Equipment List Parameters: Difference between revisions
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== Links == | == Links == | ||
<div style="column-count:3;-moz-column-count:3;-webkit-column-count:3"> | |||
* [[Frontend user code]] | |||
* [[Frontend Operation]] | |||
* [[Equipment Flags]] | |||
</div> | |||
==Equipment List == | ==Equipment List == | ||
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Only those parameters that are needed by the frontend to define the equipments are included (see [[#Example Equipment List Declaration|example]] below). The contents of these parameters determine the properties of each equipment. More examples of equipment declarations can be found in the ..midas/examples subdirectories in the MIDAS package. | Only those parameters that are needed by the frontend to define the equipments are included (see [[#Example Equipment List Declaration|example]] below). The contents of these parameters determine the properties of each equipment. More examples of equipment declarations can be found in the ..midas/examples subdirectories in the MIDAS package. | ||
When the frontend is first run, it will create (using ''db_create_record'') in the ODB [[/Equipment ODB tree]] (if they do not already exist) the ''<equipment-name>'' subdirectories for all equipments defined by the frontend. The initial values of many of the parameters in the ODB [[/Equipment ODB tree#Common subtree|/Equipment/''<equipment-name>''/Common subtree]] are taken from the corresponding Equipment List. | |||
The parameters found in a frontend Equipment List is described below under [[#Explanation of Equipment List parameters|Explanation of Equipment List parameters]]. | The parameters found in a frontend Equipment List is described below under [[#Explanation of Equipment List parameters|Explanation of Equipment List parameters]]. | ||
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{""} | {""} | ||
}; // end of EQUIPMENT structure | }; // end of EQUIPMENT structure | ||
== Explanation of Equipment List parameters == | == Explanation of Equipment List parameters == | ||
===Equipment Name=== | ===Equipment Name=== | ||
This [[#Equipment List|Equipment List Parameter]] defines the name of the equipment. Each equipment name must be unique (i.e. no two equipments in the same experiment may have the same name). The name will be the reference name of the equipment generating the event. Examples of typical Equipment Names are "Trigger","Scaler","Epics". | This [[#Equipment List|Equipment List Parameter]] defines the name of the equipment. Each equipment name must be unique (i.e. no two equipments in the same experiment may have the same name). The name will be the reference name of the equipment generating the event. Examples of typical Equipment Names are "Trigger","Scaler","Epics". | ||
As of October 2019, you may use the string <code>${HOSTNAME}</code> in your equipment name, and the frontend framework will automatically substitute the name of your machine. | |||
You may also use a format specifier like <code>%i</code> or <code>%02d</code> in the equipment name. This will be replaced by the "frontend index", which is specified either by the [[MIDAS_environment_variables#MIDAS_FRONTEND_INDEX|MIDAS_FRONTEND_INDEX]] environment variable or the <code>-i</code> command-line flag when starting the frontend. This allows you to run multiple instances of the same frontend executable, each with a different name and ODB directory. For example, if your equipment name is <code>CRATE%02i</code> and the frontend_index is 7, the corresponding MIDAS equipment name will be <code>CRATE07</code> with settings in the ODB at <code>/Equipment/CRATE07/Common</code> etc. | |||
===EventID=== | ===EventID=== | ||
This [[#Equipment List|Equipment List Parameter]] defines the event ID for this equipment. Each equipment has to be associated with a unique event ID . The event ID will be part of the event header of that particular equipment. | This [[#Equipment List|Equipment List Parameter]] defines the event ID for this equipment. Each equipment has to be associated with a unique event ID . The event ID will be part of the event header of that particular equipment. | ||
The EventID (and the [[#TriggerMask]]) can be used to sort events into different streams, e.g. in [[Event Builder|Event Building]] or [[Event Filtering]]. | |||
===TriggerMask=== | ===TriggerMask=== | ||
This [[#Equipment List|Equipment List Parameter]] | This [[#Equipment List|Equipment List Parameter]] can be used to sort events using a unique TriggerMask. It may be used when the | ||
[[#Type|Equipment Type]] is [[Equipment Flags#EQ_INTERRUPT|EQ_INTERRUPT]] or [[Equipment Flags#EQ_MULTITHREAD|EQ_MULTITHREAD]] and/or | |||
in [[Event Builder|Event Building]] and [[Event Filtering]] to sort the events. | |||
When in use, each equipment is associated with a unique TriggerMask. The TriggerMask can be modified dynamically by the [[#Readout Routine|Readout Routine]] e.g. to define a [[Super Event|sub-event type]] on an event-by-event basis. This can be used to mix "physics events" (from a physics trigger) and "calibration events" (from a clock for example) in one run and identify them later. TriggerMasks are declared as 16-bit values. If the TriggerMask is used in a single bit-wise mode, 16 is the maximum number of different masks available. | |||
Set TriggerMask to 0 if not used. | |||
<div id="MirroredInODB"></div> | <div id="MirroredInODB"></div> | ||
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===Event limit=== | ===Event limit=== | ||
This [[#Equipment List|Equipment List Parameter]] specifies the number of events to be taken prior to forcing an End-of-Run [[Run States and Transitions#transition]]. The value 0 disables this option. | This [[#Equipment List|Equipment List Parameter]] specifies the number of events to be taken prior to forcing an End-of-Run [[Run States and Transitions#transition|Transition]]. The value 0 disables this option. | ||
===Number of subevents=== | ===Number of subevents=== | ||
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===Log History=== | ===Log History=== | ||
This [[#Equipment List|Equipment List Parameter]] enables/disables the [[History System]] for that equipment. The value (positive in seconds) | This [[#Equipment List|Equipment List Parameter]] enables/disables the [[History System]] for that equipment. The value (positive in seconds) also controls how frequently the history events are generated. A reasonable value to set for the History value is "60", so that the history events are generated once per minute. | ||
A positive value enables history logging, in which case the event data will also be sent automatically to the ODB in the | |||
<span style="color: purple; font-style:italic;">/equipment/<equipment-name>/variables</span> tree. | <span style="color: purple; font-style:italic;">/equipment/<equipment-name>/variables</span> tree. | ||
The frequency of ODB writes is limited by ODB_UPDATE_TIME (1/sec in mfe.c rev 4298). | |||
To disable history logging of this event, set this parameter to 0. | To disable history logging of this event, set this parameter to 0. | ||
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<div id="EventTrigger"></div> <div id="ManualTriggerMode"></div> | <div id="EventTrigger"></div> <div id="ManualTriggerMode"></div> | ||
===Readout Routine=== | ===Readout Routine=== | ||
This [[#Equipment List|Equipment List Parameter]] contains the name of the user-written function to be called when the event is triggered. The name of this routine is specified by the user. This Readout Routine must be present in the frontend code. It will be called at an | This [[#Equipment List|Equipment List Parameter]] contains the name of the user-written function to be called when the event is triggered. The name of this routine is specified by the user. This Readout Routine must be present in the frontend code. It will be called at an | ||
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For [[Slow Control System|Slow Control]] Equipments, this parameter is set to the Device Driver List. This is defined using the DEVICE_DRIVER structure defined in midas.h in the MIDAS package, | For [[Slow Control System|Slow Control]] Equipments, this parameter is set to the Device Driver List. This is defined using the DEVICE_DRIVER structure defined in midas.h in the MIDAS package. To turn on multithread support for a device, the flag DF_MULTITHREAD must be used in the frontend Device Driver List [https://midas.triumf.ca/elog/Midas/289]. | ||
==== Example of Slow Control Equipment ==== | ==== Example of Slow Control Equipment ==== | ||
In a real frontend, the device driver "nulldev" has to be replaced with a real device driver. | |||
Single thread | |||
/* device driver list */ | /* device driver list */ | ||
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}; | }; | ||
The [[#Class Driver|Class Driver]] parameter must also be defined. The Slow Control Equipment Definition is shown below, taken from the example ../midas/examples/slowcont/frontend.c in the MIDAS package. | |||
;For multithread support | |||
/* multithread device driver list */ | |||
DEVICE_DRIVER multi_driver[] = { | |||
{"Input", nulldev, 2, null, DF_INPUT | DF_MULTITHREAD}, | |||
{"Output", nulldev, 2, null, DF_OUTPUT | DF_MULTITHREAD}, | |||
{""} | |||
}; | |||
The [[#Class Driver|Class Driver]] parameter must also be defined. The Slow Control Equipment Definition is shown below, taken from the example ../midas/examples/slowcont/frontend.c in the MIDAS package. In this case, the class driver is $MIDASSYS/drivers/class/hv.c which contains the routines cd_hv_read(..) and cd_hv(..). | |||
EQUIPMENT equipment[] = { | EQUIPMENT equipment[] = { | ||
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See [[Event Structure#FIXED Event Construction|FIXED format event construction]] for example of the use of the "init string" parameter. | See [[Event Structure#FIXED Event Construction|FIXED format event construction]] for example of the use of the "init string" parameter. | ||
[[Category:Equipment]] [[Category:Event]] [[Category:Frontend]] |
Latest revision as of 07:19, 5 January 2024
Links
Equipment List
The Equipment List is a declaration of the equipment(s) in a frontend using the EQUIPMENT structure defined in midas.h in the MIDAS package.
Only those parameters that are needed by the frontend to define the equipments are included (see example below). The contents of these parameters determine the properties of each equipment. More examples of equipment declarations can be found in the ..midas/examples subdirectories in the MIDAS package.
When the frontend is first run, it will create (using db_create_record) in the ODB /Equipment ODB tree (if they do not already exist) the <equipment-name> subdirectories for all equipments defined by the frontend. The initial values of many of the parameters in the ODB /Equipment/<equipment-name>/Common subtree are taken from the corresponding Equipment List.
The parameters found in a frontend Equipment List is described below under Explanation of Equipment List parameters.
Example Equipment List Declaration
An example of an Equipment List declaration in a frontend is shown below. Two Equipments have been defined.
/*-- Equipment list ----------------------------------------------- */ EQUIPMENT equipment[] = { // start of EQUIPMENT structure // { "Trigger", // equipment name { 1, // event ID 0, // trigger mask "SYSTEM", // event buffer #ifdef USE_INT EQ_INTERRUPT, // equipment type #else EQ_POLLED, // equipment type #endif LAM_SOURCE(0, 0xFFFFFF), // event source crate 0, all stations "MIDAS", // format TRUE, // enabled RO_RUNNING | RO_ODB // read when running and update ODB 500, // poll for 500ms 0, // stop run after this event limit 0, // number of sub events 0, // log history "", "", "", // Reserved }, read_trigger_event, // Readout Routine NULL, // class driver routine NULL, // device driver list NULL, // bank list/init string }, { "Scaler", // equipment name { 2, // event ID 0, // trigger mask "SYSTEM", // buffer EQ_PERIODIC | EQ_MANUAL_TRIG, // equipment type 0, // event source "MIDAS", // format TRUE, // enabled RO_RUNNING | RO_TRANSITIONS | // read when running and on transitions RO_ODB, // and update ODB 10000, // read every 10 sec 0, // stop run after this event limit 0, // number of sub events 0, // log history "", "", "", // Reserved }, read_scaler_event, // readout routine NULL, // class driver routine NULL, // device driver list NULL, // bank list/init string }, {""} }; // end of EQUIPMENT structure
Explanation of Equipment List parameters
Equipment Name
This Equipment List Parameter defines the name of the equipment. Each equipment name must be unique (i.e. no two equipments in the same experiment may have the same name). The name will be the reference name of the equipment generating the event. Examples of typical Equipment Names are "Trigger","Scaler","Epics".
As of October 2019, you may use the string ${HOSTNAME}
in your equipment name, and the frontend framework will automatically substitute the name of your machine.
You may also use a format specifier like %i
or %02d
in the equipment name. This will be replaced by the "frontend index", which is specified either by the MIDAS_FRONTEND_INDEX environment variable or the -i
command-line flag when starting the frontend. This allows you to run multiple instances of the same frontend executable, each with a different name and ODB directory. For example, if your equipment name is CRATE%02i
and the frontend_index is 7, the corresponding MIDAS equipment name will be CRATE07
with settings in the ODB at /Equipment/CRATE07/Common
etc.
EventID
This Equipment List Parameter defines the event ID for this equipment. Each equipment has to be associated with a unique event ID . The event ID will be part of the event header of that particular equipment.
The EventID (and the #TriggerMask) can be used to sort events into different streams, e.g. in Event Building or Event Filtering.
TriggerMask
This Equipment List Parameter can be used to sort events using a unique TriggerMask. It may be used when the Equipment Type is EQ_INTERRUPT or EQ_MULTITHREAD and/or in Event Building and Event Filtering to sort the events.
When in use, each equipment is associated with a unique TriggerMask. The TriggerMask can be modified dynamically by the Readout Routine e.g. to define a sub-event type on an event-by-event basis. This can be used to mix "physics events" (from a physics trigger) and "calibration events" (from a clock for example) in one run and identify them later. TriggerMasks are declared as 16-bit values. If the TriggerMask is used in a single bit-wise mode, 16 is the maximum number of different masks available.
Set TriggerMask to 0 if not used.
Buffer
This Equipment List Parameter specifies the name of the Buffer to which the event will be sent. After composition of an equipment, the Midas Frontend mfe.c takes over the sending of this event to the buffer (usually the SYSTEM buffer) on the back-end computer where it may be sent to the data logger mlogger) and the analyser.
- If this field is left empty, (i.e. set to ""), the readout function associated with that equipment will still be performed, but the actual event won't be sent to the buffer. Instead, that particular equipment can be mirrored in the ODB if the RO_ODB flag is turned on (see example). The ODB is updated with a new event approximately every second. Note that this feature is generally used only for testing or monitoring, as writing large amounts of data to the ODB takes time.
- By using a buffer other than the SYSTEM buffer, Event Filtering can be implemented.
- If using an Event Builder ( i.e. a secondary stage on the back-end to collect and assemble events coming from different buffers in order to compose a larger event) , a dedicated buffer can be specified. In this case the EQ_EB flag must be turned on, and the events coming from the Frontend are called fragments.
Type
This Equipment List Parameter specifies the type of equipment, and should be set to one of the Equipment Flags EQ_XXX selected from the list of valid Equipment Flags, i.e. one of
Source
This Equipment List Parameter (i.e. the interrupt or event source) is only used if the equipment Type is set to EQ_INTERRUPT or EQ_MULTITHREAD. The interrupt Source field is a bit-wise pattern representing the interrupt that is allowed to trigger the call to the Readout Routine. The example shows a CAMAC or VME source for the interrupt. A MACRO (LAM_SOURCE) calculates the bit pattern from the parameters (Crate,Slot).
If not using an interrupt, this field is set to 1.
Format
This Equipment List Parameter specifies the data format used for generating the event. Only "MIDAS" and "FIXED" formats are valid in the frontend. The format must agree with the way the event is composed in the equipment Readout Routine. It tells the system how to interpret an event when it is copied to the ODB or displayed in a user-readable form. Data in MIDAS and/or FIXED format from the frontend can be saved by the MIDAS data logger mlogger in a number of formats (see mlogger format ). NOTE
- MIDAS or FIXED data format can be mixed at the frontend level, but mlogger is not able to handle this format diversity on a event-by-event basis.
- In practice, the data format (MIDAS/FIXED) should be identical throughout one equipment definition. Different equipments can, of course, have different formats in the same frontend.
- ROOT format cannot be specified in the equipment definition. To save raw data in ROOT format, the Bank Definition must be supplied, and a conversion to ROOT format is done by the data logger ).
Enabled
This Equipment List Parameter is the enable switch for the equipment. Only when enabled (i.e. TRUE) is this equipment active.
ReadOn
This Equipment List Parameter specifies when the read-out of an event occurs or is enabled (i.e. on which transition state(s) and/or on which run state(s) respectively) by using a combination of ReadOn Flags.
- NOTE
- These flags can be combined with the logical OR operator,e.g. RO_RUNNING | RO_TRANSITIONS means that the event is read out when
running and additionally on all transitions.
Period
This Equipment List Parameter specifies the time interval for EQ_PERIODIC equipment or time out value in the case of EQ_POLLED or EQ_MULTITHREAD equipments (units are milliseconds).
Event limit
This Equipment List Parameter specifies the number of events to be taken prior to forcing an End-of-Run Transition. The value 0 disables this option.
Number of subevents
This Equipment List Parameter enables the Super Event capability if > 0 . Specifies the maximum number of sub-events in the Super Event. (Not applicable to FIXED format events.)
Log History
This Equipment List Parameter enables/disables the History System for that equipment. The value (positive in seconds) also controls how frequently the history events are generated. A reasonable value to set for the History value is "60", so that the history events are generated once per minute. A positive value enables history logging, in which case the event data will also be sent automatically to the ODB in the /equipment/<equipment-name>/variables tree. The frequency of ODB writes is limited by ODB_UPDATE_TIME (1/sec in mfe.c rev 4298). To disable history logging of this event, set this parameter to 0.
Readout Routine
This Equipment List Parameter contains the name of the user-written function to be called when the event is triggered. The name of this routine is specified by the user. This Readout Routine must be present in the frontend code. It will be called at an event trigger, which will occur under one of these conditions depending on the Type parameter.
- polled mode
- the poll_event() routine has detected a trigger request while polling on a trigger source.
- interrupt mode
- an interrupt has occurred whose source is pre-defined in the interrupt_configure() routine.
- periodic modes
- trigger occurs periodically at a time interval specified by the Period parameter.
- manual trigger mode
- trigger occurs when
- 1. the manual trigger button is pressed on the web interface or
- 2. a client requests an event by triggering the event via RPC.
See Frontend user code for details.
Class Driver
This Equipment List Parameter must be present for all Equipments. This parameter is only for use by Slow Control Equipments, i.e. when the Equipment Type is set to EQ_SLOW. For all other Types, this field is set to NULL.
For Slow Control Equipments, this parameter is set to the main routine for the Class Driver of the hardware. See also Device Driver List.
Device Driver List
This Equipment List Parameter must be present for all Equipments. This parameter is only for use by Slow Control Equipments, i.e. when the Equipment Type is set to EQ_SLOW. For all other Types, this field is set to NULL.
For Slow Control Equipments, this parameter is set to the Device Driver List. This is defined using the DEVICE_DRIVER structure defined in midas.h in the MIDAS package. To turn on multithread support for a device, the flag DF_MULTITHREAD must be used in the frontend Device Driver List [1].
Example of Slow Control Equipment
In a real frontend, the device driver "nulldev" has to be replaced with a real device driver.
Single thread
/* device driver list */ DEVICE_DRIVER hv_driver[] = { {"Dummy Device", nulldev, 16, null}, {""} };
- For multithread support
/* multithread device driver list */ DEVICE_DRIVER multi_driver[] = { {"Input", nulldev, 2, null, DF_INPUT | DF_MULTITHREAD}, {"Output", nulldev, 2, null, DF_OUTPUT | DF_MULTITHREAD}, {""} };
The Class Driver parameter must also be defined. The Slow Control Equipment Definition is shown below, taken from the example ../midas/examples/slowcont/frontend.c in the MIDAS package. In this case, the class driver is $MIDASSYS/drivers/class/hv.c which contains the routines cd_hv_read(..) and cd_hv(..).
EQUIPMENT equipment[] = { // {"HV", /* equipment name */ {3, 0, /* event ID, trigger mask */ "SYSTEM", /* event buffer */ EQ_SLOW, /* equipment type */ 0, /* event source */ "FIXED", /* format */ TRUE, /* enabled */ RO_RUNNING | RO_TRANSITIONS, /* read when running and on transitions */ 60000, /* read every 60 sec */ 0, /* stop run after this event limit */ 0, /* number of sub events */ 10000, /* log history every event */ "", "", ""} , cd_hv_read, /* readout routine */ cd_hv, /* class driver main routine */ hv_driver, /* device driver list */ NULL, /* not used */ }, {""} };
Bank Definition/Init String
This Equipment List Parameter must be present. It may be set to NULL, unless performing a ROOT format conversion or a FIXED format event.
If the raw MIDAS/FIXED format data to be converted to ROOT format (by the data logger mlogger), the frontend is required to contain the definition of the bank(s) using the BANK_LIST structure defined in midas.h in the MIDAS package. This procedure is equivalent to the bank declaration in the analyser. A code fragment is shown below
Example ROOT format conversion
The formats for the ADC0 bank is "fixed", and for the TDC0 bank "MIDAS". This structure definition must be declared in the parameter Bank Definition in the equipment list.
ADC0_BANK_STR(adc0_bank_str); BANK_LIST trigger_bank_list[] = { {"ADC0", TID_STRUCT, sizeof(ADC0_BANK), adc0_bank_str}, {"TDC0", TID_WORD, N_TDC, NULL}, {""}, }; BANK_LIST scaler_bank_list[] = { {"SCLR", TID_DWORD, N_ADC, NULL}, {""}, };
The NULL Bank Definition parameter in the equipment definition example would be replaced by the name of the defined structure, e.g.
........... read_scaler_event, // readout routine NULL, // not used NULL, // not used scaler_bank_list, // bank list ............
See FIXED format event construction for example of the use of the "init string" parameter.