DIAGS - Administration of diagnostic switches, switching unit

For purpose of diagnosis special switches are provided which can switch on diagnosis routines. These switches can be accessed by AMO DIAGS. Such diagnosis switches are used by CP, CP2, DB, DH, FA, NMC-DEP, RTO, HSR VECO and CDR. Each switch set contains 16 switches.

Complex LOADDISP controls processor load display of FA.

Only specially trained persons are allowed to use these switches. For this reason the switches can only be changed using the highest password class.

The switches are not changed during restart.

Function of Switches

CP Switches

Switch	Function	Preselection
S00	Pushes CP diagnosis info onto the stack every time an event is processed in CP TOP. (20% loss of performance)	OFF
S01	Generation of error messages when messages are sent to the wrong LTG.	OFF
S02	Output of path data during route optimization	OFF
S03	Protocol of third-party monitoring	OFF
S04	Suppress advisory message when using an not supported feature	OFF
S05	Generation of advisory messages during emergency disconnection of B channels	OFF
S06	Protocol of synchronization announcement	OFF
S07	Generation of advisory messages when logical errors in Symphony CP occur	OFF
S08	Generation of advisory messages when PSM search errors occur	OFF
S09	Generating an advisory message ... even if a call is queued in the general attendant queue with the least priority because of missing path resources	OFF
S10	Generation of advisory messages when errors in messages to DH occur	OFF
S11	Diagnosis synchr. announcement start / stop	OFF
S12	Diagnosis overflow attendant group error	OFF
S13	Trace for ACLC	OFF
S14	Diagnosis for hanging CPBs	OFF
S15	Diagnosis, release of hanging resources of Digite	ON

CP2 Switches

Switch	Function	Preselection
S00	CP trace includes RECOVERY commands	OFF
S01	Dignosis for hanging trunks	OFF
S02	Always display UMPL EVT CODE in networking (independent of COT parameter IEVT)	OFF
S03	Activate the printout of the ACL-C Advisories	OFF
S04	Document unsuccessful call transfers within the CP trace	ON
S05	Networking: Diagnosis output for each number running through number modification. Use in test field only !! Do not use in field, because it produces floods of messages ! Use S06 instead.	OFF
S06	Networking: Diagnosis output for numbers running through number modification. Only calls marked by flag trace are taken into account. Can be used in field.	OFF
S07	Error within 'Alternate routing on error' leads to CP ADVISORY output	OFF
S08	Deactivate feature DMC (only for Testlab usage) - IS NOT ALLOWED TO BE USED IN THE FIELD !!
S09	Actiavte Diagnoses output for all Calls/Events (only for Testlab usage) Attention: Performance ! - IS NOT ALLOWED TO BE USED IN THE FIELD !!	OFF
S10	CP Tracer contains 2 additional messages for UMI_CONNECT_REQ and for UMI messages there are extra records of the service/operations included there.	OFF
S11	CP exception handler reaction in case of DBAR errors: 'Jump back to CP-TOP' rather than 'continue processing of current event'	OFF
S12	Advisory messages in case of unsuccessful ONS external calls	OFF
S13	CP trace contains records for getting and releasing TMD loden	OFF

DB-Switches

Switch	Function	Preselection
S00	LODEN test	OFF
S01	LINE test	OFF
S02	Activation of message output for CPB Index Check (the check itself is always activated)	OFF
S03	DNIL - Trace	OFF
S04	Deactivate DMC bandwidth calculation in RESMAN (only for Testlab usage) - IS NOT ALLOWED TO BE USED IN THE FIELD	OFF
S05	(only for DB internal use)	OFF
S06	Trace info in CP messages (LTG_LINE instead of SEQUENCE_NO)	OFF
S07	Test whether LTG memory is sufficient (generation run)	OFF
S08	Protocol of diagnosisdata when device search for searchmode EVN and ODD in dump-buffer	OFF
S09	Deactivate RESMAN completely (only for Testlab usage) - IS NOT ALLOWED TO BE USED IN THE FIELD	OFF
S10	Activate Resource Manager (RESMAN) Trace interface	OFF
S11	Activate display of sector path data (RESMAN) as advisory message	OFF
S14	Activate signal exception in case of hanging DNIL buffers	OFF
S15	Check for Callback - Links	OFF

DH Switches

Switch	Function	Preselection
S00	Load machine on / off	OFF
S01	Load machine: Storage of new messages on / off	OFF
S02	ISL GAP detector	OFF
S03	MTS-Trace Preselection	OFF

(see also comment of DH_V_DIAGNOSIS_SWITCHES in module DT002BA.C6.H1.xxx in B0-EJ0.30 APS)
No DH switches are used in Rel. 6.5.

FA Switches

Switch	Function	Preselection
S00	(not used)	OFF
S01	(not used)	OFF
S02	(not used)	OFF
S03	Message filter: avoids output of multiple SW-messages like DBAR messages with equal USER-ADR/CC/EC to assigned output-devices, e.g. Histo-File, DPT1, AFR	OFF
S04	Trace message interface RTO	OFF
S05	Printout sporadic L1 errors	OFF
S06	Facility for test: Booting of CC independent of booting of all LTGs	OFF
S07	Diagnosis and clearings for TSL-Blockings on peripheral boards. (Not possible for PBX with LTUCE)	OFF

NMC Switches

Switch	Function	Preselection
S00	Activate 'autoalarm generation'	OFF
S01	Enables output of F5750 Good IP Quality Messages	OFF
S02	ON: Suppress Alarm Snapshot Function for the board alarms OFF: Alarm Snapshot Function is effective also for the board alarms.	OFF
S03	Enabling the output of F4266 Statistic message over das IPDA - Load via FTP	OFF

S00: The function 'autoalarm' enables the individual check of peripheral boards. Therefore a 'logical alarm' per board will be created. The alarm name contain LTU and SLOT-Number for better identification.
To activate or deactivate the switch following commands have to be entered:

EXEC-UPDAT:BP,ALL; 
EXEC-REST:UNIT,BP,HARD;

S02: See Chapter "Activating the snapshot function" in the Description of Alarms (AlFe).
To activate or deactivate the switch following commands have to be entered:

EXEC-UPDAT:BP,ALL; 
EXEC-REST:UNIT,BP,HARD;

RTO Switches

Switch	Function	Preselection
S00	Allow routine test of digital circuits	ON

VECO Switches

Switch	Function	Preselection
S00	on: VECO has to run faster (2-4 minutes) off: VECO runs at standard speed (20 minutes)	OFF
S01	on: VECO will be stoped after the current cycle off: VECO will be restarted	OFF
S02	on: VECO also sends partner TSL from wrong seized TSLs to RTO off: VECO only sends wrong seized TSL to RTO	OFF
S03	on: VECO PERI task will be stoped off: VECO PERI task will be restarted	OFF
S04	on: VECO sends Board-HWY-Test messages to RTO. off: VECO doesn't send Board-HWY-Test messages to RTO.	OFF
S05	on: Board-HWY-Test messages for announcement devices off: No Board-HWY-Test messages for announcement	OFF
S06	on: Info message after each test cycle of VECO / PERI Task off: No Info message	OFF
S07	on: PERI Task does not release ressources, error message only off: PERI Task does release hanging ressources	OFF
S08	on: Active VECO Diagnosis Advisory (F4436) off: Deactive VECO Diagnosis Advisory (F4436)	OFF
S09	on: VECO sends no release to DH (Error message only) off: VECO sends release to DH	OFF
S10	on: CPB Bad Seizure: No CPB release, signalling only off: CPB Bad Seizure: CPB is released	OFF
S11	on: For patched diagnosis off: No diagnosis	OFF
S12	on: Trace search / release of CR, CS, MFC_CRS, DTR off: No Trace	OFF
S13	on: Trace search / release of Line, Bchl off: No Trace	OFF
S14	on: Trace search / release of Conferences off: No Trace	OFF
S15	on: Trace search / release of CPB off: No Trace	OFF

When VECO is to be switched on again, S01 must be set to OFF.

REC Switches

Switch	Function	Preselection
S00	on: Save and Unsave information is displayed with the tracer off: Normal operation during a trace	OFF
S01	on: REC update information are displayed with the tracer off: Normal operation during a trace	OFF
S02	on: Deactivate REC (connections won't be saved) off: REC activate	OFF
S03	on: Deactivate REC update off: REC update activate	OFF
S04	on: Additional diagnosis data for REC mesages (Not used yet) off: No Additional diagnosis data for REC mesages	OFF
S05	(not used)	OFF
S06	(not used)	OFF
S07	(not used)	OFF
S08	(not used)	OFF
S09	(not used)	OFF
S10	(not used)	OFF
S11	(not used)	OFF
S12	(not used)	OFF
S13	(not used)	OFF
S14	(not used)	OFF
S15	(not used)	OFF

PIT Switches

Switch	Function	Preselection
S00	ID check results for peripheral boards ON/OFF	OFF
S01	(not used)	OFF
S02	(not used)	OFF
S03	(not used)	OFF
S04	(not used)	OFF
S05	(not used)	OFF
S06	(not used)	OFF
S07	(not used)	OFF
S08	(not used)	OFF
S09	(not used)	OFF
S10	(not used)	OFF
S11	(not used)	OFF
S12	(not used)	OFF
S13	(not used)	OFF
S14	(not used)	OFF
S15	(not used)	OFF

HSR-Switches

Switch	Function	Preselection
S00	Enable the output of QoS related data generally. The output itself has to be activated per AP shelf via AMO-STMIB.	OFF
S01	(not used)	OFF
S02	(not used)	OFF
S03	(not used)	OFF
S04	(not used)	OFF
S05	(not used)	OFF
S06	(not used)	OFF
S07	(not used)	OFF
S08	(not used)	OFF
S09	(not used)	OFF
S10	(not used)	OFF
S11	(not used)	OFF
S12	(not used)	OFF
S13	(not used)	OFF
S14	(not used)	OFF
S15	(not used)	OFF

CDR-Switches

Switch	Function	Preselection
S00	(not used)	OFF
S01	(not used)	OFF
S02	(not used)	OFF
S03	(not used)	OFF
S04	(not used)	OFF
S05	(not used)	OFF
S06	(not used)	OFF
S07	(not used)	OFF
S08	(not used)	OFF
S09	(not used)	OFF
S10	Activate COSTI-DATCOL messages in CDR trace.	OFF
S11	Activate GET_BILLING messages in CDR trace.	OFF
S12	Activate CHARGE_CALC messages in CDR trace.	OFF
S13	(not used)	OFF
S14	(not used)	OFF
S15	Activate COSTI Hanger diagnosis for CDR trace.	OFF

DC Switches

Switch	Function	Preselection
S00	Diagnosis data for DC- auxiliary data	OFF
S01	(not used)	OFF
S02	(not used)	OFF
S03	(not used)	OFF
S04	(not used)	OFF
S05	(not used)	OFF
S06	(not used)	OFF
S07	(not used)	OFF
S08	(not used)	OFF
S09	(not used)	OFF
S10	(not used)	OFF
S11	(not used)	OFF
S12	(not used)	OFF
S13	(not used)	OFF
S14	(not used)	OFF
S15	(not used)	OFF

Processor load display

Switch	Function	Preselection
LOAD	The load values of adjusted classes are displayed as error messages	OFF
SEG7	The ten's place value of all classes are displayed on the 7-segment display	OFF
ZAUSL	The values from AMO-ZAUSL are displayed as error messages	OFF
BASE	Class 0: OS (e.g. clock task)	OFF
IDLE	Class 1: Part if processor is in idle state	OFF
ADP	Class 2: Tasks running in ADP (e.g. HD accesses, CMS)	OFF
SWU	Class 3: Tasks running in SWU (e.g. CP, DEP)	OFF
RES4	Class 4: Reserved class 4	OFF
AMO	Class 5: Load caused by running AMOs	OFF
RES6	Class 6: Reserved for future task classes; which can also	OFF
RES7	Class 7: used for diagnosis purposes if a certain class	OFF
RES8	Class 8: is patched into a reserved class	OFF
UNAS	Class 9: Processes which aren't assigned to a class (should ever be zero)	OFF
CONT	Controls AMO reaction	OFF

Parameters LOAD, SEG7 and ZAUSL replace former FA-switches S0, S1 and S2. Parameter ZAUSL now only switches the dsiplay of ZAUSL values. In previous releases this was handled differently. For simultanous display of " processor load values, parameter LOAD must be set.
Processor load display may be set per class, whereby the possible values per classparameter are NONE, HIGH, TOTAL or HIGH&TOTAL. If NONE is entered together with TOTAL or HIGH, advisory message H04 is issued.
Because the processor load display of FA causes dynamic loss, only 4 flags are allowed to be set to avoid overload. E.g. BASE=HIGH and SWU=HIGH are already set, ADP=HIGH&TOTAL may be set. Additional flags can be set only after resetting of already set flags.

Destination Processor: BP (Switching Unit)

Functions

DISPLAY	password class 0
CHANGE	password class 5
REGENERATE	password class 5

Procedure Overview

DISPLAY-DIAGS

DISPLAY-DIAGS

[PROCID=<param>], COMP=<param>;

Example

Display the position of all DH switches

Input

DISPLAY-DIAGS:, DH;

Output

 +=========================================================================+
 |                D  H  -  S  W  I  T  C  H  E  S                          |
 +=======+=================================================================+
 | PROCID| S00 S01 S02 S03 S04 S05 S06 S07 S08 S09 S10 S11 S12 S13 S14 S15 |
 +-------+-----------------------------------------------------------------+
 |  CC   | OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF |
 |  LTG  | OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF |
 +=======+=================================================================+

CHANGE-DIAGS

CHANGE-DIAGS	[PROCID=<param>],
		COMP=CP, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=CP2, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=DB, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=DH, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=VECO, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=REC, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=PIT, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=FA, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=RTO, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=NMC, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=HSR, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=CDR, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};
		COMP=LOADDISP, {(min 1) LOAD=<param>, SEG7=<param>, ZAUSL=<param>, BASE=<param>, IDLE=<param>, ADP=<param>, SWU=<param>, RES4=<param>, AMO=<param>, RES6=<param>, RES7=<param>, RES8=<param>, UNAS=<param>}, [CONT=<param>];
		COMP=DC, {(min 1) S00=<param>, S01=<param>, S02=<param>, S03=<param>, S04=<param>, S05=<param>, S06=<param>, S07=<param>, S08=<param>, S09=<param>, S10=<param>, S11=<param>, S12=<param>, S13=<param>, S14=<param>, S15=<param>};

Example

Set switch 02 of VECO in LTG to OFF

Input

CHANGE-DIAGS:PROCID=LTG,COMP=VECO,S02=OFF;

CHA-DIAGS:LTG,VECO,,,OFF;

REGENERATE-DIAGS

REGENERATE-DIAGS

[PROCID=<param>], COMP=<param>;

Example

Regenerate switch set of DH in all processors

Input

REGENERATE-DIAGS:,COMP=DH;

Output

CHANGE-DIAGS:CC,DH,OFF,OFF,OFF,OFF,OFF,OFF,ON,OFF,OFF,OFF,ON,OFF,OFF,OFF,OFF,OFF; 
CHANGE-DIAGS:LTG,DH,ON,OFF,OFF,OFF,OFF,OFF,ON,OFF,OFF,OFF,ON,OFF,OFF,OFF,OFF,OFF;

Parameter description

ADP	Processor load display of class ADP
	Type of Input:	1 to 2 single values, concatenated with &, 6. parameter of a min-1-group
	Possible Values:	HIGH	Processor load display over threshold value
		NONE	No Processor load display
		TOTAL	Processor load display overall
AMO	Processor load display of class AMO
	Type of Input:	1 to 2 single values, concatenated with &, 9. parameter of a min-1-group
	Possible Values:	HIGH	Processor load display over threshold value
		NONE	No Processor load display
		TOTAL	Processor load display overall
BASE	Processor load display of class BASE
	Type of Input:	1 to 2 single values, concatenated with &, 4. parameter of a min-1-group
	Possible Values:	HIGH	Processor load display over threshold value
		NONE	No Processor load display
		TOTAL	Processor load display overall
COMP	Software complex
	Type of Input:	single value, mandatory
	Possible Values:	CDR	Call Data Recording	DB_DIAG_COMPLEX_CDR
		CP	Call Processing	DB_DIAG_COMPLEX_CP
		CP2	Call Processing 2	DB_DIAG_COMPLEX_CP2
		DB	Data base	DB_DIAG_COMPLEX_DB
		DC	Device Control	DB_DIAG_COMPLEX_DC	(DISPLAY / REGENERATE)
		DC	Device control		(CHANGE)
		DH	Device handler	DB_DIAG_COMPLEX_DH
		FA	Fault analysis	DB_DIAG_COMPLEX_FA
		HSR	AP Emergency	DB_DIAG_COMPLEX_HSR
		LOADDISP	Processor load display
		NMC	Network Management Control	DB_DIAG_COMPLEX_NMCDEP
		PIT	Peripheral Initialization Task	DB_DIAG_COMPLEX_PIT
		REC	Recovery	DB_DIAG_COMPLEX_REC
		RTO	Routine test organization	DB_DIAG_COMPLEX_RTO
		VECO	Connection monitor	DB_DIAG_COMPLEX_VECO
CONT	Control AMO flow. When CONT=NO advisory message H01 will be prompted and depending on user entry, the AMO will be cancelled or continued. When CONT=YES is entered the AMO will be started without prompting.
	Type of Input:	single value, optional
	Possible Values:	NO	AMO interrupts and prompts	FALSE
	Possible Values:	YES	AMO works without prompting	TRUE
	Default Value:	NO
IDLE	Processor load display of class IDLE
	Type of Input:	1 to 2 single values, concatenated with &, 5. parameter of a min-1-group
	Possible Values:	HIGH	Processor load display over threshold value
		NONE	No Processor load display
		TOTAL	Processor load display overall
LOAD	Processor load display on signalling interface
	Type of Input:	single value, 1. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
PROCID	Processor to which the diagnostic switches belong
	Type of Input:	single value, optional
	Possible Values:	CC	Common control	DB_DIAG_PROC_CC
	Possible Values:	LTG	Line trunk group	DB_DIAG_PROC_LTG1
RES4	Processor load display of class RESERVE4
	Type of Input:	1 to 2 single values, concatenated with &, 8. parameter of a min-1-group
	Possible Values:	HIGH	Processor load display over threshold value
		NONE	No Processor load display
		TOTAL	Processor load display overall
RES6	Processor load display of class RESERVE6
	Type of Input:	1 to 2 single values, concatenated with &, 10. parameter of a min-1-group
	Possible Values:	HIGH	Processor load display over threshold value
		NONE	No Processor load display
		TOTAL	Processor load display overall
RES7	Processor load display of class RESERVE7
	Type of Input:	1 to 2 single values, concatenated with &, 11. parameter of a min-1-group
	Possible Values:	HIGH	Processor load display over threshold value
		NONE	No Processor load display
		TOTAL	Processor load display overall
RES8	Processor load display of class RESERVE8
	Type of Input:	1 to 2 single values, concatenated with &, 12. parameter of a min-1-group
	Possible Values:	HIGH	Processor load display over threshold value
		NONE	No Processor load display
		TOTAL	Processor load display overall
S00	Diagnostic switch 0
	Type of Input:	single value, 1. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S01	Diagnostic switch 1
	Type of Input:	single value, 2. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S02	Diagnostic switch 2
	Type of Input:	single value, 3. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S03	Diagnostic switch 3
	Type of Input:	single value, 4. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S04	Diagnostic switch 4
	Type of Input:	single value, 5. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S05	Diagnostic switch 5
	Type of Input:	single value, 6. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S06	Diagnostic switch 6
	Type of Input:	single value, 7. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S07	Diagnostic switch 7
	Type of Input:	single value, 8. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S08	Diagnostic switch 8
	Type of Input:	single value, 9. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S09	Diagnostic switch 9
	Type of Input:	single value, 10. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S10	Diagnostic switch 10
	Type of Input:	single value, 11. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S11	Diagnostic switch 11
	Type of Input:	single value, 12. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S12	Diagnostic switch 12
	Type of Input:	single value, 13. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S13	Diagnostic switch 13
	Type of Input:	single value, 14. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S14	Diagnostic switch 14
	Type of Input:	single value, 15. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
S15	Diagnostic switch 15
	Type of Input:	single value, 16. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
SEG7	Processor load display to DP seven-segment display
	Type of Input:	single value, 2. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE
SWU	Processor load display of class SWU
	Type of Input:	1 to 2 single values, concatenated with &, 7. parameter of a min-1-group
	Possible Values:	HIGH	Processor load display over threshold value
		NONE	No Processor load display
		TOTAL	Processor load display overall
UNAS	Processor load display of class UNAS
	Type of Input:	1 to 2 single values, concatenated with &, 13. parameter of a min-1-group
	Possible Values:	HIGH	Processor load display over threshold value
		NONE	No Processor load display
		TOTAL	Processor load display overall
ZAUSL	Display ZAUSL values on signalling interface
	Type of Input:	single value, 3. parameter of a min-1-group
	Possible Values:	OFF	off	FALSE
	Possible Values:	ON	on	TRUE

Error Messages

F02	F02: Complex <comp> not allowed for processor <procid>
	Cause:
	Repair:
F03	F03: To avoid overload only 4 processor load display-flags may be set at the same time.

Advisory Messages

H01

H01: WARNING!! Improper use of AMO DIAGS 
     may cause severe dynamic problems!

H03

H03: <Sxx> of complex <comp> in <procid> has been changed to '<[ON|OFF]>'

H04

H04: NONE may be entered as single value only. HIGH or TOTAL has been ignored.