip * ipy + ipx) * 2;
}
}
}
public:
#ifdef ALDO //VH
using header = jf_header; //VH
#else //VH
using header = sls::defs::sls_receiver_header;
#endif //VH
jungfrauLGADStrixelsDataSingleChip( const int chip )
: slsDetectorData<uint16_t>( /*nc_strixel*/nc_chip/3, /*nr_strixel*/ nr_chip*5,
nc_chip * nr_chip * 2 + sizeof(header) ) {
std::cout << "Jungfrau strixels single chip" << std::endl;
#ifdef ALDO //VH
std::cout<< "using reduced jf_header" << std::endl; //VH
#endif //VH
mchip = chip;
//Fill all strixels with dummy values
for (int ix = 0; ix != nc_strixel; ++ix) {
for (int iy = 0; iy != nr_strixel; ++iy) {
dataMap[iy][ix] = sizeof(header);
#ifdef HIGHZ
dataMask[iy][ix] = 0x3fff;
#endif
}
}
remapGroup(1);
remapGroup(2);
remapGroup(3);
iframe = 0;
std::cout << "data struct created" << std::endl;
};
/**
Returns the value of the selected channel for the given dataset as
double. \param data pointer to the dataset (including headers etc) \param
ix pixel number in the x direction \param iy pixel number in the y
direction \returns data for the selected channel, with inversion if
required as double
*/
virtual double getValue(char *data, int ix, int iy = 0) {
uint16_t val = getChannel(data, ix, iy) & 0x3fff;
return val;
};
/**
Returns the frame number for the given dataset. Purely virtual func.
\param buff pointer to the dataset
\returns frame number
*/
int getFrameNumber(char *buff) {
#ifdef ALDO //VH
return ((header *)buff)->bunchNumber; //VH
#else //VH
return ((header *)buff)->detHeader.frameNumber;
#endif //VH
};
/**
Returns the packet number for the given dataset. purely virtual func
\param buff pointer to the dataset
\returns packet number number
*/
int getPacketNumber(char *buff) {
#ifdef ALDO //VH
//uint32_t fakePacketNumber = 1000;
//return fakePacketNumber; //VH //TODO: Keep in mind in case of bugs! //This is definitely bad!
return 1000;
#else //VH
return ((header *)buff)->detHeader.packetNumber;
#endif //VH
};
char *readNextFrame(std::ifstream &filebin) {
int ff = -1, np = -1;
return readNextFrame(filebin, ff, np);
};
char *readNextFrame(std::ifstream &filebin, int &ff) {
int np = -1;
return readNextFrame(filebin, ff, np);
};
char *readNextFrame(std::ifstream &filebin, int &ff, int &np) {
char *data = new char[dataSize];
char *d = readNextFrame(filebin, ff, np, data);
if (d == NULL) {
delete[] data;
data = NULL;
}
return data;
};
char *readNextFrame(std::ifstream &filebin, int &ff, int &np,char *data) {
char *retval = 0;
int nd;
int fnum = -1;
np = 0;
int pn;
// cout << dataSize << endl;
if (ff >= 0)
fnum = ff;
if (filebin.is_open()) {
if (filebin.read(data, dataSize)) {
ff = getFrameNumber(data);
np = getPacketNumber(data);
return data;
}
}
return NULL;
};
/* Loops over a memory slot until a complete frame is found (i.e. all */
/* packets 0 to nPackets, same frame number). purely virtual func \param */
/* data pointer to the memory to be analyzed \param ndata reference to the */
/* amount of data found for the frame, in case the frame is incomplete at */
/* the end of the memory slot \param dsize size of the memory slot to be */
/* analyzed \returns pointer to the beginning of the last good frame (might */
/* be incomplete if ndata smaller than dataSize), or NULL if no frame is */
/* found */
/* *\/ */
virtual char *findNextFrame(char *data, int &ndata, int dsize) {
if (dsize < dataSize)
ndata = dsize;
else
ndata = dataSize;
return data;
};
// int getPacketNumber(int x, int y) {return dataMap[y][x]/packetSize;};
};
#endif

271
slsDetectorCalibration/dataStructures/jungfrauStrixelsHalfModuleOldDesign.h Normal file
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@ -0,0 +1,271 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#ifndef JUNGFRAUSTRIXELSHALFMODULEOLD_H
#define JUNGFRAUSTRIXELSHALFMODULEOLD_H
#ifdef CINT
#include "sls/sls_detector_defs_CINT.h"
#else
#include "sls/sls_detector_defs.h"
#endif
#include "slsDetectorData.h"
/*
/afs/psi.ch/project/mythen/Anna/slsDetectorPackageDeveloperMpc2011/slsDetectorCalibration/jungfrauExecutables
make -f Makefile.rawdataprocess jungfrauRawDataProcessStrx
../dataStructures/jungfrauLGADStrixelsData.h
*/
//#define VERSION_V2
/**
@short structure for a Detector Packet or Image Header
@li frameNumber is the frame number
@li expLength is the subframe number (32 bit eiger) or real time exposure
time in 100ns (others)
@li packetNumber is the packet number
@li bunchId is the bunch id from beamline
@li timestamp is the time stamp with 10 MHz clock
@li modId is the unique module id (unique even for left, right, top, bottom)
@li xCoord is the x coordinate in the complete detector system
@li yCoord is the y coordinate in the complete detector system
@li zCoord is the z coordinate in the complete detector system
@li debug is for debugging purposes
@li roundRNumber is the round robin set number
@li detType is the detector type see :: detectorType
@li version is the version number of this structure format
*/
namespace strixelsOldDesign {
constexpr int NC_STRIXEL = (1024*3);
constexpr int NR_TOTAL = (512/3);
constexpr int NR_STRIXEL = ( (256-4)/3 );
}
typedef struct {
uint64_t bunchNumber; /**< is the frame number */
uint64_t pre; /**< something */
} jf_header; //Aldo's header
using namespace strixelsOldDesign;
class jungfrauStrixelsHalfModuleOldDesign : public slsDetectorData<uint16_t> {
private:
int iframe;
#ifdef ALDO //VH
using header = jf_header; //VH
#else //VH
using header = sls::defs::sls_receiver_header;
#endif //VH
public:
/**
Implements the slsReceiverData structure for the moench02 prototype read
out by a module i.e. using the slsReceiver (160x160 pixels, 40 packets
1286 large etc.) \param c crosstalk parameter for the output buffer
*/
jungfrauStrixelsHalfModuleOldDesign()
: slsDetectorData<uint16_t>( 1024*3, 512/3,
512 * 1024 * 2 + sizeof(header) ) {
std::cout << "Jungfrau strixels old design" << std::endl;
#ifdef ALDO //VH
std::cout<< "using reduced jf_header" << std::endl; //VH
#endif //VH
for (int ix = 0; ix != 1024*3; ++ix) {
for (int iy = 0; iy != 512/3; ++iy) {
dataMap[iy][ix] = sizeof(header);//+ ( 1024 * 5 + 300) * 2; //somewhere on the guardring of the LGAD
#ifdef HIGHZ
dataMask[iy][ix] = 0x3fff;
#endif
}
}
//remap
int ix, iy;
for (int ipx=0; ipx!=1024; ++ipx) {
for (int ipy=0; ipy!=256-4; ++ipy) {
iy=ipy/3;
/* //1
if (ipy%3==0) ix=ipx*3+2;
if (ipy%3==1) ix=ipx*3+1;
if (ipy%3==2) ix=ipx*3;
*/
/* //2
if (ipy%3==2) ix=ipx*3+2;
if (ipy%3==0) ix=ipx*3+1;
if (ipy%3==1) ix=ipx*3;
*/
/* //3
if (ipy%3==1) ix=ipx*3+2;
if (ipy%3==2) ix=ipx*3+1;
if (ipy%3==0) ix=ipx*3;
*/
//4 //This seems to be correct //corresponds to looking from the backside of the sensor
if (ipy%3==0) ix=ipx*3;
if (ipy%3==1) ix=ipx*3+1;
if (ipy%3==2) ix=ipx*3+2;
/* //5
if (ipy%3==2) ix=ipx*3;
if (ipy%3==0) ix=ipx*3+1;
if (ipy%3==1) ix=ipx*3+2;
*/
/* //6
if (ipy%3==1) ix=ipx*3;
if (ipy%3==2) ix=ipx*3+1;
if (ipy%3==0) ix=ipx*3+2;
*/
if ( ipx!=255 && ipx!=256 && ipx!=511 && ipx!=512 && ipx!=767 && ipx!=768 ) //avoid double pixels
// ( !( ipx%256==0 || ipx%256==255 ) || ipx==0 || ipx==1023 )
dataMap[iy][ix] = sizeof(header) + (1024 * ipy + ipx) * 2;
// cout << ipx << " " << ipy << " " << ix << " " << iy << endl;
}
}
iframe = 0;
std::cout << "data struct created" << std::endl;
};
/**
Returns the value of the selected channel for the given dataset as
double. \param data pointer to the dataset (including headers etc) \param
ix pixel number in the x direction \param iy pixel number in the y
direction \returns data for the selected channel, with inversion if
required as double
*/
virtual double getValue(char *data, int ix, int iy = 0) {
uint16_t val = getChannel(data, ix, iy) & 0x3fff;
return val;
};
/* virtual void calcGhost(char *data, int ix, int iy) { */
/* double val=0; */
/* ghost[iy][ix]=0; */
/* } */
/* virtual void calcGhost(char *data) { */
/* for (int ix=0; ix<25; ix++){ */
/* for (int iy=0; iy<200; iy++) { */
/* calcGhost(data, ix,iy); */
/* } */
/* } */
/* // cout << "*" << endl; */
/* } */
/* double getGhost(int ix, int iy) { */
/* return 0; */
/* }; */
/**
Returns the frame number for the given dataset. Purely virtual func.
\param buff pointer to the dataset
\returns frame number
*/
/* class jfrau_packet_header_t { */
/* public: */
/* unsigned char reserved[4]; */
/* unsigned char packetNumber[1]; */
/* unsigned char frameNumber[3]; */
/* unsigned char bunchid[8]; */
/* }; */
int getFrameNumber(char *buff) {
#ifdef ALDO //VH
return ((header *)buff)->bunchNumber; //VH
#else //VH
return ((header *)buff)->detHeader.frameNumber;
#endif //VH
};
/**
Returns the packet number for the given dataset. purely virtual func
\param buff pointer to the dataset
\returns packet number number
*/
int getPacketNumber(char *buff) {
#ifdef ALDO //VH
//uint32_t fakePacketNumber = 1000;
//return fakePacketNumber; //VH //TODO: Keep in mind in case of bugs! //This is definitely bad!
return 1000;
#else //VH
return ((header *)buff)->detHeader.packetNumber;
#endif //VH
};
char *readNextFrame(std::ifstream &filebin) {
int ff = -1, np = -1;
return readNextFrame(filebin, ff, np);
};
char *readNextFrame(std::ifstream &filebin, int &ff) {
int np = -1;
return readNextFrame(filebin, ff, np);
};
char *readNextFrame(std::ifstream &filebin, int &ff, int &np) {
char *data = new char[dataSize];
char *d = readNextFrame(filebin, ff, np, data);
if (d == NULL) {
delete[] data;
data = NULL;
}
return data;
};
char *readNextFrame(std::ifstream &filebin, int &ff, int &np,char *data) {
char *retval = 0;
int nd;
int fnum = -1;
np = 0;
int pn;
// cout << dataSize << endl;
if (ff >= 0)
fnum = ff;
if (filebin.is_open()) {
if (filebin.read(data, dataSize)) {
ff = getFrameNumber(data);
np = getPacketNumber(data);
return data;
}
}
return NULL;
};
/* Loops over a memory slot until a complete frame is found (i.e. all */
/* packets 0 to nPackets, same frame number). purely virtual func \param */
/* data pointer to the memory to be analyzed \param ndata reference to the */
/* amount of data found for the frame, in case the frame is incomplete at */
/* the end of the memory slot \param dsize size of the memory slot to be */
/* analyzed \returns pointer to the beginning of the last good frame (might */
/* be incomplete if ndata smaller than dataSize), or NULL if no frame is */
/* found */
/* *\/ */
virtual char *findNextFrame(char *data, int &ndata, int dsize) {
if (dsize < dataSize)
ndata = dsize;
else
ndata = dataSize;
return data;
};
// int getPacketNumber(int x, int y) {return dataMap[y][x]/packetSize;};
};
#endif

3
slsDetectorCalibration/dataStructures/slsDetectorData.h
View File

@ -217,6 +217,7 @@ void slsDetectorData<dataType>::setDataMap(int **dMap) {
}
}
}
/* //commented this part because it causes out-of-bound issues if nx or ny are larger than dataMap bounds (single-chip readout of strixel with groups of different pitches) VH 2023-02-24
for (iy = 0; iy < ny; iy++) {
for (ix = 0; ix < nx; ix++) {
ip = dataMap[iy][ix] / sizeof(dataType);
@ -224,7 +225,7 @@ void slsDetectorData<dataType>::setDataMap(int **dMap) {
ymap[ip] = iy;
}
}
*/
// cout << "nx:" <<nx << " ny:" << ny << endl;
}

195
slsDetectorCalibration/interpolations/slsInterpolation.h
View File

@ -22,7 +22,7 @@ enum quadrant {
#include <iostream>
#include <stdio.h>
using namespace std;
//using namespace std;
//#ifdef MYROOT1
//: public TObject
@ -128,7 +128,7 @@ class slsInterpolation {
nSubPixelsY * nPixelsY);
delete[] gm;
} else
cout << "Could not allocate float image " << endl;
std::cout << "Could not allocate float image " << std::endl;
return NULL;
}
@ -323,7 +323,7 @@ class slsInterpolation {
if (ix > 1)
sumR += cl[ix + iy * 3];
if (iy < 1)
sumB = cl[ix + iy * 3];
sumB = cl[ix + iy * 3]; //???? not "+="? VH
if (iy > 1)
sumT += cl[ix + iy * 3];
}
@ -472,13 +472,13 @@ class slsInterpolation {
val = cl[ix + 3 * iy];
sum += val;
if (iy == 0)
l += val;
if (iy == 2)
r += val;
if (ix == 0)
b += val;
if (ix == 2)
if (iy == 2)
t += val;
if (ix == 0)
l += val;
if (ix == 2)
r += val;
}
}
if (sum > 0) {
@ -526,6 +526,185 @@ class slsInterpolation {
return calcEta3X(cli, etax, etay, sum);
}
/************************************************/
/* Additional strixel eta functions by Viktoria */
/************************************************/
//Etax: only central row, etay: only central column
static int calcEta1x3( double* cl, double& etax, double& etay, double& toth, double& totv ) {
double l, r, t, b;
//sum = cl[0] + cl[1] + cl[2] + cl[3] + cl[4] + cl[5] + cl[6] + cl[7] + cl[8];
toth = cl[3] + cl[4] + cl[5];
if (toth > 0) {
l = cl[3];
r = cl[5];
}
etax = (-l + r) / toth;
totv = cl[1] + cl[4] + cl[7];
if (toth > 0) {
b = cl[1];
t = cl[7];
}
etay = (-b + t) / totv;
return -1;
}
static int calcEta1x3( int* cl, double& etax, double& etay, double& toth, double& totv ) {
double cli[9];
for ( int ix = 0; ix != 9; ++ix )
cli[ix] = cl[ix];
return calcEta1x3( cli, etax, etay, toth , totv );
}
//Eta 1x2 essentially the same as etaL, but we also return toth and totv
static int calcEta1x2(double totquad, int corner, double sDum[2][2],
double &etax, double &etay, double& toth, double& totv) {
double t, r;
if (totquad > 0) {
switch (corner) {
case TOP_LEFT:
t = sDum[1][1];
r = sDum[0][1];
toth = sDum[0][1] + sDum[0][0];
totv = sDum[0][1] + sDum[1][1];
break;
case TOP_RIGHT:
t = sDum[1][0];
r = sDum[0][1];
toth = sDum[0][1] + sDum[0][0];
totv = sDum[1][0] + sDum[0][0];
break;
case BOTTOM_LEFT:
r = sDum[1][1];
t = sDum[1][1];
toth = sDum[1][0] + sDum[1][1];
totv = sDum[0][1] + sDum[1][1];
break;
case BOTTOM_RIGHT:
t = sDum[1][0];
r = sDum[1][1];
toth = sDum[1][0] + sDum[1][1];
totv = sDum[1][0] + sDum[0][0];
break;
default:
etax = -1000;
etay = -1000;
return 0;
}
// etax=r/totquad;
// etay=t/totquad;
etax = r / toth;
etay = t / totv;
}
return 0;
}
static int calcEta1x2( double *cl, double &etax, double &etay, double &sum,
double &totquad, double sDum[2][2], double& toth, double& totv ) {
int corner = calcQuad( cl, sum, totquad, sDum );
calcEta1x2( totquad, corner, sDum, etax, etay, toth, totv );
return corner;
}
static int calcEta1x2( int *cl, double &etax, double &etay, double &sum,
double &totquad, double sDum[2][2], double& toth, double& totv ) {
int corner = calcQuad( cl, sum, totquad, sDum );
calcEta1x2( totquad, corner, sDum, etax, etay, toth , totv );
return corner;
}
//Two functions to calculate 2x3 or 3x2 eta
static int calcEta2x3( double* cl, double totquad, int corner, double& etax, double& etay, double& tot6 ) {
double t, b, r;
if (totquad > 0) {
switch (corner) {
case TOP_LEFT:
case BOTTOM_LEFT:
t = cl[6] + cl[7];
b = cl[0] + cl[1];
r = cl[1] + cl[4] + cl[7];
tot6 = cl[0] + cl[1] + cl[3] + cl[4] + cl[6] + cl[7];
break;
case TOP_RIGHT:
case BOTTOM_RIGHT:
t = cl[7] + cl[8];
b = cl[1] + cl[2];
r = cl[2] + cl[5] + cl[8];
tot6 = cl[1] + cl[2] + cl[4] + cl[5] + cl[7] + cl[8];
break;
default:
etax = -1000;
etay = -1000;
return -1;
}
etax = r / tot6;
etay = (-b + t) / tot6;
}
return -1;
}
static int calcEta3x2( double* cl, double totquad, int corner, double& etax, double& etay, double& tot6 ) {
double t, l, r;
if (totquad > 0) {
switch (corner) {
case TOP_LEFT:
case TOP_RIGHT:
l = cl[3] + cl[6];
r = cl[5] + cl[8];
t = cl[6] + cl[7] + cl[8];
tot6 = cl[3] + cl[4] + cl[5] + cl[6] + cl[7] + cl[8];
break;
case BOTTOM_LEFT:
case BOTTOM_RIGHT:
l = cl[0] + cl[3];
r = cl[2] + cl[5];
t = cl[3] + cl[4] + cl[5];
tot6 = cl[0] + cl[1] + cl[2] + cl[3] + cl[4] + cl[5];
break;
default:
etax = -1000;
etay = -1000;
return -1;
}
etax = (-l + r) / tot6;
etay = t / tot6;
}
return -1;
}
//overload including both eta2x3 and eta3x2
//ornt (orientation of long side (3) of eta) decides which eta is chosen
enum orientation {
HORIZONTAL_ORIENTATION = 0,
VERTICAL_ORIENTATION = 1,
UNDEFINED_ORIENTATION = -1
};
static int calcEta2x3( int ornt, double* cl, double& etax, double& etay, double& tot6 ) {
double sum{};
double totquad{};
double sDum[2][2]{};
int corner = calcQuad( cl, sum, totquad, sDum );
switch (ornt) {
case HORIZONTAL_ORIENTATION:
calcEta3x2( cl, totquad, corner, etax, etay, tot6 );
break;
case VERTICAL_ORIENTATION:
calcEta2x3( cl, totquad, corner, etax, etay, tot6 );
break;
default:
etax = -1000;
etay = -1000;
return -1;
}
return corner;
}
static int calcEta2x3( int strxo, int* cl, double& etax, double& etay, double& tot6 ) {
double cli[9]{};
for ( int ix = 0; ix != 9; ++ix )
cli[ix] = cl[ix];
return calcEta2x3( strxo, cli, etax, etay, tot6 );
}
/* static int calcMyEta(double totquad, int quad, double *cl, double &etax,
* double &etay) { */
/* double l,r,t,b, sum; */

12
slsDetectorCalibration/jungfrauExecutables/Makefile.rawdataprocess
View File

@ -16,6 +16,18 @@ jungfrauRawDataProcess: jungfrauRawDataProcess.cpp $(INCS) clean
jungfrauRawDataProcessStrx: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrx jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRX
jungfrauRawDataProcessStrxChip1: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxChip1 jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRXCHIP1
jungfrauRawDataProcessStrxChip6: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxChip6 jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRXCHIP6
jungfrauRawDataProcessStrxChip1Aldo: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxChip1Aldo jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRXCHIP1 -DALDO
jungfrauRawDataProcessStrxChip6Aldo: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxChip6Aldo jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRXCHIP6 -DALDO
jungfrauRawDataProcessStrxAldo: jungfrauRawDataProcess.cpp $(INCS) clean
g++ -o jungfrauRawDataProcessStrxAldo jungfrauRawDataProcess.cpp $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF) -DSAVE_ALL -DJFSTRX -DALDO

36
slsDetectorCalibration/jungfrauExecutables/jungfrauRawDataProcess.cpp
View File

@ -10,8 +10,7 @@
#define RAWDATA
#ifndef JFSTRX
#ifndef JFSTRXOLD
#if !defined JFSTRX && !defined JFSTRXOLD && !defined JFSTRXCHIP1 && !defined JFSTRXCHIP6
#ifndef MODULE
#include "jungfrauHighZSingleChipData.h"
#endif
@ -19,10 +18,13 @@
#include "jungfrauModuleData.h"
#endif
#endif
#endif
#ifdef JFSTRX
#include "jungfrauLGADStrixelsData.h"
#endif
#if defined JFSTRXCHIP1 || defined JFSTRXCHIP6
#include "jungfrauLGADStrixelsDataSingleChip.h"
#endif
#ifdef JFSTRXOLD
#include "jungfrauStrixelsHalfModuleOldDesign.h"
#endif
@ -56,15 +58,14 @@ int main(int argc, char *argv[]) {
int fifosize = 1000;
int nthreads = 10;
int csize = 3;
int csize = 3; //3
int nsigma = 5;
int nped = 10000;
int cf = 0;
#ifndef JFSTRX
#ifndef JFSTRXOLD
#if !defined JFSTRX && !defined JFSTRXOLD && !defined JFSTRXCHIP1 && !defined JFSTRXCHIP6
#ifndef MODULE
jungfrauHighZSingleChipData *decoder = new jungfrauHighZSingleChipData();
int nx = 256, ny = 256;
@ -72,17 +73,26 @@ int main(int argc, char *argv[]) {
#ifdef MODULE
jungfrauModuleData *decoder = new jungfrauModuleData();
int nx = 1024, ny = 512;
#endif
#endif
#endif
#endif
#endif
#ifdef JFSTRX
cout << "bbb" << endl;
cout << "Jungfrau strixel full module readout" << endl;
jungfrauLGADStrixelsData *decoder = new jungfrauLGADStrixelsData();
int nx = 1024/5, ny = 512*5;
#endif
#ifdef JFSTRXCHIP1
std::cout << "Jungfrau strixel LGAD single chip 1" << std::endl;
jungfrauLGADStrixelsDataSingleChip *decoder = new jungfrauLGADStrixelsDataSingleChip(1);
int nx = 256/3, ny = 256*5;
#endif
#ifdef JFSTRXCHIP6
std::cout << "Jungfrau strixel LGAD single chip 6" << std::endl;
jungfrauLGADStrixelsDataSingleChip *decoder = new jungfrauLGADStrixelsDataSingleChip(6);
int nx = 256/3, ny = 256*5;
#endif
#ifdef JFSTRXOLD
cout << "ccc" << endl;
std::cout << "Jungfrau strixels old design" << std::endl;
jungfrauStrixelsHalfModuleOldDesign *decoder = new jungfrauStrixelsHalfModuleOldDesign();
int nx = 1024*3, ny = 512/3;
#endif
@ -180,7 +190,7 @@ int main(int argc, char *argv[]) {
uint32_t nnx, nny;
singlePhotonDetector *filter = new singlePhotonDetector(
decoder, csize, nsigma, 1, NULL, nped, 200, -1, -1, gainmap, NULL);
decoder, 3, nsigma, 1, NULL, nped, 200, -1, -1, gainmap, NULL);
if (gainfname) {
@ -211,6 +221,8 @@ int main(int argc, char *argv[]) {
// multiThreadedAnalogDetector(filter,nthreads,fifosize);
multiThreadedCountingDetector *mt =
new multiThreadedCountingDetector(filter, nthreads, fifosize);
mt->setClusterSize(csize,csize);
#ifndef ANALOG
mt->setDetectorMode(ePhotonCounting);
cout << "Counting!" << endl;

5
slsDetectorCalibration/multiThreadedAnalogDetector.h
View File

@ -69,6 +69,11 @@ class threadedAnalogDetector {
};
virtual double setThreshold(double th) { return det->setThreshold(th); };
virtual double setClusterSize(int csx, int csy) {
//cout << "44" << endl;
return det->setClusterSize(csx);
};
virtual void setROI(int xmin, int xmax, int ymin, int ymax) {
det->setROI(xmin, xmax, ymin, ymax);
};

5
slsDetectorCalibration/multiThreadedCountingDetector.h
View File

@ -33,6 +33,11 @@ class multiThreadedCountingDetector : public multiThreadedAnalogDetector {
for (int i = 0; i < nThreads; i++)
(dets[i])->setEnergyRange(emi, ema);
};
virtual void setClusterSize(int sizex, int sizey) {
for (int i = 0; i < nThreads; i++)
((dets[i]))->setClusterSize(sizex, sizey);
//std::cout << "+++++++++++++ sizex " << sizex << std::endl;
};
};
#endif

4
slsDetectorCalibration/singlePhotonDetector.h
View File

@ -174,8 +174,9 @@ class singlePhotonDetector : public analogDetector<uint16_t> {
clusterSizeY = clusterSize;
else
clusterSizeY = 1;
for (int ip = 0; ip < nx * ny; ip++)
for (int ip = 0; ip < nx * ny; ip++) {
(clusters + ip)->set_cluster_size(clusterSize, clusterSizeY);
}
// cluster=new single_photon_hit(clusterSize,clusterSizeY);
}
return clusterSize;
@ -533,6 +534,7 @@ class singlePhotonDetector : public analogDetector<uint16_t> {
(clusters + nph)->print();
cout << max << " " << val[iy * nx + ix] << endl;
}
//else (clusters + nph)->print();
good = 1;
if (eMin > 0 && tot < eMin)
good = 0;

38
slsDetectorCalibration/single_photon_hit.h
View File

@ -44,14 +44,12 @@ class single_photon_hit {
// fwrite((void*)this, 1, 3*sizeof(int)+4*sizeof(double)+sizeof(quad),
// myFile); // if (fwrite((void*)this, 1,
// sizeof(int)+2*sizeof(int16_t), myFile))
#ifdef OLDFORMAT
if (fwrite((void *)&iframe, 1, sizeof(int), myFile)) {
};
#endif
#ifndef WRITE_QUAD
// printf("no quad ");
if (fwrite((void *)&x, sizeof(int16_t), 2, myFile))
if ( fwrite( (void*)&x, sizeof(int16_t), 1, myFile ) ) {
if ( fwrite( (void*)&y, sizeof(int16_t), 1, myFile ) )
return fwrite((void *)data, sizeof(int), dx * dy, myFile);
}
#endif
#ifdef WRITE_QUAD
// printf("quad ");
@ -109,14 +107,27 @@ class single_photon_hit {
// fread((void*)this, 1, 3*sizeof(int)+4*sizeof(double)+sizeof(quad),
// myFile);
#ifdef OLDFORMAT
if (fread((void *)&iframe, 1, sizeof(int), myFile)) {
}
#endif
#ifndef WRITE_QUAD
//printf( "no quad \n");
//This reads two values of size int16_t into x
//If x is located next to y (int16_t distance), this reads the values into x and y
//How can I be sure, this is always the case?
//If, e.g., the memory is padded after int16_t x, do we read the padding instead of y?
//How can I be sure the memory is packed and y follows right after x with no padding?
//Anyway, this is dangerous if anyone, at any point, changes the order of variable declaration,
//or uses another architecture (64 bit vs 32 bit for instance).
/*
if (fread((void *)&x, sizeof(int16_t), 2, myFile))
return fread((void *)data, sizeof(int), dx * dy, myFile);
*/
//Suggestion
if ( fread( (void*)&x, sizeof(int16_t), 1, myFile) ) { //reads x
if ( fread( (void*)&y, sizeof(int16_t), 1, myFile ) ) //reads y
return fread( (void*)data, sizeof(int), dx*dy, myFile ); //reads and returns data
}
#endif
#ifdef WRITE_QUAD
int qq[4];
@ -217,7 +228,7 @@ class single_photon_hit {
// int ix, iy;
printf("***************\n");
printf("** %d %d **\n",x,y);
printf("** %d %d ** %d %d **\n", x, y, dx, dy);
for (int iy = 0; iy < dy; iy++) {
for (int ix = 0; ix < dx; ix++) {
printf("%d \t", data[ix + iy * dx]);
@ -261,10 +272,11 @@ class single_photon_hit {
x within the cluster (center is (0,0)) \param iy coordinate y within the
cluster (center is (0,0)) \returns value of the cluster element
*/
double get_data(int ix, int iy = 0) {
return data[(iy + dy / 2) * dx + ix + dx / 2];
//Why not make these const? VH
double get_data(int ix, int iy = 0) const {
return data[(iy + dy / 2) * dx + ix + dx / 2]; //NOTE: those are int divisions
};
int *get_cluster() { return data; };
int *get_cluster() const { return data; };
int iframe; /**< frame number */
double

1661
slsDetectorGui/forms/form_tab_measurement.ui
View File

File diff suppressed because it is too large Load Diff

3
slsDetectorGui/include/qTabMeasurement.h
View File

@ -32,7 +32,6 @@ class qTabMeasurement : public QWidget, private Ui::TabMeasurementObject {
void SetNumFrames(int val);
void SetNumTriggers(int val);
void SetNumBursts(int val);
void SetNumSamples(int val);
void SetNumGates(int val);
void SetExposureTime();
void SetAcquisitionPeriod();
@ -64,7 +63,6 @@ class qTabMeasurement : public QWidget, private Ui::TabMeasurementObject {
void GetNumFrames();
void GetNumTriggers();
void GetNumBursts();
void GetNumSamples();
void GetNumGates();
void GetExposureTime();
void GetAcquisitionPeriod();
@ -96,7 +94,6 @@ class qTabMeasurement : public QWidget, private Ui::TabMeasurementObject {
QString errPeriodTip;
QPalette red;
bool delayImplemented;
bool sampleImplemented;
bool gateImplemented;
bool startingFnumImplemented;
bool isAcquisitionStopped{false};

4
slsDetectorGui/src/qDrawPlot.cpp
View File

@ -52,6 +52,7 @@ void qDrawPlot::SetupWidgetWindow() {
detType = det->getDetectorType().squash();
switch (detType) {
case slsDetectorDefs::JUNGFRAU:
case slsDetectorDefs::MOENCH:
pixelMask = ((1 << 14) - 1);
gainMask = (3 << 14);
gainOffset = 14;
@ -1142,7 +1143,8 @@ void qDrawPlot::toDoublePixelData(double *dest, char *source, int size,
break;
case 16:
if (detType == slsDetectorDefs::JUNGFRAU ||
if (detType == slsDetectorDefs::MOENCH ||
detType == slsDetectorDefs::JUNGFRAU ||
detType == slsDetectorDefs::GOTTHARD2) {
// show gain plot

4
slsDetectorGui/src/qTabAdvanced.cpp
View File

@ -48,6 +48,10 @@ void qTabAdvanced::SetupWidgetWindow() {
lblDiscardBits->setEnabled(true);
spinDiscardBits->setEnabled(true);
break;
case slsDetectorDefs::JUNGFRAU:
lblNumStoragecells->setEnabled(true);
spinNumStoragecells->setEnabled(true);
break;
default:
break;
}

4
slsDetectorGui/src/qTabDataOutput.cpp
View File

@ -40,13 +40,11 @@ void qTabDataOutput::SetupWidgetWindow() {
comboClkDivider->setEnabled(true);
chkParallel->setEnabled(true);
break;
case slsDetectorDefs::MOENCH:
chkTenGiga->setEnabled(true);
break;
case slsDetectorDefs::MYTHEN3:
chkParallel->setEnabled(true);
break;
case slsDetectorDefs::JUNGFRAU:
case slsDetectorDefs::MOENCH:
lblClkDivider->setEnabled(true);
comboClkDivider->setEnabled(true);
break;

92
slsDetectorGui/src/qTabDeveloper.cpp
View File

@ -111,6 +111,7 @@ void qTabDeveloper::SetupWidgetWindow() {
break;
case slsDetectorDefs::JUNGFRAU:
case slsDetectorDefs::MOENCH:
dacWidgets.push_back(
new qDacWidget(this, det, true,
"v vb comp: ", getSLSIndex(detType, tempid++)));
@ -139,72 +140,6 @@ void qTabDeveloper::SetupWidgetWindow() {
"Temperature ADC: ", getSLSIndex(detType, tempid++)));
break;
case slsDetectorDefs::MOENCH:
dacWidgets.push_back(
new qDacWidget(this, det, true,
"vbp_colbuf: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vipre: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vin_cm: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vb_sda: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(
new qDacWidget(this, det, true,
"vcasc_sfp: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vout_cm: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(
new qDacWidget(this, det, true,
"vipre_cds: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(
new qDacWidget(this, det, true,
"ibias_sfp: ", getSLSIndex(detType, tempid++)));
break;
case slsDetectorDefs::MYTHEN3:
dacWidgets.push_back(new qDacWidget(
this, det, true, "vcassh: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vth2: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vrshaper: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(
new qDacWidget(this, det, true,
"vrshaper_n: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(
new qDacWidget(this, det, true,
"vipre_out: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vth3: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vth1: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vicin: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vcas: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vrpreamp: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vcal_p: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vipre: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vishaper: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vcal_n: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vtrim: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(new qDacWidget(
this, det, true, "vdcsh: ", getSLSIndex(detType, tempid++)));
dacWidgets.push_back(
new qDacWidget(this, det, true,
"vthreshold: ", getSLSIndex(detType, tempid++)));
adcWidgets.push_back(new qDacWidget(
this, det, false,
"Temperature FPGA: ", getSLSIndex(detType, tempid++)));
break;
case slsDetectorDefs::GOTTHARD2:
dacWidgets.push_back(
new qDacWidget(this, det, true,
@ -386,6 +321,7 @@ qTabDeveloper::getSLSIndex(slsDetectorDefs::detectorType detType, int index) {
break;
case slsDetectorDefs::JUNGFRAU:
case slsDetectorDefs::MOENCH:
switch (index) {
case 0:
return slsDetectorDefs::VB_COMP;
@ -411,30 +347,6 @@ qTabDeveloper::getSLSIndex(slsDetectorDefs::detectorType detType, int index) {
}
break;
case slsDetectorDefs::MOENCH:
switch (index) {
case 0:
return slsDetectorDefs::VBP_COLBUF;
case 1:
return slsDetectorDefs::VIPRE;
case 2:
return slsDetectorDefs::VIN_CM;
case 3:
return slsDetectorDefs::VB_SDA;
case 4:
return slsDetectorDefs::VCASC_SFP;
case 5:
return slsDetectorDefs::VOUT_CM;
case 6:
return slsDetectorDefs::VIPRE_CDS;
case 7:
return slsDetectorDefs::IBIAS_SFP;
default:
throw RuntimeError(std::string("Unknown dac/adc index") +
std::to_string(index));
}
break;
case slsDetectorDefs::MYTHEN3:
switch (index) {
case 0:

51
slsDetectorGui/src/qTabMeasurement.cpp
View File

@ -35,7 +35,6 @@ void qTabMeasurement::SetupWidgetWindow() {
// timer to update the progress bar
progressTimer = new QTimer(this);
sampleImplemented = false;
gateImplemented = false;
delayImplemented = true;
startingFnumImplemented = false;
@ -47,18 +46,11 @@ void qTabMeasurement::SetupWidgetWindow() {
// default is triggers and delay (not #bursts and burst period for gotthard2
// in auto mode)
ShowTriggerDelay();
// default is to show samples, mythen3, show gates
ShowGates();
// enabling according to det type
lblBurstMode->hide();
comboBurstMode->hide();
switch (det->getDetectorType().squash()) {
case slsDetectorDefs::MOENCH:
lblNumSamples->setEnabled(true);
spinNumSamples->setEnabled(true);
sampleImplemented = true;
break;
case slsDetectorDefs::EIGER:
delayImplemented = false;
lblNextFrameNumber->setEnabled(true);
@ -66,6 +58,7 @@ void qTabMeasurement::SetupWidgetWindow() {
startingFnumImplemented = true;
break;
case slsDetectorDefs::JUNGFRAU:
case slsDetectorDefs::MOENCH:
lblNextFrameNumber->setEnabled(true);
spinNextFrameNumber->setEnabled(true);
startingFnumImplemented = true;
@ -112,10 +105,6 @@ void qTabMeasurement::Initialization() {
connect(spinNumBursts, SIGNAL(valueChanged(int)), this,
SLOT(SetNumBursts(int)));
}
if (spinNumSamples->isEnabled()) {
connect(spinNumSamples, SIGNAL(valueChanged(int)), this,
SLOT(SetNumSamples(int)));
}
if (gateImplemented) {
connect(spinNumGates, SIGNAL(valueChanged(int)), this,
SLOT(SetNumGates(int)));
@ -198,16 +187,6 @@ void qTabMeasurement::ShowTriggerDelay() {
}
}
void qTabMeasurement::ShowGates() {
if (det->getDetectorType().squash() == slsDetectorDefs::MYTHEN3) {
stackedLblSamplesGates->setCurrentWidget(pageLblGates);
stackedSpinSamplesGates->setCurrentWidget(pageSpinGates);
} else {
stackedLblSamplesGates->setCurrentWidget(pageLblSamples);
stackedSpinSamplesGates->setCurrentWidget(pageSpinSamples);
}
}
void qTabMeasurement::SetupTimingMode() {
QStandardItemModel *model =
qobject_cast<QStandardItemModel *>(comboTimingMode->model());
@ -510,31 +489,6 @@ void qTabMeasurement::SetNumBursts(int val) {
&qTabMeasurement::GetNumBursts)
}
void qTabMeasurement::GetNumSamples() {
LOG(logDEBUG) << "Getting number of samples";
disconnect(spinNumSamples, SIGNAL(valueChanged(int)), this,
SLOT(SetNumSamples(int)));
try {
auto retval = det->getNumberOfAnalogSamples().tsquash(
"Inconsistent number of analog samples for all detectors.");
spinNumSamples->setValue(retval);
}
CATCH_DISPLAY("Could not get number of samples.",
"qTabMeasurement::GetNumSamples")
connect(spinNumSamples, SIGNAL(valueChanged(int)), this,
SLOT(SetNumSamples(int)));
}
void qTabMeasurement::SetNumSamples(int val) {
LOG(logINFO) << "Setting number of samples to " << val;
try {
det->setNumberOfAnalogSamples(val);
}
CATCH_HANDLE("Could not set number of samples.",
"qTabMeasurement::SetNumSamples", this,
&qTabMeasurement::GetNumSamples)
}
void qTabMeasurement::GetNumGates() {
LOG(logDEBUG) << "Getting number of gates";
disconnect(spinNumGates, SIGNAL(valueChanged(int)), this,
@ -1003,9 +957,6 @@ void qTabMeasurement::Refresh() {
if (spinBurstPeriod->isEnabled()) {
GetBurstPeriod();
}
if (sampleImplemented) {
GetNumSamples();
}
if (gateImplemented) {
GetNumGates();
}

8
slsDetectorGui/src/qTabPlot.cpp
View File

@ -62,6 +62,11 @@ void qTabPlot::SetupWidgetWindow() {
chkGainPlot->setChecked(true);
plot->EnableGainPlot(true);
break;
case slsDetectorDefs::MOENCH:
chkGainPlot->setEnabled(true);
chkGainPlot->setChecked(true);
plot->EnableGainPlot(true);
break;
default:
break;
}
@ -799,6 +804,9 @@ void qTabPlot::Refresh() {
chkGainPlot->setEnabled(true);
GetGapPixels();
break;
case slsDetectorDefs::MOENCH:
chkGainPlot->setEnabled(true);
break;
case slsDetectorDefs::GOTTHARD2:
chkGainPlot1D->setEnabled(true);
break;

6
slsDetectorGui/src/qTabSettings.cpp
View File

@ -92,7 +92,8 @@ void qTabSettings::SetupWidgetWindow() {
comboDynamicRange->setEnabled(true);
lblThreshold->setEnabled(true);
spinThreshold->setEnabled(true);
} else if (detType == slsDetectorDefs::JUNGFRAU) {
} else if (detType == slsDetectorDefs::JUNGFRAU ||
detType == slsDetectorDefs::MOENCH) {
lblSpinHV->show();
spinHV->show();
lblGainMode->setEnabled(true);
@ -100,9 +101,6 @@ void qTabSettings::SetupWidgetWindow() {
} else if (detType == slsDetectorDefs::GOTTHARD) {
comboHV->show();
lblComboHV->show();
} else if (detType == slsDetectorDefs::MOENCH) {
lblSpinHV->show();
spinHV->show();
} else if (detType == slsDetectorDefs::GOTTHARD2) {
lblSpinHV->show();
spinHV->show();

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46
slsDetectorServers/eigerDetectorServer/FebControl.c
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@ -1742,6 +1742,7 @@ int Feb_Control_WriteRegister_BitMask(uint32_t offset, uint32_t data,
int Feb_Control_ReadRegister_BitMask(uint32_t offset, uint32_t *retval,
uint32_t bitmask) {
uint32_t actualOffset = offset;
char side[2][10] = {"right", "left"};
unsigned int addr[2] = {Feb_Control_rightAddress, Feb_Control_leftAddress};
@ -2206,6 +2207,51 @@ int Feb_Control_GetRightFPGATemp() {
return (int)temperature;
}
int Feb_Control_GetFPGAHardwareVersion(int *retval) {
if (!Feb_Control_activated) {
return 0;
}
unsigned int value = 0;
if (!Feb_Control_ReadRegister_BitMask(FEB_REG_STATUS, &value,
FEB_REG_STATUS_FX30_MSK)) {
LOG(logERROR,
("Trouble reading FEB_REG_STATUS reg to feb hardware version\n"));
return 0;
}
*retval = (value >> FEB_REG_STATUS_FX30_OFST);
return 1;
}
int64_t Feb_Control_GetFrontLeftFirmwareVersion() {
if (!Feb_Control_activated) {
return 0;
}
unsigned int value = 0;
if (!Feb_Interface_ReadRegister(Feb_Control_leftAddress, FEB_REG_STATUS,
&value)) {
LOG(logERROR, ("Trouble reading FEB_REG_STATUS reg to get left feb "
"fw version\n"));
return 0;
}
return ((value & FEB_REG_STATUS_FW_VERSION_MSK) >>
FEB_REG_STATUS_FW_VERSION_OFST);
}
int64_t Feb_Control_GetFrontRightFirmwareVersion() {
if (!Feb_Control_activated) {
return 0;
}
unsigned int value = 0;
if (!Feb_Interface_ReadRegister(Feb_Control_rightAddress, FEB_REG_STATUS,
&value)) {
LOG(logERROR, ("Trouble reading FEB_REG_STATUS reg to get right feb "
"fw version\n"));
return 0;
}
return ((value & FEB_REG_STATUS_FW_VERSION_MSK) >>
FEB_REG_STATUS_FW_VERSION_OFST);
}
int64_t Feb_Control_GetMeasuredPeriod() {
if (!Feb_Control_activated) {
return 0;

2
slsDetectorServers/eigerDetectorServer/FebControl.h
View File

@ -119,5 +119,7 @@ int Feb_Control_PrintCorrectedValues();
// adcs
int Feb_Control_GetLeftFPGATemp();
int Feb_Control_GetRightFPGATemp();
int64_t Feb_Control_GetFrontLeftFirmwareVersion();
int64_t Feb_Control_GetFrontRightFirmwareVersion();
int64_t Feb_Control_GetMeasuredPeriod();
int64_t Feb_Control_GetSubMeasuredPeriod();

4
slsDetectorServers/eigerDetectorServer/FebRegisterDefs.h
View File

@ -46,6 +46,10 @@
#define FEB_REG_STATUS_WAIT_FOR_TRGGR_MSK (0x00000001 << FEB_REG_STATUS_WAIT_FOR_TRGGR_OFST)
#define FEB_REG_STATUS_ACQ_DONE_OFST (6)
#define FEB_REG_STATUS_ACQ_DONE_MSK (0x00000001 << FEB_REG_STATUS_ACQ_DONE_OFST)
#define FEB_REG_STATUS_FX30_OFST (7)
#define FEB_REG_STATUS_FX30_MSK (0x00000001 << FEB_REG_STATUS_FX30_OFST)
#define FEB_REG_STATUS_FW_VERSION_OFST (8)
#define FEB_REG_STATUS_FW_VERSION_MSK (0x000000FF << FEB_REG_STATUS_FW_VERSION_OFST)
#define FEB_REG_STATUS_TEMP_OFST (16)
#define FEB_REG_STATUS_TEMP_MSK (0x0000FFFF << FEB_REG_STATUS_TEMP_OFST)

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109
slsDetectorServers/eigerDetectorServer/slsDetectorFunctionList.c
View File

@ -123,18 +123,18 @@ void basictests() {
int64_t sw_fw_apiversion = getFirmwareAPIVersion();
LOG(logINFOBLUE,
("**************************************************\n"
"Detector IP Addr:\t\t 0x%x\n"
"Detector MAC Addr:\t\t 0x%llx\n"
("\n********************************************************\n"
"Detector IP Addr : 0x%x\n"
"Detector MAC Addr : 0x%llx\n"
"Firmware Version:\t\t %lld\n"
"Software Version:\t\t %s\n"
"F/w-S/w API Version:\t\t %lld\n"
"Required Firmware Version:\t %d\n"
"Firmware (Beb) Version : %lld\n"
"F/w-S/w API Version : %lld\n"
"Required Firmware Version: %d\n"
"Software Version : %s\n"
"********************************************************\n",
(unsigned int)ipadd, (long long unsigned int)macadd,
(long long int)fwversion, swversion, (long long int)sw_fw_apiversion,
REQUIRED_FIRMWARE_VERSION));
(long long int)fwversion, (long long int)sw_fw_apiversion,
REQUIRED_FIRMWARE_VERSION, swversion));
// update default udpdstip and udpdstmac (1g is hardware ip and hardware
// mac)
@ -161,9 +161,9 @@ void basictests() {
// check for API compatibility - old server
if (sw_fw_apiversion > REQUIRED_FIRMWARE_VERSION) {
sprintf(initErrorMessage,
"This firmware-software api version (0x%llx) is incompatible "
"This firmware-software api version (0x%lld) is incompatible "
"with the software's minimum required firmware version "
"(0x%llx).\nPlease update detector software to be compatible "
"(0x%lld).\nPlease update detector software to be compatible "
"with this firmware.\n",
(long long int)sw_fw_apiversion,
(long long int)REQUIRED_FIRMWARE_VERSION);
@ -210,20 +210,70 @@ void getServerVersion(char *version) { strcpy(version, APIEIGER); }
u_int64_t getFirmwareVersion() {
#ifdef VIRTUAL
return 0;
return REQUIRED_FIRMWARE_VERSION;
#else
return Beb_GetFirmwareRevision();
#endif
}
uint64_t getFrontEndFirmwareVersion(enum fpgaPosition fpgaPosition) {
uint64_t retval = 0;
#ifdef VIRTUAL
return REQUIRED_FIRMWARE_VERSION;
#else
sharedMemory_lockLocalLink();
switch (fpgaPosition) {
case FRONT_LEFT:
retval = Feb_Control_GetFrontLeftFirmwareVersion(fpgaPosition);
break;
case FRONT_RIGHT:
retval = Feb_Control_GetFrontRightFirmwareVersion(fpgaPosition);
break;
default:
LOG(logERROR,
("unknown index for fpga position to read firmware version\n"));
retval = 0;
}
sharedMemory_unlockLocalLink();
#endif
return retval;
}
u_int64_t getFirmwareAPIVersion() {
#ifdef VIRTUAL
return 0;
return REQUIRED_FIRMWARE_VERSION;
#else
return (u_int64_t)Beb_GetFirmwareSoftwareAPIVersion();
return Beb_GetFirmwareSoftwareAPIVersion();
#endif
}
void getHardwareVersion(char *version) {
strcpy(version, "unknown");
int hwversion = getHardwareVersionNumber();
const int hwNumberList[] = HARDWARE_VERSION_NUMBERS;
const char *hwNamesList[] = HARDWARE_VERSION_NAMES;
for (int i = 0; i != NUM_HARDWARE_VERSIONS; ++i) {
LOG(logDEBUG, ("0x%x %d 0x%x %s\n", hwversion, i, hwNumberList[i],
hwNamesList[i]));
if (hwNumberList[i] == hwversion) {
strcpy(version, hwNamesList[i]);
return;
}
}
}
int getHardwareVersionNumber() {
int retval = 0;
#ifndef VIRTUAL
sharedMemory_lockLocalLink();
if (!Feb_Control_GetFPGAHardwareVersion(&retval)) {
retval = -1;
}
sharedMemory_unlockLocalLink();
#endif
return retval;
}
int getModuleId(int *ret, char *mess) {
return getModuleIdInFile(ret, mess, ID_FILE);
}
@ -355,6 +405,37 @@ void initControlServer() {
Beb_SetTopVariable(top);
Beb_Beb();
LOG(logDEBUG1, ("Control server: BEB Initialization done\n"));
// Getting the feb versions after initialization
char hversion[MAX_STR_LENGTH] = {0};
memset(hversion, 0, MAX_STR_LENGTH);
getHardwareVersion(hversion);
int64_t fwversion = getFirmwareVersion();
int64_t feblfwversion = getFrontEndFirmwareVersion(FRONT_LEFT);
int64_t febrfwversion = getFrontEndFirmwareVersion(FRONT_RIGHT);
LOG(logINFOBLUE,
("\n********************************************************\n"
"Feb Versions\n"
"Hardware Version : %s\n"
"Firmware (Febl) Version : %lld\n"
"Firmware (Febr) Version : %lld\n"
"********************************************************\n",
hversion, (long long int)feblfwversion,
(long long int)febrfwversion));
// ensure febl, febr and beb fw versions are the same
if (fwversion != feblfwversion || fwversion != febrfwversion) {
sprintf(
initErrorMessage,
"Inconsistent firmware versions in feb and beb. [Beb: %lld, "
"Febl: %lld Febr: %lld]\n",
(long long int)fwversion, (long long int)feblfwversion,
(long long int)febrfwversion);
LOG(logERROR, (initErrorMessage));
initError = FAIL;
return;
}
#endif
// also reads config file and deactivates
setupDetector();

5
slsDetectorServers/eigerDetectorServer/slsDetectorServer_defs.h
View File

@ -5,6 +5,11 @@
#define LINKED_SERVER_NAME "eigerDetectorServer"
#define NUM_HARDWARE_VERSIONS (2)
#define HARDWARE_VERSION_NUMBERS {0x0, 0x1};
#define HARDWARE_VERSION_NAMES \
{ "FX70T", "FX30T" }
#define REQUIRED_FIRMWARE_VERSION (31)
// virtual ones renamed for consistency
// real ones keep previous name for compatibility (already in production)

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19
slsDetectorServers/moenchDetectorServer/CMakeLists.txt
View File

@ -8,35 +8,28 @@ add_executable(moenchDetectorServer_virtual
../slsDetectorServer/src/blackfin.c
../slsDetectorServer/src/common.c
../slsDetectorServer/src/commonServerFunctions.c
../slsDetectorServer/src/communication_funcs_UDP.c
../slsDetectorServer/src/UDPPacketHeaderGenerator.c
../slsDetectorServer/src/AD9257.c
../slsDetectorServer/src/ALTERA_PLL.c
../slsDetectorServer/src/LTC2620.c
../slsDetectorServer/src/MAX1932.c
../slsDetectorServer/src/programViaBlackfin.c
../slsDetectorServer/src/loadPattern.c
../slsDetectorServer/src/communication_funcs_UDP.c
../slsDetectorServer/src/sharedMemory.c
../../slsSupportLib/src/md5.c
)
include_directories(
target_include_directories(moenchDetectorServer_virtual
PRIVATE ${CMAKE_CURRENT_SOURCE_DIR}
../slsDetectorServer/include
../../slsSupportLib/include
../../slsDetectorSoftware/include/sls/
)
target_include_directories(moenchDetectorServer_virtual
PUBLIC ${CMAKE_CURRENT_SOURCE_DIR}
)
target_compile_definitions(moenchDetectorServer_virtual
PUBLIC MOENCHD VIRTUAL STOP_SERVER
PUBLIC MOENCHD VIRTUAL STOP_SERVER #TEST_MOD_GEOMETRY
)
target_link_libraries(moenchDetectorServer_virtual
PUBLIC pthread rt slsProjectCSettings
m
)
set_target_properties(moenchDetectorServer_virtual PROPERTIES
@ -44,7 +37,9 @@ set_target_properties(moenchDetectorServer_virtual PROPERTIES
)
install(TARGETS moenchDetectorServer_virtual
EXPORT "${TARGETS_EXPORT_NAME}"
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR}
)
configure_file(DefaultPattern_moench.txt ${CMAKE_BINARY_DIR}/bin/DefaultPattern_moench.txt COPYONLY)
configure_file(config_moench.txt ${CMAKE_BINARY_DIR}/bin/config_moench.txt COPYONLY)
configure_file(detid_moench.txt ${CMAKE_BINARY_DIR}/bin/detid_moench.txt COPYONLY)

301
slsDetectorServers/moenchDetectorServer/DefaultPattern_moench.txt
View File

@ -1,301 +0,0 @@
patword 0x0000 0x0008599f0418503a
patword 0x0001 0x0008599f0418503a
patword 0x0002 0x000859960418503a
patword 0x0003 0x000859960418503a
patword 0x0004 0x000859960418503a
patword 0x0005 0x000859960418503a
patword 0x0006 0x000859960418503a
patword 0x0007 0x000859960418503a
patword 0x0008 0x000859960418503a
patword 0x0009 0x000859960418503a
patword 0x000a 0x000859960418503a
patword 0x000b 0x000859960418503a
patword 0x000c 0x000859960418503a
patword 0x000d 0x000859960418503a
patword 0x000e 0x000859960418503a
patword 0x000f 0x000859960418503a
patword 0x0010 0x000859960418503a
patword 0x0011 0x000859960418503a
patword 0x0012 0x000859960418503a
patword 0x0013 0x000859960418503a
patword 0x0014 0x000859960418503a
patword 0x0015 0x000859960418503a
patword 0x0016 0x000819960418501a
patword 0x0017 0x000819960418501a
patword 0x0018 0x000819960418501a
patword 0x0019 0x000819960418501a
patword 0x001a 0x000819960418501a
patword 0x001b 0x000819960418501a
patword 0x001c 0x000819960418501a
patword 0x001d 0x000819960418501a
patword 0x001e 0x000819960418501a
patword 0x001f 0x000819960418501a
patword 0x0020 0x000819960418501a
patword 0x0021 0x000819960418501a
patword 0x0022 0x000819960418501a
patword 0x0023 0x000819960418501a
patword 0x0024 0x000819960418501a
patword 0x0025 0x000819960418501a
patword 0x0026 0x000819960418501a
patword 0x0027 0x000819960418501a
patword 0x0028 0x000819960418501a
patword 0x0029 0x000819960418501a
patword 0x002a 0x000819960418501a
patword 0x002b 0x000819960418501a
patword 0x002c 0x000819960418501a
patword 0x002d 0x000819960418501a
patword 0x002e 0x000819960418501a
patword 0x002f 0x000819960418501a
patword 0x0030 0x000819960008501a
patword 0x0031 0x000819960008501a
patword 0x0032 0x000819960008501a
patword 0x0033 0x000819960008501a
patword 0x0034 0x000819960008501a
patword 0x0035 0x000819960008501a
patword 0x0036 0x000819960008501a
patword 0x0037 0x000819960008501a
patword 0x0038 0x000819960008501a
patword 0x0039 0x000819960008501a
patword 0x003a 0x000819960008501a
patword 0x003b 0x000819960008501a
patword 0x003c 0x000819960008501a
patword 0x003d 0x000819960008501a
patword 0x003e 0x000819960008501a
patword 0x003f 0x000819960008501a
patword 0x0040 0x000819960008501a
patword 0x0041 0x000819960008501a
patword 0x0042 0x000819960008501a
patword 0x0043 0x000819960008501a
patword 0x0044 0x0008199f0008501a
patword 0x0045 0x0008199f0008501a
patword 0x0046 0x0008199f0008501a
patword 0x0047 0x0008199f0008501a
patword 0x0048 0x0008199f0008501a
patword 0x0049 0x0008199f0008501a
patword 0x004a 0x0008199f0008501a
patword 0x004b 0x0008199f0008501a
patword 0x004c 0x0008199f0008501a
patword 0x004d 0x0008199f0008501a
patword 0x004e 0x0008199f0008501a
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patioctrl 0x8f0effff6dbffdbf
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patnloop 0 199
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patloop 2 0x0400 0x0400
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patwait 0 0x002e
patwaittime 0 800
patwait 1 0x0400
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patwait 2 0x0400
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patloop 3 0x1fff 0x1fff
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patloop 4 0x1fff 0x1fff
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patloop 5 0x1fff 0x1fff
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11
slsDetectorServers/moenchDetectorServer/Makefile
View File

@ -4,19 +4,18 @@ current_dir = $(shell pwd)
main_inc = ../slsDetectorServer/include/
main_src = ../slsDetectorServer/src/
support_lib = ../../slsSupportLib/include/
det_lib = ../../slsDetectorSoftware/include/sls/
md5_dir = ../../slsSupportLib/src/
CROSS = bfin-uclinux-
CC = $(CROSS)gcc
CFLAGS += -Wall -std=gnu99 -DMOENCHD -DSTOP_SERVER -I$(main_inc) -I$(support_lib) -I$(det_lib) -I$(current_dir) #-DVERBOSEI #-DVERBOSE
CFLAGS += -Wall -std=gnu99 -DMOENCHD -DSTOP_SERVER -I$(main_inc) -I$(support_lib) -I$(current_dir) #-DVERBOSEI #-DVERBOSE
LDLIBS += -lm -lrt -pthread
PROGS = moenchDetectorServer
DESTDIR ?= bin
INSTMODE = 0777
SRCS = slsDetectorFunctionList.c
SRCS += $(main_src)slsDetectorServer.c $(main_src)slsDetectorServer_funcs.c $(main_src)communication_funcs.c $(main_src)blackfin.c $(main_src)common.c $(main_src)commonServerFunctions.c $(main_src)communication_funcs_UDP.c $(main_src)UDPPacketHeaderGenerator.c $(main_src)AD9257.c $(main_src)ALTERA_PLL.c $(main_src)LTC2620.c $(main_src)MAX1932.c $(main_src)programViaBlackfin.c $(main_src)loadPattern.c $(main_src)/sharedMemory.c $(md5_dir)md5.c
SRCS += $(main_src)slsDetectorServer.c $(main_src)slsDetectorServer_funcs.c $(main_src)communication_funcs.c $(main_src)blackfin.c $(main_src)common.c $(main_src)commonServerFunctions.c $(main_src)AD9257.c $(main_src)ALTERA_PLL.c $(main_src)LTC2620.c $(main_src)MAX1932.c $(main_src)programViaBlackfin.c $(main_src)/sharedMemory.c $(md5_dir)md5.c
OBJS = $(SRCS:.c=.o)
@ -37,10 +36,10 @@ $(PROGS): $(OBJS)
mkdir -p $(DESTDIR)
$(CC) -o $@ $^ $(CFLAGS) $(LDLIBS)
mv $(PROGS) $(DESTDIR)
cp DefaultPattern_moench.txt $(DESTDIR)
cp config_moench.txt $(DESTDIR)
cp detid_moench.txt $(DESTDIR)
rm *.gdb
rm $(main_src)*.o
rm *.o $(md5_dir)*.o
rm $(main_src)*.o $(md5_dir)*.o
clean:
rm -rf $(DESTDIR)/$(PROGS) *.o *.gdb $(main_src)*.o $(md5_dir)*.o

847
slsDetectorServers/moenchDetectorServer/RegisterDefs.h
View File

@ -1,209 +1,131 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#pragma once
// clang-format off
/* Definitions for FPGA*/
#define MEM_MAP_SHIFT 1
/* FPGA Version RO register */
/* FPGA Version register */
#define FPGA_VERSION_REG (0x00 << MEM_MAP_SHIFT)
#define FPGA_VERSION_BRD_RVSN_OFST (0)
#define FPGA_VERSION_BRD_RVSN_MSK (0x00FFFFFF << FPGA_VERSION_BRD_RVSN_OFST)
#define FPGA_VERSION_DTCTR_TYP_OFST (24)
#define FPGA_VERSION_DTCTR_TYP_MSK (0x000000FF << FPGA_VERSION_DTCTR_TYP_OFST)
#define FPGA_VERSION_DTCTR_TYP_MOENCH_VAL \
((0x5 << FPGA_VERSION_DTCTR_TYP_OFST) & FPGA_VERSION_DTCTR_TYP_MSK)
#define FPGA_COMPILATION_DATE_OFST (0)
#define FPGA_COMPILATION_DATE_MSK (0x00FFFFFF << FPGA_COMPILATION_DATE_OFST)
#define DETECTOR_TYPE_OFST (24)
#define DETECTOR_TYPE_MSK (0x000000FF << DETECTOR_TYPE_OFST)
/* Fix pattern RO register */
/* Fix pattern register */
#define FIX_PATT_REG (0x01 << MEM_MAP_SHIFT)
#define FIX_PATT_VAL (0xACDC2016)
#define FIX_PATT_VAL (0xACDC2014)
/* Status RO register */
/* Status register */
#define STATUS_REG (0x02 << MEM_MAP_SHIFT)
#define STATUS_RN_BSY_OFST (0)
#define STATUS_RN_BSY_MSK (0x00000001 << STATUS_RN_BSY_OFST)
#define STATUS_RDT_BSY_OFST (1)
#define STATUS_RDT_BSY_MSK (0x00000001 << STATUS_RDT_BSY_OFST)
#define STATUS_ANY_FF_FLL_OFST (2)
#define STATUS_ANY_FF_FLL_MSK (0x00000001 << STATUS_ANY_FF_FLL_OFST)
#define STATUS_WTNG_FR_TRGGR_OFST (3)
#define STATUS_WTNG_FR_TRGGR_MSK (0x00000001 << STATUS_WTNG_FR_TRGGR_OFST)
#define STATUS_DLY_BFR_OFST (4)
#define STATUS_DLY_BFR_MSK (0x00000001 << STATUS_DLY_BFR_OFST)
#define STATUS_DLY_AFTR_OFST (5)
#define STATUS_DLY_AFTR_MSK (0x00000001 << STATUS_DLY_AFTR_OFST)
#define STATUS_EXPSNG_OFST (6)
#define STATUS_EXPSNG_MSK (0x00000001 << STATUS_EXPSNG_OFST)
#define STATUS_CNT_ENBL_OFST (7)
#define STATUS_CNT_ENBL_MSK (0x00000001 << STATUS_CNT_ENBL_OFST)
#define STATUS_SM_FF_FLL_OFST (11)
#define STATUS_SM_FF_FLL_MSK (0x00000001 << STATUS_SM_FF_FLL_OFST)
#define STATUS_STPPD_OFST (15)
#define STATUS_STPPD_MSK (0x00000001 << STATUS_STPPD_OFST)
#define STATUS_ALL_FF_EMPTY_OFST (16)
#define STATUS_ALL_FF_EMPTY_MSK (0x00000001 << STATUS_ALL_FF_EMPTY_OFST)
#define STATUS_CYCL_RN_BSY_OFST (17)
#define STATUS_CYCL_RN_BSY_MSK (0x00000001 << STATUS_CYCL_RN_BSY_OFST)
#define STATUS_FRM_RN_BSY_OFST (18)
#define STATUS_FRM_RN_BSY_MSK (0x00000001 << STATUS_FRM_RN_BSY_OFST)
#define STATUS_ADC_DESERON_OFST (19)
#define STATUS_ADC_DESERON_MSK (0x00000001 << STATUS_ADC_DESERON_OFST)
#define STATUS_PLL_RCNFG_BSY_OFST (20)
#define STATUS_PLL_RCNFG_BSY_MSK (0x00000001 << STATUS_PLL_RCNFG_BSY_OFST)
#define STATUS_DT_STRMNG_BSY_OFST (21)
#define STATUS_DT_STRMNG_BSY_MSK (0x00000001 << STATUS_DT_STRMNG_BSY_OFST)
#define STATUS_FRM_PCKR_BSY_OFST (22)
#define STATUS_FRM_PCKR_BSY_MSK (0x00000001 << STATUS_FRM_PCKR_BSY_OFST)
#define STATUS_PLL_PHS_DN_OFST (23)
#define STATUS_PLL_PHS_DN_MSK (0x00000001 << STATUS_PLL_PHS_DN_OFST)
#define STATUS_PT_CNTRL_STTS_OFF_OFST (24)
#define STATUS_PT_CNTRL_STTS_OFF_MSK \
(0x000000FF << STATUS_PT_CNTRL_STTS_OFF_OFST)
#define STATUS_IDLE_MSK (0x677FF)
#define RUN_BUSY_OFST (0)
#define RUN_BUSY_MSK (0x00000001 << RUN_BUSY_OFST)
#define WAITING_FOR_TRIGGER_OFST (3)
#define WAITING_FOR_TRIGGER_MSK (0x00000001 << WAITING_FOR_TRIGGER_OFST)
#define DELAYBEFORE_OFST (4) // Not used in software
#define DELAYBEFORE_MSK (0x00000001 << DELAYBEFORE_OFST) // Not used in software
#define DELAYAFTER_OFST (5) // Not used in software
#define DELAYAFTER_MSK (0x00000001 << DELAYAFTER_OFST) // Not used in software
#define STOPPED_OFST (15)
#define STOPPED_MSK (0x00000001 << STOPPED_OFST)
#define RUNMACHINE_BUSY_OFST (17)
#define RUNMACHINE_BUSY_MSK (0x00000001 << RUNMACHINE_BUSY_OFST)
/* Look at me RO register TODO */
#define LOOK_AT_ME_REG (0x03 << MEM_MAP_SHIFT)
/* Look at me register */
#define LOOK_AT_ME_REG (0x03 << MEM_MAP_SHIFT) // Not used in firmware or software
/* System Status RO register */
#define SYSTEM_STATUS_REG (0x04 << MEM_MAP_SHIFT)
/* System Status register */
#define SYSTEM_STATUS_REG (0x04 << MEM_MAP_SHIFT) // Not used in software
#define SYSTEM_STATUS_DDR3_CLBRTN_OK_OFST (0)
#define SYSTEM_STATUS_DDR3_CLBRTN_OK_MSK \
(0x00000001 << SYSTEM_STATUS_DDR3_CLBRTN_OK_OFST)
#define SYSTEM_STATUS_DDR3_CLBRTN_FL_OFST (1)
#define SYSTEM_STATUS_DDR3_CLBRTN_FL_MSK \
(0x00000001 << SYSTEM_STATUS_DDR3_CLBRTN_FL_OFST)
#define SYSTEM_STATUS_DDR3_INT_DN_OFST (2)
#define SYSTEM_STATUS_DDR3_INT_DN_MSK \
(0x00000001 << SYSTEM_STATUS_DDR3_INT_DN_OFST)
#define SYSTEM_STATUS_RCNFG_PLL_LCK_OFST (3)
#define SYSTEM_STATUS_RCNFG_PLL_LCK_MSK \
(0x00000001 << SYSTEM_STATUS_RCNFG_PLL_LCK_OFST)
#define SYSTEM_STATUS_PLL_A_LCK_OFST (4)
#define SYSTEM_STATUS_PLL_A_LCK_MSK (0x00000001 << SYSTEM_STATUS_PLL_A_LCK_OFST)
#define DDR3_CAL_DONE_OFST (0) // Not used in software
#define DDR3_CAL_DONE_MSK (0x00000001 << DDR3_CAL_DONE_OFST) // 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_INIT_DONE_OFST (2) // Not used in software
#define DDR3_INIT_DONE_MSK (0x00000001 << DDR3_INIT_DONE_OFST) // Not used in software
#define RECONFIG_PLL_LCK_OFST (3) // Not used in software
#define RECONFIG_PLL_LCK_MSK (0x00000001 << RECONFIG_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
/* PLL Param (Reconfiguratble PLL Parameter) RO register TODO FIXME: Same as
* PLL_PARAM_REG 0x50 */
//#define PLL_PARAM_REG (0x05 << MEM_MAP_SHIFT)
/* Module Control Board Serial Number Register */
#define MOD_SERIAL_NUM_REG (0x0A << MEM_MAP_SHIFT)
/* FIFO Data RO register TODO */
#define FIFO_DATA_REG (0x06 << MEM_MAP_SHIFT)
#define HARDWARE_SERIAL_NUM_OFST (0)
#define HARDWARE_SERIAL_NUM_MSK (0x000000FF << HARDWARE_SERIAL_NUM_OFST)
#define HARDWARE_VERSION_NUM_OFST (16)
#define HARDWARE_VERSION_NUM_MSK (0x0000003F << HARDWARE_VERSION_NUM_OFST)
#define FIFO_DATA_HRDWR_SRL_NMBR_OFST (0)
#define FIFO_DATA_HRDWR_SRL_NMBR_MSK \
(0x0000FFFF << FIFO_DATA_HRDWR_SRL_NMBR_OFST)
//#define FIFO_DATA_WRD_OFST (16)
//#define FIFO_DATA_WRD_MSK (0x0000FFFF << FIFO_DATA_WRD_OFST)
/* FIFO Status RO register TODO */
#define FIFO_STATUS_REG (0x07 << MEM_MAP_SHIFT)
/* FIFO Empty RO register TODO */
#define FIFO_EMPTY_REG (0x08 << MEM_MAP_SHIFT)
#define FIFO_EMPTY_ALL_EMPTY_MSK (0xFFFFFFFF)
/* FIFO Full RO register TODO */
#define FIFO_FULL_REG (0x09 << MEM_MAP_SHIFT)
/* MCB Serial Number RO register */
#define MOD_SERIAL_NUMBER_REG (0x0A << MEM_MAP_SHIFT)
#define MOD_SERIAL_NUMBER_OFST (0)
#define MOD_SERIAL_NUMBER_MSK (0x000000FF << MOD_SERIAL_NUMBER_OFST)
#define MOD_SERIAL_NUMBER_VRSN_OFST (16)
#define MOD_SERIAL_NUMBER_VRSN_MSK (0x0000003F << MOD_SERIAL_NUMBER_VRSN_OFST)
/* API Version RO register */
/* API Version Register */
#define API_VERSION_REG (0x0F << MEM_MAP_SHIFT)
#define API_VERSION_OFST (0)
#define API_VERSION_MSK (0x00FFFFFF << API_VERSION_OFST)
#define API_VERSION_DTCTR_TYP_OFST (24)
#define API_VERSION_DTCTR_TYP_MSK (0x000000FF << API_VERSION_DTCTR_TYP_OFST)
#define API_VERSION_DETECTOR_TYPE_OFST (24) // Not used in software
#define API_VERSION_DETECTOR_TYPE_MSK (0x000000FF << API_VERSION_DETECTOR_TYPE_OFST) // Not used in software
/* Time from Start 64 bit RO register. t = GCLK x 50 ns. Reset using
* CONTROL_CRST. TODO */
/* Time from Start 64 bit register */
#define TIME_FROM_START_LSB_REG (0x10 << MEM_MAP_SHIFT)
#define TIME_FROM_START_MSB_REG (0x11 << MEM_MAP_SHIFT)
/* Delay Left 64 bit RO register. t = DLY x 50 ns. TODO */
#define DELAY_LEFT_LSB_REG (0x12 << MEM_MAP_SHIFT)
#define DELAY_LEFT_MSB_REG (0x13 << MEM_MAP_SHIFT)
/* Get Delay 64 bit register */
#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
/* Triggers Left 64 bit RO register TODO */
#define CYCLES_LEFT_LSB_REG (0x14 << MEM_MAP_SHIFT)
#define CYCLES_LEFT_MSB_REG (0x15 << MEM_MAP_SHIFT)
/* Get Triggers 64 bit register */
#define GET_CYCLES_LSB_REG (0x14 << MEM_MAP_SHIFT)
#define GET_CYCLES_MSB_REG (0x15 << MEM_MAP_SHIFT)
/* Frames Left 64 bit RO register TODO */
#define FRAMES_LEFT_LSB_REG (0x16 << MEM_MAP_SHIFT)
#define FRAMES_LEFT_MSB_REG (0x17 << MEM_MAP_SHIFT)
/* Get Frames 64 bit register */
#define GET_FRAMES_LSB_REG (0x16 << MEM_MAP_SHIFT)
#define GET_FRAMES_MSB_REG (0x17 << MEM_MAP_SHIFT)
/* Period Left 64 bit RO register. t = T x 50 ns. TODO */
#define PERIOD_LEFT_LSB_REG (0x18 << MEM_MAP_SHIFT)
#define PERIOD_LEFT_MSB_REG (0x19 << MEM_MAP_SHIFT)
/* Get Period 64 bit register tT = T x 50 ns */
#define GET_PERIOD_LSB_REG (0x18 << MEM_MAP_SHIFT)
#define GET_PERIOD_MSB_REG (0x19 << MEM_MAP_SHIFT)
/* Exposure Time Left 64 bit RO register */
//#define EXPTIME_LEFT_LSB_REG (0x1A << MEM_MAP_SHIFT) // Not
// used in FW #define EXPTIME_LEFT_MSB_REG (0x1B <<
// MEM_MAP_SHIFT)
//// Not used in FW
/** Get Temperature Carlos, incorrectl as get gates */
#define GET_TEMPERATURE_TMP112_REG (0x1c << MEM_MAP_SHIFT) // (after multiplying by 625) in 10ths of
// millidegrees of TMP112
/* Gates Left 64 bit RO register */
//#define GATES_LEFT_LSB_REG (0x1C << MEM_MAP_SHIFT) // Not
// used in FW #define GATES_LEFT_MSB_REG (0x1D <<
// MEM_MAP_SHIFT)
//// Not used in FW
#define TEMPERATURE_VALUE_BIT (0)
#define TEMPERATURE_VALUE_MSK (0x000007FF << TEMPERATURE_VALUE_BIT)
#define TEMPERATURE_POLARITY_BIT (11)
#define TEMPERATURE_POLARITY_MSK (0x00000001 << TEMPERATURE_POLARITY_BIT)
/* Data In 64 bit RO register TODO */
#define DATA_IN_LSB_REG (0x1E << MEM_MAP_SHIFT)
#define DATA_IN_MSB_REG (0x1F << MEM_MAP_SHIFT)
/* Config Status Register for chip 1.1 */
#define CONFIG_V11_STATUS_REG (0x1D << MEM_MAP_SHIFT)
/* Pattern Out 64 bit RO register */
#define PATTERN_OUT_LSB_REG (0x20 << MEM_MAP_SHIFT)
#define PATTERN_OUT_MSB_REG (0x21 << 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)
// 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)
/* Frame number of next acquisition register (64 bit register) */
#define NEXT_FRAME_NUMB_LOCAL_LSB_REG (0x22 << MEM_MAP_SHIFT)
#define NEXT_FRAME_NUMB_LOCAL_MSB_REG (0x23 << MEM_MAP_SHIFT)
/* Get Frames from Start 64 bit register (frames from last reset using
* CONTROL_CRST) */
#define FRAMES_FROM_START_LSB_REG (0x22 << MEM_MAP_SHIFT)
#define FRAMES_FROM_START_MSB_REG (0x23 << MEM_MAP_SHIFT)
/* Frames From Start PG 64 bit RO register. Reset using CONTROL_CRST. TODO */
#define FRAMES_FROM_START_PG_LSB_REG (0x24 << MEM_MAP_SHIFT)
#define FRAMES_FROM_START_PG_MSB_REG (0x25 << MEM_MAP_SHIFT)
/* Get Starting Frame Number */
#define GET_FRAME_NUMBER_LSB_REG (0x24 << MEM_MAP_SHIFT)
#define GET_FRAME_NUMBER_MSB_REG (0x25 << MEM_MAP_SHIFT)
/* Start Frame Time (Measurement Time) 64 bit register (timestamp at a frame
* start until reset) TODO */
/* 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_MSB_REG (0x27 << MEM_MAP_SHIFT)
/* Power Status RO register */
#define POWER_STATUS_REG (0x29 << MEM_MAP_SHIFT)
#define POWER_STATUS_ALRT_OFST (27)
#define POWER_STATUS_ALRT_MSK (0x0000001F << POWER_STATUS_ALRT_OFST)
/* DAC Value Out RO register */
//#define DAC_VAL_OUT_REG (0x2A << MEM_MAP_SHIFT)
/* Slow ADC SPI Value RO register */
#define ADC_SPI_SLOW_VAL_REG (0x2B << MEM_MAP_SHIFT)
/* FIFO Digital In Status RO register */
#define FIFO_DIN_STATUS_REG (0x3B << MEM_MAP_SHIFT)
#define FIFO_DIN_STATUS_FIFO_FULL_OFST (30)
#define FIFO_DIN_STATUS_FIFO_FULL_MSK \
(0x00000001 << FIFO_DIN_STATUS_FIFO_FULL_OFST)
#define FIFO_DIN_STATUS_FIFO_EMPTY_OFST (31)
#define FIFO_DIN_STATUS_FIFO_EMPTY_MSK \
(0x00000001 << FIFO_DIN_STATUS_FIFO_EMPTY_OFST)
/* FIFO Digital In 64 bit RO register */
#define FIFO_DIN_LSB_REG (0x3C << MEM_MAP_SHIFT)
#define FIFO_DIN_MSB_REG (0x3D << MEM_MAP_SHIFT)
/* SPI (Serial Peripheral Interface) DAC, HV RW register */
/* SPI (Serial Peripheral Interface) Register */
#define SPI_REG (0x40 << MEM_MAP_SHIFT)
#define SPI_DAC_SRL_DGTL_OTPT_OFST (0)
@ -219,7 +141,7 @@
#define SPI_HV_SRL_CS_OTPT_OFST (10)
#define SPI_HV_SRL_CS_OTPT_MSK (0x00000001 << SPI_HV_SRL_CS_OTPT_OFST)
/* ADC SPI (Serial Peripheral Interface) RW register */
/* ADC SPI (Serial Peripheral Interface) Register */
#define ADC_SPI_REG (0x41 << MEM_MAP_SHIFT)
#define ADC_SPI_SRL_CLK_OTPT_OFST (0)
@ -228,415 +150,318 @@
#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_MSK (0x0000000F << ADC_SPI_SRL_CS_OTPT_OFST)
#define ADC_SPI_SLOW_SRL_DT_OFST (8)
#define ADC_SPI_SLOW_SRL_DT_MSK (0x00000001 << ADC_SPI_SLOW_SRL_DT_OFST)
#define ADC_SPI_SLOW_SRL_CLK_OFST (9)
#define ADC_SPI_SLOW_SRL_CLK_MSK (0x00000001 << ADC_SPI_SLOW_SRL_CLK_OFST)
#define ADC_SPI_SLOW_SRL_CNV_OFST (10)
#define ADC_SPI_SLOW_SRL_CNV_MSK (0x00000001 << ADC_SPI_SLOW_SRL_CNV_OFST)
/* ADC Offset RW register */
#define ADC_OFFSET_REG (0x42 << MEM_MAP_SHIFT)
/* ADC offset Register */
#define ADC_OFST_REG (0x42 << MEM_MAP_SHIFT)
#define ADC_OFFSET_ADC_PPLN_OFST (0)
#define ADC_OFFSET_ADC_PPLN_MSK (0x000000FF << ADC_OFFSET_ADC_PPLN_OFST)
#define ADC_OFFSET_DBT_PPLN_OFST (16)
#define ADC_OFFSET_DBT_PPLN_MSK (0x000000FF << ADC_OFFSET_DBT_PPLN_OFST)
/* ADC Port Invert RW register */
/* ADC Port Invert Register */
#define ADC_PORT_INVERT_REG (0x43 << MEM_MAP_SHIFT)
#define ADC_PORT_INVERT_0_INPT_OFST (0)
#define ADC_PORT_INVERT_0_INPT_MSK (0x000000FF << ADC_PORT_INVERT_0_INPT_OFST)
#define ADC_PORT_INVERT_1_INPT_OFST (8)
#define ADC_PORT_INVERT_1_INPT_MSK (0x000000FF << ADC_PORT_INVERT_1_INPT_OFST)
#define ADC_PORT_INVERT_2_INPT_OFST (16)
#define ADC_PORT_INVERT_2_INPT_MSK (0x000000FF << ADC_PORT_INVERT_2_INPT_OFST)
#define ADC_PORT_INVERT_3_INPT_OFST (24)
#define ADC_PORT_INVERT_3_INPT_MSK (0x000000FF << ADC_PORT_INVERT_3_INPT_OFST)
#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_1_OFST (8)
#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_MSK (0x000000FF << ADC_PORT_INVERT_ADC_2_OFST)
#define ADC_PORT_INVERT_ADC_3_OFST (24)
#define ADC_PORT_INVERT_ADC_3_MSK (0x000000FF << ADC_PORT_INVERT_ADC_3_OFST)
/* Dummy RW register */
#define DUMMY_REG (0x44 << MEM_MAP_SHIFT)
/** Read N Rows Register */
#define READ_N_ROWS_REG (0x44 << MEM_MAP_SHIFT)
#define DUMMY_FIFO_CHNNL_SLCT_OFST (0)
#define DUMMY_FIFO_CHNNL_SLCT_MSK (0x0000003F << DUMMY_FIFO_CHNNL_SLCT_OFST)
#define DUMMY_ANLG_FIFO_RD_STRBE_OFST (8)
#define DUMMY_ANLG_FIFO_RD_STRBE_MSK \
(0x00000001 << DUMMY_ANLG_FIFO_RD_STRBE_OFST)
#define DUMMY_DGTL_FIFO_RD_STRBE_OFST (9)
#define DUMMY_DGTL_FIFO_RD_STRBE_MSK \
(0x00000001 << DUMMY_DGTL_FIFO_RD_STRBE_OFST)
#define READ_N_ROWS_NUM_ROWS_OFST (0)
#define READ_N_ROWS_NUM_ROWS_MSK (0x0000003F << READ_N_ROWS_NUM_ROWS_OFST)
#define READ_N_ROWS_ENBL_OFST (7)
#define READ_N_ROWS_ENBL_MSK (0x00000001 << READ_N_ROWS_ENBL_OFST)
/* Receiver IP Address RW register */
#define RX_IP_REG (0x45 << MEM_MAP_SHIFT)
/* UDP Port RW register */
#define UDP_PORT_REG (0x46 << MEM_MAP_SHIFT)
#define UDP_PORT_RX_OFST (0)
#define UDP_PORT_RX_MSK (0x0000FFFF << UDP_PORT_RX_OFST)
#define UDP_PORT_TX_OFST (16)
#define UDP_PORT_TX_MSK (0x0000FFFF << UDP_PORT_TX_OFST)
/* Receiver Mac Address 64 bit RW register */
#define RX_MAC_LSB_REG (0x47 << MEM_MAP_SHIFT)
#define RX_MAC_MSB_REG (0x48 << MEM_MAP_SHIFT)
#define RX_MAC_LSB_OFST (0)
#define RX_MAC_LSB_MSK (0xFFFFFFFF << RX_MAC_LSB_OFST)
#define RX_MAC_MSB_OFST (0)
#define RX_MAC_MSB_MSK (0x0000FFFF << RX_MAC_MSB_OFST)
/* Detector/ Transmitter Mac Address 64 bit RW register */
#define TX_MAC_LSB_REG (0x49 << MEM_MAP_SHIFT)
#define TX_MAC_MSB_REG (0x4A << MEM_MAP_SHIFT)
#define TX_MAC_LSB_OFST (0)
#define TX_MAC_LSB_MSK (0xFFFFFFFF << TX_MAC_LSB_OFST)
#define TX_MAC_MSB_OFST (0)
#define TX_MAC_MSB_MSK (0x0000FFFF << TX_MAC_MSB_OFST)
/* Detector/ Transmitter IP Address RW register */
#define TX_IP_REG (0x4B << MEM_MAP_SHIFT)
/* Detector/ Transmitter IP Checksum RW register */
#define TX_IP_CHECKSUM_REG (0x4C << MEM_MAP_SHIFT)
#define TX_IP_CHECKSUM_OFST (0)
#define TX_IP_CHECKSUM_MSK (0x0000FFFF << TX_IP_CHECKSUM_OFST)
/* Configuration RW register */
/* Configuration Register */
#define CONFIG_REG (0x4D << MEM_MAP_SHIFT)
#define CONFIG_LED_DSBL_OFST (0) // Not used in firmware or software
#define CONFIG_LED_DSBL_MSK (0x00000001 << CONFIG_LED_DSBL_OFST)
#define CONFIG_DSBL_ANLG_OTPT_OFST (8)
#define CONFIG_DSBL_ANLG_OTPT_MSK (0x00000001 << CONFIG_DSBL_ANLG_OTPT_OFST)
#define CONFIG_ENBLE_DGTL_OTPT_OFST (9)
#define CONFIG_ENBLE_DGTL_OTPT_MSK (0x00000001 << CONFIG_ENBLE_DGTL_OTPT_OFST)
#define CONFIG_GB10_SND_UDP_OFST (12)
#define CONFIG_GB10_SND_UDP_MSK (0x00000001 << CONFIG_GB10_SND_UDP_OFST)
// readout timer (from chip) to stabilize (esp in burst acquisition mode) tRDT =
// (RDT + 1) * 25ns
#define CONFIG_RDT_TMR_OFST (0)
#define CONFIG_RDT_TMR_MSK (0x0000FFFF << CONFIG_RDT_TMR_OFST)
// if 0, outer is the primary interface
// bottom via port 0 (outer)
#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)
#define CONFIG_INNR_PRIMRY_INTRFCE_OFST (17)
#define CONFIG_INNR_PRIMRY_INTRFCE_MSK (0x00000001 << CONFIG_INNR_PRIMRY_INTRFCE_OFST)
#define CONFIG_READOUT_SPEED_OFST (20)
#define CONFIG_READOUT_SPEED_MSK (0x00000003 << CONFIG_READOUT_SPEED_OFST)
#define CONFIG_QUARTER_SPEED_10MHZ_VAL ((0x0 << 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 ((0x2 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK)
#define CONFIG_TDMA_ENABLE_OFST (24)
#define CONFIG_TDMA_ENABLE_MSK (0x00000001 << CONFIG_TDMA_ENABLE_OFST)
#define CONFIG_TDMA_TIMESLOT_OFST (25) // 1ms
#define CONFIG_TDMA_TIMESLOT_MSK (0x0000001F << CONFIG_TDMA_TIMESLOT_OFST)
#define CONFIG_BOTTOM_INVERT_STREAM_OFST (30)
#define CONFIG_BOTTOM_INVERT_STREAM_MSK (0x00000001 << CONFIG_BOTTOM_INVERT_STREAM_OFST)
#define CONFIG_ETHRNT_FLW_CNTRL_OFST (31)
#define CONFIG_ETHRNT_FLW_CNTRL_MSK (0x00000001 << CONFIG_ETHRNT_FLW_CNTRL_OFST)
/* External Signal RW register */
/* External Signal Register */
#define EXT_SIGNAL_REG (0x4E << MEM_MAP_SHIFT)
#define EXT_SIGNAL_OFST (0)
#define EXT_SIGNAL_MSK (0x00000001 << EXT_SIGNAL_OFST)
#define EXT_SIGNAL_AUTO_VAL ((0x0 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
#define EXT_SIGNAL_TRGGR_VAL ((0x1 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
#define EXT_SYNC_OFST (4)
#define EXT_SYNC_MSK (0x00000001 << EXT_SYNC_OFST)
/* Control RW register */
/* Control Register */
#define CONTROL_REG (0x4F << MEM_MAP_SHIFT)
#define CONTROL_STRT_ACQSTN_OFST (0)
#define CONTROL_STRT_ACQSTN_MSK (0x00000001 << CONTROL_STRT_ACQSTN_OFST)
#define CONTROL_STP_ACQSTN_OFST (1)
#define CONTROL_STP_ACQSTN_MSK (0x00000001 << CONTROL_STP_ACQSTN_OFST)
//#define CONTROL_STRT_FF_TST_OFST (2)
//#define CONTROL_STRT_FF_TST_MSK (0x00000001 <<
// CONTROL_STRT_FF_TST_OFST) #define CONTROL_STP_FF_TST_OFST (3)
//#define CONTROL_STP_FF_TST_MSK (0x00000001 <<
// CONTROL_STP_FF_TST_OFST) #define CONTROL_STRT_RDT_OFST (4)
//#define CONTROL_STRT_RDT_MSK (0x00000001 <<
// CONTROL_STRT_RDT_OFST) #define CONTROL_STP_RDT_OFST (5)
// #define CONTROL_STP_RDT_MSK (0x00000001 <<
// CONTROL_STP_RDT_OFST)
#define CONTROL_STRT_EXPSR_OFST (6)
#define CONTROL_STRT_EXPSR_MSK (0x00000001 << CONTROL_STRT_EXPSR_OFST)
//#define CONTROL_STP_EXPSR_OFST (7)
//#define CONTROL_STP_EXPSR_MSK (0x00000001 <<
// CONTROL_STP_RDT_OFST) #define CONTROL_STRT_TRN_OFST (8) #define
// CONTROL_STRT_TRN_MSK (0x00000001 << CONTROL_STRT_RDT_OFST)
//#define CONTROL_STP_TRN_OFST (9)
//#define CONTROL_STP_TRN_MSK (0x00000001 <<
// CONTROL_STP_RDT_OFST)
#define CONTROL_CRE_RST_OFST (10)
#define CONTROL_CRE_RST_MSK (0x00000001 << CONTROL_CRE_RST_OFST)
#define CONTROL_PRPHRL_RST_OFST (11) // Only GBE10?
#define CONTROL_PRPHRL_RST_MSK (0x00000001 << CONTROL_PRPHRL_RST_OFST)
#define CONTROL_MMRY_RST_OFST (12)
#define CONTROL_MMRY_RST_MSK (0x00000001 << CONTROL_MMRY_RST_OFST)
//#define CONTROL_PLL_RCNFG_WR_OFST (13)
//#define CONTROL_PLL_RCNFG_WR_MSK (0x00000001 <<
// CONTROL_PLL_RCNFG_WR_OFST)
#define CONTROL_SND_10GB_PCKT_OFST (14)
#define CONTROL_SND_10GB_PCKT_MSK (0x00000001 << CONTROL_SND_10GB_PCKT_OFST)
#define CONTROL_CLR_ACQSTN_FIFO_OFST (15)
#define CONTROL_CLR_ACQSTN_FIFO_MSK (0x00000001 << CONTROL_CLR_ACQSTN_FIFO_OFST)
#define CONTROL_START_ACQ_OFST (0)
#define CONTROL_START_ACQ_MSK (0x00000001 << CONTROL_START_ACQ_OFST)
#define CONTROL_STOP_ACQ_OFST (1)
#define CONTROL_STOP_ACQ_MSK (0x00000001 << CONTROL_STOP_ACQ_OFST)
#define CONTROL_SOFTWARE_TRIGGER_OFST (2)
#define CONTROL_SOFTWARE_TRIGGER_MSK (0x00000001 << CONTROL_SOFTWARE_TRIGGER_OFST)
#define CONTROL_CORE_RST_OFST (10)
#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_MSK (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_MSK (0x00000001 << CONTROL_DDR3_MEM_RST_OFST) // only PHY, not DDR3 PLL ,Not used in software
#define CONTROL_ACQ_FIFO_CLR_OFST (14)
#define CONTROL_ACQ_FIFO_CLR_MSK (0x00000001 << CONTROL_ACQ_FIFO_CLR_OFST)
#define CONTROL_MASTER_OFST (15)
#define CONTROL_MASTER_MSK (0x00000001 << CONTROL_MASTER_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 RW register */
/* Reconfiguratble PLL Paramater Register */
#define PLL_PARAM_REG (0x50 << MEM_MAP_SHIFT)
/* Reconfiguratble PLL Control RW regiser */
/* Reconfiguratble PLL Control Regiser */
#define PLL_CNTRL_REG (0x51 << MEM_MAP_SHIFT)
#define PLL_CNTRL_RCNFG_PRMTR_RST_OFST (0)
#define PLL_CNTRL_RCNFG_PRMTR_RST_MSK \
(0x00000001 << PLL_CNTRL_RCNFG_PRMTR_RST_OFST)
#define PLL_CNTRL_RCNFG_PRMTR_RST_OFST (0) // parameter reset
#define PLL_CNTRL_RCNFG_PRMTR_RST_MSK (0x00000001 << PLL_CNTRL_RCNFG_PRMTR_RST_OFST) // parameter reset
#define PLL_CNTRL_WR_PRMTR_OFST (2)
#define PLL_CNTRL_WR_PRMTR_MSK (0x00000001 << PLL_CNTRL_WR_PRMTR_OFST)
#define PLL_CNTRL_PLL_RST_OFST (3)
#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_MSK (0x00000001 << PLL_CNTRL_DBIT_WR_PRMTR_OFST)
#define PLL_CNTRL_ADDR_OFST (16)
#define PLL_CNTRL_ADDR_MSK (0x0000003F << PLL_CNTRL_ADDR_OFST)
/* Pattern Control RW register */
#define PATTERN_CNTRL_REG (0x52 << MEM_MAP_SHIFT)
/* Config Register for chip 1.1 */
#define CONFIG_V11_REG (0x58 << MEM_MAP_SHIFT)
#define PATTERN_CNTRL_WR_OFST (0)
#define PATTERN_CNTRL_WR_MSK (0x00000001 << PATTERN_CNTRL_WR_OFST)
#define PATTERN_CNTRL_RD_OFST (1)
#define PATTERN_CNTRL_RD_MSK (0x00000001 << PATTERN_CNTRL_RD_OFST)
#define PATTERN_CNTRL_ADDR_OFST (16)
#define PATTERN_CNTRL_ADDR_MSK (0x00001FFF << PATTERN_CNTRL_ADDR_OFST)
#define CONFIG_V11_FLTR_CLL_OFST (0)
#define CONFIG_V11_FLTR_CLL_MSK (0x00000FFF << CONFIG_V11_FLTR_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)
/* Pattern Limit RW regiser */
#define PATTERN_LIMIT_REG (0x53 << MEM_MAP_SHIFT)
/* Sample Register */
#define SAMPLE_REG (0x59 << MEM_MAP_SHIFT)
#define PATTERN_LIMIT_STRT_OFST (0)
#define PATTERN_LIMIT_STRT_MSK (0x00001FFF << PATTERN_LIMIT_STRT_OFST)
#define PATTERN_LIMIT_STP_OFST (16)
#define PATTERN_LIMIT_STP_MSK (0x00001FFF << PATTERN_LIMIT_STP_OFST)
#define SAMPLE_ADC_SAMPLE_SEL_OFST (0)
#define SAMPLE_ADC_SAMPLE_SEL_MSK (0x00000007 << SAMPLE_ADC_SAMPLE_SEL_OFST)
#define SAMPLE_ADC_SAMPLE_0_VAL ((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_2_VAL ((0x2 << 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_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
#define SAMPLE_ADC_DECMT_FACTOR_OFST (4)
#define SAMPLE_ADC_DECMT_FACTOR_MSK (0x00000007 << SAMPLE_ADC_DECMT_FACTOR_OFST)
#define SAMPLE_ADC_DECMT_FACTOR_0_VAL ((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_2_VAL ((0x2 << 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_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)
/* Pattern Loop 0 Address RW regiser */
#define PATTERN_LOOP_0_ADDR_REG (0x54 << MEM_MAP_SHIFT)
#define SAMPLE_DGTL_SAMPLE_SEL_OFST (8)
#define SAMPLE_DGTL_SAMPLE_SEL_MSK (0x0000000F << SAMPLE_DGTL_SAMPLE_SEL_OFST)
#define SAMPLE_DGTL_SAMPLE_0_VAL ((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_2_VAL ((0x2 << 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_4_VAL ((0x4 << 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_6_VAL ((0x6 << 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_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 PATTERN_LOOP_0_ADDR_STRT_OFST (0)
#define PATTERN_LOOP_0_ADDR_STRT_MSK \
(0x00001FFF << PATTERN_LOOP_0_ADDR_STRT_OFST)
#define PATTERN_LOOP_0_ADDR_STP_OFST (16)
#define PATTERN_LOOP_0_ADDR_STP_MSK (0x00001FFF << PATTERN_LOOP_0_ADDR_STP_OFST)
#define SAMPLE_DGTL_DECMT_FACTOR_OFST (12)
#define SAMPLE_DGTL_DECMT_FACTOR_MSK (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_HALF_VAL ((0x1 << 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)
/* Pattern Loop 0 Iteration RW regiser */
#define PATTERN_LOOP_0_ITERATION_REG (0x55 << MEM_MAP_SHIFT)
/** Current Source Column 0 (0 - 31)) */
#define CRRNT_SRC_COL_LSB_REG (0x5A << MEM_MAP_SHIFT)
/* Pattern Loop 1 Address RW regiser */
#define PATTERN_LOOP_1_ADDR_REG (0x56 << MEM_MAP_SHIFT)
/** Current Source Column 1 (32 - 63) */
#define CRRNT_SRC_COL_MSB_REG (0x5B << MEM_MAP_SHIFT)
#define PATTERN_LOOP_1_ADDR_STRT_OFST (0)
#define PATTERN_LOOP_1_ADDR_STRT_MSK \
(0x00001FFF << PATTERN_LOOP_1_ADDR_STRT_OFST)
#define PATTERN_LOOP_1_ADDR_STP_OFST (16)
#define PATTERN_LOOP_1_ADDR_STP_MSK (0x00001FFF << PATTERN_LOOP_1_ADDR_STP_OFST)
/** Vref Comp Mod Register */
#define EXT_DAQ_CTRL_REG (0x5C << MEM_MAP_SHIFT)
/* Pattern Loop 1 Iteration RW regiser */
#define PATTERN_LOOP_1_ITERATION_REG (0x57 << MEM_MAP_SHIFT)
#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_CMP_LGC_ENBL_OFST (15)
#define EXT_DAQ_CTRL_CMP_LGC_ENBL_MSK (0x00000001 << EXT_DAQ_CTRL_CMP_LGC_ENBL_OFST)
#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_ENBL_OFST (19)
#define EXT_DAQ_CTRL_INPT_DETECT_ENBL_MSK (0x00000001 << EXT_DAQ_CTRL_INPT_DETECT_ENBL_OFST)
/* Pattern Loop 2 Address RW regiser */
#define PATTERN_LOOP_2_ADDR_REG (0x58 << MEM_MAP_SHIFT)
/** DAQ Register */
#define DAQ_REG (0x5D << MEM_MAP_SHIFT)
#define PATTERN_LOOP_2_ADDR_STRT_OFST (0)
#define PATTERN_LOOP_2_ADDR_STRT_MSK \
(0x00001FFF << PATTERN_LOOP_2_ADDR_STRT_OFST)
#define PATTERN_LOOP_2_ADDR_STP_OFST (16)
#define PATTERN_LOOP_2_ADDR_STP_MSK (0x00001FFF << PATTERN_LOOP_2_ADDR_STP_OFST)
// dynamic gain (default)
#define DAQ_HIGH_GAIN_OFST (0)
#define DAQ_HIGH_GAIN_MSK (0x00000001 << DAQ_HIGH_GAIN_OFST)
#define DAQ_FIX_GAIN_OFST (1)
#define DAQ_FIX_GAIN_MSK (0x00000003 << DAQ_FIX_GAIN_OFST)
#define DAQ_FIX_GAIN_STG_1_VAL ((0x1 << DAQ_FIX_GAIN_OFST) & DAQ_FIX_GAIN_MSK)
#define DAQ_FIX_GAIN_STG_2_VAL ((0x3 << DAQ_FIX_GAIN_OFST) & DAQ_FIX_GAIN_MSK)
#define DAQ_CMP_RST_OFST (4)
#define DAQ_CMP_RST_MSK (0x00000001 << DAQ_CMP_RST_OFST)
#define DAQ_CHIP11_VRSN_OFST (7)
#define DAQ_CHIP11_VRSN_MSK (0x00000001 << DAQ_CHIP11_VRSN_OFST)
#define DAQ_FRCE_SWTCH_GAIN_OFST (12)
#define DAQ_FRCE_SWTCH_GAIN_MSK (0x00000003 << DAQ_FRCE_SWTCH_GAIN_OFST)
#define DAQ_FRCE_GAIN_STG_0_VAL ((0x0 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK)
#define DAQ_FRCE_GAIN_STG_1_VAL ((0x1 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK)
#define DAQ_FRCE_GAIN_STG_2_VAL ((0x3 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK)
#define DAQ_ELCTRN_CLLCTN_MDE_OFST (14)
#define DAQ_ELCTRN_CLLCTN_MDE_MSK (0x00000001 << DAQ_ELCTRN_CLLCTN_MDE_OFST)
#define DAQ_G2_CNNT_OFST (15)
#define DAQ_G2_CNNT_MSK (0x00000001 << DAQ_G2_CNNT_OFST)
#define DAQ_CRRNT_SRC_ENBL_OFST (16)
#define DAQ_CRRNT_SRC_ENBL_MSK (0x00000001 << DAQ_CRRNT_SRC_ENBL_OFST)
#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)
#define DAQ_GAIN_MODE_MASK (DAQ_FRCE_SWTCH_GAIN_MSK | DAQ_FIX_GAIN_MSK | DAQ_CMP_RST_MSK)
/* Pattern Loop 2 Iteration RW regiser */
#define PATTERN_LOOP_2_ITERATION_REG (0x59 << MEM_MAP_SHIFT)
/** Chip Power Register */
#define CHIP_POWER_REG (0x5E << MEM_MAP_SHIFT)
/* Pattern Wait 0 RW regiser */
#define PATTERN_WAIT_0_ADDR_REG (0x5A << MEM_MAP_SHIFT)
#define CHIP_POWER_ENABLE_OFST (0)
#define CHIP_POWER_ENABLE_MSK (0x00000001 << CHIP_POWER_ENABLE_OFST)
#define CHIP_POWER_STATUS_OFST (1)
#define CHIP_POWER_STATUS_MSK (0x00000001 << CHIP_POWER_STATUS_OFST)
#define PATTERN_WAIT_0_ADDR_OFST (0)
#define PATTERN_WAIT_0_ADDR_MSK (0x00001FFF << PATTERN_WAIT_0_ADDR_OFST)
// FIXME: is mask 3FF
/** Temperature Control Register */
#define TEMP_CTRL_REG (0x5F << MEM_MAP_SHIFT)
/* Pattern Wait 1 RW regiser */
#define PATTERN_WAIT_1_ADDR_REG (0x5B << MEM_MAP_SHIFT)
#define TEMP_CTRL_PROTCT_THRSHLD_OFST (0)
#define TEMP_CTRL_PROTCT_THRSHLD_MSK (0x000007FF << TEMP_CTRL_PROTCT_THRSHLD_OFST)
#define TEMP_CTRL_PROTCT_ENABLE_OFST (16)
#define TEMP_CTRL_PROTCT_ENABLE_MSK (0x00000001 << TEMP_CTRL_PROTCT_ENABLE_OFST)
// 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_MSK (0x00000001 << TEMP_CTRL_OVR_TMP_EVNT_OFST)
#define PATTERN_WAIT_1_ADDR_OFST (0)
#define PATTERN_WAIT_1_ADDR_MSK (0x00001FFF << PATTERN_WAIT_1_ADDR_OFST)
/* Set Delay 64 bit register */
#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
/* Pattern Wait 2 RW regiser */
#define PATTERN_WAIT_2_ADDR_REG (0x5C << MEM_MAP_SHIFT)
/* Set Triggers 64 bit register */
#define SET_CYCLES_LSB_REG (0x62 << MEM_MAP_SHIFT)
#define SET_CYCLES_MSB_REG (0x63 << MEM_MAP_SHIFT)
#define PATTERN_WAIT_2_ADDR_OFST (0)
#define PATTERN_WAIT_2_ADDR_MSK (0x00001FFF << PATTERN_WAIT_2_ADDR_OFST)
/* Set Frames 64 bit register */
#define SET_FRAMES_LSB_REG (0x64 << MEM_MAP_SHIFT)
#define SET_FRAMES_MSB_REG (0x65 << MEM_MAP_SHIFT)
/* Samples RW register */
#define SAMPLES_REG (0x5D << MEM_MAP_SHIFT)
/* Set Period 64 bit register tT = T x 50 ns */
#define SET_PERIOD_LSB_REG (0x66 << MEM_MAP_SHIFT)
#define SET_PERIOD_MSB_REG (0x67 << MEM_MAP_SHIFT)
#define SAMPLES_DIGITAL_OFST (0)
#define SAMPLES_DIGITAL_MSK (0x0000FFFF << SAMPLES_DIGITAL_OFST)
#define SAMPLES_ANALOG_OFST (16)
#define SAMPLES_ANALOG_MSK (0x0000FFFF << SAMPLES_ANALOG_OFST)
/* Set Exptime 64 bit register eEXP = Exp x 25 ns */
#define SET_EXPTIME_LSB_REG (0x68 << MEM_MAP_SHIFT)
#define SET_EXPTIME_MSB_REG (0x69 << MEM_MAP_SHIFT)
/** Power RW register */
#define POWER_REG (0x5E << MEM_MAP_SHIFT)
/* Starting Frame number 64 bit register */
#define FRAME_NUMBER_LSB_REG (0x6A << MEM_MAP_SHIFT)
#define FRAME_NUMBER_MSB_REG (0x6B << MEM_MAP_SHIFT)
#define POWER_CHIP_OFST (16)
#define POWER_CHIP_MSK (0x00000001 << POWER_CHIP_OFST)
#define POWER_HV_INTERNAL_SLCT_OFST (31)
#define POWER_HV_INTERNAL_SLCT_MSK (0x00000001 << POWER_HV_INTERNAL_SLCT_OFST)
/* 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)
/* Number of Words RW register TODO */
#define NUMBER_OF_WORDS_REG (0x5F << MEM_MAP_SHIFT)
/* Delay 64 bit RW register. t = DLY x 50 ns. */
#define DELAY_LSB_REG (0x60 << MEM_MAP_SHIFT)
#define DELAY_MSB_REG (0x61 << MEM_MAP_SHIFT)
/* Trigger Delay 32 bit register */
#define SET_TRIGGER_DELAY_LSB_REG (0x70 << MEM_MAP_SHIFT)
#define SET_TRIGGER_DELAY_MSB_REG (0x71 << MEM_MAP_SHIFT)
/* Triggers 64 bit RW register */
#define CYCLES_LSB_REG (0x62 << MEM_MAP_SHIFT)
#define CYCLES_MSB_REG (0x63 << MEM_MAP_SHIFT)
/** Module row coordinates */
#define COORD_ROW_REG (0x7C << MEM_MAP_SHIFT)
/* Frames 64 bit RW register */
#define FRAMES_LSB_REG (0x64 << MEM_MAP_SHIFT)
#define FRAMES_MSB_REG (0x65 << MEM_MAP_SHIFT)
#define COORD_ROW_OUTER_OFST (0)
#define COORD_ROW_OUTER_MSK (0x0000FFFF << COORD_ROW_OUTER_OFST)
#define COORD_ROW_INNER_OFST (16)
#define COORD_ROW_INNER_MSK (0x0000FFFF << COORD_ROW_INNER_OFST)
/* Period 64 bit RW register */
#define PERIOD_LSB_REG (0x66 << MEM_MAP_SHIFT)
#define PERIOD_MSB_REG (0x67 << MEM_MAP_SHIFT)
/** Module column coordinates */
#define COORD_COL_REG (0x7D << MEM_MAP_SHIFT)
/* Period 64 bit RW register */
//#define EXPTIME_LSB_REG (0x68 << MEM_MAP_SHIFT) //
// Not used in FW #define EXPTIME_MSB_REG (0x69 <<
// MEM_MAP_SHIFT) // Not used in FW
#define COORD_COL_OUTER_OFST (0)
#define COORD_COL_OUTER_MSK (0x0000FFFF << COORD_COL_OUTER_OFST)
#define COORD_COL_INNER_OFST (16)
#define COORD_COL_INNER_MSK (0x0000FFFF << COORD_COL_INNER_OFST)
/* Gates 64 bit RW register */
//#define GATES_LSB_REG (0x6A << MEM_MAP_SHIFT) // Not used
// in FW #define GATES_MSB_REG (0x6B << MEM_MAP_SHIFT) //
// Not used in FW
/** Module ID coordinates */
#define MOD_ID_REG (0x7E << MEM_MAP_SHIFT)
/* Pattern IO Control 64 bit RW regiser
* Each bit configured as output(1)/ input(0) */
#define PATTERN_IO_CNTRL_LSB_REG (0x6C << MEM_MAP_SHIFT)
#define PATTERN_IO_CNTRL_MSB_REG (0x6D << MEM_MAP_SHIFT)
#define MOD_ID_OFST (0)
#define MOD_ID_MSK (0x0000FFFF << MOD_ID_OFST)
/* Pattern IO Clock Control 64 bit RW regiser
* When bit n enabled (1), clocked output for DIO[n] (T run clock)
* When bit n disabled (0), Dio[n] driven by its pattern output */
#define PATTERN_IO_CLK_CNTRL_LSB_REG (0x6E << MEM_MAP_SHIFT)
#define PATTERN_IO_CLK_CNTRL_MSB_REG (0x6F << MEM_MAP_SHIFT)
/* ADC 0 Deserializer Control */
#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_MSK (0x00000001 << ADC_DSRLZR_0_RFRSH_ALGNMNT_OFST)
/* Pattern In 64 bit RW register */
#define PATTERN_IN_LSB_REG (0x70 << MEM_MAP_SHIFT)
#define PATTERN_IN_MSB_REG (0x71 << MEM_MAP_SHIFT)
/* ADC 0 Deserializer Control */
#define ADC_DSRLZR_1_REG (0xF1 << MEM_MAP_SHIFT)
#define ADC_DSRLZR_1_RFRSH_ALGNMNT_OFST (31)
#define ADC_DSRLZR_1_RFRSH_ALGNMNT_MSK (0x00000001 << ADC_DSRLZR_1_RFRSH_ALGNMNT_OFST)
/* Pattern Wait Timer 0 64 bit RW register. t = PWT1 x T run clock */
#define PATTERN_WAIT_TIMER_0_LSB_REG (0x72 << MEM_MAP_SHIFT)
#define PATTERN_WAIT_TIMER_0_MSB_REG (0x73 << MEM_MAP_SHIFT)
/* ADC 0 Deserializer Control */
#define ADC_DSRLZR_2_REG (0xF2 << MEM_MAP_SHIFT)
#define ADC_DSRLZR_2_RFRSH_ALGNMNT_OFST (31)
#define ADC_DSRLZR_2_RFRSH_ALGNMNT_MSK (0x00000001 << ADC_DSRLZR_2_RFRSH_ALGNMNT_OFST)
/* Pattern Wait Timer 1 64 bit RW register. t = PWT2 x T run clock */
#define PATTERN_WAIT_TIMER_1_LSB_REG (0x74 << MEM_MAP_SHIFT)
#define PATTERN_WAIT_TIMER_1_MSB_REG (0x75 << MEM_MAP_SHIFT)
/* Pattern Wait Timer 2 64 bit RW register. t = PWT3 x T run clock */
#define PATTERN_WAIT_TIMER_2_LSB_REG (0x76 << MEM_MAP_SHIFT)
#define PATTERN_WAIT_TIMER_2_MSB_REG (0x77 << MEM_MAP_SHIFT)
/* Readout enable RW register */
#define READOUT_10G_ENABLE_REG (0x79 << MEM_MAP_SHIFT)
#define READOUT_10G_ENABLE_ANLG_OFST (0)
#define READOUT_10G_ENABLE_ANLG_MSK (0x000000FF << READOUT_10G_ENABLE_ANLG_OFST)
#define READOUT_10G_ENABLE_DGTL_OFST (8)
#define READOUT_10G_ENABLE_DGTL_MSK (0x00000001 << READOUT_10G_ENABLE_DGTL_OFST)
/* Digital Bit External Trigger RW register */
#define DBIT_EXT_TRG_REG \
(0x7B << MEM_MAP_SHIFT) // Not used in firmware or software
#define DBIT_EXT_TRG_SRC_OFST (0)
#define DBIT_EXT_TRG_SRC_MSK (0x0000003F << DBIT_EXT_TRG_SRC_OFST)
#define DBIT_EXT_TRG_OPRTN_MD_OFST (16)
#define DBIT_EXT_TRG_OPRTN_MD_MSK (0x00000001 << DBIT_EXT_TRG_OPRTN_MD_OFST)
/* Pin Delay 0 RW register */
#define OUTPUT_DELAY_0_REG \
(0x7C << MEM_MAP_SHIFT) // Not used in firmware or software
#define OUTPUT_DELAY_0_OTPT_STTNG_STEPS (25)
#define OUTPUT_DELAY_0_OTPT_STTNG_OFST \
(0) // t = OTPT_STTNG * 25 ps, max for Cyclone V = 775 ps
#define OUTPUT_DELAY_0_OTPT_STTNG_MSK \
(0x0000001F << OUTPUT_DELAY_0_OTPT_STTNG_OFST)
// 1: load dynamic output settings, 0: trigger start of dynamic output delay
// configuration pn falling edge of ODT (output delay trigger) bit
#define OUTPUT_DELAY_0_OTPT_TRGGR_OFST (31)
#define OUTPUT_DELAY_0_OTPT_TRGGR_MSK \
(0x00000001 << OUTPUT_DELAY_0_OTPT_TRGGR_OFST)
#define OUTPUT_DELAY_0_OTPT_TRGGR_LD_VAL (1)
#define OUTPUT_DELAY_0_OTPT_TRGGR_STRT_VAL (0)
/* Pin Delay 1 RW register
* Each bit configured as enable for dynamic output delay configuration */
#define PIN_DELAY_1_REG \
(0x7D << MEM_MAP_SHIFT) // Not used in firmware or software
/** Pattern Mask 64 bit RW regiser */
#define PATTERN_MASK_LSB_REG (0x80 << MEM_MAP_SHIFT)
#define PATTERN_MASK_MSB_REG (0x81 << MEM_MAP_SHIFT)
/** Pattern Set 64 bit RW regiser */
#define PATTERN_SET_LSB_REG (0x82 << MEM_MAP_SHIFT)
#define PATTERN_SET_MSB_REG (0x83 << MEM_MAP_SHIFT)
/* Pattern Loop 3 Address RW regiser */
#define PATTERN_LOOP_3_ADDR_REG (0x84 << MEM_MAP_SHIFT)
#define PATTERN_LOOP_3_ADDR_STRT_OFST (0)
#define PATTERN_LOOP_3_ADDR_STRT_MSK \
(0x00001FFF << PATTERN_LOOP_3_ADDR_STRT_OFST)
#define PATTERN_LOOP_3_ADDR_STP_OFST (16)
#define PATTERN_LOOP_3_ADDR_STP_MSK (0x00001FFF << PATTERN_LOOP_3_ADDR_STP_OFST)
/* Pattern Loop 3 Iteration RW regiser */
#define PATTERN_LOOP_3_ITERATION_REG (0x85 << MEM_MAP_SHIFT)
/* Pattern Loop 4 Address RW regiser */
#define PATTERN_LOOP_4_ADDR_REG (0x86 << MEM_MAP_SHIFT)
#define PATTERN_LOOP_4_ADDR_STRT_OFST (0)
#define PATTERN_LOOP_4_ADDR_STRT_MSK \
(0x00001FFF << PATTERN_LOOP_4_ADDR_STRT_OFST)
#define PATTERN_LOOP_4_ADDR_STP_OFST (16)
#define PATTERN_LOOP_4_ADDR_STP_MSK (0x00001FFF << PATTERN_LOOP_4_ADDR_STP_OFST)
/* Pattern Loop 4 Iteration RW regiser */
#define PATTERN_LOOP_4_ITERATION_REG (0x87 << MEM_MAP_SHIFT)
/* Pattern Loop 5 Address RW regiser */
#define PATTERN_LOOP_5_ADDR_REG (0x88 << MEM_MAP_SHIFT)
#define PATTERN_LOOP_5_ADDR_STRT_OFST (0)
#define PATTERN_LOOP_5_ADDR_STRT_MSK \
(0x00001FFF << PATTERN_LOOP_5_ADDR_STRT_OFST)
#define PATTERN_LOOP_5_ADDR_STP_OFST (16)
#define PATTERN_LOOP_5_ADDR_STP_MSK (0x00001FFF << PATTERN_LOOP_5_ADDR_STP_OFST)
/* Pattern Loop 5 Iteration RW regiser */
#define PATTERN_LOOP_5_ITERATION_REG (0x89 << MEM_MAP_SHIFT)
/* Pattern Wait 3 RW regiser */
#define PATTERN_WAIT_3_ADDR_REG (0x8A << MEM_MAP_SHIFT)
#define PATTERN_WAIT_3_ADDR_OFST (0)
#define PATTERN_WAIT_3_ADDR_MSK (0x00001FFF << PATTERN_WAIT_3_ADDR_OFST)
/* Pattern Wait 4 RW regiser */
#define PATTERN_WAIT_4_ADDR_REG (0x8B << MEM_MAP_SHIFT)
#define PATTERN_WAIT_4_ADDR_OFST (0)
#define PATTERN_WAIT_4_ADDR_MSK (0x00001FFF << PATTERN_WAIT_4_ADDR_OFST)
/* Pattern Wait 5 RW regiser */
#define PATTERN_WAIT_5_ADDR_REG (0x8C << MEM_MAP_SHIFT)
#define PATTERN_WAIT_5_ADDR_OFST (0)
#define PATTERN_WAIT_5_ADDR_MSK (0x00001FFF << PATTERN_WAIT_5_ADDR_OFST)
/* Pattern Wait Timer 3 64 bit RW register. t = PWT1 x T run clock */
#define PATTERN_WAIT_TIMER_3_LSB_REG (0x8D << MEM_MAP_SHIFT)
#define PATTERN_WAIT_TIMER_3_MSB_REG (0x8E << MEM_MAP_SHIFT)
/* Pattern Wait Timer 4 64 bit RW register. t = PWT1 x T run clock */
#define PATTERN_WAIT_TIMER_4_LSB_REG (0x8F << MEM_MAP_SHIFT)
#define PATTERN_WAIT_TIMER_4_MSB_REG (0x90 << MEM_MAP_SHIFT)
/* Pattern Wait Timer 5 64 bit RW register. t = PWT1 x T run clock */
#define PATTERN_WAIT_TIMER_5_LSB_REG (0x91 << MEM_MAP_SHIFT)
#define PATTERN_WAIT_TIMER_5_MSB_REG (0x92 << MEM_MAP_SHIFT)
/* ADC 0 Deserializer Control */
#define ADC_DSRLZR_3_REG (0xF3 << MEM_MAP_SHIFT)
#define ADC_DSRLZR_3_RFRSH_ALGNMNT_OFST (31)
#define ADC_DSRLZR_3_RFRSH_ALGNMNT_MSK (0x00000001 << ADC_DSRLZR_3_RFRSH_ALGNMNT_OFST)
/* Round Robin */
#define RXR_ENDPOINT_START_REG (0x1000 << MEM_MAP_SHIFT)
#define RXR_ENDPOINTS_MAX (64)
#define RXR_ENDPOINT_OUTER_START_REG (0x1000 << MEM_MAP_SHIFT)
#define RXR_ENDPOINT_INNER_START_REG (0x2000 << MEM_MAP_SHIFT)
#define RXR_ENDPOINT_OFST (0x10 << MEM_MAP_SHIFT)
// clang-format on

301
slsDetectorServers/moenchDetectorServer/bin/DefaultPattern_moench.txt
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BIN
slsDetectorServers/moenchDetectorServer/bin/moenchDetectorServer_developer Executable file
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BIN
slsDetectorServers/moenchDetectorServer/bin/moenchDetectorServerv7.0.0
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4
slsDetectorServers/moenchDetectorServer/config_moench.txt Executable file
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@ -0,0 +1,4 @@
#chip version version (multiplied by 10)
chipversion 11

1
slsDetectorServers/moenchDetectorServer/detid_moench.txt Executable file
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1234

2839
slsDetectorServers/moenchDetectorServer/slsDetectorFunctionList.c
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265
slsDetectorServers/moenchDetectorServer/slsDetectorServer_defs.h
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@ -4,18 +4,140 @@
#include "RegisterDefs.h"
#include "sls/sls_detector_defs.h"
#define MIN_REQRD_VRSN_T_RD_API 0x180314
#define REQRD_FRMWR_VRSN 0x221205
#define REQRD_FRMWRE_VRSN_BOARD2 0x221130 // 1.0 pcb (version = 010)
#define REQRD_FRMWRE_VRSN 0x221130 // 2.0 pcb (version = 011)
#define NUM_HARDWARE_VERSIONS (1)
#define NUM_HARDWARE_VERSIONS (2)
#define HARDWARE_VERSION_NUMBERS \
{ 0x1 }
{ 0x2, 0x3 }
#define HARDWARE_VERSION_NAMES \
{ "1.0" }
{ "1.0", "2.0" }
#define ID_FILE ("detid_moench.txt")
#define CONFIG_FILE ("config_moench.txt")
#define LINKED_SERVER_NAME "moenchDetectorServer"
#define CTRL_SRVR_INIT_TIME_US (2 * 1000 * 1000)
#define CTRL_SRVR_INIT_TIME_US (300 * 1000)
/* Hardware Definitions */
#define NCHAN (400 * 400)
#define NCHIP (1)
#define NDAC (8)
#define DYNAMIC_RANGE (16)
#define NUM_BYTES_PER_PIXEL (DYNAMIC_RANGE / 8)
#define DATA_BYTES (NCHIP * NCHAN * NUM_BYTES_PER_PIXEL)
#define CLK_RUN (40) // MHz
#define CLK_SYNC (20) // MHz
#define ADC_CLK_INDEX (1)
#define DBIT_CLK_INDEX (0)
/** Default Parameters */
#define DEFAULT_NUM_FRAMES (1)
#define DEFAULT_STARTING_FRAME_NUMBER (1)
#define DEFAULT_NUM_CYCLES (1)
#define DEFAULT_EXPTIME (10 * 1000) // ns
#define DEFAULT_PERIOD (2 * 1000 * 1000) // ns
#define DEFAULT_DELAY (0)
#define DEFAULT_HIGH_VOLTAGE (0)
#define DEFAULT_TIMING_MODE (AUTO_TIMING)
#define DEFAULT_SETTINGS (GAIN0)
#define DEFAULT_GAINMODE (DYNAMIC)
#define DEFAULT_TX_UDP_PORT (0x7e9a)
#define DEFAULT_TMP_THRSHLD (65 * 1000) // milli degree Celsius
#define DEFAULT_FLIP_ROWS (0)
#define DEFAULT_FILTER_RESISTOR (1) // higher resistor
#define DEFAULT_FILTER_CELL (0)
#define HIGHVOLTAGE_MIN (60)
#define HIGHVOLTAGE_MAX (200)
#define DAC_MIN_MV (0)
#define DAC_MAX_MV (2500)
#define MAX_FILTER_CELL_VAL (12)
#define READ_N_ROWS_MULTIPLE (16) // 400 rows/50packets * 2 interfaces
#define MIN_ROWS_PER_READOUT (16)
#define MAX_ROWS_PER_READOUT (400)
#define ROWS_PER_PACKET (8)
/* Defines in the Firmware */
#define MAX_TIMESLOT_VAL (0x1F)
#define MAX_THRESHOLD_TEMP_VAL (127999) // millidegrees
#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 BIT16_MASK (0xFFFF)
#define GAIN_VAL_OFST (14)
#define GAIN_VAL_MSK (0x3 << GAIN_VAL_OFST)
// pipeline
#define ADC_PORT_INVERT_VAL (0x5A5A5A5A)
#define ADC_PORT_INVERT_BOARD2_VAL (0x453b2a9c)
// 2.0 pcb (chipv1.1)
#define SAMPLE_ADC_FULL_SPEED_CHIP11 \
(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_0_VAL + \
SAMPLE_DGTL_SAMPLE_0_VAL + SAMPLE_DECMT_FACTOR_FULL_VAL) // 0x0000
#define SAMPLE_ADC_HALF_SPEED_CHIP11 \
(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_1_VAL + \
SAMPLE_DGTL_SAMPLE_1_VAL + SAMPLE_DECMT_FACTOR_HALF_VAL) // 0x1110
#define SAMPLE_ADC_QUARTER_SPEED_CHIP11 \
(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_3_VAL + \
SAMPLE_DGTL_SAMPLE_2_VAL + SAMPLE_DECMT_FACTOR_QUARTER_VAL) // 0x2230
#define ADC_PHASE_FULL_SPEED_CHIP11 (160)
#define ADC_PHASE_HALF_SPEED_CHIP11 (160)
#define ADC_PHASE_QUARTER_SPEED_CHIP11 (160)
#define DBIT_PHASE_FULL_SPEED_CHIP11 (80)
#define DBIT_PHASE_HALF_SPEED_CHIP11 (135)
#define DBIT_PHASE_QUARTER_SPEED_CHIP11 (135)
#define ADC_OFST_FULL_SPEED_VAL_CHIP11 (0x10)
#define ADC_OFST_HALF_SPEED_VAL_CHIP11 (0x08)
#define ADC_OFST_QUARTER_SPEED_VAL_CHIP11 (0x04)
// 2.0 pcb (chipv1.0)
#define SAMPLE_ADC_FULL_SPEED_CHIP10 \
(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_0_VAL + \
SAMPLE_DGTL_SAMPLE_1_VAL + SAMPLE_DECMT_FACTOR_FULL_VAL) // 0x0100
#define SAMPLE_ADC_HALF_SPEED_CHIP10 \
(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_1_VAL + \
SAMPLE_DGTL_SAMPLE_3_VAL + SAMPLE_DECMT_FACTOR_HALF_VAL) // 0x1310
#define SAMPLE_ADC_QUARTER_SPEED_CHIP10 \
(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_3_VAL + \
SAMPLE_DGTL_SAMPLE_6_VAL + SAMPLE_DECMT_FACTOR_QUARTER_VAL) // 0x2630
#define ADC_PHASE_FULL_SPEED_CHIP10 (160)
#define ADC_PHASE_HALF_SPEED_CHIP10 (160)
#define ADC_PHASE_QUARTER_SPEED_CHIP10 (160)
#define DBIT_PHASE_FULL_SPEED_CHIP10 (125)
#define DBIT_PHASE_HALF_SPEED_CHIP10 (175)
#define DBIT_PHASE_QUARTER_SPEED_CHIP10 (175)
#define ADC_OFST_FULL_SPEED_VAL_CHIP10 (0x10)
#define ADC_OFST_HALF_SPEED_VAL_CHIP10 (0x08)
#define ADC_OFST_QUARTER_SPEED_VAL_CHIP10 (0x04)
// 1.0 pcb (2 resistor network)
#define SAMPLE_ADC_HALF_SPEED_BOARD2 \
(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_0_VAL + \
SAMPLE_DGTL_SAMPLE_3_VAL + SAMPLE_DECMT_FACTOR_HALF_VAL) // 0x1300
#define SAMPLE_ADC_QUARTER_SPEED_BOARD2 \
(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_1_VAL + \
SAMPLE_DGTL_SAMPLE_6_VAL + SAMPLE_DECMT_FACTOR_QUARTER_VAL) // 0x2610
#define ADC_PHASE_HALF_SPEED_BOARD2 (110)
#define ADC_PHASE_QUARTER_SPEED_BOARD2 (220)
#define DBIT_PHASE_HALF_SPEED_BOARD2 (150)
#define DBIT_PHASE_QUARTER_SPEED_BOARD2 (150)
#define ADC_OFST_HALF_SPEED_BOARD2_VAL (0x10)
#define ADC_OFST_QUARTER_SPEED_BOARD2_VAL (0x08)
/* Struct Definitions */
typedef struct udp_header_struct {
@ -45,111 +167,44 @@ typedef struct udp_header_struct {
#define UDP_IP_HEADER_LENGTH_BYTES (28)
/* Enums */
enum ADCINDEX { TEMP_FPGA, TEMP_ADC };
enum DACINDEX {
MO_VBP_COLBUF,
MO_VIPRE,
MO_VIN_CM,
MO_VB_SDA,
MO_VCASC_SFP,
MO_VOUT_CM,
MO_VIPRE_CDS,
MO_IBIAS_SFP
J_VB_COMP,
J_VDD_PROT,
J_VIN_COM,
J_VREF_PRECH,
J_VB_PIXBUF,
J_VB_DS,
J_VREF_DS,
J_VREF_COMP
};
#define DAC_NAMES \
"vbp_colbuf", "vipre", "vin_cm", "vb_sda", "vcasc_sfp", "vout_cm", \
"vipre_cds", "ibias_sfp"
"vb_comp", "vdd_prot", "vin_com", "vref_prech", "vb_pixbuf", "vb_ds", \
"vref_ds", "vref_comp"
#define DEFAULT_DAC_VALS \
{ \
1300, /* MO_VBP_COLBUF */ \
1000, /* MO_VIPRE */ \
1400, /* MO_VIN_CM */ \
680, /* MO_VB_SDA */ \
1428, /* MO_VCASC_SFP */ \
1200, /* MO_VOUT_CM */ \
800, /* MO_VIPRE_CDS */ \
900 /* MO_IBIAS_SFP */ \
1220, /* J_VB_COMP */ \
3000, /* J_VDD_PROT */ \
1053, /* J_VIN_COM */ \
1450, /* J_VREF_PRECH */ \
750, /* J_VB_PIXBUF */ \
1000, /* J_VB_DS */ \
480, /* J_VREF_DS */ \
420 /* J_VREF_COMP */ \
};
enum CLKINDEX { RUN_CLK, ADC_CLK, SYNC_CLK, DBIT_CLK, NUM_CLOCKS };
#define CLK_NAMES "run", "adc", "sync", "dbit"
enum MASTERINDEX { MASTER_HARDWARE, OW_MASTER, OW_SLAVE };
#define MASTER_NAMES "hardware", "master", "slave"
/* Hardware Definitions */
#define NCHAN (32)
#define NCHIP (1)
#define NDAC (8)
#define DYNAMIC_RANGE (16)
#define NUM_BYTES_PER_PIXEL (DYNAMIC_RANGE / 8)
#define CLK_FREQ (156.25) /* MHz */
#define NSAMPLES_PER_ROW (25)
#define NCHANS_PER_ADC (25)
#define NUMSETTINGS (2)
#define NSPECIALDACS (3)
#define SPECIALDACINDEX {J_VREF_PRECH, J_VREF_DS, J_VREF_COMP};
#define SPECIAL_DEFAULT_DYNAMIC_GAIN_VALS \
{ 1450, 480, 420 }
#define SPECIAL_DEFAULT_DYNAMICHG0_GAIN_VALS \
{ 1550, 450, 620 }
/** Default Parameters */
#define DEFAULT_PATTERN_FILE ("DefaultPattern_moench.txt")
#define DEFAULT_STARTING_FRAME_NUMBER (1)
#define DEFAULT_DATA_BYTES (NCHIP * NCHAN * NUM_BITS_PER_PIXEL)
#define DEFAULT_NUM_SAMPLES (5000)
#define DEFAULT_EXPTIME (0)
#define DEFAULT_NUM_FRAMES (1)
#define DEFAULT_NUM_CYCLES (1)
#define DEFAULT_PERIOD (1 * 1000 * 1000) // ns
#define DEFAULT_DELAY (0)
#define DEFAULT_HIGH_VOLTAGE (0)
#define DEFAULT_VLIMIT (-100)
#define DEFAULT_TIMING_MODE (AUTO_TIMING)
#define DEFAULT_TX_UDP_PORT (0x7e9a)
#define DEFAULT_RUN_CLK_AT_STARTUP (200) // 40
#define DEFAULT_ADC_CLK_AT_STARTUP (40) // 20
#define DEFAULT_SYNC_CLK_AT_STARTUP (40) // 20
#define DEFAULT_DBIT_CLK_AT_STARTUP (200)
#define DEFAULT_RUN_CLK (40)
#define DEFAULT_ADC_CLK (20)
#define DEFAULT_DBIT_CLK (40)
#define DEFAULT_ADC_PHASE_DEG (30)
#define DEFAULT_PIPELINE (15)
#define DEFAULT_SETTINGS (G4_HIGHGAIN)
#define UDP_HEADER_MAX_FRAME_VALUE (0xFFFFFFFFFFFF)
// settings
#define DEFAULT_PATMASK (0x00000C800000800AULL)
#define G1_HIGHGAIN_PATSETBIT (0x00000C0000008008ULL)
#define G1_LOWGAIN_PATSETBIT (0x0000040000008000ULL)
#define G2_HIGHCAP_HIGHGAIN_PATSETBIT (0x0000080000000008ULL)
#define G2_HIGHCAP_LOWGAIN_PATSETBIT (0x0000000000000000ULL)
#define G2_LOWCAP_HIGHGAIN_PATSETBIT (0x00000C800000800AULL)
#define G2_LOWCAP_LOWGAIN_PATSETBIT (0x0000048000008002ULL)
#define G4_HIGHGAIN_PATSETBIT (0x000008800000000AULL)
#define G4_LOWGAIN_PATSETBIT (0x0000008000000002ULL)
#define HIGHVOLTAGE_MIN (60)
#define HIGHVOLTAGE_MAX (200) // min dac val
#define DAC_MIN_MV (0)
#define DAC_MAX_MV (2500)
/* Defines in the Firmware */
#define DIGITAL_IO_DELAY_MAXIMUM_PS \
((OUTPUT_DELAY_0_OTPT_STTNG_MSK >> OUTPUT_DELAY_0_OTPT_STTNG_OFST) * \
OUTPUT_DELAY_0_OTPT_STTNG_STEPS)
#define MAX_PHASE_SHIFTS_STEPS (8)
#define WAIT_TME_US_FR_ACQDONE_REG \
(100) // wait time in us after acquisition done to ensure there is no data
// in fifo
#define WAIT_TIME_US_PLL (10 * 1000)
#define WAIT_TIME_US_STP_ACQ (100)
#define WAIT_TIME_CONFIGURE_MAC (2 * 1000 * 1000)
#define WAIT_TIME_PATTERN_READ (10)
#define WAIT_TIME_1US_FOR_LOOP_CNT (50) // around 30 is 1 us in blackfin
/* MSB & LSB DEFINES */
#define MSB_OF_64_BIT_REG_OFST (32)
#define LSB_OF_64_BIT_REG_OFST (0)
#define BIT32_MSK (0xFFFFFFFF)
#define BIT16_MASK (0xFFFF)
#define ADC_PORT_INVERT_VAL (0x4a342593)
#define MAXIMUM_ADC_CLK (20)
#define PLL_VCO_FREQ_MHZ (800)
enum NETWORKINDEX { TXN_FRAME, FLOWCTRL_10G };
enum CLKINDEX { RUN_CLK, ADC_CLK, DBIT_CLK, NUM_CLOCKS };
#define CLK_NAMES "run", "adc", "dbit"

BIN
slsDetectorServers/mythen3DetectorServer/bin/mythen3DetectorServer_developer Executable file
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BIN
slsDetectorServers/mythen3DetectorServer/bin/mythen3DetectorServerv7.0.0
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11
slsDetectorServers/slsDetectorServer/include/ALTERA_PLL.h
View File

@ -4,7 +4,7 @@
#include <inttypes.h>
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
/**
* Set Defines
* @param creg control register
@ -14,8 +14,9 @@
* @param prmsk pll reset mask
* @param amsk address mask
* @param aofst address offset
* @param wd2msk write parameter mask for pll for dbit clock (Jungfrau only)
* @param clk2Index clkIndex of second pll (Jungfrau only)
* @param wd2msk write parameter mask for pll for dbit clock (Jungfrau/moench
* only)
* @param clk2Index clkIndex of second pll (Jungfrau/moench only)
*/
void ALTERA_PLL_SetDefines(uint32_t creg, uint32_t preg, uint32_t rprmsk,
uint32_t wpmsk, uint32_t prmsk, uint32_t amsk,
@ -50,8 +51,8 @@ void ALTERA_PLL_ResetPLLAndReconfiguration();
* Set PLL Reconfig register
* @param reg register
* @param val value
* @param useDefaultWRMask only jungfrau for dbit clk (clkindex1, use second WR
* mask)
* @param useDefaultWRMask only jungfrau/moench for dbit clk (clkindex1, use
* second WR mask)
*/
void ALTERA_PLL_SetPllReconfigReg(uint32_t reg, uint32_t val,
int useSecondWRMask);

2
slsDetectorServers/slsDetectorServer/include/loadPattern.h
View File

@ -6,7 +6,7 @@
#include "clogger.h"
void initializePatternAddresses();
#if defined(CHIPTESTBOARDD) || defined(MOENCHD)
#ifdef CHIPTESTBOARDD
#ifdef VIRTUAL
void initializePatternWord();
#endif

130
slsDetectorServers/slsDetectorServer/include/slsDetectorFunctionList.h
View File

@ -6,8 +6,8 @@
#include "AD9252.h" // old board compatibility
#include "clogger.h" // runState(enum TLogLevel)
#endif
#if defined(GOTTHARDD) || defined(JUNGFRAUD) || defined(CHIPTESTBOARDD) || \
defined(MOENCHD)
#if defined(GOTTHARDD) || defined(JUNGFRAUD) || defined(MOENCHD) || \
defined(CHIPTESTBOARDD)
#include "AD9257.h" // commonServerFunctions.h, blackfin.h, ansi.h
#endif
@ -20,8 +20,8 @@
#if defined(MYTHEN3D) || defined(GOTTHARD2D)
#include "nios.h"
#elif defined(GOTTHARDD) || defined(JUNGFRAUD) || defined(CHIPTESTBOARDD) || \
defined(MOENCHD)
#elif defined(GOTTHARDD) || defined(JUNGFRAUD) || defined(MOENCHD) || \
defined(CHIPTESTBOARDD)
#include "blackfin.h"
#endif
@ -61,15 +61,16 @@ typedef struct udpStruct_s {
int isInitCheckDone();
int getInitResult(char **mess);
void basictests();
#if defined(GOTTHARDD) || defined(JUNGFRAUD) || defined(CHIPTESTBOARDD) || \
defined(MOENCHD) || defined(MYTHEN3D) || defined(GOTTHARD2D)
#if defined(GOTTHARDD) || defined(JUNGFRAUD) || defined(MOENCHD) || \
defined(CHIPTESTBOARDD) || defined(MYTHEN3D) || defined(GOTTHARD2D)
int checkType();
int testFpga();
int testBus();
#endif
#if defined(GOTTHARDD) || \
((defined(EIGERD) || defined(JUNGFRAUD)) && defined(VIRTUAL))
((defined(EIGERD) || defined(JUNGFRAUD) || defined(MOENCHD)) && \
defined(VIRTUAL))
void setTestImageMode(int ival);
int getTestImageMode();
#endif
@ -77,19 +78,24 @@ int getTestImageMode();
// Ids
void getServerVersion(char *version);
u_int64_t getFirmwareVersion();
#ifdef EIGERD
uint64_t getFrontEndFirmwareVersion(enum fpgaPosition fpgaPosition);
#endif
u_int64_t getFirmwareAPIVersion();
#ifndef EIGERD
void getHardwareVersion(char *version);
#ifdef EIGERD
int getHardwareVersionNumber();
#else
u_int16_t getHardwareVersionNumber();
#endif
#if defined(JUNGFRAUD) || defined(CHIPTESTBOARDD) || defined(MOENCHD)
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(CHIPTESTBOARDD)
u_int16_t getHardwareSerialNumber();
#endif
#if defined(JUNGFRAUD) || defined(GOTTHARD2D) || defined(MYTHEN3D) || \
defined(GOTTHARDD)
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(GOTTHARD2D) || \
defined(MYTHEN3D) || defined(GOTTHARDD)
int isHardwareVersion_1_0();
#endif
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
int getChipVersion();
void setChipVersion(int version);
#endif
@ -98,7 +104,7 @@ u_int32_t getDetectorNumber();
#endif
#if defined(GOTTHARD2D) || defined(EIGERD) || defined(MYTHEN3D) || \
defined(JUNGFRAUD)
defined(JUNGFRAUD) || defined(MOENCHD)
int getModuleId(int *ret, char *mess);
int updateModuleId();
#ifndef EIGERD
@ -125,7 +131,7 @@ void checkVirtual9MFlag();
void allocateDetectorStructureMemory();
#endif
void setupDetector();
#if defined(CHIPTESTBOARDD) || defined(MOENCHD)
#if defined(CHIPTESTBOARDD)
int updateDatabytesandAllocateRAM();
void updateDataBytes();
#endif
@ -141,7 +147,8 @@ void setASICDefaults();
#ifdef MYTHEN3D
void setADIFDefaults();
#endif
#if defined(GOTTHARD2D) || defined(EIGERD) || defined(JUNGFRAUD)
#if defined(GOTTHARD2D) || defined(EIGERD) || defined(JUNGFRAUD) || \
defined(MOENCHD)
int readConfigFile();
#endif
#if defined(GOTTHARDD) || defined(GOTTHARD2D) || defined(EIGERD) || \
@ -157,14 +164,13 @@ void resetToHardwareSettings();
int writeRegister(uint32_t offset, uint32_t data);
int readRegister(uint32_t offset, uint32_t *retval);
#elif GOTTHARDD
uint32_t
writeRegister16And32(uint32_t offset,
uint32_t data); // FIXME its not there in ctb or moench?
uint32_t writeRegister16And32(uint32_t offset,
uint32_t data); // FIXME its not there in ctb
uint32_t readRegister16And32(uint32_t offset);
#endif
// firmware functions (resets)
#if defined(JUNGFRAUD) || defined(CHIPTESTBOARDD) || defined(MOENCHD) || \
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(CHIPTESTBOARDD) || \
defined(MYTHEN3D) || defined(GOTTHARD2D)
void cleanFifos();
void resetCore();
@ -189,11 +195,11 @@ int getDynamicRange(int *retval);
int setROI(ROI arg);
ROI getROI();
#endif
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
void setADCInvertRegister(uint32_t val);
uint32_t getADCInvertRegister();
#endif
#if defined(CHIPTESTBOARDD) || defined(MOENCHD)
#if defined(CHIPTESTBOARDD)
int setADCEnableMask(uint32_t mask);
uint32_t getADCEnableMask();
void setADCEnableMask_10G(uint32_t mask);
@ -221,11 +227,11 @@ int getReadoutMode();
#endif
// parameters - timer
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD)
int selectStoragecellStart(int pos);
int getMaxStoragecellStart();
#endif
#if defined(JUNGFRAUD) || defined(EIGERD) || defined(MOENCHD) || \
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(EIGERD) || \
defined(CHIPTESTBOARDD)
int setNextFrameNumber(uint64_t value);
int getNextFrameNumber(uint64_t *value);
@ -265,13 +271,13 @@ int64_t getSubDeadTime();
int64_t getMeasuredPeriod();
int64_t getMeasuredSubPeriod();
#endif
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD)
void setNumAdditionalStorageCells(int val);
int getNumAdditionalStorageCells();
int setStorageCellDelay(int64_t val);
int64_t getStorageCellDelay();
#endif
#if defined(CHIPTESTBOARDD) || defined(MOENCHD)
#if defined(CHIPTESTBOARDD)
int setNumAnalogSamples(int val);
int getNumAnalogSamples();
#endif
@ -286,8 +292,8 @@ uint32_t getCounterMask();
void updatePacketizing();
#endif
#if defined(JUNGFRAUD) || defined(GOTTHARDD) || defined(CHIPTESTBOARDD) || \
defined(MOENCHD) || defined(MYTHEN3D) || defined(GOTTHARD2D)
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(GOTTHARDD) || \
defined(CHIPTESTBOARDD) || defined(MYTHEN3D) || defined(GOTTHARD2D)
int setDelayAfterTrigger(int64_t val);
int64_t getDelayAfterTrigger();
int64_t getNumFramesLeft();
@ -301,7 +307,7 @@ int64_t getNumBurstsLeft();
#ifdef GOTTHARDD
int64_t getExpTimeLeft();
#endif
#if defined(JUNGFRAUD) || defined(CHIPTESTBOARDD) || defined(MOENCHD) || \
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(CHIPTESTBOARDD) || \
defined(MYTHEN3D) || defined(GOTTHARD2D)
int64_t getFramesFromStart();
int64_t getActualTime();
@ -312,7 +318,7 @@ int64_t getMeasurementTime();
#if defined(MYTHEN3D) || defined(EIGERD)
void getModule(sls_detector_module *myMod);
#endif
#if (!defined(CHIPTESTBOARDD)) && (!defined(MOENCHD)) && (!defined(GOTTHARD2D))
#if (!defined(CHIPTESTBOARDD)) && (!defined(GOTTHARD2D))
int setModule(sls_detector_module myMod, char *mess);
#endif
@ -328,7 +334,7 @@ int getAllTrimbits();
enum detectorSettings setSettings(enum detectorSettings sett);
#endif
enum detectorSettings getSettings();
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
enum gainMode getGainMode();
void setGainMode(enum gainMode mode);
#endif
@ -357,7 +363,7 @@ void setDAC(enum DACINDEX ind, int val, int mV);
#endif
int getDAC(enum DACINDEX ind, int mV);
int getMaxDacSteps();
#if defined(CHIPTESTBOARDD) || defined(MOENCHD)
#if defined(CHIPTESTBOARDD)
int dacToVoltage(int dac);
int checkVLimitCompliant(int mV);
int checkVLimitDacCompliant(int dac);
@ -380,14 +386,15 @@ void powerOff();
#if defined(MYTHEN3D) || defined(GOTTHARD2D)
int getADC(enum ADCINDEX ind, int *value);
#elif !defined(MOENCHD)
#else
int getADC(enum ADCINDEX ind);
#endif
int setHighVoltage(int val);
// parameters - timing, extsig
#if defined(EIGERD) || defined(GOTTHARD2D) || defined(JUNGFRAUD)
#if defined(EIGERD) || defined(GOTTHARD2D) || defined(JUNGFRAUD) || \
defined(MOENCHD)
int setMaster(enum MASTERINDEX m);
#endif
#ifdef EIGERD
@ -395,11 +402,11 @@ int setTop(enum TOPINDEX t);
int isTop(int *retval);
#endif
#if defined(MYTHEN3D) || defined(EIGERD) || defined(GOTTHARDD) || \
defined(GOTTHARD2D) || defined(JUNGFRAUD)
defined(GOTTHARD2D) || defined(JUNGFRAUD) || defined(MOENCHD)
int isMaster(int *retval);
#endif
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
int getSynchronization();
void setSynchronization(int enable);
#endif
@ -430,29 +437,30 @@ int getExtSignal(int signalIndex);
#ifdef GOTTHARDD
void calcChecksum(mac_conf *mac, int sourceip, int destip);
#endif
#if defined(JUNGFRAUD) || defined(GOTTHARD2D)
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(GOTTHARD2D)
void setNumberofUDPInterfaces(int val);
#endif
int getNumberofUDPInterfaces();
#if defined(JUNGFRAUD) || defined(EIGERD) || defined(MYTHEN3D) || \
defined(GOTTHARD2D)
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(EIGERD) || \
defined(MYTHEN3D) || defined(GOTTHARD2D)
int getNumberofDestinations(int *retval);
int setNumberofDestinations(int value);
#endif
#if defined(JUNGFRAUD) || defined(MYTHEN3D) || defined(GOTTHARD2D)
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(MYTHEN3D) || \
defined(GOTTHARD2D)
int getFirstUDPDestination();
void setFirstUDPDestination(int value);
#endif
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
void selectPrimaryInterface(int val);
int getPrimaryInterface();
void setupHeader(int iRxEntry, enum interfaceType type, uint32_t destip,
uint64_t destmac, uint32_t destport, uint64_t sourcemac,
uint32_t sourceip, uint32_t sourceport);
#endif
#if defined(JUNGFRAUD) || defined(GOTTHARD2D) || defined(MYTHEN3D) || \
defined(CHIPTESTBOARDD) || defined(MOENCHD)
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(GOTTHARD2D) || \
defined(MYTHEN3D) || defined(CHIPTESTBOARDD)
void calcChecksum(udp_header *udp);
#endif
#ifdef GOTTHARDD
@ -471,22 +479,15 @@ int getInterruptSubframe();
int setReadNRows(int value);
int getReadNRows();
#endif
#if defined(CHIPTESTBOARDD) || defined(MOENCHD) || defined(EIGERD) || \
defined(MYTHEN3D)
#if defined(CHIPTESTBOARDD) || defined(EIGERD) || defined(MYTHEN3D)
int enableTenGigabitEthernet(int val);
#endif
// very detector specific
// moench specific - powerchip
#ifdef MOENCHD
int powerChip(int on);
int setAnalogOnlyReadout();
#endif
// chip test board or moench specific - configure frequency, phase, pll,
// chip test board specific - configure frequency, phase, pll,
// flashing firmware
#if defined(CHIPTESTBOARDD) || defined(MOENCHD)
#if defined(CHIPTESTBOARDD)
int setPhase(enum CLKINDEX ind, int val, int degrees);
int getPhase(enum CLKINDEX ind, int degrees);
int getMaxPhase(enum CLKINDEX ind);
@ -505,9 +506,9 @@ int setLEDEnable(int enable);
void setDigitalIODelay(uint64_t pinMask, int delay);
#endif
// jungfrau specific - powerchip, autocompdisable, clockdiv, asictimer, clock,
// pll, flashing firmware
#ifdef JUNGFRAUD
// jungfrau/moench specific - powerchip, autocompdisable, clockdiv, asictimer,
// clock, pll, flashing firmware
#if defined(JUNGFRAUD) || defined(MOENCHD)
int setReadNRows(int value);
int getReadNRows();
void initReadoutConfiguration();
@ -517,7 +518,9 @@ void configureChip();
int autoCompDisable(int on);
int setComparatorDisableTime(int64_t val);
int64_t getComparatorDisableTime();
#ifndef MOENCHD
void configureASICTimer();
#endif
int setReadoutSpeed(int val);
int getReadoutSpeed(int *retval);
int setPhase(enum CLKINDEX ind, int val, int degrees);
@ -637,11 +640,12 @@ int setBadChannels(int numChannels, int *channelList);
int *getBadChannels(int *numChannels);
#endif
#if defined(JUNGFRAUD) || defined(EIGERD)
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(EIGERD)
int getTenGigaFlowControl();
int setTenGigaFlowControl(int value);
#endif
#if defined(JUNGFRAUD) || defined(EIGERD) || defined(MYTHEN3D)
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(EIGERD) || \
defined(MYTHEN3D)
int getTransmissionDelayFrame();
int setTransmissionDelayFrame(int value);
#endif
@ -661,14 +665,14 @@ int stopStateMachine();
#ifdef MYTHEN3D
int softwareTrigger();
#endif
#if defined(EIGERD) || defined(JUNGFRAUD)
#if defined(EIGERD) || defined(JUNGFRAUD) || defined(MOENCHD)
int softwareTrigger(int block);
#endif
#if defined(EIGERD) || defined(MYTHEN3D)
int startReadOut();
#endif
enum runStatus getRunStatus();
#if defined(CHIPTESTBOARDD) || defined(MOENCHD)
#if defined(CHIPTESTBOARDD)
void readFrames(int *ret, char *mess);
#endif
#ifdef EIGERD
@ -676,7 +680,7 @@ void waitForAcquisitionEnd(int *ret, char *mess);
#else
void waitForAcquisitionEnd();
#endif
#if defined(CHIPTESTBOARDD) || defined(MOENCHD)
#if defined(CHIPTESTBOARDD)
void readandSendUDPFrames(int *ret, char *mess);
void unsetFifoReadStrobes();
void readSample(int ns);
@ -685,8 +689,8 @@ int checkFifoForEndOfAcquisition();
int readFrameFromFifo();
#endif
#if defined(GOTTHARDD) || defined(JUNGFRAUD) || defined(CHIPTESTBOARDD) || \
defined(MOENCHD) || defined(MYTHEN3D) || defined(GOTTHARD2D)
#if defined(GOTTHARDD) || defined(JUNGFRAUD) || defined(MOENCHD) || \
defined(CHIPTESTBOARDD) || defined(MYTHEN3D) || defined(GOTTHARD2D)
u_int32_t runBusy();
#endif
@ -697,7 +701,7 @@ u_int32_t runState(enum TLogLevel lev);
// common
int calculateDataBytes();
int getTotalNumberOfChannels();
#if defined(MOENCHD) || defined(CHIPTESTBOARDD)
#if defined(CHIPTESTBOARDD)
void getNumberOfChannels(int *nchanx, int *nchany);
#endif
int getNumberOfChips();

1
slsDetectorServers/slsDetectorServer/include/slsDetectorServer_funcs.h
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@ -306,3 +306,4 @@ int get_module(int);
int get_synchronization(int);
int set_synchronization(int);
int get_hardware_version(int);
int get_frontend_firmware_version(int);

2
slsDetectorServers/slsDetectorServer/src/AD9257.c
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@ -300,7 +300,7 @@ void AD9257_Configure() {
AD9257_CLK_CH_IFCO_MSK);
// vref
#if defined(GOTTHARDD) || defined(MOENCHD)
#ifdef GOTTHARDD
LOG(logINFO, ("\tVref default at 2.0\n"));
AD9257_SetVrefVoltage(AD9257_VREF_DEFAULT_VAL, 0);
#else

8
slsDetectorServers/slsDetectorServer/src/ALTERA_PLL.c
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@ -127,7 +127,7 @@ uint32_t ALTERA_PLL_Cntrl_Reg = 0x0;
uint32_t ALTERA_PLL_Param_Reg = 0x0;
uint32_t ALTERA_PLL_Cntrl_RcnfgPrmtrRstMask = 0x0;
uint32_t ALTERA_PLL_Cntrl_WrPrmtrMask = 0x0;
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
uint32_t ALTERA_PLL_Cntrl_DBIT_PLL_WrPrmtrMask = 0x0;
int ALTERA_PLL_Cntrl_DBIT_ClkIndex = 0;
@ -136,7 +136,7 @@ uint32_t ALTERA_PLL_Cntrl_PLLRstMask = 0x0;
uint32_t ALTERA_PLL_Cntrl_AddrMask = 0x0;
int ALTERA_PLL_Cntrl_AddrOfst = 0;
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
void ALTERA_PLL_SetDefines(uint32_t creg, uint32_t preg, uint32_t rprmsk,
uint32_t wpmsk, uint32_t prmsk, uint32_t amsk,
int aofst, uint32_t wd2msk, int clk2Index) {
@ -201,7 +201,7 @@ void ALTERA_PLL_SetPllReconfigReg(uint32_t reg, uint32_t val,
reg, val, useSecondWRMask));
uint32_t wrmask = ALTERA_PLL_Cntrl_WrPrmtrMask;
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
if (useSecondWRMask) {
wrmask = ALTERA_PLL_Cntrl_DBIT_PLL_WrPrmtrMask;
}
@ -252,7 +252,7 @@ void ALTERA_PLL_SetPhaseShift(int32_t phase, int clkIndex, int pos) {
LOG(logDEBUG1, ("C%d phase word:0x%08x\n", clkIndex, value));
int useSecondWR = 0;
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
if (clkIndex == ALTERA_PLL_Cntrl_DBIT_ClkIndex) {
useSecondWR = 1;
}

8
slsDetectorServers/slsDetectorServer/src/common.c
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@ -224,10 +224,10 @@ int getModuleIdInFile(int *ret, char *mess, char *fileName) {
// open id file
FILE *fd = fopen(fname, "r");
if (fd == NULL) {
#ifdef JUNGFRAUD
#if defined(JUNGFRAUD) || defined(MOENCHD)
*ret = OK;
LOG(logWARNING,
("Could not find detid_jungfrau.txt to set module id\n"));
LOG(logWARNING, ("Could not find detid file to set module id. "
"Continuing without.\n"));
return 0;
#else
*ret = FAIL;
@ -485,7 +485,7 @@ int setupDetectorServer(char *mess, char *sname) {
// blackfin boards (respawn) (only kept for backwards compatibility)
#ifndef VIRTUAL
#if defined(JUNGFRAUD) || defined(CHIPTESTBOARDD) || defined(MOENCHD) || \
#if defined(JUNGFRAUD) || defined(MOENCHD) || defined(CHIPTESTBOARDD) || \
defined(GOTTHARDD)
// delete every line with DetectorServer in /etc/inittab
strcpy(cmd, "sed -i '/DetectorServer/d' /etc/inittab");

6
slsDetectorServers/slsDetectorServer/src/loadPattern.c
View File

@ -13,7 +13,7 @@
extern enum TLogLevel trimmingPrint;
#endif
#if defined(CHIPTESTBOARDD) || defined(MOENCHD)
#ifdef CHIPTESTBOARDD
#ifdef VIRTUAL
uint64_t virtual_pattern[MAX_PATTERN_LENGTH];
#endif
@ -40,7 +40,7 @@ void initializePatternAddresses() {
}
}
#if defined(CHIPTESTBOARDD) || defined(MOENCHD)
#ifdef CHIPTESTBOARDD
#ifdef VIRTUAL
void initializePatternWord() {
memset(virtual_pattern, 0, sizeof(virtual_pattern));
@ -128,7 +128,7 @@ int validate_writePatternWord(char *message, int addr, uint64_t word) {
// validate result
int ret = OK;
// cannot validate for moench, ctb ( same as executing pattern word)
// cannot validate for ctb ( same as executing pattern word)
#ifdef MYTHEN3D
uint64_t retval = readPatternWord(addr);
LOG(logDEBUG1, ("Pattern word (addr:0x%x) retval: 0x%llx\n", addr,

4
slsDetectorServers/slsDetectorServer/src/slsDetectorServer.c
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@ -88,7 +88,7 @@ int main(int argc, char *argv[]) {
"and "
"initial detector setup. \n"
"\t-i, --ignore-config : "
"[Eiger][Jungfrau][Gotthard][Gotthard2] \n"
"[Eiger][Jungfrau][Gotthard][Gotthard2][Moench] \n"
"\t Ignore config file. \n"
"\t-m, --master <master> : "
"[Eiger][Mythen3][Gotthard][Gotthard2] \n"
@ -205,7 +205,7 @@ int main(int argc, char *argv[]) {
case 'i':
#if defined(EIGERD) || defined(GOTTHARDD) || defined(GOTTHARD2D) || \
defined(JUNGFRAUD)
defined(JUNGFRAUD) || defined(MOENCHD)
LOG(logINFO, ("Ignoring config file\n"));
ignoreConfigFileFlag = 1;
#else

450
slsDetectorServers/slsDetectorServer/src/slsDetectorServer_funcs.c
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File diff suppressed because it is too large Load Diff

426
slsDetectorSoftware/include/sls/Detector.h
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@ -78,18 +78,22 @@ class Detector {
Result<int64_t> getFirmwareVersion(Positions pos = {}) const;
/** [Eiger] Options: FRONT_LEFT, FRONT_RIGHT */
Result<int64_t>
getFrontEndFirmwareVersion(const defs::fpgaPosition fpgaPosition,
Positions pos = {}) const;
Result<std::string> getDetectorServerVersion(Positions pos = {}) const;
/** [Jungfrau][Gotthard2][Myhten3][Gotthard][Ctb][Moench] */
Result<std::string> getHardwareVersion(Positions pos = {}) const;
Result<std::string> getKernelVersion(Positions pos = {}) const;
/* [Jungfrau][Gotthard][Mythen3][Gotthard2][CTB][Moench] */
/* [Jungfrau][Moench][Gotthard][Mythen3][Gotthard2][CTB] */
Result<int64_t> getSerialNumber(Positions pos = {}) const;
/** [Eiger][Gotthard2][Mythen3][Jungfrau] 6 bit value (ideally unique) that
* is streamed out in the UDP header of the detector.*/
/** [Eiger][Gotthard2][Mythen3][Jungfrau][Moench] 6 bit value (ideally
* unique) that is streamed out in the UDP header of the detector.*/
Result<int> getModuleId(Positions pos = {}) const;
Result<std::string> getReceiverVersion(Positions pos = {}) const;
@ -122,14 +126,12 @@ class Detector {
/** list of possible settings for this detector */
std::vector<defs::detectorSettings> getSettingsList() const;
/** [Jungfrau][Gotthard][Gotthard2][Mythen3] */
/** [Jungfrau][Moench][Gotthard][Gotthard2][Mythen3] */
Result<defs::detectorSettings> getSettings(Positions pos = {}) const;
/** [Jungfrau] GAIN0, HIGHGAIN0 \n [Gotthard] DYNAMICGAIN, HIGHGAIN,
/** [Jungfrau][Moench] GAIN0, HIGHGAIN0 \n [Gotthard] DYNAMICGAIN, HIGHGAIN,
* LOWGAIN, MEDIUMGAIN, VERYHIGHGAIN \n [Gotthard2] DYNAMICGAIN,
* FIXGAIN1, FIXGAIN2 \n [Moench] G1_HIGHGAIN, G1_LOWGAIN,
* G2_HIGHCAP_HIGHGAIN, G2_HIGHCAP_LOWGAIN, G2_LOWCAP_HIGHGAIN,
* G2_LOWCAP_LOWGAIN, G4_HIGHGAIN, G4_LOWGAIN \n [Mythen3] STANDARD, FAST,
* FIXGAIN1, FIXGAIN2 \n [Mythen3] STANDARD, FAST,
* HIGHGAIN. Also changes vrshaper and vrpreamp \n [Eiger] Use threshold
* command. Settings loaded from file found in settingspath
*/
@ -179,38 +181,39 @@ class Detector {
* files exist in corresponding trim folders */
void setTrimEnergies(std::vector<int> energies, Positions pos = {});
/**[Eiger][Jungfrau] */
/**[Eiger][Jungfrau][Moench] */
bool getGapPixelsinCallback() const;
/**
* [Eiger][Jungfrau]
* [Eiger][Jungfrau][Moench]
* Include gap pixels in client data call back. Will not be in detector
* streaming, receiver file or streaming. Default is disabled.
*/
void setGapPixelsinCallback(const bool enable);
/** [Eiger][Jungfrau] */
/** [Eiger][Jungfrau][Moench] */
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
* parameter to flip rows in gui \n[Jungfrau][Moench] 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 = {});
/** [Eiger][Mythen3][Gotthard1][Gotthard2][Jungfrau] via stop server **/
/** [Eiger][Mythen3][Gotthard1][Gotthard2][Jungfrau][Moench] via stop server
* **/
Result<bool> getMaster(Positions pos = {}) const;
/** [Eiger][Gotthard2][Jungfrau] Set (half) module to master and the
/** [Eiger][Gotthard2][Jungfrau][Moench] Set (half) module to master and the
* other(s) to slaves */
void setMaster(bool value, int pos);
/** [Jungfrau] **/
/** [Jungfrau][Moench] **/
Result<bool> getSynchronization(Positions pos = {}) const;
/** [Jungfrau] */
/** [Jungfrau][Moench] */
void setSynchronization(bool value);
/** [Gotthard2][Mythen3] */
@ -285,11 +288,11 @@ class Detector {
void setNumberOfTriggers(int64_t value);
/** [Gotthard][Jungfrau][Eiger][CTB][Moench][Gotthard2] \n
/** [Gotthard][Jungfrau][Moench][Eiger][CTB][Gotthard2] \n
* [Mythen3] use function with gate index **/
Result<ns> getExptime(Positions pos = {}) const;
/** [Gotthard][Jungfrau][Eiger][CTB][Moench][Gotthard2] \n
/** [Gotthard][Jungfrau][Moench][Eiger][CTB][Gotthard2] \n
* [Mythen3] sets exptime for all gate signals. To specify gate index, use
* function with gate index **/
void setExptime(ns t, Positions pos = {});
@ -298,25 +301,25 @@ class Detector {
void setPeriod(ns t, Positions pos = {});
/** [Gotthard][Jungfrau][CTB][Moench][Mythen3][Gotthard2] */
/** [Gotthard][Jungfrau][Moench][CTB][Mythen3][Gotthard2] */
Result<ns> getDelayAfterTrigger(Positions pos = {}) const;
/** [Gotthard][Jungfrau][CTB][Moench][Mythen3][Gotthard2] */
/** [Gotthard][Jungfrau][Moench][CTB][Mythen3][Gotthard2] */
void setDelayAfterTrigger(ns value, Positions pos = {});
/** [Gotthard][Jungfrau][CTB][Moench][Mythen3]
/** [Gotthard][Jungfrau][Moench][CTB][Mythen3]
* [Gotthard2] only in continuous auto mode */
Result<int64_t> getNumberOfFramesLeft(Positions pos = {}) const;
/** [Gotthard][Jungfrau][CTB][Moench][Mythen3]
/** [Gotthard][Jungfrau][Moench][CTB][Mythen3]
* Only when external trigger used */
Result<int64_t> getNumberOfTriggersLeft(Positions pos = {}) const;
/** [Gotthard][Jungfrau][CTB][Moench][Mythen3][Gotthard2]
/** [Gotthard][Jungfrau][Moench][CTB][Mythen3][Gotthard2]
* [Gotthard2] only in continuous mode */
Result<ns> getPeriodLeft(Positions pos = {}) const;
/** [Gotthard][Jungfrau][CTB][Moench][Mythen3]
/** [Gotthard][Jungfrau][Moench][CTB][Mythen3]
* [Gotthard2] only in continuous mode */
Result<ns> getDelayAfterTriggerLeft(Positions pos = {}) const;
@ -325,7 +328,7 @@ class Detector {
/**
* [Eiger] Options: 4, 8, 12, 16, 32. If i is 32, also sets clkdivider to 2,
* else sets clkdivider to 1 \n [Mythen3] Options: 8, 16, 32 \n
* [Jungfrau][Gotthard][Ctb][Moench][Mythen3][Gotthard2] 16
* [Jungfrau][Moench][Gotthard][Ctb][Mythen3][Gotthard2] 16
*/
void setDynamicRange(int value);
@ -335,7 +338,7 @@ class Detector {
Result<defs::timingMode> getTimingMode(Positions pos = {}) const;
/**
* [Gotthard][Jungfrau][Gotthard][CTB][Moench][Gotthard2] Options:
* [Gotthard][Jungfrau][Moench][Gotthard][CTB][Gotthard2] Options:
* AUTO_TIMING, TRIGGER_EXPOSURE \n
* [Mythen3] Options: AUTO_TIMING, TRIGGER_EXPOSURE, GATED, TRIGGER_GATED \n
* [Eiger] Options: AUTO_TIMING, TRIGGER_EXPOSURE, GATED, BURST_TRIGGER
@ -345,64 +348,62 @@ class Detector {
/** list of possible timing modes for this detector */
std::vector<defs::timingMode> getTimingModeList() const;
/** [Eiger][Jungfrau][Gotthard2] */
/** [Eiger][Jungfrau][Moench][Gotthard2] */
Result<defs::speedLevel> getReadoutSpeed(Positions pos = {}) const;
/** [Eiger][Jungfrau][Gotthard2]
* [Jungfrau] Options: FULL_SPEED, HALF_SPEED (Default), QUARTER_SPEED \n
* [Eiger] Options: FULL_SPEED (Default), HALF_SPEED, QUARTER_SPEED \n
* [Gotthard2] Options: G2_108MHZ (Default), G2_144MHZ \n
* [Jungfrau] FULL_SPEED option only available from v2.0 boards and is
* recommended to set number of interfaces to 2. \n Also overwrites adcphase
* to recommended default.
/** [Eiger][Jungfrau][Moench][Gotthard2]
* [Jungfrau][Moench] Options: FULL_SPEED, HALF_SPEED (Default),
* QUARTER_SPEED \n [Eiger] Options: FULL_SPEED (Default), HALF_SPEED,
* QUARTER_SPEED \n [Gotthard2] Options: G2_108MHZ (Default), G2_144MHZ \n
* [Jungfrau][Moench] FULL_SPEED option only available from v2.0 boards and
* is recommended to set number of interfaces to 2. \n Also overwrites
* adcphase to recommended default.
*/
void setReadoutSpeed(defs::speedLevel value, Positions pos = {});
/** list of possible readoutspeed modes for this detector */
std::vector<defs::speedLevel> getReadoutSpeedList() const;
/** [Jungfrau][CTB][Moench] */
/** [Jungfrau][Moench][CTB] */
Result<int> getADCPhase(Positions pos = {}) const;
/** [Gotthard][Jungfrau][CTB][Moench]
* [Jungfrau] Absolute phase shift. Changing Speed also resets adcphase to
* recommended defaults. \n
* [Ctb][Moench] Absolute phase shift. Changing adcclk also resets adcphase
* and sets it to previous values. \n
* [Gotthard] Relative phase shift
/** [Gotthard][Jungfrau][Moench][CTB]
* [Jungfrau][Moench] Absolute phase shift. Changing Speed also resets
* adcphase to recommended defaults. \n [Ctb] Absolute phase shift. Changing
* adcclk also resets adcphase and sets it to previous values. \n [Gotthard]
* Relative phase shift
*/
void setADCPhase(int value, Positions pos = {});
/** [Jungfrau][CTB][Moench] */
/** [Jungfrau][Moench][CTB] */
Result<int> getMaxADCPhaseShift(Positions pos = {}) const;
/** [Gotthard][Jungfrau][CTB][Moench] */
/** [Gotthard][Jungfrau][Moench][CTB] */
Result<int> getADCPhaseInDegrees(Positions pos = {}) const;
/** [Gotthard][Jungfrau][CTB][Moench]
* [Jungfrau] Absolute phase shift. Changing Speed also resets adcphase to
* recommended defaults. \n
* [Ctb][Moench] Absolute phase shift. Changing adcclk also resets adcphase
* and sets it to previous values. \n
* [Gotthard] Relative phase shift
/** [Gotthard][Jungfrau][Moench][CTB]
* [Jungfrau][Moench] Absolute phase shift. Changing Speed also resets
* adcphase to recommended defaults. \n [Ctb] Absolute phase shift. Changing
* adcclk also resets adcphase and sets it to previous values. \n [Gotthard]
* Relative phase shift
*/
void setADCPhaseInDegrees(int value, Positions pos = {});
/** [CTB][Jungfrau] */
/** [CTB][Jungfrau][Moench] */
Result<int> getDBITPhase(Positions pos = {}) const;
/** [CTB][Jungfrau] Absolute phase shift \n
/** [CTB][Jungfrau][Moench] Absolute phase shift \n
* [CTB] changing dbitclk also resets dbitphase and sets to previous values.
*/
void setDBITPhase(int value, Positions pos = {});
/** [CTB][Jungfrau] */
/** [CTB][Jungfrau][Moench] */
Result<int> getMaxDBITPhaseShift(Positions pos = {}) const;
/** [CTB][Jungfrau] */
/** [CTB][Jungfrau][Moench] */
Result<int> getDBITPhaseInDegrees(Positions pos = {}) const;
/** [CTB][Jungfrau] Absolute phase shift \n
/** [CTB][Jungfrau][Moench] Absolute phase shift \n
* [CTB] changing dbitclk also resets dbitphase and sets to previous values.
*/
void setDBITPhaseInDegrees(int value, Positions pos = {});
@ -435,18 +436,18 @@ class Detector {
/**
* [Gotthard] Options: 0, 90, 110, 120, 150, 180, 200
* [Jungfrau][CTB][Moench] Options: 0, 60 - 200
* [Jungfrau][Moench][CTB] Options: 0, 60 - 200
* [Eiger][Mythen3][Gotthard2] Options: 0 - 200
*/
void setHighVoltage(int value, Positions pos = {});
/** [Jungfrau][Mythen3][Gotthard2][Moench] */
/** [Jungfrau][Moench][Mythen3][Gotthard2] */
Result<bool> getPowerChip(Positions pos = {}) const;
/** [Jungfrau][Mythen3][Gotthard2][Moench] Power the chip. \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
/** [Jungfrau][Moench][Mythen3][Gotthard2] Power the chip. \n
* Default is disabled. \n
* [Jungfrau][Moench] 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.
@ -458,8 +459,8 @@ class Detector {
/** [Gotthard] If 1, adds channel intensity with precalculated values.
* Default is 0 \n
* [Eiger][Jungfrau] Only for virtual servers, if 1, pixels are saturated.
* If 0, increasing intensity */
* [Eiger][Jungfrau][Moench] Only for virtual servers, if 1, pixels are
* saturated. If 0, increasing intensity */
void setImageTestMode(const int value, Positions pos = {});
/** gets list of temperature indices for this detector */
@ -469,7 +470,7 @@ class Detector {
* (Degrees)
* [Mythen3][Gotthard2] Options: TEMPERATURE_FPGA
* [Gotthard] Options: TEMPERATURE_ADC, TEMPERATURE_FPGA \n
* [Jungfrau] Options: TEMPERATURE_ADC, TEMPERATURE_FPGA \n
* [Jungfrau][Moench] Options: TEMPERATURE_ADC, TEMPERATURE_FPGA \n
* [Eiger] Options: TEMPERATURE_FPGA, TEMPERATURE_FPGAEXT, TEMPERATURE_10GE,
* TEMPERATURE_DCDC, TEMPERATURE_SODL, TEMPERATURE_SODR, TEMPERATURE_FPGA2,
* TEMPERATURE_FPGA3 \n [CTB] Options: SLOW_ADC_TEMP
@ -486,11 +487,11 @@ class Detector {
void setDefaultDac(defs::dacIndex index, int defaultValue,
Positions pos = {});
/** [Jungfrau][Mythen3] */
/** [Jungfrau][Moench][Mythen3] */
Result<int> getDefaultDac(defs::dacIndex index, defs::detectorSettings sett,
Positions pos = {});
/** [Jungfrau][Mythen3] */
/** [Jungfrau][Moench][Mythen3] */
void setDefaultDac(defs::dacIndex index, int defaultValue,
defs::detectorSettings sett, Positions pos = {});
@ -539,20 +540,21 @@ class Detector {
* mode.*/
void setParallelMode(bool value, Positions pos = {});
/** [Gotthard2][Jungfrau] */
/** [Gotthard2][Jungfrau][Moench] */
Result<int> getFilterResistor(Positions pos = {}) const;
/** [Gotthard2][Jungfrau] Set filter resistor. Increasing values for
/** [Gotthard2][Jungfrau][Moench] 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.*/
* 0.\n[Jungfrau][Moench] Options: [0|1]. Default is 1.*/
void setFilterResistor(int value, Positions pos = {});
/** [Gotthard2][Jungfrau] */
/** [Gotthard2][Jungfrau][Moench] */
Result<defs::currentSrcParameters>
getCurrentSource(Positions pos = {}) const;
/** [Gotthard2][Jungfrau] Please refer documentation on currentSrcParameters
* (sls_detector_defs.h) on the structure and its members */
/** [Gotthard2][Jungfrau][Moench] Please refer documentation on
* currentSrcParameters (sls_detector_defs.h) on the structure and its
* members */
void setCurrentSource(defs::currentSrcParameters par, Positions pos = {});
/** [CTB][Gotthard2] */
@ -561,14 +563,14 @@ class Detector {
/** [CTB] Options: 0-255 \n [Gotthard2] Options: 0-7 */
void setDBITPipeline(int value, Positions pos = {});
/** [Eiger][Jungfrau] */
/** [Eiger][Jungfrau][Moench] */
Result<int> getReadNRows(Positions pos = {}) const;
/** [Eiger] Number of rows to read out per half module
* Options: 0 - 256. 256 is default. The permissible values depend on
* dynamic range and 10Gbe enabled. \n[Jungfrau] Number of rows per module
* starting from the centre. Options: 8 - 512, must be multiples of 8.
* Default is 512.
* dynamic range and 10Gbe enabled. \n[Jungfrau][Moench] Number of rows per
* module starting from the centre. Options: 8 - 512, must be multiples
* of 8. Default is 512.
*/
void setReadNRows(const int lines, Positions pos = {});
@ -647,10 +649,9 @@ class Detector {
* different frame numbers for different modules.*/
void setNextFrameNumber(uint64_t value, Positions pos = {});
/** [Eiger][Mythen3][Jungfrau] Sends an internal software trigger to the
* detector block true if command blocks till frames are sent out from that
* trigger
* [Eiger][Jungfrau] Block can be true
/** [Eiger][Mythen3][Jungfrau][Moench] Sends an internal software trigger to
* the detector block true if command blocks till frames are sent out from
* that trigger [Eiger][Jungfrau][Moench] Block can be true
*/
void sendSoftwareTrigger(const bool block = false, Positions pos = {});
@ -676,23 +677,23 @@ class Detector {
* *
* ************************************************/
/** [Jungfrau][Gotthard2][Eiger] */
/** [Jungfrau][Moench][Gotthard2][Eiger] */
Result<int> getNumberofUDPInterfaces(Positions pos = {}) const;
/** [Jungfrau][Gotthard2] Number of udp interfaces to stream data from
* detector. Default is 1. \n Also enables second interface in receiver for
* listening (Writes a file per interface if writing enabled). \n Also
/** [Jungfrau][Moench][Gotthard2] Number of udp interfaces to stream data
* from detector. Default is 1. \n Also enables second interface in receiver
* for listening (Writes a file per interface if writing enabled). \n Also
* restarts client and receiver zmq sockets if zmq streaming enabled. \n
* [Gotthard2] second interface enabled to send veto information via 10Gbps
* for debugging. By default, if veto enabled, it is sent via 2.5 gbps
* interface. */
void setNumberofUDPInterfaces(int n, Positions pos = {});
/** [Jungfrau] */
/** [Jungfrau][Moench] */
Result<int> getSelectedUDPInterface(Positions pos = {}) const;
/**
* [Jungfrau]
* [Jungfrau][Moench]
* Effective only when number of interfaces is 1.
* Options: 0 (outer, default), 1(inner)] //TODO: enum?
*/
@ -706,11 +707,11 @@ class Detector {
*/
void setSourceUDPIP(const IpAddr ip, Positions pos = {});
/** [Jungfrau] bottom half [Gotthard2] veto debugging */
/** [Jungfrau][Moench] bottom half [Gotthard2] veto debugging */
Result<IpAddr> getSourceUDPIP2(Positions pos = {}) const;
/** [Jungfrau] bottom half [Gotthard2] veto debugging. \n The source UDP IP
* must be in the same subnet of the destination UDP IP2 */
/** [Jungfrau][Moench] bottom half [Gotthard2] veto debugging. \n The source
* UDP IP must be in the same subnet of the destination UDP IP2 */
void setSourceUDPIP2(const IpAddr ip, Positions pos = {});
Result<MacAddr> getSourceUDPMAC(Positions pos = {}) const;
@ -721,10 +722,10 @@ class Detector {
*/
void setSourceUDPMAC(const MacAddr mac, Positions pos = {});
/** [Jungfrau] bottom half [Gotthard2] veto debugging */
/** [Jungfrau][Moench] bottom half [Gotthard2] veto debugging */
Result<MacAddr> getSourceUDPMAC2(Positions pos = {}) const;
/** [Jungfrau] bottom half [Gotthard2] veto debugging */
/** [Jungfrau][Moench] bottom half [Gotthard2] veto debugging */
void setSourceUDPMAC2(const MacAddr mac, Positions pos = {});
Result<UdpDestination> getDestinationUDPList(const uint32_t entry,
@ -732,16 +733,16 @@ class Detector {
void setDestinationUDPList(const UdpDestination, const int module_id);
/** [Jungfrau][Eiger][Mythen3][Gotthard2] */
/** [Jungfrau][Moench][Eiger][Mythen3][Gotthard2] */
Result<int> getNumberofUDPDestinations(Positions pos = {}) const;
void clearUDPDestinations(Positions pos = {});
/** [Jungfrau][Mythen3][Gotthard2] */
/** [Jungfrau][Moench][Mythen3][Gotthard2] */
Result<int> getFirstUDPDestination(Positions pos = {}) const;
/**[Jungfrau][Gotthard2] Options 0-31 (or number of udp destinations)\n
* [Mythen3] Options 0-63 (or number of udp destinations)
/**[Jungfrau][Moench][Gotthard2] Options 0-31 (or number of udp
* destinations)\n [Mythen3] Options 0-63 (or number of udp destinations)
*/
void setFirstUDPDestination(const int value, Positions pos = {});
@ -750,10 +751,10 @@ class Detector {
/** IP of the interface in receiver that the detector sends data to */
void setDestinationUDPIP(const IpAddr ip, Positions pos = {});
/** [Jungfrau] bottom half \n [Gotthard2] veto debugging */
/** [Jungfrau][Moench] bottom half \n [Gotthard2] veto debugging */
Result<IpAddr> getDestinationUDPIP2(Positions pos = {}) const;
/** [Jungfrau] bottom half \n [Gotthard2] veto debugging */
/** [Jungfrau][Moench] bottom half \n [Gotthard2] veto debugging */
void setDestinationUDPIP2(const IpAddr ip, Positions pos = {});
Result<MacAddr> getDestinationUDPMAC(Positions pos = {}) const;
@ -765,14 +766,15 @@ class Detector {
*/
void setDestinationUDPMAC(const MacAddr mac, Positions pos = {});
/** [Jungfrau] bottom half \n [Gotthard2] veto debugging */
/** [Jungfrau][Moench] bottom half \n [Gotthard2] veto debugging */
Result<MacAddr> getDestinationUDPMAC2(Positions pos = {}) const;
/* [Jungfrau][Gotthard2] Mac address of the receiver (destination) udp
* interface 2. \n Not mandatory to set as udp_dstip2 retrieves it from
/* [Jungfrau][Moench][Gotthard2] Mac address of the receiver (destination)
* udp interface 2. \n Not mandatory to set as udp_dstip2 retrieves it from
* slsReceiver process but must be set if you use a custom receiver (not
* slsReceiver). \n [Jungfrau] bottom half \n [Gotthard2] veto debugging \n
* Use router mac address if router in between detector and receiver.
* slsReceiver). \n [Jungfrau][Moench] bottom half \n [Gotthard2] veto
* debugging \n Use router mac address if router in between detector and
* receiver.
*/
void setDestinationUDPMAC2(const MacAddr mac, Positions pos = {});
@ -782,12 +784,13 @@ class Detector {
* calculated (incremented by 1 if no 2nd interface) */
void setDestinationUDPPort(int port, int module_id = -1);
/** [Eiger] right port[Jungfrau] bottom half [Gotthard2] veto debugging */
/** [Eiger] right port[Jungfrau][Moench] bottom half [Gotthard2] veto
* debugging */
Result<int> getDestinationUDPPort2(Positions pos = {}) const;
/** [Eiger] right port[Jungfrau] bottom half [Gotthard2] veto debugging \n
* Default is 50002. \n If module_id is -1, ports for each module is
* calculated (incremented by 1 if no 2nd interface)*/
/** [Eiger] right port[Jungfrau][Moench] bottom half [Gotthard2] veto
* debugging \n Default is 50002. \n If module_id is -1, ports for each
* module is calculated (incremented by 1 if no 2nd interface)*/
void setDestinationUDPPort2(int port, int module_id = -1);
/** Reconfigures Detector with UDP destination. More for debugging as the
@ -802,27 +805,28 @@ class Detector {
Result<std::string> printRxConfiguration(Positions pos = {}) const;
/** [Eiger][CTB][Moench][Mythen3] */
/** [Eiger][CTB][Mythen3] */
Result<bool> getTenGiga(Positions pos = {}) const;
/** [Eiger][CTB][Moench][Mythen3] */
/** [Eiger][CTB][Mythen3] */
void setTenGiga(bool value, Positions pos = {});
/** [Eiger][Jungfrau] */
/** [Eiger][Jungfrau][Moench] */
Result<bool> getTenGigaFlowControl(Positions pos = {}) const;
/** [Eiger][Jungfrau] */
/** [Eiger][Jungfrau][Moench] */
void setTenGigaFlowControl(bool enable, Positions pos = {});
/** [Eiger][Jungfrau][Mythen3] */
/** [Eiger][Jungfrau][Moench][Mythen3] */
Result<int> getTransmissionDelayFrame(Positions pos = {}) const;
/**
* Eiger][Jungfrau][Mythen3] Transmission delay of first udp packet being
* streamed out of the module.\n[Jungfrau] [0-31] Each value represents 1
* ms\n[Eiger] Additional delay to txndelay_left and txndelay_right. Each
* value represents 10ns. Typical value is 50000.\n[Mythen3] [0-16777215]
* Each value represents 8 ns (125 MHz clock), max is 134 ms.
* Eiger][Jungfrau][Moench][Mythen3] Transmission delay of first udp packet
* being streamed out of the module.\n[Jungfrau][Moench] [0-31] Each value
* represents 1 ms\n[Eiger] Additional delay to txndelay_left and
* txndelay_right. Each value represents 10ns. Typical value is
* 50000.\n[Mythen3] [0-16777215] Each value represents 8 ns (125 MHz
* clock), max is 134 ms.
*/
void setTransmissionDelayFrame(int value, Positions pos = {});
@ -847,16 +851,16 @@ class Detector {
*/
void setTransmissionDelayRight(int value, Positions pos = {});
/** [Eiger][Jungfrau] */
/** [Eiger][Jungfrau][Moench] */
int getTransmissionDelay() const;
/**
* [Eiger][Jungfrau][Mythen3] Set transmission delay for all modules in the
* detector using the step size provided.Sets up \n\t\t[Eiger] txdelay_left
* to (2 * mod_index * n_delay), \n\t\t[Eiger] txdelay_right to ((2 *
* mod_index + 1) * n_delay) and \n\t\t[Eiger] txdelay_frame to (2
* *num_modules * n_delay) \n\t\t[Jungfrau][Mythen3] txdelay_frame to
* (num_modules * n_delay) \nfor every module.
* [Eiger][Jungfrau][Moench][Mythen3] Set transmission delay for all modules
* in the detector using the step size provided.Sets up \n\t\t[Eiger]
* txdelay_left to (2 * mod_index * n_delay), \n\t\t[Eiger] txdelay_right to
* ((2 * mod_index + 1) * n_delay) and \n\t\t[Eiger] txdelay_frame to (2
* *num_modules * n_delay) \n\t\t[Jungfrau][Moench][Mythen3] txdelay_frame
* to (num_modules * n_delay) \nfor every module.
*/
void setTransmissionDelay(int step);
@ -1238,22 +1242,22 @@ class Detector {
///@}
/** @name Jungfrau Specific */
/** @name Jungfrau/Moench Specific */
///@{
/**************************************************
* *
* Jungfrau Specific *
* Jungfrau/Moench Specific *
* *
* ************************************************/
/** [Jungfrau] */
/** [Jungfrau][Moench] */
Result<double> getChipVersion(Positions pos = {}) const;
/** [Jungfrau] */
/** [Jungfrau][Moench] */
Result<int> getThresholdTemperature(Positions pos = {}) const;
/**
* [Jungfrau]Set threshold temperature in degrees.
* [Jungfrau][Moench]Set threshold temperature in degrees.
* If temperature crosses threshold temperature
* and temperature control is enabled (default is disabled), power to chip
* will be switched off and temperature event will be set. \n To power on
@ -1262,23 +1266,23 @@ class Detector {
*/
void setThresholdTemperature(int temp, Positions pos = {});
/** [Jungfrau] */
/** [Jungfrau][Moench] */
Result<bool> getTemperatureControl(Positions pos = {}) const;
/** [Jungfrau] refer to setThresholdTemperature
/** [Jungfrau][Moench] refer to setThresholdTemperature
* Default is disabled */
void setTemperatureControl(bool enable, Positions pos = {});
/** [Jungfrau] refer to setThresdholdTemperature */
/** [Jungfrau][Moench] refer to setThresdholdTemperature */
Result<int> getTemperatureEvent(Positions pos = {}) const;
/** [Jungfrau] refer to setThresdholdTemperature */
/** [Jungfrau][Moench] refer to setThresdholdTemperature */
void resetTemperatureEvent(Positions pos = {});
/** [Jungfrau] */
/** [Jungfrau][Moench] */
Result<bool> getAutoComparatorDisable(Positions pos = {}) const;
/** [Jungfrau] Advanced
/** [Jungfrau][Moench] Advanced
* //TODO naming
* By default, the on-chip gain switching is active during the
* entire exposure. This mode disables the on-chip gain switching comparator
@ -1290,11 +1294,11 @@ class Detector {
*/
void setAutoComparatorDisable(bool value, Positions pos = {});
/** [Jungfrau] */
/** [Jungfrau][Moench] */
Result<ns> getComparatorDisableTime(Positions pos = {}) const;
/** [Jungfrau] Time before end of exposure when comparator is disabled. It
* is only possible for chipv1.1.*/
/** [Jungfrau][Moench] 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 */
@ -1308,37 +1312,37 @@ class Detector {
/** [Jungfrau] Advanced */
Result<int> getStorageCellStart(Positions pos = {}) const;
/** [Jungfrau] Advanced. Sets the storage cell storing the first acquisition
* of the series. Options: 0-max. max is 15 (default) for chipv1.0 and 3
* (default) for chipv1.1.
/** [Jungfrau] Advanced. Sets the storage cell storing the first
* acquisition 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 = {});
/** [Jungfrau] Advanced*/
Result<ns> getStorageCellDelay(Positions pos = {}) const;
/** [Jungfrau] Advanced \n Additional time delay between 2 consecutive
* exposures in burst mode. \n Options: (0-1638375 ns (resolution of 25ns)\n
* Only applicable for chipv1.0.
/** [Jungfrau] Advanced \n Additional time delay between 2
* consecutive exposures in burst mode. \n Options: (0-1638375 ns
* (resolution of 25ns)\n Only applicable for chipv1.0.
*/
void setStorageCellDelay(ns value, Positions pos = {});
/** list of possible gainmode */
std::vector<defs::gainMode> getGainModeList() const;
/** [Jungfrau]*/
/** [Jungfrau][Moench]*/
Result<defs::gainMode> getGainMode(Positions pos = {}) const;
/** [Jungfrau] Options: DYNAMIC, FORCE_SWITCH_G1, FORCE_SWITCH_G2,
/** [Jungfrau][Moench] 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 */
/** [Jungfrau][Moench] Advanced */
Result<int> getNumberOfFilterCells(Positions pos = {}) const;
/** [Jungfrau] Advanced Options[0-12], only for chip v1.1
/** [Jungfrau][Moench] Advanced Options[0-12], only for chip v1.1
*/
void setNumberOfFilterCells(int cell, Positions pos = {});
@ -1570,69 +1574,68 @@ class Detector {
///@}
/** @name CTB / Moench Specific */
/** @name CTB Specific */
///@{
/**************************************************
* *
* CTB / Moench Specific *
* CTB Specific *
* *
* ************************************************/
/** [CTB][Moench] */
/** [CTB] */
Result<int> getNumberOfAnalogSamples(Positions pos = {}) const;
/** [CTB][Moench] */
/** [CTB] */
void setNumberOfAnalogSamples(int value, Positions pos = {});
/** [CTB][Moench] */
/** [CTB] */
Result<int> getADCClock(Positions pos = {}) const;
/** [CTB][Moench] */
/** [CTB] */
void setADCClock(int value_in_MHz, Positions pos = {});
/** [CTB][Moench] */
/** [CTB] */
Result<int> getRUNClock(Positions pos = {}) const;
/** [CTB][Moench] */
/** [CTB] */
void setRUNClock(int value_in_MHz, Positions pos = {});
/** [CTB][Moench] in MHZ */
/** [CTB] in MHZ */
Result<int> getSYNCClock(Positions pos = {}) const;
/** [CTB][Moench] */
/** [CTB] */
Result<int> getADCPipeline(Positions pos = {}) const;
/** [CTB][Moench] */
/** [CTB] */
void setADCPipeline(int value, Positions pos = {});
/** [CTB][Moench] */
/** [CTB] */
Result<int> getVoltage(defs::dacIndex index, Positions pos = {}) const;
/**
* [CTB][Moench] mV
* [CTB] mV
* [Ctb] Options: V_LIMIT, V_POWER_A, V_POWER_B, V_POWER_C,
* V_POWER_D, V_POWER_IO, V_POWER_CHIP
* [Moench] Options: V_LIMIT
*/
void setVoltage(defs::dacIndex index, int value, Positions pos = {});
/**
* [CTB][Moench] Options: [0- 4] or [1V, 1.14V, 1.33V, 1.6V, 2V]
* [CTB] Options: [0- 4] or [1V, 1.14V, 1.33V, 1.6V, 2V]
*/
Result<int> getADCVpp(bool mV = false, Positions pos = {}) const;
/** [CTB][Moench] */
/** [CTB] */
void setADCVpp(int value, bool mV = false, Positions pos = {});
/** [CTB][Moench] */
/** [CTB] */
Result<uint32_t> getADCEnableMask(Positions pos = {}) const;
/** [CTB][Moench] */
/** [CTB] */
void setADCEnableMask(uint32_t mask, Positions pos = {});
/** [CTB][Moench] */
/** [CTB] */
Result<uint32_t> getTenGigaADCEnableMask(Positions pos = {}) const;
/** [CTB][Moench] If any of a consecutive 4 bits are enabled, the "
/** [CTB] If any of a consecutive 4 bits are enabled, the "
"complete 4 bits are enabled */
void setTenGigaADCEnableMask(uint32_t mask, Positions pos = {});
///@}
@ -1734,78 +1737,78 @@ class Detector {
* *
* ************************************************/
/** [CTB][Moench][Mythen3] Loads ASCII pattern file directly to server
/** [CTB][Mythen3] Loads ASCII pattern file directly to server
* (instead of executing line by line)*/
void setPattern(const std::string &fname, Positions pos = {});
/** [CTB][Moench][Mythen3] Loads pattern parameters structure directly to
/** [CTB][Mythen3] Loads pattern parameters structure directly to
* server */
void setPattern(const Pattern &pat, Positions pos = {});
/** [CTB][Moench][Mythen3] [Ctb][Moench][Mythen3] Saves pattern to file
* (ascii). \n [Ctb][Moench] Also executes pattern.*/
/** [CTB][Mythen3] [Ctb][Mythen3] Saves pattern to file
* (ascii). \n [Ctb] Also executes pattern.*/
void savePattern(const std::string &fname);
/** [Mythen3][Moench] Loads and runs default pattern */
/** [Mythen3] Loads and runs default pattern */
void loadDefaultPattern(Positions pos = {});
/** [CTB][Moench] */
/** [CTB] */
Result<uint64_t> getPatternIOControl(Positions pos = {}) const;
/** [CTB][Moench] */
/** [CTB] */
void setPatternIOControl(uint64_t word, Positions pos = {});
/** [CTB][Moench][Mythen3] same as executing for ctb and moench */
/** [CTB][Mythen3] same as executing for ctb */
Result<uint64_t> getPatternWord(int addr, Positions pos = {});
/** [CTB][Moench] Caution: If word is -1 reads the addr (same as
/** [CTB] Caution: If word is -1 reads the addr (same as
* executing the pattern)
* [Mythen3] */
void setPatternWord(int addr, uint64_t word, Positions pos = {});
/**[CTB][Moench][Mythen3] Options: level: -1 (complete pattern) and 0-2
/**[CTB][Mythen3] Options: level: -1 (complete pattern) and 0-2
* levels
* @returns array of start address and stop address
*/
Result<std::array<int, 2>>
getPatternLoopAddresses(int level, Positions pos = {}) const;
/** [CTB][Moench][Mythen3] Options: level: -1 (complete pattern) and 0-2
/** [CTB][Mythen3] Options: level: -1 (complete pattern) and 0-2
* levels */
void setPatternLoopAddresses(int level, int start, int stop,
Positions pos = {});
/**[CTB][Moench][Mythen3] Options: level: -1 (complete pattern) and 0-2
/**[CTB][Mythen3] Options: level: -1 (complete pattern) and 0-2
* levels */
Result<int> getPatternLoopCycles(int level, Positions pos = {}) const;
/** [CTB][Moench][Mythen3] n: 0-2, level: -1 (complete pattern) and 0-2
/** [CTB][Mythen3] n: 0-2, level: -1 (complete pattern) and 0-2
* levels */
void setPatternLoopCycles(int level, int n, Positions pos = {});
/**[CTB][Moench][Mythen3] */
/**[CTB][Mythen3] */
Result<int> getPatternWaitAddr(int level, Positions pos = {}) const;
/** [CTB][Moench][Mythen3] Options: level 0-2 */
/** [CTB][Mythen3] Options: level 0-2 */
void setPatternWaitAddr(int level, int addr, Positions pos = {});
/** [CTB][Moench][Mythen3] */
/** [CTB][Mythen3] */
Result<uint64_t> getPatternWaitTime(int level, Positions pos = {}) const;
/** [CTB][Moench][Mythen3] Options: level 0-2 */
/** [CTB][Mythen3] Options: level 0-2 */
void setPatternWaitTime(int level, uint64_t t, Positions pos = {});
/** [CTB][Moench][Mythen3] */
/** [CTB][Mythen3] */
Result<uint64_t> getPatternMask(Positions pos = {});
/** [CTB][Moench][Mythen3] Selects the bits that will have a pattern mask
/** [CTB][Mythen3] Selects the bits that will have a pattern mask
* applied to the selected patmask for every pattern. */
void setPatternMask(uint64_t mask, Positions pos = {});
/** [CTB][Moench][Mythen3] */
/** [CTB][Mythen3] */
Result<uint64_t> getPatternBitMask(Positions pos = {}) const;
/** [CTB][Moench][Mythen3] Sets the mask applied to every pattern to the
/** [CTB][Mythen3] Sets the mask applied to every pattern to the
* selected bits */
void setPatternBitMask(uint64_t mask, Positions pos = {});
@ -1813,19 +1816,18 @@ class Detector {
void startPattern(Positions pos = {});
///@}
/** @name Moench specific */
/** @name Json Header specific */
///@{
/**************************************************
* *
* Moench specific *
* Json Header specific *
* *
* ************************************************/
/** [Moench] */
Result<std::map<std::string, std::string>>
getAdditionalJsonHeader(Positions pos = {}) const;
/** [Moench] If empty, reset additional json header. Default is empty. Max
/** If empty, reset additional json header. Default is empty. Max
* 20 characters for each key/value. Empty value deletes header. Use only if
* to be processed by an intermediate user process listening to receiver zmq
* packets such as in Moench */
@ -1833,11 +1835,9 @@ class Detector {
const std::map<std::string, std::string> &jsonHeader,
Positions pos = {});
/** [Moench] */
Result<std::string> getAdditionalJsonParameter(const std::string &key,
Positions pos = {}) const;
/**
* [Moench]
* Sets the value for additional json header parameters. If not found,
* the pair is appended. Empty value deletes parameter. Max 20 characters
* for each key/value.
@ -1855,41 +1855,41 @@ class Detector {
* *
* ************************************************/
/** [Jungfrau][Gotthard][CTB][Moench][Mythen3][Gotthard2]
/** [Jungfrau][Moench][Gotthard][CTB][Mythen3][Gotthard2]
* Advanced user Function!
* Program firmware from command line, after which detector controller is
* rebooted. forceDeleteNormalFile is true, if normal file found
* in device tree, it must be deleted, a new device drive created and
* programming continued.[Jungfrau][CTB][Moench] fname is a pof file (full
* programming continued.[Jungfrau][Moench][CTB] fname is a pof file (full
* path) \n [Mythen3][Gotthard2] fname is an rbf file (full path)
*/
void programFPGA(const std::string &fname, const bool forceDeleteNormalFile,
Positions pos = {});
/** [Jungfrau][CTB][Moench] Advanced user Function! */
/** [Jungfrau][Moench][CTB] Advanced user Function! */
void resetFPGA(Positions pos = {});
/** [Jungfrau][Eiger][Ctb][Moench][Mythen3][Gotthard2] Copies detector
/** [Jungfrau][Moench][Eiger][Ctb][Mythen3][Gotthard2] Copies detector
* server via TCP (without tftp).\nMakes a symbolic link with a shorter
* name (without vx.x.x).\nThen, detector controller reboots (except
* Eiger).\n[Jungfrau][Ctb][Moench] Also deletes old server binary and
* Eiger).\n[Jungfrau][Moench][Ctb] Also deletes old server binary and
* changes respawn server to the link, which is effective after a reboot.
*/
void updateDetectorServer(const std::string &fname, Positions pos = {});
/** [Jungfrau][Ctb][Moench][Mythen3][Gotthard2] \n
/** [Jungfrau][Moench][Ctb][Mythen3][Gotthard2] \n
* Advanced Command!! You could damage the detector. Please use with
* caution.\nUpdates the kernel image. Then, detector controller reboots
* with new kernel
*/
void updateKernel(const std::string &fname, Positions pos = {});
/** [Jungfrau][Gotthard][CTB][Moench][Mythen3][Gotthard2] Advanced user
/** [Jungfrau][Moench][Gotthard][CTB][Mythen3][Gotthard2] Advanced user
* Function! */
void rebootController(Positions pos = {});
/**
* Advanced user Function!\n [Jungfrau][Gotthard][CTB][Moench] Updates the
* Advanced user Function!\n [Jungfrau][Moench][Gotthard][CTB] Updates the
* firmware, detector server, make a soft link and then reboots detector
* controller. \n [Mythen3][Gotthard2] Will require a script to start up the
* shorter named server link at start up \n sname is full path name of
@ -1926,16 +1926,16 @@ class Detector {
/** Advanced user Function! */
Result<int> getBit(uint32_t addr, int bitnr, Positions pos = {});
/** [Gotthard][Jungfrau][Mythen3][Gotthard2][CTB][Moench] Advanced user
/** [Gotthard][Jungfrau][Moench][Mythen3][Gotthard2][CTB] Advanced user
* Function! */
void executeFirmwareTest(Positions pos = {});
/** [Gotthard][Jungfrau][Mythen3][Gotthard2][CTB][Moench] Advanced user
/** [Gotthard][Jungfrau][Moench][Mythen3][Gotthard2][CTB] Advanced user
* Function! Writes different values in a R/W register and confirms the
* writes to check bus */
void executeBusTest(Positions pos = {});
/** [Gotthard][Jungfrau][CTB][Moench] Advanced user Function! not possible
/** [Gotthard][Jungfrau][Moench][CTB] Advanced user Function! not possible
* to read back */
void writeAdcRegister(uint32_t addr, uint32_t value, Positions pos = {});
@ -1948,11 +1948,11 @@ class Detector {
* incompatible. \n Advanced user Function! */
void setInitialChecks(const bool value);
/** [CTB][Moench][Jungfrau] Advanced user Function! */
/** [CTB][Jungfrau][Moench] Advanced user Function! */
Result<uint32_t> getADCInvert(Positions pos = {}) const;
/** [CTB][Moench][Jungfrau] Advanced user Function! \n
[Jungfrau] Inversions on top of default mask */
/** [CTB][Jungfrau][Moench] Advanced user Function! \n
[Jungfrau][Moench] Inversions on top of default mask */
void setADCInvert(uint32_t value, Positions pos = {});
///@}
@ -1989,15 +1989,15 @@ class Detector {
Result<std::string> executeCommand(const std::string &value,
Positions pos = {});
/** [Jungfrau][Mythen3][CTB][Moench]
/** [Jungfrau][Moench][Mythen3][CTB]
* [Gotthard2] only in continuous mode */
Result<int64_t> getNumberOfFramesFromStart(Positions pos = {}) const;
/** [Jungfrau][Mythen3][CTB][Moench] Get time from detector start
/** [Jungfrau][Moench][Mythen3][CTB] Get time from detector start
* [Gotthard2] not in burst and auto mode */
Result<ns> getActualTime(Positions pos = {}) const;
/** [Jungfrau][Mythen3][CTB][Moench] Get timestamp at a frame start
/** [Jungfrau][Moench][Mythen3][CTB] Get timestamp at a frame start
* [Gotthard2] not in burst and auto mode */
Result<ns> getMeasurementTime(Positions pos = {}) const;

120
slsDetectorSoftware/src/CmdProxy.cpp
View File

@ -280,19 +280,29 @@ std::string CmdProxy::Versions(int action) {
os << "\nType : " << OutString(det->getDetectorType())
<< "\nRelease : " << det->getPackageVersion() << std::hex
<< "\nClient : " << det->getClientVersion();
os << "\nFirmware : ";
if (eiger) {
os << OutString(t);
os << "\nFirmware (Beb) : "
<< OutString(det->getFirmwareVersion(std::vector<int>{det_id}));
os << "\nFirmware (Febl) : "
<< OutString(det->getFrontEndFirmwareVersion(
defs::FRONT_LEFT, std::vector<int>{det_id}));
os << "\nFirmware (Febr) : "
<< OutString(det->getFrontEndFirmwareVersion(
defs::FRONT_RIGHT, std::vector<int>{det_id}));
} else {
os << OutStringHex(t);
os << "\nFirmware : "
<< OutStringHex(
det->getFirmwareVersion(std::vector<int>{det_id}));
}
os << "\nServer : "
<< OutString(det->getDetectorServerVersion(std::vector<int>{det_id}))
<< "\nKernel : "
<< OutString(det->getKernelVersion({std::vector<int>{det_id}}));
if (!eiger)
os << "\nHardware : "
<< OutString(det->getKernelVersion({std::vector<int>{det_id}}))
<< "\nHardware : "
<< OutString(det->getHardwareVersion(std::vector<int>{det_id}));
if (det->getUseReceiverFlag().squash(true)) {
os << "\nReceiver : "
<< OutString(det->getReceiverVersion(std::vector<int>{det_id}));
@ -516,7 +526,8 @@ std::string CmdProxy::GapPixels(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[0, 1]\n\t[Eiger][Jungfrau] Include Gap pixels in client data "
os << "[0, 1]\n\t[Eiger][Jungfrau][Moench] Include Gap pixels in "
"client data "
"call back in Detecor api. Will not be in detector streaming, "
"receiver file or streaming. Default is 0. "
<< '\n';
@ -606,8 +617,8 @@ std::string CmdProxy::Exptime(int action) {
if (action == defs::HELP_ACTION) {
if (cmd == "exptime") {
os << "[duration] [(optional unit) "
"ns|us|ms|s]\n\t[Eiger][Jungfrau][Gotthard][Gotthard2]["
"Moench][Ctb] Exposure time"
"ns|us|ms|s]\n\t[Eiger][Jungfrau][Moench][Gotthard]["
"Gotthard2][Ctb] Exposure time"
"\n\t[Mythen3] Exposure time of all gate signals in auto and "
"trigger mode (internal gating). To specify gate index, use "
"exptime1, exptime2, exptime3."
@ -691,9 +702,10 @@ std::string CmdProxy::ReadoutSpeed(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "\n\t[0 or full_speed|1 or half_speed|2 or "
"quarter_speed]\n\t\t[Eiger][Jungfrau] Readout "
"quarter_speed]\n\t\t[Eiger][Jungfrau][Moench] Readout "
"speed of chip.\n\t\t[Eiger] Default speed is full_speed."
"\n\t\t[Jungfrau] Default speed is half_speed. full_speed "
"\n\t\t[Jungfrau][Moench] Default speed is half_speed. "
"full_speed "
"option only available from v2.0 boards and is recommended to "
"set "
"number of interfaces to 2. Also overwrites "
@ -702,7 +714,7 @@ std::string CmdProxy::ReadoutSpeed(int action) {
<< '\n';
} else {
defs::detectorType type = det->getDetectorType().squash();
if (type == defs::CHIPTESTBOARD || type == defs::MOENCH) {
if (type == defs::CHIPTESTBOARD) {
throw RuntimeError(
"ReadoutSpeed not implemented. Did you mean runclk?");
}
@ -731,10 +743,11 @@ std::string CmdProxy::Adcphase(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[n_value] "
"[(optional)deg]\n\t[Jungfrau][Ctb][Moench][Gotthard] "
"Phase shift of ADC clock. \n\t[Jungfrau] Absolute phase shift. "
"[(optional)deg]\n\t[Jungfrau][Moench][Ctb][Gotthard] "
"Phase shift of ADC clock. \n\t[Jungfrau][Moench] Absolute phase "
"shift. "
"If deg used, then shift in degrees. Changing Speed also resets "
"adcphase to recommended defaults.\n\t[Ctb][Moench] Absolute "
"adcphase to recommended defaults.\n\t[Ctb] Absolute "
"phase shift. If deg used, then shift in degrees. Changing "
"adcclk also resets adcphase and sets it to previous "
"values.\n\t[Gotthard] Relative phase shift. Cannot get"
@ -787,7 +800,8 @@ std::string CmdProxy::Dbitphase(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[n_value] [(optional)deg]\n\t[Ctb][Jungfrau] Phase shift of "
os << "[n_value] [(optional)deg]\n\t[Ctb][Jungfrau][Moench] Phase "
"shift of "
"clock to latch digital bits. Absolute phase shift. If deg used, "
"then shift in degrees. \n\t[Ctb]Changing dbitclk also resets "
"dbitphase and sets to previous values."
@ -1024,7 +1038,8 @@ std::string CmdProxy::CurrentSource(int action) {
os << "\n\t[0|1]\n\t\t[Gotthard2] Enable or disable current source. "
"Default "
"is disabled.\n\t[0|1] [fix|nofix] [select source] [(only for "
"chipv1.1)normal|low]\n\t\t[Jungfrau] Disable or enable current "
"chipv1.1)normal|low]\n\t\t[Jungfrau][Moench] 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'."
@ -1273,7 +1288,7 @@ std::string CmdProxy::ResetDacs(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[(optional) hard] "
"\n\t[Eiger][Jungfrau][Gotthard][Moench][Gotthard2]["
"\n\t[Eiger][Jungfrau][Moench][Gotthard][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."
@ -1304,7 +1319,8 @@ std::string CmdProxy::DefaultDac(int action) {
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 "
"that dac to this value.\n\t[Jungfrau][Moench][Mythen3] When "
"settings is "
"provided, it sets the default value only for that setting"
<< '\n';
} else if (action == defs::GET_ACTION) {
@ -1447,10 +1463,12 @@ std::string CmdProxy::Trigger(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
if (cmd == "trigger") {
os << "\n\t[Eiger][Mythen3][Jungfrau] Sends software trigger "
os << "\n\t[Eiger][Mythen3][Jungfrau][Moench] Sends software "
"trigger "
"signal to detector";
} else if (cmd == "blockingtrigger") {
os << "\n\t[Eiger][Jungfrau] Sends software trigger signal to "
os << "\n\t[Eiger][Jungfrau][Moench] Sends software trigger signal "
"to "
"detector and blocks till the frames are sent out for that "
"trigger.";
} else {
@ -1554,7 +1572,8 @@ std::string CmdProxy::UDPDestinationList(int action) {
"[(optional)mac2=xx:xx:xx:xx:xx:xx]\n\t[port=value] "
"[(optional)port2=value\n\tThe order of ip, mac and port does "
"not matter. entry_value can be >0 only for "
"[Eiger][Jungfrau][Mythen3][Gotthard2] where round robin is "
"[Eiger][Jungfrau][Moench][Mythen3][Gotthard2] where round robin "
"is "
"implemented. If 'auto' used, then ip is set to ip of "
"rx_hostname."
<< '\n';
@ -1634,9 +1653,10 @@ std::string CmdProxy::UDPSourceIP2(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[x.x.x.x] or auto\n\t[Jungfrau][Gotthard2] Ip address of the "
os << "[x.x.x.x] or auto\n\t[Jungfrau][Moench][Gotthard2] Ip address "
"of the "
"detector (source) udp interface 2. Must be same subnet as "
"destination udp ip2.\n\t [Jungfrau] top half or inner "
"destination udp ip2.\n\t [Jungfrau][Moench] top half or inner "
"interface\n\t [Gotthard2] veto debugging. \n\tOne can also set "
"this to 'auto' for 1 GbE data and virtual detectors. It will "
"set to IP of detector."
@ -1707,9 +1727,10 @@ std::string CmdProxy::UDPDestinationIP2(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[x.x.x.x] or auto\n\t[Jungfrau][Gotthard2] Ip address of the "
os << "[x.x.x.x] or auto\n\t[Jungfrau][Moench][Gotthard2] Ip address "
"of the "
"receiver (destination) udp interface 2. If 'auto' used, then ip "
"is set to ip of rx_hostname.\n\t[Jungfrau] bottom half "
"is set to ip of rx_hostname.\n\t[Jungfrau][Moench] bottom half "
"\n\t[Gotthard2] veto debugging. "
<< '\n';
} else if (action == defs::GET_ACTION) {
@ -1743,12 +1764,13 @@ std::string CmdProxy::TransmissionDelay(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[n_delay]\n\t[Eiger][Jungfrau][Mythen3] Set transmission delay "
os << "[n_delay]\n\t[Eiger][Jungfrau][Moench][Mythen3] Set "
"transmission delay "
"for all modules in the detector using the step size "
"provided.Sets up \n\t\t[Eiger] txdelay_left to (2 * mod_index * "
"n_delay), \n\t\t[Eiger] txdelay_right to ((2 * mod_index + 1) * "
"n_delay) and \n\t\t[Eiger] txdelay_frame to (2 *num_modules * "
"n_delay) \n\t\t[Jungfrau][Mythen3] txdelay_frame to "
"n_delay) \n\t\t[Jungfrau][Moench][Mythen3] txdelay_frame to "
"(num_modules * n_delay) \nfor every module."
<< '\n';
} else if (action == defs::GET_ACTION) {
@ -2090,7 +2112,8 @@ std::string CmdProxy::TemperatureEvent(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[0]\n\t[Jungfrau] 1, if a temperature event occured. To clear "
os << "[0]\n\t[Jungfrau][Moench] 1, if a temperature event occured. To "
"clear "
"this event, set it to 0.\n\tIf temperature crosses threshold "
"temperature and temperature control is enabled, power to chip "
"will be switched off and temperature event occurs. To power on "
@ -2584,14 +2607,14 @@ std::string CmdProxy::GainCaps(int action) {
return os.str();
}
/* CTB / Moench Specific */
/* CTB Specific */
std::string CmdProxy::Samples(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[n_samples]\n\t[CTB] Number of samples (both analog and "
"digitial) expected.\n\t[Moench] Number of samples (analog only)"
"digitial) expected.\n"
<< '\n';
} else if (action == defs::GET_ACTION) {
if (!args.empty()) {
@ -2633,7 +2656,7 @@ std::string CmdProxy::AdcVpp(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[dac or mV value][(optional unit) mV] \n\t[Ctb][Moench] Vpp of "
os << "[dac or mV value][(optional unit) mV] \n\t[Ctb] Vpp of "
"ADC.\n\t 0 -> 1V ; 1 -> 1.14V ; 2 -> 1.33V ; 3 -> 1.6V ; 4 -> "
"2V. \n\tAdvanced User function!\n"
<< '\n';
@ -2775,7 +2798,7 @@ std::string CmdProxy::Pattern(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[fname]\n\t[Mythen3][Moench][Ctb] Loads ASCII pattern file "
os << "[fname]\n\t[Mythen3][Ctb] Loads ASCII pattern file "
"directly to server (instead of executing line by line)"
<< '\n';
} else if (action == defs::GET_ACTION) {
@ -2796,8 +2819,8 @@ std::string CmdProxy::PatternWord(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[step or address] [64 bit mask]\n\t[Ctb][Moench][Mythen3] 64 "
"bit pattern at address of pattern memory.\n\t[Ctb][Moench] read "
os << "[step or address] [64 bit mask]\n\t[Ctb][Mythen3] 64 "
"bit pattern at address of pattern memory.\n\t[Ctb] read "
"is same as executing pattern"
<< '\n';
} else if (action == defs::GET_ACTION) {
@ -2856,11 +2879,11 @@ std::string CmdProxy::PatternLoopAddresses(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
if (cmd == "patlimits") {
os << "[start addr] [stop addr] \n\t[Ctb][Moench][Mythen3] Limits "
os << "[start addr] [stop addr] \n\t[Ctb][Mythen3] Limits "
"of complete pattern."
<< '\n';
} else if (cmd == "patloop") {
os << "[0-6] [start addr] [stop addr] \n\t[Ctb][Moench][Mythen3] "
os << "[0-6] [start addr] [stop addr] \n\t[Ctb][Mythen3] "
"Limits of the loop level provided."
<< "\n\t[Mythen3] Level options: 0-3 only." << '\n';
} else {
@ -2901,7 +2924,7 @@ std::string CmdProxy::PatternLoopCycles(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
if (cmd == "patnloop") {
os << "[0-6] [n_cycles] \n\t[Ctb][Moench][Mythen3] Number of "
os << "[0-6] [n_cycles] \n\t[Ctb][Mythen3] Number of "
"cycles of "
"the loop level provided."
<< "\n\t[Mythen3] Level options: 0-3 only." << '\n';
@ -2937,7 +2960,7 @@ std::string CmdProxy::PatternWaitAddress(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
if (cmd == "patwait") {
os << "[0-6] [addr] \n\t[Ctb][Moench][Mythen3] Wait address for "
os << "[0-6] [addr] \n\t[Ctb][Mythen3] Wait address for "
"loop level provided."
<< "\n\t[Mythen3] Level options: 0-3 only.";
} else {
@ -2973,7 +2996,7 @@ std::string CmdProxy::PatternWaitTime(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
if (cmd == "patwaittime") {
os << "[0-6] [n_clk] \n\t[Ctb][Moench][Mythen3] Wait time in clock "
os << "[0-6] [n_clk] \n\t[Ctb][Mythen3] Wait time in clock "
"cycles for the loop provided."
<< "\n\t[Mythen3] Level options: 0-3 only." << '\n';
} else {
@ -3000,8 +3023,6 @@ std::string CmdProxy::PatternWaitTime(int action) {
return os.str();
}
/* Moench */
std::string CmdProxy::AdditionalJsonHeader(int action) {
std::ostringstream os;
os << cmd << ' ';
@ -3084,8 +3105,9 @@ std::string CmdProxy::ProgramFpga(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[fname.pof | fname.rbf (full "
"path)][(opitonal)--force-delete-normal-file]\n\t[Jungfrau][Ctb]["
"Moench] Programs FPGA from pof file (full path). Then, detector "
"path)][(opitonal)--force-delete-normal-file]\n\t[Jungfrau]["
"Moench][Ctb] "
"Programs FPGA from pof file (full path). Then, detector "
"controller is rebooted. \n\t\tUse --force-delete-normal-file "
"argument, if normal file found in device tree, it must be "
"deleted, a new device drive created and programming "
@ -3119,11 +3141,11 @@ std::string CmdProxy::UpdateDetectorServer(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[server_name with full "
"path]\n\t[Jungfrau][Eiger][Ctb][Moench][Mythen3][Gotthard2] "
"path]\n\t[Jungfrau][Moench][Eiger][Ctb][Mythen3][Gotthard2] "
"Copies detector server via TCP (without tftp). Makes a symbolic "
"link with a shorter name (without vx.x.x). Then, detector "
"controller reboots (except "
"Eiger).\n\t[Jungfrau][Ctb][Moench]Also changes respawn server "
"Eiger).\n\t[Jungfrau][Moench][Ctb]Also changes respawn server "
"to the link, which is effective after a reboot."
<< '\n';
} else if (action == defs::GET_ACTION) {
@ -3145,7 +3167,7 @@ std::string CmdProxy::UpdateKernel(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[kernel_name with full "
"path]\n\t[Jungfrau][Ctb][Moench][Mythen3][Gotthard2] Advanced "
"path]\n\t[Jungfrau][Moench][Ctb][Mythen3][Gotthard2] Advanced "
"Command!! You could damage the detector. Please use with "
"caution.\n\tUpdates the kernel image. Then, detector controller "
"reboots with new kernel."
@ -3170,7 +3192,7 @@ std::string CmdProxy::UpdateFirmwareAndDetectorServer(int action) {
if (action == defs::HELP_ACTION) {
os << "\n\tWithout tftp: [server_name (incl fullpath)] [fname.pof "
"(incl full path)] This does not use "
"tftp.\n\t\t[Jungfrau][Gotthard][CTB][Moench] Updates the "
"tftp.\n\t\t[Jungfrau][Moench][Gotthard][CTB] Updates the "
"firmware, detector server, deletes old server, creates the "
"symbolic link and then reboots detector controller. "
"\n\t\t[Mythen3][Gotthard2] will require a script to start up "
@ -3232,7 +3254,7 @@ std::string CmdProxy::AdcRegister(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[address] [value]\n\t[Jungfrau][Ctb][Moench][Gotthard] Writes "
os << "[address] [value]\n\t[Jungfrau][Moench][Ctb][Gotthard] Writes "
"to an adc register in hex. Advanced user Function!"
<< '\n';
} else if (action == defs::GET_ACTION) {

216
slsDetectorSoftware/src/CmdProxy.h
View File

@ -1244,7 +1244,8 @@ class CmdProxy {
GET_COMMAND(hardwareversion, getHardwareVersion,
"\n\t[Jungfrau][Gotthard2][Myhten3][Gotthard][Ctb][Moench] "
"Hardware version of detector.");
"Hardware version of detector. \n\t[Eiger] Hardware version of "
"front FPGA on detector.");
GET_COMMAND(
kernelversion, getKernelVersion,
@ -1253,11 +1254,12 @@ class CmdProxy {
GET_COMMAND(rx_version, getReceiverVersion, "\n\tReceiver version");
GET_COMMAND_HEX(serialnumber, getSerialNumber,
"\n\t[Jungfrau][Gotthard][Mythen3][Gotthard2][CTB][Moench]"
"\n\t[Jungfrau][Moench][Gotthard][Mythen3][Gotthard2][CTB]"
"Serial number of detector.");
GET_COMMAND(moduleid, getModuleId,
"\n\t[Gotthard2][Eiger][Mythen3][Jungfrau] 16 bit value "
GET_COMMAND(
moduleid, getModuleId,
"\n\t[Gotthard2][Eiger][Mythen3][Jungfrau][Moench] 16 bit value "
"(ideally unique) that is streamed out in the UDP header of "
"the detector. Picked up from a file on the module.");
@ -1279,12 +1281,10 @@ class CmdProxy {
"verylowgain, g1_hg, g1_lg, g2_hc_hg, g2_hc_lg, "
"g2_lc_hg, g2_lc_lg, g4_hg, g4_lg, gain0]"
"\n\t Detector Settings"
"\n\t[Jungfrau] - [ gain0 | highgain0]"
"\n\t[Jungfrau][Moench] - [ gain0 | highgain0]"
"\n\t[Gotthard] - [dynamicgain | highgain | lowgain | "
"mediumgain | veryhighgain]"
"\n\t[Gotthard2] - [dynamicgain | fixgain1 | fixgain2]"
"\n\t[Moench] - [g1_hg | g1_lg | g2_hc_hg | g2_hc_lg | "
"g2_lc_hg | g2_lc_lg | g4_hg | g4_lg]"
"\n\t[Mythen3] - [standard | fast | highgain] Also changes vrshaper "
"and vrpreamp. \n\t[Eiger] Use threshold or thresholdnotb. \n\t[Eiger] "
"threshold and settings loaded from file found in settingspath. "
@ -1302,21 +1302,23 @@ class CmdProxy {
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 "
"to stream as json parameter to flip rows in gui "
"\n\t[Jungfrau][Moench] flips "
"rows in the detector itself. For bottom module and number of "
"interfaces must be set to 2. slsReceiver and slsDetectorGui "
"does not handle.");
INTEGER_COMMAND_VEC_ID_GET(
master, getMaster, setMaster, StringTo<int>,
"[0, 1]\n\t[Eiger][Gotthard2][Jungfrau] Sets (half) module to master "
INTEGER_COMMAND_VEC_ID_GET(master, getMaster, setMaster, StringTo<int>,
"[0, 1]\n\t[Eiger][Gotthard2][Jungfrau][Moench] "
"Sets (half) module to master "
"and other(s) to "
"slaves.\n\t[Gotthard][Gotthard2][Mythen3][Eiger][Jungfrau] Gets if "
"slaves.\n\t[Gotthard][Gotthard2][Mythen3]["
"Eiger][Jungfrau][Moench] Gets if "
"the current (half) module is master.");
INTEGER_COMMAND_SET_NOID_GET_ID(sync, getSynchronization,
setSynchronization, StringTo<int>,
"[0, 1]\n\t[Jungfrau] Enables or disables "
INTEGER_COMMAND_SET_NOID_GET_ID(
sync, getSynchronization, setSynchronization, StringTo<int>,
"[0, 1]\n\t[Jungfrau][Moench] Enables or disables "
"synchronization between modules.");
/* acquisition parameters */
@ -1337,28 +1339,29 @@ class CmdProxy {
period, getPeriod, setPeriod,
"[duration] [(optional unit) ns|us|ms|s]\n\tPeriod between frames");
TIME_COMMAND(delay, getDelayAfterTrigger, setDelayAfterTrigger,
TIME_COMMAND(
delay, getDelayAfterTrigger, setDelayAfterTrigger,
"[duration] [(optional unit) "
"ns|us|ms|s]\n\t[Jungfrau][Gotthard][Mythen3][Gotthard2][Ctb]["
"ns|us|ms|s]\n\t[Jungfrau][Moench][Gotthard][Mythen3][Gotthard2][Ctb]["
"Moench] Delay after trigger");
GET_COMMAND(framesl, getNumberOfFramesLeft,
"\n\t[Gotthard][Jungfrau][Mythen3][Gotthard2][CTB][Moench] "
"\n\t[Gotthard][Jungfrau][Moench][Mythen3][Gotthard2][CTB] "
"Number of frames left in acquisition."
"\n\t[Gotthard2] only in continuous auto mode.");
GET_COMMAND(triggersl, getNumberOfTriggersLeft,
"\n\t[Gotthard][Jungfrau][Mythen3][Gotthard2][CTB][Moench] "
"\n\t[Gotthard][Jungfrau][Moench][Mythen3][Gotthard2][CTB] "
"Number of triggers left in acquisition. Only when external "
"trigger used.");
TIME_GET_COMMAND(delayl, getDelayAfterTriggerLeft,
"\n\t[Gotthard][Jungfrau][Mythen3][Gotthard2][CTB][Moench]"
"\n\t[Gotthard][Jungfrau][Moench][Mythen3][Gotthard2][CTB]"
" DelayLeft Delay Left in Acquisition."
"\n\t[Gotthard2] only in continuous mode.");
TIME_GET_COMMAND(periodl, getPeriodLeft,
"\n\t[Gotthard][Jungfrau][CTB][Moench][Mythen3][Gotthard2]"
"\n\t[Gotthard][Jungfrau][Moench][CTB][Mythen3][Gotthard2]"
" Period left for current frame."
"\n\t[Gotthard2] only in continuous mode.");
@ -1369,7 +1372,7 @@ class CmdProxy {
"[Eiger] Options: 4, 8, 12, 16, 32. If set to 32, also sets "
"clkdivider to 2, else to 0.\n\t"
"[Mythen3] Options: 8, 16, 32\n\t"
"[Jungfrau][Gotthard][Ctb][Moench][Mythen3][Gotthard2] 16");
"[Jungfrau][Moench][Gotthard][Ctb][Mythen3][Gotthard2] 16");
GET_COMMAND_NOID(drlist, getDynamicRangeList,
"\n\tGets the list of dynamic ranges for this detector.");
@ -1378,7 +1381,7 @@ class CmdProxy {
timing, getTimingMode, setTimingMode,
StringTo<slsDetectorDefs::timingMode>,
"[auto|trigger|gating|burst_trigger]\n\tTiming Mode of "
"detector.\n\t[Jungfrau][Gotthard][Ctb][Moench][Gotthard2] "
"detector.\n\t[Jungfrau][Moench][Gotthard][Ctb][Gotthard2] "
"[auto|trigger]\n\t[Mythen3] "
"[auto|trigger|gating|trigger_gating]\n\t[Eiger] "
"[auto|trigger|gating|burst_trigger]");
@ -1391,11 +1394,12 @@ class CmdProxy {
"\n\tList of readout speed levels implemented for this detector.");
GET_COMMAND(maxadcphaseshift, getMaxADCPhaseShift,
"\n\t[Jungfrau][CTB][Moench] Absolute maximum Phase shift of "
"\n\t[Jungfrau][Moench][CTB] Absolute maximum Phase shift of "
"ADC clock.");
GET_COMMAND(maxdbitphaseshift, getMaxDBITPhaseShift,
"\n\t[CTB][Jungfrau] Absolute maximum Phase shift of of the "
GET_COMMAND(
maxdbitphaseshift, getMaxDBITPhaseShift,
"\n\t[CTB][Jungfrau][Moench] Absolute maximum Phase shift of of the "
"clock to latch digital bits.");
INTEGER_COMMAND_VEC_ID(highvoltage, getHighVoltage, setHighVoltage,
@ -1403,12 +1407,12 @@ class CmdProxy {
"[n_value]\n\tHigh voltage to the sensor in Voltage."
"\n\t[Gotthard] [0|90|110|120|150|180|200]"
"\n\t[Eiger][Mythen3][Gotthard2] 0-200"
"\n\t[Jungfrau][Ctb][Moench] [0|60-200]");
"\n\t[Jungfrau][Moench][Ctb] [0|60-200]");
INTEGER_COMMAND_VEC_ID(
powerchip, getPowerChip, setPowerChip, StringTo<int>,
"[0, 1]\n\t[Jungfrau][Mythen3][Gotthard2][Moench] Power "
"the chip. \n\t[Moench] Default is 0. \n\t[Jungfrau] Default is 0. Get "
"[0, 1]\n\t[Jungfrau][Moench][Mythen3][Gotthard2] Power "
"the chip. \n\t[Jungfrau][Moench] Default is 0. 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\t[Mythen3][Gotthard2] "
@ -1419,7 +1423,8 @@ class CmdProxy {
imagetest, getImageTestMode, setImageTestMode, StringTo<int>,
"[0, 1]\n\t[Gotthard] 1 adds channel intensity with precalculated "
"values when taking an acquisition. Default is 0."
"\n\t[Eiger][Jungfrau] Only for Virtual servers. If 0, each pixel "
"\n\t[Eiger][Jungfrau][Moench] Only for Virtual servers. If 0, each "
"pixel "
"intensity incremented by 1. If 1, all pixels almost saturated.");
INTEGER_COMMAND_VEC_ID(
@ -1433,9 +1438,10 @@ class CmdProxy {
INTEGER_COMMAND_VEC_ID(
filterresistor, getFilterResistor, setFilterResistor, StringTo<int>,
"[value] [Gotthard2][Jungfrau] Set filter resistor. Increasing values "
"[value] [Gotthard2][Jungfrau][Moench] 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.");
"is 0.\n\t[Jungfrau][Moench] Options: [0|1]. Default is 1.");
INTEGER_COMMAND_VEC_ID(dbitpipeline, getDBITPipeline, setDBITPipeline,
StringTo<int>,
@ -1450,19 +1456,22 @@ class CmdProxy {
"permissible values depend on dynamic range and 10Gbe "
"enabled.\n\t[8-512 (multiple of 8)]\n\t\t[Jungfrau] Number of rows "
"per module starting from the centre. Options: 8 - 512, must be "
"multiples of 8. Default is 512.");
"multiples of 8. Default is 512.\n\t\t[Moench] Number of rows "
"per module starting from the centre. Options:16 - 400, must be "
"multiples of 16. Default is 400.");
/** temperature */
GET_COMMAND_NOID(
templist, getTemperatureList,
"\n\tList of temperature commands implemented for this detector.");
GET_IND_COMMAND(temp_adc, getTemperature, slsDetectorDefs::TEMPERATURE_ADC,
" °C", "[n_value]\n\t[Jungfrau][Gotthard] ADC Temperature");
GET_IND_COMMAND(
temp_adc, getTemperature, slsDetectorDefs::TEMPERATURE_ADC, " °C",
"[n_value]\n\t[Jungfrau][Moench][Gotthard] ADC Temperature");
GET_IND_COMMAND(temp_fpga, getTemperature,
slsDetectorDefs::TEMPERATURE_FPGA, " °C",
"[n_value]\n\t[Eiger][Jungfrau][Gotthard][Mythen3]["
"[n_value]\n\t[Eiger][Jungfrau][Moench][Gotthard][Mythen3]["
"Gotthard2] FPGA Temperature");
GET_IND_COMMAND(temp_fpgaext, getTemperature,
@ -1596,7 +1605,7 @@ class CmdProxy {
INTEGER_COMMAND_VEC_ID(
numinterfaces, getNumberofUDPInterfaces, setNumberofUDPInterfaces,
StringTo<int>,
"[1, 2]\n\t[Jungfrau] Number of udp interfaces to stream "
"[1, 2]\n\t[Jungfrau][Moench] Number of udp interfaces to stream "
"data from detector. Default: 1.\n\tAlso enables second interface in "
"receiver for listening (Writes a file per interface if writing "
"enabled).\n\tAlso restarts client and receiver zmq sockets if zmq "
@ -1605,12 +1614,14 @@ class CmdProxy {
INTEGER_COMMAND_VEC_ID(
selinterface, getSelectedUDPInterface, selectUDPInterface,
StringTo<int>,
"[0, 1]\n\t[Jungfrau] The udp interface to stream data from detector. "
"[0, 1]\n\t[Jungfrau][Moench] The udp interface to stream data from "
"detector. "
"Effective only when number of interfaces is 1. Default: 0 (outer)");
GET_COMMAND(
udp_numdst, getNumberofUDPDestinations,
"\n\t[Jungfrau][Eiger][Mythen3][Gotthard2] One can enter upto 32 (64 "
"\n\t[Jungfrau][Moench][Eiger][Mythen3][Gotthard2] One can enter upto "
"32 (64 "
"for Mythen3) destinations that the detector will stream images out in "
"a round robin fashion. This is get only command. Default: 1");
@ -1621,7 +1632,8 @@ class CmdProxy {
udp_firstdst, getFirstUDPDestination, setFirstUDPDestination,
StringTo<int>,
"\n[0 - 31 (or number of udp "
"destinations)]\n\t[Jungfrau][Gotthard2]\n[0-63]\n\t[Mythen3]\n\n\t "
"destinations)]\n\t[Jungfrau][Moench][Gotthard2]\n[0-63]\n\t[Mythen3]"
"\n\n\t "
"One can set which is the first destination that the detector will "
"stream images out from in a round robin fashion. The entry must not "
"have been empty. Default: 0");
@ -1632,9 +1644,9 @@ class CmdProxy {
"interface. \n\t[Eiger] Do not set as detector will replace with its "
"own DHCP Mac (1G) or DHCP Mac + 1 (10G).");
INTEGER_COMMAND_VEC_ID(udp_srcmac2, getSourceUDPMAC2, setSourceUDPMAC2,
MacAddr,
"[x:x:x:x:x:x]\n\t[Jungfrau] Mac address of the top "
INTEGER_COMMAND_VEC_ID(
udp_srcmac2, getSourceUDPMAC2, setSourceUDPMAC2, MacAddr,
"[x:x:x:x:x:x]\n\t[Jungfrau][Moench] Mac address of the top "
"half or inner (source) udp interface. ");
INTEGER_COMMAND_VEC_ID(
@ -1647,10 +1659,12 @@ class CmdProxy {
INTEGER_COMMAND_VEC_ID(
udp_dstmac2, getDestinationUDPMAC2, setDestinationUDPMAC2, MacAddr,
"[x:x:x:x:x:x]\n\t[Jungfrau] Mac address of the receiver (destination) "
"[x:x:x:x:x:x]\n\t[Jungfrau][Moench] Mac address of the receiver "
"(destination) "
"udp interface 2. Not mandatory to set as udp_dstip2 retrieves it from "
"slsReceiver process but must be set if you use a custom receiver (not "
"slsReceiver). \n\t [Jungfrau] top half or inner interface \n\t "
"slsReceiver). \n\t [Jungfrau][Moench] top half or inner interface "
"\n\t "
"[Gotthard2] veto debugging. Use router mac if router between detector "
"and receiver.");
@ -1664,10 +1678,10 @@ class CmdProxy {
INTEGER_COMMAND_VEC_ID_GET(
udp_dstport2, getDestinationUDPPort2, setDestinationUDPPort2,
StringTo<int>,
"[n]\n\t[Jungfrau][Eiger][Gotthard2] Port number of the "
"[n]\n\t[Jungfrau][Moench][Eiger][Gotthard2] Port number of the "
"receiver (destination) udp interface 2. Default is 50002. "
"\n\tIf multi command, ports for each module is calculated "
"(incremented by 2) \n\t[Jungfrau] top half or inner interface "
"(incremented by 2) \n\t[Jungfrau][Moench] top half or inner interface "
"\n\t[Eiger] "
"right half \n\t[Gotthard2] veto debugging");
@ -1686,19 +1700,21 @@ class CmdProxy {
GET_COMMAND(rx_printconfig, printRxConfiguration,
"\n\tPrints the receiver configuration.");
INTEGER_COMMAND_VEC_ID(
tengiga, getTenGiga, setTenGiga, StringTo<int>,
"[0, 1]\n\t[Eiger][Ctb][Moench][Mythen3] 10GbE Enable.");
INTEGER_COMMAND_VEC_ID(tengiga, getTenGiga, setTenGiga, StringTo<int>,
"[0, 1]\n\t[Eiger][Ctb][Mythen3] 10GbE Enable.");
INTEGER_COMMAND_VEC_ID(flowcontrol10g, getTenGigaFlowControl,
setTenGigaFlowControl, StringTo<int>,
"[0, 1]\n\t[Eiger][Jungfrau] 10GbE Flow Control.");
INTEGER_COMMAND_VEC_ID(
flowcontrol10g, getTenGigaFlowControl, setTenGigaFlowControl,
StringTo<int>,
"[0, 1]\n\t[Eiger][Jungfrau][Moench] 10GbE Flow Control.");
INTEGER_COMMAND_VEC_ID(
txdelay_frame, getTransmissionDelayFrame, setTransmissionDelayFrame,
StringTo<int>,
"[n_delay]\n\t[Eiger][Jungfrau][Mythen3] Transmission delay of first "
"udp packet being streamed out of the module.\n\t[Jungfrau] [0-31] "
"[n_delay]\n\t[Eiger][Jungfrau][Moench][Mythen3] Transmission delay of "
"first "
"udp packet being streamed out of the module.\n\t[Jungfrau][Moench] "
"[0-31] "
"Each value represents 1 ms\n\t[Eiger] Additional delay to "
"txdelay_left and txdelay_right. Each value represents 10ns. Typical "
"value is 50000.\n\t[Mythen3] [0-16777215] Each value represents 8 ns "
@ -1941,13 +1957,15 @@ class CmdProxy {
/* Jungfrau Specific */
GET_COMMAND(chipversion, getChipVersion,
"\n\t[Jungfrau] Returns chip version. Can be 1.0 or 1.1");
GET_COMMAND(
chipversion, getChipVersion,
"\n\t[Jungfrau][Moench] Returns chip version. Can be 1.0 or 1.1");
INTEGER_COMMAND_VEC_ID(
temp_threshold, getThresholdTemperature, setThresholdTemperature,
StringTo<int>,
"[n_temp (in degrees)]\n\t[Jungfrau] Threshold temperature in degrees. "
"[n_temp (in degrees)]\n\t[Jungfrau][Moench] Threshold temperature in "
"degrees. "
"If temperature crosses threshold temperature and temperature control "
"is enabled, power to chip will be switched off and temperature event "
"occurs. To power on chip again, temperature has to be less than "
@ -1956,7 +1974,7 @@ class CmdProxy {
INTEGER_COMMAND_VEC_ID(
temp_control, getTemperatureControl, setTemperatureControl,
StringTo<int>,
"[0, 1]\n\t[Jungfrau] Temperature control enable. Default is 0 "
"[0, 1]\n\t[Jungfrau][Moench] Temperature control enable. Default is 0 "
"(disabled). If temperature crosses threshold temperature and "
"temperature control is enabled, power to chip will be switched off "
"and temperature event occurs. To power on chip again, temperature has "
@ -1966,7 +1984,8 @@ class CmdProxy {
INTEGER_COMMAND_VEC_ID(
autocompdisable, getAutoComparatorDisable, setAutoComparatorDisable,
StringTo<int>,
"[0, 1]\n\t[Jungfrau] Auto comparator disable mode. By default, the "
"[0, 1]\n\t[Jungfrau][Moench] Auto comparator disable mode. 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% (only for chipv1.0) of exposure time (only for longer than "
@ -1975,9 +1994,9 @@ class CmdProxy {
"disabled(comparator enabled throughout). 1 enables mode. 0 disables "
"mode. ");
TIME_COMMAND(compdisabletime, getComparatorDisableTime,
setComparatorDisableTime,
"[duration] [(optional unit) ns|us|ms|s]\n\t[Jungfrau] Time "
TIME_COMMAND(
compdisabletime, getComparatorDisableTime, setComparatorDisableTime,
"[duration] [(optional unit) ns|us|ms|s]\n\t[Jungfrau][Moench] Time "
"before end of exposure when comparator is disabled. It is "
"only possible for chipv1.1.");
@ -1985,9 +2004,8 @@ class CmdProxy {
extrastoragecells, getNumberOfAdditionalStorageCells,
setNumberOfAdditionalStorageCells, StringTo<int>,
"[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 "
"(#extrastoragecells + 1).");
"cells. Default is 0. For advanced users only. \n\tThe #images = "
"#frames x #triggers x (#extrastoragecells + 1).");
INTEGER_COMMAND_VEC_ID(
storagecell_start, getStorageCellStart, setStorageCellStart,
@ -1996,12 +2014,11 @@ class CmdProxy {
"of the series. max is 15 (default) for chipv1.0 and 3 (default) for "
"chipv1.1. For advanced users only.");
TIME_COMMAND(
storagecell_delay, getStorageCellDelay, setStorageCellDelay,
"[duration (0-1638375 ns)] [(optional unit) ns|us|ms|s]\n\t[Jungfrau] "
"Additional time delay between 2 consecutive exposures in burst mode "
"(resolution of 25ns). Only applicable for chipv1.0. For advanced "
"users only.");
TIME_COMMAND(storagecell_delay, getStorageCellDelay, setStorageCellDelay,
"[duration (0-1638375 ns)] [(optional unit) "
"ns|us|ms|s]\n\t[Jungfrau] Additional time delay between 2 "
"consecutive exposures in burst mode (resolution of 25ns). "
"Only applicable for chipv1.0. For advanced users only.");
INTEGER_COMMAND_VEC_ID(
gainmode, getGainMode, setGainMode, StringTo<slsDetectorDefs::gainMode>,
@ -2009,9 +2026,10 @@ class CmdProxy {
"Jungfrau] Gain mode.\n\tCAUTION: Do not use fixg0 without caution, "
"you can damage the detector!!!");
INTEGER_COMMAND_VEC_ID(filtercells, getNumberOfFilterCells,
setNumberOfFilterCells, StringTo<int>,
"[0-12]\n\t[Jungfrau] Set Filter Cell. Only for "
INTEGER_COMMAND_VEC_ID(
filtercells, getNumberOfFilterCells, setNumberOfFilterCells,
StringTo<int>,
"[0-12]\n\t[Jungfrau][Moench] Set Filter Cell. Only for "
"chipv1.1. Advanced user Command");
/* Gotthard Specific */
@ -2094,36 +2112,36 @@ class CmdProxy {
INTEGER_COMMAND_VEC_ID(
asamples, getNumberOfAnalogSamples, setNumberOfAnalogSamples,
StringTo<int>,
"[n_samples]\n\t[CTB][Moench] Number of analog samples expected.");
"[n_samples]\n\t[CTB] Number of analog samples expected.");
INTEGER_COMMAND_VEC_ID(
adcclk, getADCClock, setADCClock, StringTo<int>,
"[n_clk in MHz]\n\t[Ctb][Moench] ADC clock frequency in MHz.");
"[n_clk in MHz]\n\t[Ctb] ADC clock frequency in MHz.");
INTEGER_COMMAND_VEC_ID(runclk, getRUNClock, setRUNClock, StringTo<int>,
"[n_clk in MHz]\n\t[Ctb][Moench] Run clock in MHz.");
"[n_clk in MHz]\n\t[Ctb] Run clock in MHz.");
GET_COMMAND(syncclk, getSYNCClock,
"[n_clk in MHz]\n\t[Ctb][Moench] Sync clock in MHz.");
"[n_clk in MHz]\n\t[Ctb] Sync clock in MHz.");
INTEGER_COMMAND_VEC_ID(
adcpipeline, getADCPipeline, setADCPipeline, StringTo<int>,
"[n_value]\n\t[Ctb][Moench] Pipeline for ADC clock.");
INTEGER_COMMAND_VEC_ID(adcpipeline, getADCPipeline, setADCPipeline,
StringTo<int>,
"[n_value]\n\t[Ctb] Pipeline for ADC clock.");
INTEGER_IND_COMMAND(v_limit, getVoltage, setVoltage, StringTo<int>,
defs::V_LIMIT,
"[n_value]\n\t[Ctb][Moench] Soft limit for power "
"[n_value]\n\t[Ctb] Soft limit for power "
"supplies (ctb only) and DACS in mV.");
INTEGER_COMMAND_HEX(adcenable, getADCEnableMask, setADCEnableMask,
StringTo<uint32_t>,
"[bitmask]\n\t[Ctb][Moench] ADC Enable Mask for 1Gb "
"[bitmask]\n\t[Ctb] ADC Enable Mask for 1Gb "
"Enable for each 32 ADC channel.");
INTEGER_COMMAND_HEX(
adcenable10g, getTenGigaADCEnableMask, setTenGigaADCEnableMask,
StringTo<uint32_t>,
"[bitmask]\n\t[Ctb][Moench] ADC Enable Mask for 10Gb mode for each 32 "
"[bitmask]\n\t[Ctb] ADC Enable Mask for 10Gb mode for each 32 "
"ADC channel. However, if any of a consecutive 4 bits are enabled, the "
"complete 4 bits are enabled.");
@ -2224,28 +2242,28 @@ class CmdProxy {
EXECUTE_SET_COMMAND_NOID_1ARG(
savepattern, savePattern,
"[fname]\n\t[Ctb][Moench][Mythen3] Saves pattern to file (ascii). "
"\n\t[Ctb][Moench] Also executes pattern.");
"[fname]\n\t[Ctb][Mythen3] Saves pattern to file (ascii). "
"\n\t[Ctb] Also executes pattern.");
EXECUTE_SET_COMMAND(
defaultpattern, loadDefaultPattern,
"\n\t[Mythen3][Moench] Loads and runs default pattern in pattern "
"\n\t[Mythen3] Loads and runs default pattern in pattern "
"generator. It is to go back to initial settings.");
INTEGER_COMMAND_HEX_WIDTH16(patioctrl, getPatternIOControl,
setPatternIOControl, StringTo<uint64_t>,
"[64 bit mask]\n\t[Ctb][Moench] 64 bit mask "
"[64 bit mask]\n\t[Ctb] 64 bit mask "
"defining input (0) and output (1) signals.");
INTEGER_COMMAND_HEX_WIDTH16(
patmask, getPatternMask, setPatternMask, StringTo<uint64_t>,
"[64 bit mask]\n\t[Ctb][Moench][Mythen3] Selects the bits that will "
"[64 bit mask]\n\t[Ctb][Mythen3] Selects the bits that will "
"have a pattern mask applied to the selected patmask for every "
"pattern.");
INTEGER_COMMAND_HEX_WIDTH16(
patsetbit, getPatternBitMask, setPatternBitMask, StringTo<uint64_t>,
"[64 bit mask]\n\t[Ctb][Moench][Mythen3] Sets the mask applied to "
"[64 bit mask]\n\t[Ctb][Mythen3] Sets the mask applied to "
"every pattern to the selected bits.");
EXECUTE_SET_COMMAND(patternstart, startPattern,
@ -2255,10 +2273,10 @@ class CmdProxy {
/* Advanced */
EXECUTE_SET_COMMAND(resetfpga, resetFPGA,
"\n\t[Jungfrau][Ctb][Moench] Reset FPGA.");
"\n\t[Jungfrau][Moench][Ctb] Reset FPGA.");
EXECUTE_SET_COMMAND(rebootcontroller, rebootController,
"\n\t[Jungfrau][Ctb][Moench][Gotthard][Mythen3]["
"\n\t[Jungfrau][Moench][Ctb][Gotthard][Mythen3]["
"Gotthard2] Reboot controller of detector.");
INTEGER_COMMAND_VEC_ID(
@ -2269,18 +2287,18 @@ class CmdProxy {
EXECUTE_SET_COMMAND(
firmwaretest, executeFirmwareTest,
"\n\t[Jungfrau][Gotthard][Mythen3][Gotthard2][Ctb][Moench] Firmware "
"\n\t[Jungfrau][Moench][Gotthard][Mythen3][Gotthard2][Ctb] Firmware "
"test, ie. reads a read fixed pattern from a register.");
EXECUTE_SET_COMMAND(
bustest, executeBusTest,
"\n\t[Jungfrau][Gotthard][Mythen3][Gotthard2][Ctb][Moench] Bus test, "
"\n\t[Jungfrau][Moench][Gotthard][Mythen3][Gotthard2][Ctb] Bus test, "
"ie. Writes different values in a R/W register and confirms the "
"writes to check bus.\n\tAdvanced User function!");
INTEGER_COMMAND_HEX(
adcinvert, getADCInvert, setADCInvert, StringTo<uint32_t>,
"[bitmask]\n\t[Ctb][Moench][Jungfrau] ADC Inversion "
"[bitmask]\n\t[Ctb][Jungfrau][Moench] ADC Inversion "
"Mask.\n\t[Jungfrau][Moench] Inversions on top of the default mask.");
/* Insignificant */
@ -2305,19 +2323,19 @@ class CmdProxy {
"\n\tClient IP Address that last communicated with the detector.");
GET_COMMAND(framecounter, getNumberOfFramesFromStart,
"\n\t[Jungfrau][Mythen3][Gotthard2][Moench][CTB] "
"\n\t[Jungfrau][Moench][Mythen3][Gotthard2][CTB] "
"Number of frames from start run control."
"\n\t[Gotthard2] only in continuous mode.");
TIME_GET_COMMAND(runtime, getActualTime,
"[(optional unit) "
"ns|us|ms|s]\n\t[Jungfrau][Mythen3][Gotthard2][Moench]["
"ns|us|ms|s]\n\t[Jungfrau][Moench][Mythen3][Gotthard2]["
"CTB] Time from detector start up."
"\n\t[Gotthard2] not in burst and auto mode.");
TIME_GET_COMMAND(frametime, getMeasurementTime,
"[(optional unit) "
"ns|us|ms|s]\n\t[Jungfrau][Mythen3][Gotthard2][Moench]["
"ns|us|ms|s]\n\t[Jungfrau][Moench][Mythen3][Gotthard2]["
"CTB] Timestamp at a frame start."
"\n\t[Gotthard2] not in burst and auto mode.");
};

53
slsDetectorSoftware/src/Detector.cpp
View File

@ -124,6 +124,13 @@ Result<int64_t> Detector::getFirmwareVersion(Positions pos) const {
return pimpl->Parallel(&Module::getFirmwareVersion, pos);
}
Result<int64_t>
Detector::getFrontEndFirmwareVersion(const defs::fpgaPosition fpgaPosition,
Positions pos) const {
return pimpl->Parallel(&Module::getFrontEndFirmwareVersion, pos,
fpgaPosition);
}
Result<std::string> Detector::getDetectorServerVersion(Positions pos) const {
return pimpl->Parallel(&Module::getDetectorServerVersion, pos);
}
@ -183,17 +190,12 @@ std::vector<defs::detectorSettings> Detector::getSettingsList() const {
defs::HIGHGAIN, defs::DYNAMICGAIN, defs::LOWGAIN, defs::MEDIUMGAIN,
defs::VERYHIGHGAIN};
case defs::JUNGFRAU:
case defs::MOENCH:
return std::vector<defs::detectorSettings>{defs::GAIN0,
defs::HIGHGAIN0};
case defs::GOTTHARD2:
return std::vector<defs::detectorSettings>{
defs::DYNAMICGAIN, defs::FIXGAIN1, defs::FIXGAIN2};
case defs::MOENCH:
return std::vector<defs::detectorSettings>{
defs::G1_HIGHGAIN, defs::G1_LOWGAIN,
defs::G2_HIGHCAP_HIGHGAIN, defs::G2_HIGHCAP_LOWGAIN,
defs::G2_LOWCAP_HIGHGAIN, defs::G2_LOWCAP_LOWGAIN,
defs::G4_HIGHGAIN, defs::G4_LOWGAIN};
case defs::MYTHEN3:
return std::vector<defs::detectorSettings>{defs::STANDARD, defs::FAST,
defs::HIGHGAIN};
@ -505,6 +507,7 @@ std::vector<defs::speedLevel> Detector::getReadoutSpeedList() const {
switch (getDetectorType().squash()) {
case defs::EIGER:
case defs::JUNGFRAU:
case defs::MOENCH:
return std::vector<defs::speedLevel>{defs::FULL_SPEED, defs::HALF_SPEED,
defs::QUARTER_SPEED};
case defs::GOTTHARD2:
@ -627,6 +630,7 @@ std::vector<defs::dacIndex> Detector::getTemperatureList() const {
case defs::CHIPTESTBOARD:
return std::vector<defs::dacIndex>{defs::SLOW_ADC_TEMP};
case defs::JUNGFRAU:
case defs::MOENCH:
case defs::GOTTHARD:
return std::vector<defs::dacIndex>{defs::TEMPERATURE_ADC,
defs::TEMPERATURE_FPGA};
@ -665,6 +669,7 @@ Result<int> Detector::getTemperature(defs::dacIndex index,
switch (getDetectorType().squash()) {
case defs::EIGER:
case defs::JUNGFRAU:
case defs::MOENCH:
case defs::MYTHEN3:
case defs::GOTTHARD2:
for (auto &it : res) {
@ -692,6 +697,7 @@ std::vector<defs::dacIndex> Detector::getDacList() const {
defs::VREF_DS, defs::VCASCN_PB, defs::VCASCP_PB, defs::VOUT_CM,
defs::VCASC_OUT, defs::VIN_CM, defs::VREF_COMP, defs::IB_TESTC};
case defs::JUNGFRAU:
case defs::MOENCH:
return std::vector<defs::dacIndex>{
defs::VB_COMP, defs::VDD_PROT, defs::VIN_COM, defs::VREF_PRECH,
defs::VB_PIXBUF, defs::VB_DS, defs::VREF_DS, defs::VREF_COMP};
@ -709,10 +715,6 @@ std::vector<defs::dacIndex> Detector::getDacList() const {
defs::VCAS, defs::VRPREAMP, defs::VCAL_N, defs::VIPRE,
defs::VISHAPER, defs::VCAL_P, defs::VTRIM, defs::VDCSH,
defs::VTHRESHOLD};
case defs::MOENCH:
return std::vector<defs::dacIndex>{
defs::VBP_COLBUF, defs::VIPRE, defs::VIN_CM, defs::VB_SDA,
defs::VCASC_SFP, defs::VOUT_CM, defs::VIPRE_CDS, defs::IBIAS_SFP};
case defs::CHIPTESTBOARD:
for (int i = 0; i != 18; ++i) {
retval.push_back(static_cast<defs::dacIndex>(i));
@ -942,7 +944,8 @@ Result<int> Detector::getNumberofUDPInterfaces(Positions pos) const {
}
void Detector::setNumberofUDPInterfaces(int n, Positions pos) {
if (getDetectorType().squash() != defs::JUNGFRAU) {
auto detType = getDetectorType().squash();
if (detType != defs::JUNGFRAU && detType != defs::MOENCH) {
throw RuntimeError(
"Cannot set number of udp interfaces for this detector.");
}
@ -1179,7 +1182,8 @@ Result<std::string> Detector::getRxHostname(Positions pos) const {
}
void Detector::setRxHostname(const std::string &receiver, Positions pos) {
pimpl->Parallel(&Module::setReceiverHostname, pos, receiver,
auto host = pimpl->verifyUniqueRxHost(receiver, pos);
pimpl->Parallel(&Module::setReceiverHostname, pos, host.first, host.second,
pimpl->getInitialChecks());
updateRxRateCorrections();
}
@ -1187,17 +1191,15 @@ void Detector::setRxHostname(const std::string &receiver, Positions pos) {
void Detector::setRxHostname(const std::vector<std::string> &name) {
// set all to same rx_hostname
if (name.size() == 1) {
pimpl->Parallel(&Module::setReceiverHostname, {}, name[0],
pimpl->getInitialChecks());
auto host = pimpl->verifyUniqueRxHost(name[0], {});
pimpl->Parallel(&Module::setReceiverHostname, {}, host.first,
host.second, pimpl->getInitialChecks());
} else {
if ((int)name.size() != size()) {
throw RuntimeError(
"Receiver hostnames size " + std::to_string(name.size()) +
" does not match detector size " + std::to_string(size()));
}
auto hosts = pimpl->verifyUniqueRxHost(name);
// set each rx_hostname
for (int idet = 0; idet < size(); ++idet) {
pimpl->Parallel(&Module::setReceiverHostname, {idet}, name[idet],
pimpl->Parallel(&Module::setReceiverHostname, {idet},
hosts[idet].first, hosts[idet].second,
pimpl->getInitialChecks());
}
}
@ -1214,10 +1216,12 @@ void Detector::setRxPort(int port, int module_id) {
for (auto &it : port_list) {
it = port++;
}
// no need to verify hostname-port combo as unique port(incremented)
for (int idet = 0; idet < size(); ++idet) {
pimpl->Parallel(&Module::setReceiverPort, {idet}, port_list[idet]);
}
} else {
pimpl->verifyUniqueRxHost(port, module_id);
pimpl->Parallel(&Module::setReceiverPort, {module_id}, port);
}
}
@ -1623,7 +1627,7 @@ void Detector::setTop(bool value, Positions pos) {
pimpl->Parallel(&Module::setTop, pos, value);
}
// Jungfrau Specific
// Jungfrau/moench Specific
Result<double> Detector::getChipVersion(Positions pos) const {
return pimpl->Parallel(&Module::getChipVersion, pos);
}
@ -1695,6 +1699,7 @@ void Detector::setStorageCellDelay(ns value, Positions pos) {
std::vector<defs::gainMode> Detector::getGainModeList() const {
switch (getDetectorType().squash()) {
case defs::JUNGFRAU:
case defs::MOENCH:
return std::vector<defs::gainMode>{
defs::DYNAMIC, defs::FORCE_SWITCH_G1, defs::FORCE_SWITCH_G2,
defs::FIX_G1, defs::FIX_G2, defs::FIX_G0};
@ -1986,7 +1991,7 @@ void Detector::setDigitalPulsing(bool value, Positions pos) {
pimpl->Parallel(&Module::setDigitalPulsing, pos, value);
}
// CTB/ Moench Specific
// CTB Specific
Result<int> Detector::getNumberOfAnalogSamples(Positions pos) const {
return pimpl->Parallel(&Module::getNumberOfAnalogSamples, pos);
@ -2324,8 +2329,6 @@ void Detector::startPattern(Positions pos) {
pimpl->Parallel(&Module::startPattern, pos);
}
// Moench
Result<std::map<std::string, std::string>>
Detector::getAdditionalJsonHeader(Positions pos) const {
return pimpl->Parallel(&Module::getAdditionalJsonHeader, pos);
@ -2458,10 +2461,12 @@ Result<int> Detector::getControlPort(Positions pos) const {
}
void Detector::setControlPort(int value, Positions pos) {
pimpl->verifyUniqueDetHost(value, pos);
pimpl->Parallel(&Module::setControlPort, pos, value);
}
Result<int> Detector::getStopPort(Positions pos) const {
// not verifying unique stop port (control port is sufficient)
return pimpl->Parallel(&Module::getStopPort, pos);
}

172
slsDetectorSoftware/src/DetectorImpl.cpp
View File

@ -279,31 +279,14 @@ void DetectorImpl::setHostname(const std::vector<std::string> &name) {
}
}
void DetectorImpl::addModule(const std::string &hostname) {
LOG(logINFO) << "Adding module " << hostname;
int port = DEFAULT_TCP_CNTRL_PORTNO;
std::string host = hostname;
auto res = split(hostname, ':');
if (res.size() > 1) {
host = res[0];
port = StringTo<int>(res[1]);
}
if (host != "localhost") {
for (auto &module : modules) {
if (module->getHostname() == host) {
LOG(logWARNING)
<< "Module " << host << "already part of the Detector!"
<< std::endl
<< "Remove it before adding it back in a new position!";
return;
}
}
}
void DetectorImpl::addModule(const std::string &name) {
LOG(logINFO) << "Adding module " << name;
auto host = verifyUniqueDetHost(name);
std::string hostname = host.first;
int port = host.second;
// get type by connecting
detectorType type = Module::getTypeFromDetector(host, port);
detectorType type = Module::getTypeFromDetector(hostname, port);
// gotthard cannot have more than 2 modules (50um=1, 25um=2
if ((type == GOTTHARD || type == GOTTHARD2) && modules.size() > 2) {
@ -316,15 +299,15 @@ void DetectorImpl::addModule(const std::string &hostname) {
shm()->totalNumberOfModules = modules.size();
modules[pos]->setControlPort(port);
modules[pos]->setStopPort(port + 1);
modules[pos]->setHostname(host, shm()->initialChecks);
modules[pos]->setHostname(hostname, shm()->initialChecks);
// module type updated by now
shm()->detType = Parallel(&Module::getDetectorType, {})
.tsquash("Inconsistent detector types.");
// for moench and ctb
// for ctb
modules[pos]->updateNumberOfChannels();
// for eiger, jungfrau, gotthard2
// for eiger, jungfrau, moench, gotthard2
modules[pos]->updateNumberofUDPInterfaces();
// update zmq port in case numudpinterfaces changed
@ -418,6 +401,7 @@ void DetectorImpl::setGapPixelsinCallback(const bool enable) {
if (enable) {
switch (shm()->detType) {
case JUNGFRAU:
case MOENCH:
break;
case EIGER:
if (size() && modules[0]->getQuad()) {
@ -440,6 +424,7 @@ int DetectorImpl::getTransmissionDelay() const {
bool eiger = false;
switch (shm()->detType) {
case JUNGFRAU:
case MOENCH:
case MYTHEN3:
break;
case EIGER:
@ -483,6 +468,7 @@ void DetectorImpl::setTransmissionDelay(int step) {
bool eiger = false;
switch (shm()->detType) {
case JUNGFRAU:
case MOENCH:
case MYTHEN3:
break;
case EIGER:
@ -884,10 +870,10 @@ int DetectorImpl::InsertGapPixels(char *image, char *&gpImage, bool quadEnable,
nMod1TotPixelsx /= 2;
}
// eiger requires inter chip gap pixels are halved
// jungfrau prefers same inter chip gap pixels as the boundary pixels
// jungfrau/moench prefers same inter chip gap pixels as the boundary pixels
int divisionValue = 2;
slsDetectorDefs::detectorType detType = shm()->detType;
if (detType == JUNGFRAU) {
if (detType == JUNGFRAU || detType == MOENCH) {
divisionValue = 1;
}
LOG(logDEBUG) << "Insert Gap pixels Calculations:\n\t"
@ -1378,8 +1364,8 @@ std::vector<char> DetectorImpl::readProgrammingFile(const std::string &fname) {
bool isPof = false;
switch (shm()->detType) {
case JUNGFRAU:
case CHIPTESTBOARD:
case MOENCH:
case CHIPTESTBOARD:
if (fname.find(".pof") == std::string::npos) {
throw RuntimeError("Programming file must be a pof file.");
}
@ -1517,6 +1503,7 @@ defs::xy DetectorImpl::getPortGeometry() const {
portGeometry.x = modules[0]->getNumberofUDPInterfacesFromShm();
break;
case JUNGFRAU:
case MOENCH:
portGeometry.y = modules[0]->getNumberofUDPInterfacesFromShm();
break;
default:
@ -1534,8 +1521,131 @@ defs::xy DetectorImpl::calculatePosition(int moduleIndex,
return pos;
}
void DetectorImpl::verifyUniqueDetHost(const int port,
std::vector<int> positions) const {
// port for given positions
if (positions.empty() || (positions.size() == 1 && positions[0] == -1)) {
positions.resize(modules.size());
std::iota(begin(positions), end(positions), 0);
}
std::vector<std::pair<std::string, int>> hosts(size());
for (auto it : positions) {
hosts[it].second = port;
}
verifyUniqueHost(true, hosts);
}
void DetectorImpl::verifyUniqueRxHost(const int port,
const int moduleId) const {
std::vector<std::pair<std::string, int>> hosts(size());
hosts[moduleId].second = port;
verifyUniqueHost(false, hosts);
}
std::pair<std::string, int>
DetectorImpl::verifyUniqueDetHost(const std::string &name) {
// extract port
// C++17 could be auto [hostname, port] = ParseHostPort(name);
auto res = ParseHostPort(name);
std::string hostname = res.first;
int port = res.second;
if (port == 0) {
port = DEFAULT_TCP_CNTRL_PORTNO;
}
int detSize = size();
// mod not yet added
std::vector<std::pair<std::string, int>> hosts(detSize + 1);
hosts[detSize].first = hostname;
hosts[detSize].second = port;
verifyUniqueHost(true, hosts);
return std::make_pair(hostname, port);
}
std::pair<std::string, int>
DetectorImpl::verifyUniqueRxHost(const std::string &name,
std::vector<int> positions) const {
// no checks if setting to none
if (name == "none" || name.empty()) {
return make_pair(name, 0);
}
// extract port
// C++17 could be auto [hostname, port] = ParseHostPort(name);
auto res = ParseHostPort(name);
std::string hostname = res.first;
int port = res.second;
// hostname and port for given positions
if (positions.empty() || (positions.size() == 1 && positions[0] == -1)) {
positions.resize(modules.size());
std::iota(begin(positions), end(positions), 0);
}
std::vector<std::pair<std::string, int>> hosts(size());
for (auto it : positions) {
hosts[it].first = hostname;
hosts[it].second = port;
}
verifyUniqueHost(false, hosts);
return std::make_pair(hostname, port);
}
std::vector<std::pair<std::string, int>>
DetectorImpl::verifyUniqueRxHost(const std::vector<std::string> &names) const {
if ((int)names.size() != size()) {
throw RuntimeError(
"Receiver hostnames size " + std::to_string(names.size()) +
" does not match detector size " + std::to_string(size()));
}
// extract ports
std::vector<std::pair<std::string, int>> hosts;
for (const auto &name : names) {
hosts.push_back(ParseHostPort(name));
}
verifyUniqueHost(false, hosts);
return hosts;
}
void DetectorImpl::verifyUniqueHost(
bool isDet, std::vector<std::pair<std::string, int>> &hosts) const {
// fill from shm if not provided
for (int i = 0; i != size(); ++i) {
if (hosts[i].first.empty()) {
hosts[i].first = (isDet ? modules[i]->getHostname()
: modules[i]->getReceiverHostname());
}
if (hosts[i].second == 0) {
hosts[i].second = (isDet ? modules[i]->getControlPort()
: modules[i]->getReceiverPort());
}
}
// remove the ones without a hostname
hosts.erase(std::remove_if(hosts.begin(), hosts.end(),
[](const std::pair<std::string, int> &x) {
return (x.first == "none" ||
x.first.empty());
}),
hosts.end());
// must be unique
if (hasDuplicates(hosts)) {
throw RuntimeError(
"Cannot set due to duplicate hostname-port number pairs.");
}
for (auto it : hosts) {
LOG(logDEBUG) << it.first << " " << it.second << std::endl;
}
}
defs::ROI DetectorImpl::getRxROI() const {
if (shm()->detType == CHIPTESTBOARD || shm()->detType == MOENCH) {
if (shm()->detType == CHIPTESTBOARD) {
throw RuntimeError("RxRoi not implemented for this Detector");
}
if (modules.size() == 0) {
@ -1610,7 +1720,7 @@ defs::ROI DetectorImpl::getRxROI() const {
}
void DetectorImpl::setRxROI(const defs::ROI arg) {
if (shm()->detType == CHIPTESTBOARD || shm()->detType == MOENCH) {
if (shm()->detType == CHIPTESTBOARD) {
throw RuntimeError("RxRoi not implemented for this Detector");
}
if (modules.size() == 0) {

17
slsDetectorSoftware/src/DetectorImpl.h
View File

@ -300,6 +300,17 @@ class DetectorImpl : public virtual slsDetectorDefs {
Positions pos = {});
void setDefaultDac(defs::dacIndex index, int defaultValue,
defs::detectorSettings sett, Positions pos);
void verifyUniqueDetHost(const int port, std::vector<int> positions) const;
void verifyUniqueRxHost(const int port, const int moduleId) const;
std::pair<std::string, int> verifyUniqueDetHost(const std::string &name);
std::pair<std::string, int>
verifyUniqueRxHost(const std::string &name,
std::vector<int> positions) const;
std::vector<std::pair<std::string, int>>
verifyUniqueRxHost(const std::vector<std::string> &names) const;
defs::ROI getRxROI() const;
void setRxROI(const defs::ROI arg);
void clearRxROI();
@ -358,7 +369,7 @@ class DetectorImpl : public virtual slsDetectorDefs {
*/
void readFrameFromReceiver();
/** [Eiger][Jungfrau]
/** [Eiger][Jungfrau][Moench]
* add gap pixels to the imag
* @param image pointer to image without gap pixels
* @param gpImage poiner to image with gap pixels, if NULL, allocated
@ -396,6 +407,10 @@ class DetectorImpl : public virtual slsDetectorDefs {
defs::xy getPortGeometry() const;
defs::xy calculatePosition(int moduleIndex, defs::xy geometry) const;
void
verifyUniqueHost(bool isDet,
std::vector<std::pair<std::string, int>> &hosts) const;
const int detectorIndex{0};
SharedMemory<sharedDetector> shm{0, -1};
SharedMemory<CtbConfig> ctb_shm{0, -1, CtbConfig::shm_tag()};

48
slsDetectorSoftware/src/HelpDacs.h
View File

@ -91,7 +91,7 @@ std::string GetHelpDac(std::string dac) {
}
if (dac == "vref_ds") {
return std::string("[dac or mV value][(optional unit) mV] "
"\n\t[Gotthard][Jungfrau] Dac for ??");
"\n\t[Gotthard][Jungfrau][Moench] Dac for ??");
}
if (dac == "vcascn_pb") {
return std::string(
@ -103,7 +103,7 @@ std::string GetHelpDac(std::string dac) {
}
if (dac == "vout_cm") {
return std::string("[dac or mV value][(optional unit) mV] "
"\n\t[Gotthard] Dac for ??\n\t[Moench] Dac for 5");
"\n\t[Gotthard] Dac for ??");
}
if (dac == "vcasc_out") {
return std::string(
@ -111,11 +111,11 @@ std::string GetHelpDac(std::string dac) {
}
if (dac == "vin_cm") {
return std::string("[dac or mV value][(optional unit) mV] "
"\n\t[Gotthard] Dac for ??\n\t[Moench] Dac for 2");
"\n\t[Gotthard] Dac for ??");
}
if (dac == "vref_comp") {
return std::string("[dac or mV value][(optional unit) mV] "
"\n\t[Gotthard][Jungfrau] Dac for ??");
"\n\t[Gotthard][Jungfrau][Moench] Dac for ??");
}
if (dac == "ib_test_c") {
return std::string(
@ -129,7 +129,7 @@ std::string GetHelpDac(std::string dac) {
if (dac == "vipre") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Mythen3] Dac for the "
"preamplifier's input transistor current.\n\t[Moench] Dac for 1");
"preamplifier's input transistor current.");
}
if (dac == "vdcsh") {
return std::string(
@ -224,7 +224,8 @@ std::string GetHelpDac(std::string dac) {
}
if (dac == "vref_prech") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Gotthard2][Jungfrau] "
"[dac or mV value][(optional unit) mV] "
"\n\t[Gotthard2][Jungfrau][Moench] "
"Dac for reference votlage for precharing the preamplifier.");
}
if (dac == "vref_l_adc") {
@ -254,44 +255,39 @@ std::string GetHelpDac(std::string dac) {
"common mode voltage of ADC DAC bank 2.");
}
if (dac == "vb_ds") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Jungfrau] Dac for ??");
return std::string("[dac or mV value][(optional unit) mV] "
"\n\t[Jungfrau][Moench] Dac for ??");
}
if (dac == "vb_comp") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Jungfrau] Dac for ??");
return std::string("[dac or mV value][(optional unit) mV] "
"\n\t[Jungfrau][Moench] Dac for ??");
}
if (dac == "vb_pixbuf") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Jungfrau] Dac for ??");
return std::string("[dac or mV value][(optional unit) mV] "
"\n\t[Jungfrau][Moench] Dac for ??");
}
if (dac == "vin_com") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Jungfrau] Dac for ??");
return std::string("[dac or mV value][(optional unit) mV] "
"\n\t[Jungfrau][Moench] Dac for ??");
}
if (dac == "vdd_prot") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Jungfrau] Dac for ??");
return std::string("[dac or mV value][(optional unit) mV] "
"\n\t[Jungfrau][Moench] Dac for ??");
}
if (dac == "vbp_colbuf") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Moench] Dac for 0");
return std::string("[dac or mV value][(optional unit) mV] \n");
}
if (dac == "vb_sda") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Moench] Dac for 3");
return std::string("[dac or mV value][(optional unit) mV] \n");
}
if (dac == "vcasc_sfp") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Moench] Dac for 4");
return std::string("[dac or mV value][(optional unit) mV] \n");
}
if (dac == "vipre_cds") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Moench] Dac for 6");
return std::string("[dac or mV value][(optional unit) mV] \n");
}
if (dac == "ibias_sfp") {
return std::string(
"[dac or mV value][(optional unit) mV] \n\t[Moench] Dac for 7");
return std::string("[dac or mV value][(optional unit) mV] \n");
}
// clang-format off

71
slsDetectorSoftware/src/Module.cpp
View File

@ -73,8 +73,8 @@ void Module::setHostname(const std::string &hostname,
auto client = DetectorSocket(shm()->hostname, shm()->controlPort);
client.close();
try {
initialDetectorServerChecks();
checkDetectorVersionCompatibility();
initialDetectorServerChecks();
LOG(logINFO) << "Module Version Compatibility - Success";
} catch (const RuntimeError &e) {
if (!initialChecks) {
@ -92,11 +92,36 @@ int64_t Module::getFirmwareVersion() const {
return sendToDetector<int64_t>(F_GET_FIRMWARE_VERSION);
}
int64_t
Module::getFrontEndFirmwareVersion(const fpgaPosition fpgaPosition) const {
return sendToDetector<int64_t>(F_GET_FRONTEND_FIRMWARE_VERSION,
fpgaPosition);
}
std::string Module::getControlServerLongVersion() const {
try {
char retval[MAX_STR_LENGTH]{};
sendToDetector(F_GET_SERVER_VERSION, nullptr, retval);
return retval;
}
// throw with old server version (sends 8 bytes)
catch (RuntimeError &e) {
std::string emsg = std::string(e.what());
if (emsg.find(F_GET_SERVER_VERSION) && emsg.find("8 bytes")) {
throwDeprecatedServerVersion();
}
throw;
}
}
void Module::throwDeprecatedServerVersion() const {
uint64_t res = sendToDetectorStop<int64_t>(F_GET_SERVER_VERSION);
std::cout << std::endl;
std::ostringstream os;
os << "Detector Server (Control) version (0x" << std::hex << res
<< ") is incompatible with this client. Please update detector server!";
throw RuntimeError(os.str());
}
std::string Module::getStopServerLongVersion() const {
char retval[MAX_STR_LENGTH]{};
@ -155,7 +180,7 @@ slsDetectorDefs::detectorType Module::getDetectorType() const {
}
void Module::updateNumberOfChannels() {
if (shm()->detType == CHIPTESTBOARD || shm()->detType == MOENCH) {
if (shm()->detType == CHIPTESTBOARD) {
std::array<int, 2> retvals{};
sendToDetector(F_GET_NUM_CHANNELS, nullptr, retvals);
shm()->nChan.x = retvals[0];
@ -1224,7 +1249,7 @@ std::string Module::printReceiverConfiguration() {
os << "\n\nModule " << moduleIndex << "\nReceiver Hostname:\t"
<< getReceiverHostname();
if (shm()->detType == JUNGFRAU) {
if (shm()->detType == JUNGFRAU || shm()->detType == MOENCH) {
os << "\nNumber of Interfaces:\t" << getNumberofUDPInterfacesFromShm()
<< "\nSelected Interface:\t" << getSelectedUDPInterface();
}
@ -1234,14 +1259,15 @@ std::string Module::printReceiverConfiguration() {
<< getDestinationUDPIP() << "\nDestination UDP MAC:\t"
<< getDestinationUDPMAC();
if (shm()->detType == JUNGFRAU) {
if (shm()->detType == JUNGFRAU || shm()->detType == MOENCH) {
os << "\nSource UDP IP2:\t" << getSourceUDPIP2()
<< "\nSource UDP MAC2:\t" << getSourceUDPMAC2()
<< "\nDestination UDP IP2:\t" << getDestinationUDPIP2()
<< "\nDestination UDP MAC2:\t" << getDestinationUDPMAC2();
}
os << "\nDestination UDP Port:\t" << getDestinationUDPPort();
if (shm()->detType == JUNGFRAU || shm()->detType == EIGER) {
if (shm()->detType == JUNGFRAU || shm()->detType == MOENCH ||
shm()->detType == EIGER) {
os << "\nDestination UDP Port2:\t" << getDestinationUDPPort2();
}
os << "\n";
@ -1303,30 +1329,33 @@ std::string Module::getReceiverHostname() const {
return std::string(shm()->rxHostname);
}
void Module::setReceiverHostname(const std::string &receiverIP,
void Module::setReceiverHostname(const std::string &hostname, const int port,
const bool initialChecks) {
LOG(logDEBUG1) << "Setting up Receiver hostname with " << receiverIP;
{
std::ostringstream oss;
oss << "Setting up Receiver hostname with " << hostname;
if (port != 0) {
oss << " at port " << port;
}
LOG(logDEBUG1) << oss.str();
}
if (getRunStatus() == RUNNING) {
throw RuntimeError("Cannot set receiver hostname. Acquisition already "
"running. Stop it first.");
}
if (receiverIP == "none") {
if (hostname == "none") {
memset(shm()->rxHostname, 0, MAX_STR_LENGTH);
strcpy_safe(shm()->rxHostname, "none");
shm()->useReceiverFlag = false;
return;
}
// start updating
std::string host = receiverIP;
auto res = split(host, ':');
if (res.size() > 1) {
host = res[0];
shm()->rxTCPPort = std::stoi(res[1]);
strcpy_safe(shm()->rxHostname, hostname.c_str());
if (port != 0) {
shm()->rxTCPPort = port;
}
strcpy_safe(shm()->rxHostname, host.c_str());
shm()->useReceiverFlag = true;
try {
@ -1790,7 +1819,7 @@ void Module::setTop(bool value) {
sendToDetector(F_SET_TOP, static_cast<int>(value), nullptr);
}
// Jungfrau Specific
// Jungfrau/Moench Specific
double Module::getChipVersion() const {
return (sendToDetector<int>(F_GET_CHIP_VERSION)) / 10.00;
}
@ -2302,7 +2331,7 @@ void Module::setDigitalPulsing(const bool enable) {
sendToDetector(F_SET_DIGITAL_PULSING, static_cast<int>(enable), nullptr);
}
// CTB / Moench Specific
// CTB Specific
int Module::getNumberOfAnalogSamples() const {
return sendToDetector<int>(F_GET_NUM_ANALOG_SAMPLES);
}
@ -2537,8 +2566,6 @@ void Module::setPatternBitMask(uint64_t mask) {
void Module::startPattern() { sendToDetector(F_START_PATTERN); }
// Moench
std::map<std::string, std::string> Module::getAdditionalJsonHeader() const {
// TODO, refactor this function with a more robust sending.
// Now assuming whitespace separated key value
@ -2631,8 +2658,8 @@ void Module::programFPGA(std::vector<char> buffer,
const bool forceDeleteNormalFile) {
switch (shm()->detType) {
case JUNGFRAU:
case CHIPTESTBOARD:
case MOENCH:
case CHIPTESTBOARD:
sendProgram(true, buffer, F_PROGRAM_FPGA, "Update Firmware", "",
forceDeleteNormalFile);
break;
@ -2652,8 +2679,8 @@ void Module::updateDetectorServer(std::vector<char> buffer,
const std::string &serverName) {
switch (shm()->detType) {
case JUNGFRAU:
case CHIPTESTBOARD:
case MOENCH:
case CHIPTESTBOARD:
sendProgram(true, buffer, F_UPDATE_DETECTOR_SERVER,
"Update Detector Server (no tftp)", serverName);
break;
@ -2673,8 +2700,8 @@ void Module::updateDetectorServer(std::vector<char> buffer,
void Module::updateKernel(std::vector<char> buffer) {
switch (shm()->detType) {
case JUNGFRAU:
case CHIPTESTBOARD:
case MOENCH:
case CHIPTESTBOARD:
sendProgram(true, buffer, F_UPDATE_KERNEL, "Update Kernel");
break;
case MYTHEN3:

14
slsDetectorSoftware/src/Module.h
View File

@ -90,8 +90,10 @@ class Module : public virtual slsDetectorDefs {
void setHostname(const std::string &hostname, const bool initialChecks);
int64_t getFirmwareVersion() const;
int64_t getFrontEndFirmwareVersion(const fpgaPosition fpgaPosition) const;
std::string getControlServerLongVersion() const;
std::string getStopServerLongVersion() const;
void throwDeprecatedServerVersion() const;
std::string getDetectorServerVersion() const;
std::string getHardwareVersion() const;
std::string getKernelVersion() const;
@ -279,7 +281,7 @@ class Module : public virtual slsDetectorDefs {
* ************************************************/
bool getUseReceiverFlag() const;
std::string getReceiverHostname() const;
void setReceiverHostname(const std::string &receiver,
void setReceiverHostname(const std::string &hostname, const int port,
const bool initialChecks);
int getReceiverPort() const;
int setReceiverPort(int port_number);
@ -388,7 +390,7 @@ class Module : public virtual slsDetectorDefs {
/**************************************************
* *
* Jungfrau Specific *
* Jungfrau/Moench Specific *
* *
* ************************************************/
double getChipVersion() const;
@ -490,7 +492,7 @@ class Module : public virtual slsDetectorDefs {
/**************************************************
* *
* CTB / Moench Specific *
* CTB Specific *
* *
* ************************************************/
int getNumberOfAnalogSamples() const;
@ -501,12 +503,6 @@ class Module : public virtual slsDetectorDefs {
void setADCEnableMask(uint32_t mask);
uint32_t getTenGigaADCEnableMask() const;
void setTenGigaADCEnableMask(uint32_t mask);
/**************************************************
* *
* CTB Specific *
* *
* ************************************************/
int getNumberOfDigitalSamples() const;
void setNumberOfDigitalSamples(int value);
readoutMode getReadoutMode() const;

22
slsDetectorSoftware/tests/test-CmdProxy-chiptestboard.cpp
View File

@ -107,7 +107,7 @@ TEST_CASE("adcvpp", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
auto prev_val = det.getADCVpp(false);
{
std::ostringstream oss;
@ -132,14 +132,14 @@ TEST_CASE("adcvpp", "[.cmd]") {
}
}
/* CTB/ Moench Specific */
/* CTB Specific */
TEST_CASE("samples", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
auto prev_asamples = det.getNumberOfAnalogSamples();
Result<int> prev_dsamples = 0;
if (det_type == defs::CHIPTESTBOARD) {
@ -186,7 +186,7 @@ TEST_CASE("asamples", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
auto prev_val = det.getNumberOfAnalogSamples();
{
std::ostringstream oss;
@ -216,7 +216,7 @@ TEST_CASE("adcclk", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
auto prev_val = det.getADCClock();
{
std::ostringstream oss;
@ -247,7 +247,7 @@ TEST_CASE("runclk", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
auto prev_val = det.getRUNClock();
{
std::ostringstream oss;
@ -277,7 +277,7 @@ TEST_CASE("syncclk", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
REQUIRE_NOTHROW(proxy.Call("syncclk", {}, -1, GET));
} else {
// clock index might work
@ -290,7 +290,7 @@ TEST_CASE("adcpipeline", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
auto prev_val = det.getADCPipeline();
{
std::ostringstream oss;
@ -325,7 +325,7 @@ TEST_CASE("v_limit", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
auto prev_val = det.getVoltage(defs::V_LIMIT);
{
std::ostringstream oss;
@ -363,7 +363,7 @@ TEST_CASE("adcenable", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
auto prev_val = det.getADCEnableMask();
{
std::ostringstream oss;
@ -393,7 +393,7 @@ TEST_CASE("adcenable10g", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
auto prev_val = det.getTenGigaADCEnableMask();
{
std::ostringstream oss;

24
slsDetectorSoftware/tests/test-CmdProxy-jungfrau.cpp
View File

@ -23,7 +23,7 @@ TEST_CASE("Setting and reading back Jungfrau dacs", "[.cmd][.dacs]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
SECTION("vb_comp") { test_dac(defs::VB_COMP, "vb_comp", 1220); }
SECTION("vdd_prot") { test_dac(defs::VDD_PROT, "vdd_prot", 3000); }
SECTION("vin_com") { test_dac(defs::VIN_COM, "vin_com", 1053); }
@ -102,7 +102,7 @@ TEST_CASE("selinterface", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
auto prev_val = det.getSelectedUDPInterface().tsquash(
"inconsistent selected interface to test");
{
@ -127,13 +127,13 @@ TEST_CASE("selinterface", "[.cmd]") {
}
}
/* Jungfrau Specific */
/* Jungfrau/moench Specific */
TEST_CASE("temp_threshold", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
auto prev_val = det.getThresholdTemperature();
{
std::ostringstream oss;
@ -163,7 +163,7 @@ TEST_CASE("chipversion", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
REQUIRE_NOTHROW(proxy.Call("chipversion", {}, -1, GET));
} else {
REQUIRE_THROWS(proxy.Call("chipversion", {}, -1, GET));
@ -175,7 +175,7 @@ TEST_CASE("temp_control", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
auto prev_val = det.getTemperatureControl();
{
std::ostringstream oss;
@ -205,7 +205,7 @@ TEST_CASE("temp_event", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
{
std::ostringstream oss;
proxy.Call("temp_event", {"0"}, -1, PUT, oss);
@ -226,7 +226,7 @@ TEST_CASE("autocompdisable", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
auto prev_val = det.getAutoComparatorDisable();
{
std::ostringstream oss;
@ -256,7 +256,7 @@ TEST_CASE("compdisabletime", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU &&
if ((det_type == defs::JUNGFRAU || det_type == defs::MOENCH) &&
det.getChipVersion().squash() * 10 == 11) {
auto prev_val = det.getComparatorDisableTime();
{
@ -416,7 +416,7 @@ TEST_CASE("gainmode", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
auto prev_val = det.getGainMode();
{
std::ostringstream oss;
@ -465,7 +465,7 @@ TEST_CASE("filtercells", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
// chip version 1.1
if (det.getChipVersion().squash() * 10 == 11) {
auto prev_val = det.getNumberOfFilterCells();
@ -510,7 +510,7 @@ TEST_CASE("sync", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
auto prev_val = det.getSynchronization().tsquash(
"inconsistent synchronization to test");
{

90
slsDetectorSoftware/tests/test-CmdProxy-moench.cpp
View File

@ -19,94 +19,4 @@ using test::PUT;
/* dacs */
TEST_CASE("Setting and reading back MOENCH dacs", "[.cmd][.dacs]") {
// vbp_colbuf, vipre, vin_cm", vb_sda, vcasc_sfp, vout_cm, vipre_cds,
// ibias_sfp
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::MOENCH) {
SECTION("vbp_colbuf") {
test_dac(defs::VBP_COLBUF, "vbp_colbuf", 1300);
}
SECTION("vipre") { test_dac(defs::VIPRE, "vipre", 1000); }
SECTION("vin_cm") { test_dac(defs::VIN_CM, "vin_cm", 1400); }
SECTION("vb_sda") { test_dac(defs::VB_SDA, "vb_sda", 680); }
SECTION("vcasc_sfp") { test_dac(defs::VCASC_SFP, "vcasc_sfp", 1428); }
SECTION("vout_cm") { test_dac(defs::VOUT_CM, "vout_cm", 1200); }
SECTION("vipre_cds") { test_dac(defs::VIPRE_CDS, "vipre_cds", 800); }
SECTION("ibias_sfp") { test_dac(defs::IBIAS_SFP, "ibias_sfp", 900); }
// eiger
REQUIRE_THROWS(proxy.Call("dac", {"vthreshold"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vsvp"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vsvn"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vtrim"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vrpreamp"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vrshaper"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vtgstv"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcmp_ll"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcmp_lr"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcal"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcmp_rl"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcmp_rr"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"rxb_rb"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"rxb_lb"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcp"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcn"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vishaper"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"iodelay"}, -1, GET));
// jungfrau
REQUIRE_THROWS(proxy.Call("dac", {"vb_comp"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vdd_prot"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vin_com"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vref_prech"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vb_pixbuf"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vb_ds"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vref_ds"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vref_comp"}, -1, GET));
// gotthard
REQUIRE_THROWS(proxy.Call("dac", {"vref_ds"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcascn_pb"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcascp_pb"}, -1, GET));
// REQUIRE_THROWS(proxy.Call("dac", {"vout_cm"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcasc_out"}, -1, GET));
// REQUIRE_THROWS(proxy.Call("dac", {"vin_cm"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vref_comp"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"ib_test_c"}, -1, GET));
// mythen3
REQUIRE_THROWS(proxy.Call("dac", {"vrpreamp"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vrshaper"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vrshaper_n"}, -1, GET));
// REQUIRE_THROWS(proxy.Call("dac", {"vipre"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vishaper"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vdcsh"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vth1"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vth2"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vth3"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcal_n"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcal_p"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vtrim"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcassh"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcas"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vicin"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vipre_out"}, -1, GET));
// gotthard2
REQUIRE_THROWS(proxy.Call("dac", {"vref_h_adc"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vb_comp_fe"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vb_comp_adc"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcom_cds"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vref_rstore"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vb_opa_1st"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vref_comp_fe"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcom_adc1"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vref_l_adc"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vref_cds"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vb_cs"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vb_opa_fd"}, -1, GET));
REQUIRE_THROWS(proxy.Call("dac", {"vcom_adc2"}, -1, GET));
}
}
} // namespace sls

34
slsDetectorSoftware/tests/test-CmdProxy-pattern.cpp
View File

@ -23,8 +23,7 @@ TEST_CASE("pattern", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3) {
// no proper test for put
REQUIRE_THROWS(proxy.Call("pattern", {}, -1, GET));
} else {
@ -36,8 +35,7 @@ TEST_CASE("savepattern", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3) {
REQUIRE_THROWS(
proxy.Call("savepattern", {"/tmp/pattern.txt"}, -1, GET));
if (det.size() == 1) {
@ -54,7 +52,7 @@ TEST_CASE("defaultpattern", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::MOENCH || det_type == defs::MYTHEN3) {
if (det_type == defs::MYTHEN3) {
REQUIRE_THROWS(proxy.Call("defaultpattern", {}, -1, GET));
REQUIRE_NOTHROW(proxy.Call("defaultpattern", {}, -1, PUT));
} else {
@ -68,7 +66,7 @@ TEST_CASE("patioctrl", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
auto prev_val = det.getPatternIOControl();
{
std::ostringstream oss;
@ -98,8 +96,7 @@ TEST_CASE("patword", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3) {
int addr = 0x23;
std::string saddr = ToStringHex(addr, 4);
auto prev_val = det.getPatternWord(addr);
@ -134,8 +131,7 @@ TEST_CASE("patlimits", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3) {
auto prev_val = det.getPatternLoopAddresses(-1);
{
std::ostringstream oss;
@ -161,8 +157,7 @@ TEST_CASE("patloop", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3) {
for (int iLoop = 0; iLoop != MAX_PATTERN_LEVELS; ++iLoop) {
// m3 only has 3 levels
if (det_type == defs::MYTHEN3 && iLoop >= 3) {
@ -210,8 +205,7 @@ TEST_CASE("patnloop", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3) {
for (int iLoop = 0; iLoop != MAX_PATTERN_LEVELS; ++iLoop) {
// m3 only has 3 levels
if (det_type == defs::MYTHEN3 && iLoop >= 3) {
@ -256,8 +250,7 @@ TEST_CASE("patwait", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3) {
for (int iLoop = 0; iLoop != MAX_PATTERN_LEVELS; ++iLoop) {
// m3 only has 3 levels
if (det_type == defs::MYTHEN3 && iLoop >= 3) {
@ -302,8 +295,7 @@ TEST_CASE("patwaittime", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3) {
for (int iLoop = 0; iLoop != MAX_PATTERN_LEVELS; ++iLoop) {
// m3 only has 3 levels
if (det_type == defs::MYTHEN3 && iLoop >= 3) {
@ -348,8 +340,7 @@ TEST_CASE("patmask", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3) {
auto prev_val = det.getPatternMask();
{
std::ostringstream oss;
@ -374,8 +365,7 @@ TEST_CASE("patsetbit", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3) {
auto prev_val = det.getPatternBitMask();
{
std::ostringstream oss;

10
slsDetectorSoftware/tests/test-CmdProxy-rx.cpp
View File

@ -452,7 +452,7 @@ TEST_CASE("rx_roi", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
REQUIRE_THROWS(proxy.Call("rx_roi", {"5", "10"}, -1, PUT));
} else {
auto prev_val = det.getRxROI();
@ -514,7 +514,7 @@ TEST_CASE("rx_clearroi", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
if (det_type == defs::CHIPTESTBOARD) {
REQUIRE_THROWS(proxy.Call("rx_clearroi", {}, -1, PUT));
} else {
auto prev_val = det.getRxROI();
@ -806,7 +806,7 @@ TEST_CASE("rx_zmqport", "[.cmd][.rx]") {
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER) {
socketsperdetector *= 2;
} else if (det_type == defs::JUNGFRAU) {
} else if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
proxy.Call("numinterfaces", {"2"}, -1, PUT);
socketsperdetector *= 2;
}
@ -831,7 +831,7 @@ TEST_CASE("rx_zmqport", "[.cmd][.rx]") {
for (int i = 0; i != det.size(); ++i) {
det.setRxZmqPort(prev_val_zmqport[i], i);
}
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
det.setNumberofUDPInterfaces(prev_val_numinterfaces);
}
}
@ -949,8 +949,6 @@ TEST_CASE("rx_dbitoffset", "[.cmd][.rx]") {
}
}
/* Moench */
TEST_CASE("rx_jsonaddheader", "[.cmd][.rx]") {
Detector det;
CmdProxy proxy(&det);

220
slsDetectorSoftware/tests/test-CmdProxy.cpp
View File

@ -116,14 +116,8 @@ TEST_CASE("detectorserverversion", "[.cmd]") {
TEST_CASE("hardwareversion", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type != defs::EIGER) {
REQUIRE_NOTHROW(proxy.Call("hardwareversion", {}, -1, GET));
REQUIRE_THROWS(proxy.Call("hardwareversion", {"0"}, -1, PUT));
} else {
REQUIRE_THROWS(proxy.Call("hardwareversion", {"0"}, -1, PUT));
REQUIRE_THROWS(proxy.Call("hardwareversion", {}, -1, GET));
}
}
TEST_CASE("kernelversion", "[.cmd]") {
@ -149,7 +143,8 @@ TEST_CASE("moduleid", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::GOTTHARD2 || det_type == defs::MYTHEN3 ||
det_type == defs::EIGER || det_type == defs::JUNGFRAU) {
det_type == defs::EIGER || det_type == defs::JUNGFRAU ||
det_type == defs::MOENCH) {
REQUIRE_NOTHROW(proxy.Call("moduleid", {}, -1, GET));
} else {
REQUIRE_THROWS(proxy.Call("moduleid", {}, -1, GET));
@ -217,6 +212,7 @@ TEST_CASE("settings", "[.cmd]") {
std::vector<std::string> sett;
switch (det_type) {
case defs::JUNGFRAU:
case defs::MOENCH:
sett.push_back("gain0");
sett.push_back("highgain0");
break;
@ -232,16 +228,6 @@ TEST_CASE("settings", "[.cmd]") {
sett.push_back("fixgain1");
sett.push_back("fixgain2");
break;
case defs::MOENCH:
sett.push_back("g1_hg");
sett.push_back("g1_lg");
sett.push_back("g2_hc_hg");
sett.push_back("g2_hc_lg");
sett.push_back("g2_lc_hg");
sett.push_back("g2_lc_lg");
sett.push_back("g4_hg");
sett.push_back("g4_lg");
break;
case defs::MYTHEN3:
sett.push_back("standard");
sett.push_back("fast");
@ -525,9 +511,9 @@ TEST_CASE("gappixels", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
// test only for jungfrau and eiger(quad or full module only)
// test eiger(quad or full module only)
bool gapPixelTest = false;
if (det_type == defs::JUNGFRAU)
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH)
gapPixelTest = true;
else if (det_type == defs::EIGER) {
bool quad = det.getQuad().squash(false);
@ -574,17 +560,17 @@ TEST_CASE("fliprows", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
bool jungfrauhw2 = false;
if (det_type == defs::JUNGFRAU &&
bool hw2 = false;
if ((det_type == defs::JUNGFRAU || det_type == defs::MOENCH) &&
((det.getHardwareVersion().tsquash(
"inconsistent serial number to test") == "2.0"))) {
jungfrauhw2 = true;
hw2 = true;
}
if (det_type == defs::EIGER || jungfrauhw2) {
if (det_type == defs::EIGER || hw2) {
auto previous = det.getFlipRows();
auto previous_numudp = det.getNumberofUDPInterfaces().tsquash(
"inconsistent number of udp interfaces to test");
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
det.setNumberofUDPInterfaces(2);
}
std::ostringstream oss1, oss2, oss3;
@ -597,7 +583,7 @@ TEST_CASE("fliprows", "[.cmd]") {
for (int i = 0; i != det.size(); ++i) {
det.setFlipRows(previous[i], {i});
}
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
det.setNumberofUDPInterfaces(previous_numudp);
}
} else {
@ -611,10 +597,10 @@ TEST_CASE("master", "[.cmd]") {
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD || det_type == defs::GOTTHARD2 ||
det_type == defs::JUNGFRAU) {
det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
REQUIRE_NOTHROW(proxy.Call("master", {}, -1, GET));
if (det_type == defs::EIGER || det_type == defs::GOTTHARD2 ||
det_type == defs::JUNGFRAU) {
det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
// get previous master
int prevMaster = 0;
{
@ -802,7 +788,7 @@ TEST_CASE("exptime", "[.cmd][.time]") {
proxy.Call("exptime", {"1s"}, -1, PUT, oss);
REQUIRE(oss.str() == "exptime 1s\n");
}
if (det_type != defs::JUNGFRAU) {
if (det_type != defs::JUNGFRAU && det_type != defs::MOENCH) {
{
std::ostringstream oss;
proxy.Call("exptime", {"0"}, -1, PUT, oss);
@ -908,7 +894,6 @@ TEST_CASE("delayl", "[.cmd]") {
switch (det_type) {
case defs::EIGER:
case defs::CHIPTESTBOARD:
case defs::MOENCH:
case defs::GOTTHARD2:
case defs::MYTHEN3:
REQUIRE_THROWS(proxy.Call("delayl", {}, -1, GET));
@ -926,7 +911,6 @@ TEST_CASE("periodl", "[.cmd]") {
switch (det_type) {
case defs::EIGER:
case defs::CHIPTESTBOARD:
case defs::MOENCH:
case defs::GOTTHARD2:
case defs::MYTHEN3:
REQUIRE_THROWS(proxy.Call("periodl", {}, -1, GET));
@ -1060,12 +1044,12 @@ TEST_CASE("readoutspeed", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU ||
det_type == defs::GOTTHARD2) {
det_type == defs::MOENCH || det_type == defs::GOTTHARD2) {
auto prev_val = det.getReadoutSpeed();
// full speed for jungfrau only works for new boards (chipv1.1 is with
// new board [hw1.0 and chipv1.0 not tested here])
if ((det_type == defs::JUNGFRAU &&
// full speed for jungfrau/moench only works for new boards (chipv1.1 is
// with new board [hw1.0 and chipv1.0 not tested here])
if (((det_type == defs::JUNGFRAU || det_type == defs::MOENCH) &&
det.getChipVersion().squash() * 10 == 11) ||
(det_type == defs::EIGER)) {
std::ostringstream oss1, oss2, oss3, oss4;
@ -1079,7 +1063,8 @@ TEST_CASE("readoutspeed", "[.cmd]") {
REQUIRE(oss4.str() == "readoutspeed full_speed\n");
}
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU) {
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU ||
det_type == defs::MOENCH) {
{
std::ostringstream oss1, oss2, oss3, oss4;
proxy.Call("readoutspeed", {"1"}, -1, PUT, oss1);
@ -1145,7 +1130,7 @@ TEST_CASE("readoutspeedlist", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::GOTTHARD2 || det_type == defs::JUNGFRAU ||
det_type == defs::EIGER) {
det_type == defs::MOENCH || det_type == defs::EIGER) {
REQUIRE_NOTHROW(proxy.Call("readoutspeedlist", {}, -1, GET));
REQUIRE_THROWS(proxy.Call("readoutspeedlist", {}, -1, PUT));
} else {
@ -1158,7 +1143,7 @@ TEST_CASE("adcphase", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::GOTTHARD || det_type == defs::JUNGFRAU ||
det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH) {
det_type == defs::MOENCH || det_type == defs::CHIPTESTBOARD) {
if (det_type == defs::GOTTHARD) {
std::ostringstream oss1;
proxy.Call("adcphase", {"20"}, -1, PUT, oss1);
@ -1196,8 +1181,8 @@ TEST_CASE("maxadcphaseshift", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH ||
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD ||
det_type == defs::MYTHEN3 || // only because clk index of 0 exists
det_type == defs::GOTTHARD2) { // only because clk index of 0 exists
REQUIRE_NOTHROW(proxy.Call("maxadcphaseshift", {}, -1, GET));
@ -1210,7 +1195,8 @@ TEST_CASE("dbitphase", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD) {
auto prev_val = det.getDBITPhase();
{
std::ostringstream oss1, oss2;
@ -1239,7 +1225,8 @@ TEST_CASE("maxdbitphaseshift", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD ||
det_type == defs::MYTHEN3 || // only because clk index of 0 exists
det_type == defs::GOTTHARD2) { // only because clk index of 0 exists
REQUIRE_NOTHROW(proxy.Call("maxdbitphaseshift", {}, -1, GET));
@ -1364,8 +1351,8 @@ TEST_CASE("highvoltage", "[.cmd]") {
}
}
// range 0, 60 - 200
else if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH) {
else if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD) {
REQUIRE_THROWS(proxy.Call("highvoltage", {"50"}, -1, PUT));
{
std::ostringstream oss1, oss2;
@ -1443,8 +1430,8 @@ TEST_CASE("powerchip", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD2 || det_type == defs::MOENCH) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3 || det_type == defs::GOTTHARD2) {
auto prev_val = det.getPowerChip();
{
std::ostringstream oss;
@ -1493,8 +1480,9 @@ TEST_CASE("imagetest", "[.cmd]") {
for (int i = 0; i != det.size(); ++i) {
det.setImageTestMode(prev_val[i], {i});
}
} else if (det_type != defs::JUNGFRAU && det_type != defs::EIGER) {
// wont fail for eiger and jungfrau virtual servers
} else if (det_type != defs::JUNGFRAU && det_type != defs::MOENCH &&
det_type != defs::EIGER) {
// wont fail for eiger and jungfrau/moench virtual servers
REQUIRE_THROWS(proxy.Call("imagetest", {}, -1, GET));
}
}
@ -1616,7 +1604,7 @@ TEST_CASE("filterresistor", "[.cmd]") {
// only for chipv1.1
bool chip11 = false;
if (det_type == defs::JUNGFRAU &&
if ((det_type == defs::JUNGFRAU || det_type == defs::MOENCH) &&
det.getChipVersion().squash() * 10 == 11) {
chip11 = true;
}
@ -1707,14 +1695,15 @@ TEST_CASE("readnrows", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU) {
bool jungfrauhw2 = false;
if (det_type == defs::JUNGFRAU &&
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU ||
det_type == defs::MOENCH) {
bool hw2 = false;
if ((det_type == defs::JUNGFRAU || det_type == defs::MOENCH) &&
((det.getHardwareVersion().tsquash(
"inconsistent hardware version number to test") == "2.0"))) {
jungfrauhw2 = true;
hw2 = true;
}
if (det_type == defs::JUNGFRAU && !jungfrauhw2) {
if ((det_type == defs::JUNGFRAU || det_type == defs::MOENCH) && !hw2) {
{
std::ostringstream oss;
proxy.Call("readnrows", {}, -1, GET, oss);
@ -1737,7 +1726,7 @@ TEST_CASE("readnrows", "[.cmd]") {
proxy.Call("readnrows", {"16"}, -1, PUT, oss);
REQUIRE(oss.str() == "readnrows 16\n");
}
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
REQUIRE_THROWS(proxy.Call("readnrows", {"7"}, -1, PUT));
REQUIRE_THROWS(proxy.Call("readnrows", {"20"}, -1, PUT));
REQUIRE_THROWS(proxy.Call("readnrows", {"44"}, -1, PUT));
@ -1759,7 +1748,8 @@ TEST_CASE("currentsource", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::GOTTHARD2 || det_type == defs::JUNGFRAU) {
if (det_type == defs::GOTTHARD2 || det_type == defs::JUNGFRAU ||
det_type == defs::MOENCH) {
auto prev_val = det.getCurrentSource();
if (det_type == defs::GOTTHARD2) {
@ -1783,7 +1773,7 @@ TEST_CASE("currentsource", "[.cmd]") {
REQUIRE_THROWS(proxy.Call("currentsource",
{"1", "fix", "42", "normal"}, -1, PUT));
}
// jungfrau
// jungfrau/moench
else {
int chipVersion = det.getChipVersion().tsquash(
"inconsistent chip versions to test") *
@ -1911,7 +1901,8 @@ TEST_CASE("temp_adc", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::GOTTHARD) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::GOTTHARD) {
REQUIRE_NOTHROW(proxy.Call("temp_adc", {}, -1, GET));
std::ostringstream oss;
REQUIRE_NOTHROW(proxy.Call("temp_adc", {}, 0, GET, oss));
@ -1926,7 +1917,7 @@ TEST_CASE("temp_fpga", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type != defs::MOENCH && det_type != defs::CHIPTESTBOARD) {
if (det_type != defs::CHIPTESTBOARD) {
REQUIRE_NOTHROW(proxy.Call("temp_fpga", {}, -1, GET));
std::ostringstream oss;
REQUIRE_NOTHROW(proxy.Call("temp_fpga", {}, 0, GET, oss));
@ -1983,7 +1974,7 @@ TEST_CASE("defaultdac", "[.cmd]") {
det.setDefaultDac(it, prev_val[i], {i});
}
}
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
std::vector<defs::dacIndex> daclist = {
defs::VREF_PRECH, defs::VREF_DS, defs::VREF_COMP};
for (auto it : daclist) {
@ -2023,7 +2014,7 @@ TEST_CASE("resetdacs", "[.cmd]") {
REQUIRE_NOTHROW(proxy.Call("resetdacs", {}, -1, PUT));
REQUIRE_NOTHROW(proxy.Call("resetdacs", {"hard"}, -1, PUT));
// settings should not change especially for jungfrau and m3
// settings should not change especially for jungfrau/moench and m3
auto next_val = det.getSettings();
for (int i = 0; i != det.size(); ++i) {
REQUIRE(prev_val[i] == next_val[i]);
@ -2043,7 +2034,8 @@ TEST_CASE("trigger", "[.cmd]") {
auto det_type = det.getDetectorType().squash();
if (det_type == defs::MYTHEN3) {
REQUIRE_NOTHROW(proxy.Call("trigger", {}, -1, PUT));
} else if (det_type == defs::EIGER || det_type == defs::JUNGFRAU) {
} else if (det_type == defs::EIGER || det_type == defs::JUNGFRAU ||
det_type == defs::MOENCH) {
auto prev_timing =
det.getTimingMode().tsquash("inconsistent timing mode in test");
auto prev_frames =
@ -2083,7 +2075,8 @@ TEST_CASE("blockingtrigger", "[.cmd]") {
CmdProxy proxy(&det);
REQUIRE_THROWS(proxy.Call("blockingtrigger", {}, -1, GET));
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU) {
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU ||
det_type == defs::MOENCH) {
auto prev_timing =
det.getTimingMode().tsquash("inconsistent timing mode in test");
auto prev_frames =
@ -2334,6 +2327,7 @@ TEST_CASE("scan", "[.cmd]") {
notImplementedInd = defs::VCASCP_PB;
break;
case defs::JUNGFRAU:
case defs::MOENCH:
ind = defs::VB_COMP;
notImplementedInd = defs::VSVP;
break;
@ -2341,10 +2335,6 @@ TEST_CASE("scan", "[.cmd]") {
ind = defs::VREF_DS;
notImplementedInd = defs::VSVP;
break;
case defs::MOENCH:
ind = defs::VBP_COLBUF;
notImplementedInd = defs::VSVP;
break;
case defs::GOTTHARD2:
ind = defs::VB_COMP_FE;
notImplementedInd = defs::VSVP;
@ -2460,7 +2450,7 @@ TEST_CASE("numinterfaces", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
auto prev_val = det.getNumberofUDPInterfaces().tsquash(
"inconsistent numinterfaces to test");
{
@ -2515,8 +2505,9 @@ TEST_CASE("udp_dstlist", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::EIGER ||
det_type == defs::MYTHEN3 || det_type == defs::GOTTHARD2) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::EIGER || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD2) {
REQUIRE_NOTHROW(proxy.Call("udp_dstlist", {}, 0, GET, std::cout, 0));
REQUIRE_THROWS(proxy.Call(
"udp_dstlist", {"ip=0.0.0.0", "mac=00:00:00:00:00:00", "port=1233"},
@ -2530,8 +2521,9 @@ TEST_CASE("udp_numdst", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::EIGER ||
det_type == defs::MYTHEN3 || det_type == defs::GOTTHARD2) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::EIGER || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD2) {
REQUIRE_NOTHROW(proxy.Call("udp_numdst", {}, -1, GET));
} else {
REQUIRE_THROWS(proxy.Call("udp_numdst", {}, -1, GET));
@ -2550,8 +2542,8 @@ TEST_CASE("udp_firstdst", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD2) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3 || det_type == defs::GOTTHARD2) {
auto prev_val = det.getFirstUDPDestination();
{
std::ostringstream oss;
@ -2627,7 +2619,8 @@ TEST_CASE("udp_srcip2", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::GOTTHARD2) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::GOTTHARD2) {
auto prev_val = det.getSourceUDPIP2();
REQUIRE_THROWS(proxy.Call("udp_srcip2", {"0.0.0.0"}, -1, PUT));
{
@ -2648,7 +2641,8 @@ TEST_CASE("udp_dstip2", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::GOTTHARD2) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::GOTTHARD2) {
REQUIRE_THROWS(proxy.Call("udp_dstip2", {"0.0.0.0"}, -1, PUT));
} else {
REQUIRE_THROWS(proxy.Call("udp_dstip2", {}, -1, GET));
@ -2659,7 +2653,8 @@ TEST_CASE("udp_srcmac2", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::GOTTHARD2) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::GOTTHARD2) {
auto prev_val = det.getSourceUDPMAC2();
REQUIRE_THROWS(
proxy.Call("udp_srcmac2", {"00:00:00:00:00:00"}, -1, PUT));
@ -2682,7 +2677,8 @@ TEST_CASE("udp_dstmac2", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::GOTTHARD2) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::GOTTHARD2) {
REQUIRE_THROWS(
proxy.Call("udp_dstmac2", {"00:00:00:00:00:00"}, -1, PUT));
} else {
@ -2694,8 +2690,8 @@ TEST_CASE("udp_dstport2", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::GOTTHARD2 ||
det_type == defs::EIGER) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::GOTTHARD2 || det_type == defs::EIGER) {
auto prev_val = det.getDestinationUDPPort2();
{
std::ostringstream oss;
@ -2730,7 +2726,7 @@ TEST_CASE("tengiga", "[.cmd]") {
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH || det_type == defs::MYTHEN3) {
det_type == defs::MYTHEN3) {
auto tengiga = det.getTenGiga();
det.setTenGiga(false);
@ -2753,7 +2749,8 @@ TEST_CASE("flowcontrol10g", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU) {
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU ||
det_type == defs::MOENCH) {
auto prev_val = det.getTenGigaFlowControl();
{
std::ostringstream oss;
@ -2783,10 +2780,11 @@ TEST_CASE("txdelay_frame", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU ||
det_type == defs::MYTHEN3) {
det_type == defs::MOENCH || det_type == defs::MYTHEN3) {
auto prev_val = det.getTransmissionDelayFrame();
auto val = 5000;
if (det_type == defs::JUNGFRAU || det_type == defs::MYTHEN3) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
val = 5;
}
std::string sval = std::to_string(val);
@ -2810,10 +2808,11 @@ TEST_CASE("txdelay", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::EIGER || det_type == defs::JUNGFRAU ||
det_type == defs::MYTHEN3) {
det_type == defs::MOENCH || det_type == defs::MYTHEN3) {
// cannot get transmission delay with just one module
if ((det_type == defs::JUNGFRAU || det_type == defs::MYTHEN3) &&
if ((det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) &&
(det.size() < 2)) {
REQUIRE_THROWS(proxy.Call("txdelay", {}, -1, GET));
int val = 5;
@ -2835,7 +2834,8 @@ TEST_CASE("txdelay", "[.cmd]") {
}
auto prev_frame = det.getTransmissionDelayFrame();
auto val = 5000;
if (det_type == defs::JUNGFRAU || det_type == defs::MYTHEN3) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::MYTHEN3) {
val = 5;
}
std::string sval = std::to_string(val);
@ -2888,7 +2888,7 @@ TEST_CASE("zmqport", "[.cmd]") {
int prev = 1;
if (det_type == defs::EIGER) {
socketsperdetector *= 2;
} else if (det_type == defs::JUNGFRAU) {
} else if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
prev = det.getNumberofUDPInterfaces().squash();
det.setNumberofUDPInterfaces(2);
socketsperdetector *= 2;
@ -2922,7 +2922,7 @@ TEST_CASE("zmqport", "[.cmd]") {
std::to_string(port + i * socketsperdetector) +
'\n');
}
if (det_type == defs::JUNGFRAU) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH) {
det.setNumberofUDPInterfaces(prev);
}
}
@ -2976,8 +2976,8 @@ TEST_CASE("programfpga", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::JUNGFRAU || det_type == defs::MYTHEN3 ||
if (det_type == defs::CHIPTESTBOARD || det_type == defs::JUNGFRAU ||
det_type == defs::MOENCH || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD2) {
// TODO program a real board?
/// afs/psi.ch/project/sls_det_firmware/jungfrau_firmware/cyclone_V/v0_8/Jungfrau_MCB.pof
@ -3008,8 +3008,8 @@ TEST_CASE("updatekernel", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH || det_type == defs::MYTHEN3 ||
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD2) {
// TODO: send real server?
// std::ostringstream oss;
@ -3027,8 +3027,8 @@ TEST_CASE("rebootcontroller", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH || det_type == defs::MYTHEN3 ||
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD2 || det_type == defs::GOTTHARD) {
// TODO: reboot real server?
// REQUIRE_NOTHROW(proxy.Call("rebootcontroller", {}, -1, PUT));
@ -3043,8 +3043,8 @@ TEST_CASE("update", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD) {
// TODO: update real server and firmware?
// REQUIRE_NOTHROW(proxy.Call("update",
// {"jungfrauDetectorServerv4.0.1.0", "pc13784",
@ -3087,8 +3087,8 @@ TEST_CASE("adcreg", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH || det_type == defs::GOTTHARD) {
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD || det_type == defs::GOTTHARD) {
std::ostringstream oss;
proxy.Call("adcreg", {"0x8", "0x3"}, -1, PUT, oss);
REQUIRE(oss.str() == "adcreg [0x8, 0x3]\n");
@ -3172,8 +3172,8 @@ TEST_CASE("firmwaretest", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH || det_type == defs::GOTTHARD ||
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD || det_type == defs::GOTTHARD ||
det_type == defs::MYTHEN3 || det_type == defs::GOTTHARD2) {
std::ostringstream oss;
proxy.Call("firmwaretest", {}, -1, PUT, oss);
@ -3189,8 +3189,8 @@ TEST_CASE("bustest", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH || det_type == defs::GOTTHARD ||
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD || det_type == defs::GOTTHARD ||
det_type == defs::MYTHEN3 || det_type == defs::GOTTHARD2) {
std::ostringstream oss;
proxy.Call("bustest", {}, -1, PUT, oss);
@ -3229,8 +3229,8 @@ TEST_CASE("adcinvert", "[.cmd]") {
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::CHIPTESTBOARD || det_type == defs::MOENCH ||
det_type == defs::JUNGFRAU) {
if (det_type == defs::CHIPTESTBOARD || det_type == defs::JUNGFRAU ||
det_type == defs::MOENCH) {
auto prev_val = det.getADCInvert();
{
std::ostringstream oss;
@ -3320,8 +3320,8 @@ TEST_CASE("framecounter", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH || det_type == defs::MYTHEN3 ||
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD2) {
auto framecounter = det.getNumberOfFramesFromStart().squash();
std::ostringstream oss;
@ -3339,8 +3339,8 @@ TEST_CASE("runtime", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH || det_type == defs::MYTHEN3 ||
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD2) {
std::ostringstream oss;
proxy.Call("runtime", {}, -1, GET, oss);
@ -3357,8 +3357,8 @@ TEST_CASE("frametime", "[.cmd]") {
Detector det;
CmdProxy proxy(&det);
auto det_type = det.getDetectorType().squash();
if (det_type == defs::JUNGFRAU || det_type == defs::CHIPTESTBOARD ||
det_type == defs::MOENCH || det_type == defs::MYTHEN3 ||
if (det_type == defs::JUNGFRAU || det_type == defs::MOENCH ||
det_type == defs::CHIPTESTBOARD || det_type == defs::MYTHEN3 ||
det_type == defs::GOTTHARD2) {
std::ostringstream oss;
proxy.Call("frametime", {}, -1, GET, oss);

17
slsReceiverSoftware/src/Arping.cpp
View File

@ -5,6 +5,7 @@
#include <chrono>
#include <signal.h>
#include <sys/wait.h>
#include <thread>
#include <unistd.h>
@ -16,6 +17,8 @@ namespace sls {
#define gettid() syscall(SYS_gettid)
#endif
void func(int signum) { wait(NULL); }
Arping::Arping() {}
Arping::~Arping() {
@ -44,10 +47,11 @@ pid_t Arping::GetProcessId() const { return childPid; }
bool Arping::IsRunning() const { return runningFlag; }
void Arping::StartProcess() {
TestCommands();
// to prevent zombies from child processes being killed
signal(SIGCHLD, SIG_IGN);
signal(SIGCHLD, func);
// test once to throw exception if arping failed
TestForErrors();
// Needs to be a fork and udp socket deleted after Listening threads
// done running to prevent udp socket cannot bind because of popen
@ -90,7 +94,7 @@ void Arping::ProcessExecution() {
}
}
void Arping::TestCommands() {
void Arping::TestForErrors() {
// atleast one interface must be set up
if (commands[0].empty()) {
throw RuntimeError(
@ -116,7 +120,8 @@ std::string Arping::ExecuteCommands() {
FILE *sysFile = popen(cmd.c_str(), "r");
if (sysFile == NULL) {
std::ostringstream os;
os << "Could not Arping [" << cmd << " ] : Popen fail";
os << "Could not Arping (" << cmd << " ) : Popen fail ("
<< strerror(errno) << ')';
return os.str();
}
@ -128,7 +133,7 @@ std::string Arping::ExecuteCommands() {
// check exit status of command
if (pclose(sysFile)) {
std::ostringstream os;
os << "Could not arping[" << cmd << "] : " << output;
os << "Could not arping (" << cmd << ") : " << strerror(errno);
return os.str();
} else {
LOG(logDEBUG) << output;

2
slsReceiverSoftware/src/Arping.h
View File

@ -28,7 +28,7 @@ class Arping {
void StopProcess();
private:
void TestCommands();
void TestForErrors();
std::string ExecuteCommands();
void ProcessExecution();

32
slsReceiverSoftware/src/ClientInterface.cpp
View File

@ -349,9 +349,10 @@ int ClientInterface::setup_receiver(Interface &socket) {
retvals[1] = r;
}
}
impl()->setUDPPortNumber(arg.udp_dstport);
impl()->setUDPPortNumber2(arg.udp_dstport2);
if (detType == JUNGFRAU || detType == GOTTHARD2) {
if (detType == JUNGFRAU || detType == MOENCH || detType == GOTTHARD2) {
impl()->setNumberofUDPInterfaces(arg.udpInterfaces);
}
impl()->setUDPSocketBufferSize(0);
@ -366,7 +367,8 @@ int ClientInterface::setup_receiver(Interface &socket) {
impl()->setNumberOfAdditionalStorageCells(
arg.additionalStorageCells);
}
if (detType == MOENCH || detType == CHIPTESTBOARD) {
if (detType == CHIPTESTBOARD) {
impl()->setNumberofAnalogSamples(arg.analogSamples);
}
if (detType == CHIPTESTBOARD) {
@ -386,7 +388,7 @@ int ClientInterface::setup_receiver(Interface &socket) {
impl()->setQuad(arg.quad == 0 ? false : true);
impl()->setThresholdEnergy(arg.thresholdEnergyeV[0]);
}
if (detType == EIGER || detType == JUNGFRAU) {
if (detType == EIGER || detType == JUNGFRAU || detType == MOENCH) {
impl()->setReadNRows(arg.readNRows);
}
if (detType == MYTHEN3) {
@ -400,14 +402,12 @@ int ClientInterface::setup_receiver(Interface &socket) {
impl()->setDynamicRange(arg.dynamicRange);
}
impl()->setTimingMode(arg.timMode);
if (detType == EIGER || detType == MOENCH || detType == CHIPTESTBOARD ||
if (detType == EIGER || detType == CHIPTESTBOARD ||
detType == MYTHEN3) {
impl()->setTenGigaEnable(arg.tenGiga);
}
if (detType == CHIPTESTBOARD) {
impl()->setReadoutMode(arg.roMode);
}
if (detType == CHIPTESTBOARD || detType == MOENCH) {
impl()->setADCEnableMask(arg.adcMask);
impl()->setTenGigaADCEnableMask(arg.adc10gMask);
}
@ -444,8 +444,8 @@ void ClientInterface::setDetectorType(detectorType arg) {
case GOTTHARD:
case EIGER:
case CHIPTESTBOARD:
case MOENCH:
case JUNGFRAU:
case MOENCH:
case MYTHEN3:
case GOTTHARD2:
break;
@ -564,7 +564,7 @@ int ClientInterface::set_burst_mode(Interface &socket) {
int ClientInterface::set_num_analog_samples(Interface &socket) {
auto value = socket.Receive<int>();
LOG(logDEBUG1) << "Setting num analog samples to " << value;
if (detType != CHIPTESTBOARD && detType != MOENCH) {
if (detType != CHIPTESTBOARD) {
functionNotImplemented();
}
try {
@ -912,8 +912,7 @@ int ClientInterface::get_overwrite(Interface &socket) {
int ClientInterface::enable_tengiga(Interface &socket) {
auto val = socket.Receive<int>();
if (detType != EIGER && detType != CHIPTESTBOARD && detType != MOENCH &&
detType != MYTHEN3)
if (detType != EIGER && detType != CHIPTESTBOARD && detType != MYTHEN3)
functionNotImplemented();
if (val >= 0) {
@ -1353,7 +1352,7 @@ int ClientInterface::set_read_n_rows(Interface &socket) {
auto arg = socket.Receive<int>();
if (arg >= 0) {
verifyIdle(socket);
if (detType != EIGER && detType != JUNGFRAU) {
if (detType != EIGER && detType != JUNGFRAU && detType != MOENCH) {
throw RuntimeError("Could not set number of rows. Not implemented "
"for this detector");
}
@ -1436,7 +1435,7 @@ MacAddr ClientInterface::setUdpIp2(IpAddr arg) {
int ClientInterface::set_udp_ip2(Interface &socket) {
auto arg = socket.Receive<IpAddr>();
verifyIdle(socket);
if (detType != JUNGFRAU && detType != GOTTHARD2) {
if (detType != JUNGFRAU && detType != MOENCH && detType != GOTTHARD2) {
throw RuntimeError(
"UDP Destination IP2 not implemented for this detector");
}
@ -1455,7 +1454,8 @@ int ClientInterface::set_udp_port(Interface &socket) {
int ClientInterface::set_udp_port2(Interface &socket) {
auto arg = socket.Receive<int>();
verifyIdle(socket);
if (detType != JUNGFRAU && detType != EIGER && detType != GOTTHARD2) {
if (detType != JUNGFRAU && detType != MOENCH && detType != EIGER &&
detType != GOTTHARD2) {
throw RuntimeError(
"UDP Destination Port2 not implemented for this detector");
}
@ -1468,7 +1468,7 @@ int ClientInterface::set_num_interfaces(Interface &socket) {
auto arg = socket.Receive<int>();
arg = (arg > 1 ? 2 : 1);
verifyIdle(socket);
if (detType != JUNGFRAU && detType != GOTTHARD2) {
if (detType != JUNGFRAU && detType != MOENCH && detType != GOTTHARD2) {
throw RuntimeError(
"Number of interfaces not implemented for this detector");
}
@ -1728,7 +1728,7 @@ int ClientInterface::get_receiver_roi(Interface &socket) {
int ClientInterface::set_receiver_roi(Interface &socket) {
auto arg = socket.Receive<ROI>();
if (detType == CHIPTESTBOARD || detType == MOENCH)
if (detType == CHIPTESTBOARD)
functionNotImplemented();
LOG(logDEBUG1) << "Set Receiver ROI: " << ToString(arg);
verifyIdle(socket);
@ -1744,7 +1744,7 @@ int ClientInterface::set_receiver_roi(Interface &socket) {
int ClientInterface::set_receiver_roi_metadata(Interface &socket) {
auto arg = socket.Receive<ROI>();
if (detType == CHIPTESTBOARD || detType == MOENCH)
if (detType == CHIPTESTBOARD)
functionNotImplemented();
LOG(logDEBUG1) << "Set Receiver ROI Metadata: " << ToString(arg);
verifyIdle(socket);

1
slsReceiverSoftware/src/DataProcessor.cpp
View File

@ -480,7 +480,6 @@ void DataProcessor::PadMissingPackets(sls_receiver_header header, char *data) {
memset(data + (pnum * dsize), 0xFF, dsize + 2);
break;
case CHIPTESTBOARD:
case MOENCH:
if (pnum == (pperFrame - 1))
memset(data + (pnum * dsize), 0xFF, corrected_dsize);
else

94
slsReceiverSoftware/src/GeneralData.h
View File

@ -352,6 +352,36 @@ class JungfrauData : public GeneralData {
};
};
class MoenchData : public GeneralData {
public:
MoenchData() {
detType = slsDetectorDefs::MOENCH;
headerSizeinPacket = sizeof(slsDetectorDefs::sls_detector_header);
dataSize = 6400;
packetSize = headerSizeinPacket + dataSize;
framesPerFile = MOENCH_MAX_FRAMES_PER_FILE;
fifoDepth = 1000;
standardheader = true;
maxRowsPerReadout = 400;
UpdateImageSize();
};
void SetNumberofInterfaces(const int n) {
numUDPInterfaces = n;
UpdateImageSize();
};
private:
void UpdateImageSize() {
nPixelsX = (400);
nPixelsY = (400) / numUDPInterfaces;
imageSize = int(nPixelsX * nPixelsY * GetPixelDepth());
packetsPerFrame = imageSize / dataSize;
udpSocketBufferSize = (1000 * 1024 * 1024) / numUDPInterfaces;
};
};
class Mythen3Data : public GeneralData {
private:
int ncounters{0};
@ -565,68 +595,4 @@ class ChipTestBoardData : public GeneralData {
};
};
class MoenchData : public GeneralData {
private:
const int NUM_BYTES_PER_ANALOG_CHANNEL = 2;
public:
MoenchData() {
detType = slsDetectorDefs::MOENCH;
headerSizeinPacket = sizeof(slsDetectorDefs::sls_detector_header);
frameIndexMask = 0xFFFFFF;
framesPerFile = MOENCH_MAX_FRAMES_PER_FILE;
fifoDepth = 2500;
standardheader = true;
UpdateImageSize();
};
void SetNumberOfAnalogSamples(int n) {
nAnalogSamples = n;
UpdateImageSize();
};
void SetOneGigaAdcEnableMask(int n) {
adcEnableMaskOneGiga = n;
UpdateImageSize();
};
void SetTenGigaAdcEnableMask(int n) {
adcEnableMaskTenGiga = n;
UpdateImageSize();
};
void SetTenGigaEnable(bool tg) {
tengigaEnable = tg;
UpdateImageSize();
};
private:
void UpdateImageSize() {
uint32_t adcEnableMask =
(tengigaEnable ? adcEnableMaskTenGiga : adcEnableMaskOneGiga);
// count number of channels in x, each adc has 25 channels each
int nchanTop = __builtin_popcount(adcEnableMask & 0xF0F0F0F0) * 25;
int nchanBot = __builtin_popcount(adcEnableMask & 0x0F0F0F0F) * 25;
nPixelsX = nchanTop > 0 ? nchanTop : nchanBot;
// if both top and bottom adcs enabled, rows = 2
int nrows = 1;
if (nchanTop > 0 && nchanBot > 0) {
nrows = 2;
}
nPixelsY = nAnalogSamples / 25 * nrows;
LOG(logINFO) << "Number of Pixels: [" << nPixelsX << ", " << nPixelsY
<< "]";
dataSize = tengigaEnable ? 8144 : UDP_PACKET_DATA_BYTES;
packetSize = headerSizeinPacket + dataSize;
imageSize = nPixelsX * nPixelsY * NUM_BYTES_PER_ANALOG_CHANNEL;
packetsPerFrame = ceil((double)imageSize / (double)dataSize);
LOG(logDEBUG) << "Databytes: " << imageSize;
};
};
} // namespace sls

16
slsReceiverSoftware/src/HDF5DataFile.cpp
View File

@ -14,14 +14,14 @@ HDF5DataFile::HDF5DataFile(int index, std::mutex *hdf5Lib)
"frame number",
"exp length or sub exposure time",
"packets caught",
"bunch id",
"detector specific 1",
"timestamp",
"mod id",
"row",
"column",
"reserved",
"debug",
"round robin number",
"detector specific 2",
"detector specific 3",
"detector specific 4",
"detector type",
"detector header version",
"packets caught bit mask",
@ -317,7 +317,7 @@ void HDF5DataFile::WriteParameterDatasets(const uint64_t currentFrameNumber,
dataSetPara[2]->write(&header.packetNumber, parameterDataTypes[2],
memspace, *dataSpacePara);
i = 3;
dataSetPara[3]->write(&header.bunchId, parameterDataTypes[3], memspace,
dataSetPara[3]->write(&header.detSpec1, parameterDataTypes[3], memspace,
*dataSpacePara);
i = 4;
dataSetPara[4]->write(&header.timestamp, parameterDataTypes[4],
@ -332,13 +332,13 @@ void HDF5DataFile::WriteParameterDatasets(const uint64_t currentFrameNumber,
dataSetPara[7]->write(&header.column, parameterDataTypes[7], memspace,
*dataSpacePara);
i = 8;
dataSetPara[8]->write(&header.reserved, parameterDataTypes[8], memspace,
dataSetPara[8]->write(&header.detSpec2, parameterDataTypes[8], memspace,
*dataSpacePara);
i = 9;
dataSetPara[9]->write(&header.debug, parameterDataTypes[9], memspace,
dataSetPara[9]->write(&header.detSpec3, parameterDataTypes[9], memspace,
*dataSpacePara);
i = 10;
dataSetPara[10]->write(&header.roundRNumber, parameterDataTypes[10],
dataSetPara[10]->write(&header.detSpec4, parameterDataTypes[10],
memspace, *dataSpacePara);
i = 11;
dataSetPara[11]->write(&header.detType, parameterDataTypes[11],

14
slsReceiverSoftware/src/Implementation.cpp
View File

@ -114,8 +114,8 @@ void Implementation::setDetectorType(const detectorType d) {
case GOTTHARD:
case EIGER:
case JUNGFRAU:
case CHIPTESTBOARD:
case MOENCH:
case CHIPTESTBOARD:
case MYTHEN3:
case GOTTHARD2:
LOG(logINFO) << " ***** " << ToString(d) << " Receiver *****";
@ -139,12 +139,12 @@ void Implementation::setDetectorType(const detectorType d) {
case JUNGFRAU:
generalData = new JungfrauData();
break;
case CHIPTESTBOARD:
generalData = new ChipTestBoardData();
break;
case MOENCH:
generalData = new MoenchData();
break;
case CHIPTESTBOARD:
generalData = new ChipTestBoardData();
break;
case MYTHEN3:
generalData = new Mythen3Data();
break;
@ -226,7 +226,7 @@ const slsDetectorDefs::xy Implementation::GetPortGeometry() const {
xy portGeometry{1, 1};
if (generalData->detType == EIGER)
portGeometry.x = generalData->numUDPInterfaces;
else if (generalData->detType == JUNGFRAU)
else if (generalData->detType == JUNGFRAU || generalData->detType == MOENCH)
portGeometry.y = generalData->numUDPInterfaces;
return portGeometry;
}
@ -415,7 +415,7 @@ void Implementation::setReceiverROI(const slsDetectorDefs::ROI arg) {
portFullRoi.xmin += nPortDim.x;
portFullRoi.xmax += nPortDim.x;
}
// top bottom (jungfrau)
// top bottom (jungfrau or moench)
else {
portFullRoi.ymin += nPortDim.y;
portFullRoi.ymax += nPortDim.y;
@ -1132,7 +1132,7 @@ int Implementation::getUDPSocketBufferSize() const {
void Implementation::setUDPSocketBufferSize(const int s) {
size_t listSize = listener.size();
if ((generalData->detType == JUNGFRAU ||
if ((generalData->detType == JUNGFRAU || generalData->detType == MOENCH ||
generalData->detType == GOTTHARD2) &&
(int)listSize != generalData->numUDPInterfaces) {
throw RuntimeError("Number of Interfaces " +

1
slsReceiverSoftware/src/Listener.cpp
View File

@ -471,7 +471,6 @@ void Listener::CopyPacket(char *dst, char *src, uint32_t dataSize,
memcpy(dst + dataSize - 2, &src[detHeaderSize], dataSize + 2);
break;
case CHIPTESTBOARD:
case MOENCH:
if (pnum == (generalData->packetsPerFrame - 1))
memcpy(dst + (pnum * dataSize), &src[detHeaderSize],
correctedDataSize);

59
slsReceiverSoftware/src/MasterAttributes.cpp
View File

@ -16,6 +16,9 @@ void MasterAttributes::GetBinaryAttributes(
case slsDetectorDefs::JUNGFRAU:
GetJungfrauBinaryAttributes(w);
break;
case slsDetectorDefs::MOENCH:
GetMoenchBinaryAttributes(w);
break;
case slsDetectorDefs::EIGER:
GetEigerBinaryAttributes(w);
break;
@ -25,9 +28,6 @@ void MasterAttributes::GetBinaryAttributes(
case slsDetectorDefs::GOTTHARD2:
GetGotthard2BinaryAttributes(w);
break;
case slsDetectorDefs::MOENCH:
GetMoenchBinaryAttributes(w);
break;
case slsDetectorDefs::CHIPTESTBOARD:
GetCtbBinaryAttributes(w);
break;
@ -48,6 +48,9 @@ void MasterAttributes::WriteHDF5Attributes(H5::H5File *fd, H5::Group *group) {
case slsDetectorDefs::JUNGFRAU:
WriteJungfrauHDF5Attributes(fd, group);
break;
case slsDetectorDefs::MOENCH:
WriteMoenchHDF5Attributes(fd, group);
break;
case slsDetectorDefs::EIGER:
WriteEigerHDF5Attributes(fd, group);
break;
@ -57,9 +60,6 @@ void MasterAttributes::WriteHDF5Attributes(H5::H5File *fd, H5::Group *group) {
case slsDetectorDefs::GOTTHARD2:
WriteGotthard2HDF5Attributes(fd, group);
break;
case slsDetectorDefs::MOENCH:
WriteMoenchHDF5Attributes(fd, group);
break;
case slsDetectorDefs::CHIPTESTBOARD:
WriteCtbHDF5Attributes(fd, group);
break;
@ -622,6 +622,28 @@ void MasterAttributes::WriteJungfrauHDF5Attributes(H5::H5File *fd,
}
#endif
void MasterAttributes::GetMoenchBinaryAttributes(
rapidjson::PrettyWriter<rapidjson::StringBuffer> *w) {
w->Key("Exptime");
w->String(ToString(exptime).c_str());
w->Key("Period");
w->String(ToString(period).c_str());
w->Key("Number of UDP Interfaces");
w->Uint(numUDPInterfaces);
w->Key("Number of rows");
w->Uint(readNRows);
}
#ifdef HDF5C
void MasterAttributes::WriteMoenchHDF5Attributes(H5::H5File *fd,
H5::Group *group) {
MasterAttributes::WriteHDF5Exptime(fd, group);
MasterAttributes::WriteHDF5Period(fd, group);
MasterAttributes::WriteHDF5NumUDPInterfaces(fd, group);
MasterAttributes::WriteHDF5ReadNRows(fd, group);
}
#endif
void MasterAttributes::GetEigerBinaryAttributes(
rapidjson::PrettyWriter<rapidjson::StringBuffer> *w) {
w->Key("Dynamic Range");
@ -719,31 +741,6 @@ void MasterAttributes::WriteGotthard2HDF5Attributes(H5::H5File *fd,
}
#endif
void MasterAttributes::GetMoenchBinaryAttributes(
rapidjson::PrettyWriter<rapidjson::StringBuffer> *w) {
w->Key("Exptime");
w->String(ToString(exptime).c_str());
w->Key("Period");
w->String(ToString(period).c_str());
w->Key("Ten Giga");
w->Uint(tenGiga);
w->Key("ADC Mask");
w->String(ToStringHex(adcmask).c_str());
w->Key("Analog Samples");
w->Uint(analogSamples);
}
#ifdef HDF5C
void MasterAttributes::WriteMoenchHDF5Attributes(H5::H5File *fd,
H5::Group *group) {
MasterAttributes::WriteHDF5Exptime(fd, group);
MasterAttributes::WriteHDF5Period(fd, group);
MasterAttributes::WriteHDF5TenGiga(fd, group);
MasterAttributes::WriteHDF5AdcMask(fd, group);
MasterAttributes::WriteHDF5AnalogSamples(fd, group);
}
#endif
void MasterAttributes::GetCtbBinaryAttributes(
rapidjson::PrettyWriter<rapidjson::StringBuffer> *w) {
w->Key("Exptime");

2
slsReceiverSoftware/src/receiver_defs.h
View File

@ -24,9 +24,9 @@ namespace sls {
#define MAX_FRAMES_PER_FILE 20000
#define SHORT_MAX_FRAMES_PER_FILE 100000
#define MOENCH_MAX_FRAMES_PER_FILE 100000
#define EIGER_MAX_FRAMES_PER_FILE 10000
#define JFRAU_MAX_FRAMES_PER_FILE 10000
#define MOENCH_MAX_FRAMES_PER_FILE 10000
#define CTB_MAX_FRAMES_PER_FILE 20000
#define MYTHEN3_MAX_FRAMES_PER_FILE 10000
#define GOTTHARD2_MAX_FRAMES_PER_FILE 20000

7
slsSupportLib/include/sls/container_utils.h
View File

@ -10,6 +10,7 @@
#include <string>
#include <type_traits>
#include <vector>
// #include <utility> //support pair in vectors
#include "sls/TypeTraits.h"
@ -148,6 +149,12 @@ Squash(const Container &c, typename Container::value_type default_value = {}) {
return default_value;
}
template <typename Container> bool hasDuplicates(Container c) {
std::sort(c.begin(), c.end());
auto pos = std::adjacent_find(c.begin(), c.end());
return pos != c.end(); // if we found something there are duplicates
}
template <typename T>
typename std::enable_if<is_container<T>::value, bool>::type
removeDuplicates(T &c) {

23
slsSupportLib/include/sls/sls_detector_defs.h
View File

@ -48,7 +48,7 @@
#define SLS_DETECTOR_HEADER_VERSION 0x2
#define SLS_DETECTOR_JSON_HEADER_VERSION 0x4
// ctb/ moench 1g udp (read from fifo)
// ctb 1g udp (read from fifo)
#define UDP_PACKET_DATA_BYTES (1344)
/** maximum trim en */
@ -404,7 +404,7 @@ typedef struct {
enum clockIndex { ADC_CLOCK, DBIT_CLOCK, RUN_CLOCK, SYNC_CLOCK };
/**
* read out mode (ctb, moench)
* read out mode (ctb)
*/
enum readoutMode { ANALOG_ONLY, DIGITAL_ONLY, ANALOG_AND_DIGITAL };
@ -445,6 +445,11 @@ typedef struct {
enum portPosition { LEFT, RIGHT, TOP, BOTTOM };
/**
* eiger fpga position
*/
enum fpgaPosition { FRONT_LEFT, FRONT_RIGHT };
#ifdef __cplusplus
enum class streamingInterface {
#else
@ -632,6 +637,13 @@ struct detParameters {
nChipY = 1;
nDacs = 8;
break;
case slsDetectorDefs::detectorType::MOENCH:
nChanX = 400;
nChanY = 400;
nChipX = 1;
nChipY = 1;
nDacs = 8;
break;
case slsDetectorDefs::detectorType::JUNGFRAU:
nChanX = 256;
nChanY = 256;
@ -646,13 +658,6 @@ struct detParameters {
nChipY = 1;
nDacs = 24;
break;
case slsDetectorDefs::detectorType::MOENCH:
nChanX = 32;
nChanY = 1;
nChipX = 1;
nChipY = 1;
nDacs = 8;
break;
case slsDetectorDefs::detectorType::EIGER:
nChanX = 256;
nChanY = 256;

2
slsSupportLib/include/sls/sls_detector_funcs.h
View File

@ -276,6 +276,7 @@ enum detFuncs {
F_GET_SYNCHRONIZATION,
F_SET_SYNCHRONIZATION,
F_GET_HARDWARE_VERSION,
F_GET_FRONTEND_FIRMWARE_VERSION,
NUM_DET_FUNCTIONS,
RECEIVER_ENUM_START = 512, /**< detector function should not exceed this
@ -655,6 +656,7 @@ const char* getFunctionNameFromEnum(enum detFuncs func) {
case F_GET_SYNCHRONIZATION: return "F_GET_SYNCHRONIZATION";
case F_SET_SYNCHRONIZATION: return "F_SET_SYNCHRONIZATION";
case F_GET_HARDWARE_VERSION: return "F_GET_HARDWARE_VERSION";
case F_GET_FRONTEND_FIRMWARE_VERSION: return "F_GET_FRONTEND_FIRMWARE_VERSION";
case NUM_DET_FUNCTIONS: return "NUM_DET_FUNCTIONS";
case RECEIVER_ENUM_START: return "RECEIVER_ENUM_START";

3
slsSupportLib/include/sls/string_utils.h
View File

@ -5,6 +5,7 @@
#include <cassert>
#include <cstring>
#include <string>
#include <utility>
#include <vector>
namespace sls {
@ -59,4 +60,6 @@ bool is_int(const std::string &s);
bool replace_first(std::string *s, const std::string &substr,
const std::string &repl);
std::pair<std::string, int> ParseHostPort(const std::string &s);
} // namespace sls

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