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1999-11-04
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Any AM, SM, or CMP overload conditions are shown on the 109
display page. The SM and CMP overload information is provided on
a summary basis. If an SM overload occurs, the SM number and
type will be displayed in the indicator and backlighted. If more
than 16 SMs are in overload, a note will appear, partially
backlighted, indicating how many SMs are overloaded. For a
complete list of SMs in overload, the 900 command should be
entered. If a CMP overload occurs, the CMP number and whether
it is the primary (P) or mate (M) is shown.
Details on an SM overload can be obtained by entering the
DISPLAY SM X OVERLOAD INFO command shown on the display.
Likewise, details on an overloaded CMP can be obtained by
entering the DISPLAY PRIM CMP X OVERLOAD INFO or DISPLAY MATE
CMP X OVERLOAD INFO.
The REALTIME overload indicators will contain NONE, MINOR,
MAJOR, or CRIT to show the severity of the overload. NONE means
no overload exists. MINOR and MAJOR are different levels of
real-time overloads. CRIT (critical) is only used for SMs and is
the most severe type of overload.
The only craft action which can be taken during overload
conditions is to reduce or eliminate input messages/maintenance
commands. All other actions are initiated by the system.
For RESOURCE overloads, either NONE or the name of the resource
will be displayed. The monitored resources are as follows:
o MCB - Message Control Block
o PCB - Process Control Block
o RC/V - Tone Receivers (SM only)
o SCB - Stack Control Block
o TCB - Timer Control Block
o PKB - Packet Buffers [operator services position system
(OSPS) SMs only]
o PSU - Packet Switch Unit (Packet Switching SMs only)
o ADB - Analog Data Block (SM only)
o APB - Associated Process Block (SM only)
o BRCSDB - Business and Residence Custom Services (BRCS) Data
Block (SM only)
o CBDB - Call Buildup Data Block (SM only)
o CCBCOM - Channel Control Block (SM only)
o CHDB - Channel Data Block (SM only)
o CLDB - Calling Leg Data Block (SM only)
o DALB - D-Channel Application Linkage Block (SM only)
o DIB - Data Interface Block (SM only)
o DISPDB - Display Data Block (SM only)
o E911DB - Enhanced 911 Data Block (SM only)
o MDB - Model Data Block (SM only)
o MSG - Message Overflow (because of PIC overload)
o PHDB - Path Data Block (SM only)
o SCMDB - Shared Call Model Data Block (SM only)
o TSDB - Time Slot Data Block (SM only)
o PSIB - X-25 Packet Input Buffer (SM only)
o IAQ - CMP Input Queue (CMP only).
Essential Service Protection is normally inhibited. Therefore,
the INHIBITED text is not backlighted. When allowed, it gives
preferential treatment to designated lines (for example,
hospitals, police, fire departments, etc.) during periods of
overload.
If there is a network management control on, to prevent
overloads in this office, the ``SEE PAGE 130'' indicator will
show up and be backlighted.
An overload will cause the OVERLOAD indicator at the top of the
screen to backlight. The associated alarm level (CRITICAL,
MAJOR, or MINOR) will also backlight, if applicable.
The AM information box contains information regarding real-time
and resource overloads in the AM.
The information provided on Page 109 for the SMs is the SM
number and type. For additional information on a specific SM,
the poke 1300,X is used (where X is the number of the SM).
Figure .AW G285/ shows an example of the 109 display page with
specific AM overload information. It also shows up to 16 of the
SMs and up to 8 of the CMPs that are in overload. The note
EXCESSIVE is displayed and backlighted because there are greater
than 16 SMs in overload. The actual number of SMs in overload
(20) is displayed.
The SM overload information shows an overload for resource
E911DB, Enhanced 911 Data Block, a new resource for 5E7.
Similar to the SM, the CMP has limited information provided on
Page 109 as shown in Figure .AW G286/. The information shown is the
number of the CMP and whether the CMP is the primary or the
mate. For more specific information regarding a specific CMP,
pokes 1370,X for the primary CMP and 1371,X for the mate CMP
(where X is the number of the CMP) are used.
Commands are provided to inhibit and allow ESP, to output a list
of all SMs that are overloaded, and to obtain detailed
information on an SM overload condition.
In addition to these commands, any available paging command can
be entered from Display Page 109.
CMD RESULT
600 Essential Service Protection is inhibited (INH:ESP)
700 Essential Service Protection is allowed (ALW:ESP)
900 Output list of SMs in overload on the ROP (OP:OVRLD:ALL)
1300,X SM X Overload Information is displayed
1370,X Primary CMP X overload information is displayed
1371,X Mate CMP X overload information is displayed
The 110 display page provides a list of system and AM inhibits
and provides maintenance menu commands for selected inhibits.
A SYSTEM inhibit applies to the AM and all SMs. An AM inhibit
applies only to the AM. Unless stated otherwise, all inhibit
requests are assumed to be phase-protected.
Each inhibit indicator on this display has three distinct
sections: the top line, the description, and the commands-
available line.
The top line in each box shows the box number. This line is
displayed in normal video and the field to the right of the box
number is blank unless an inhibit has been requested by the
craft. If an inhibit has been requested, INH, SET, MON, or CHG
is displayed to the right of the box number, as appropriate, and
the top line is backlighted. (For the remainder of the 110
display page description, the result of any of these operations
is referred to as an inhibit.) The presence of this text and
backlighting combination means the system has recorded the
inhibit request. It does not mean the inhibit is in effect.
Most of the inhibit/allow and set/clear commands are effective
immediately after the request. For these cases, all areas of the
indicator backlight together and one of the 3-character phrases
(INH, SET, MON, or CHG) will appear. However, in a few cases,
the status will change independent of the request. An example of
this is shown in box 21. The behavior of each indicator is
explained in the Indicators section on the next several pages.
The middle two lines of the indicator is the inhibit
description. These two lines show the name of the inhibit as
well as whether or not an inhibit is in effect. Inhibits can be
caused by system or craft-initiated actions. When an inhibit is
in effect, this section will be backlighted. In the SUMMARY
STATUS AREA, the SYS INH indicator will be backlighted.
The return of the top line to normal video means that a valid
request to allow (or clear) an inhibit has been accepted. A
valid allow request will also cause any text in the area to the
right of the box number to be blanked.
The last line of each indicator shows which menu commands, if
any, are available from the display. For example, at the bottom
of box 17 the numbers ``6 7 9'' appear. The ``6'' means this
item can be inhibited by entering 617, the ``7'' means it can
be allowed by entering 717, and the ``9'' designates output is
available with 917. On color MCCs, there is also color mapping
from the commands shown on the left of the display to the
numbers in the boxes. Boxes without commands listed are
inhibited only by the system or from manual action independent
of this display page.
Following is the correspondence between the number key and the
action taken:
Number Action
4 Set
5 Clear
6 Inhibit
7 Allow
9 Output
This paragraph describes the individual indicators and their
behavior.
Box 00 - Box 00 is not currently used.
Box 01 - Message Class Brevity Control
This indicator shows whether or not the automatic output message
class brevity control is inhibited. Brevity control is used to
restrict the generation of certain application output messages
for both the AM and equipped SMs. Inhibiting message class
brevity control permits normally suppressed messages to go to
the ROP or the log file.
The message class brevity control inhibit must be entered with
the teletypewriter (TTY) input message INH:BREVC,MSGCLS=a.
Since a named MSGCLS is required, a menu command is not
provided. Inhibiting brevity control for one or more MSGCLSs
may cause increased communication link traffic which can degrade
call processing performance and capacity. (See AT&T 235-600-700,
Input Messages Manual.) The request will display INH when
recorded. This inhibit will take effect immediately with the
request.
Entering allow command 701 generates the message
ALW:BREVC,MSGCLS=ALL. The request will clear the text INH when
recorded. This allow will take effect immediately with the
request.
This inhibit is cleared by any high-level AM initialization.
Box 02 - Message Class Log/Print Status
The box 02 indicates that at least one message class has the
log/print status that is different from the backup status.
To change the log/print status for one or all message classes,
enter input message CHG:LPS,MSGCLS={a|ALL} with additional
parameters. (See AT&T 235-600-700, Input Messages Manual.) The
request will display CHG when recorded. This change will take
effect immediately with the request.
Entering the menu command 902 generates the input message
OP:LPS,MSGCLS=ALL and causes the status of the message classes
to be printed at the ROP.
Box 03 - MDII Reporting
The machine-detected interoffice irregularity (MDII) indicator
is backlighted when one or more MDIIs are inhibited. The
inhibits are generated by the TTY input message INH:MDII with
additional parameters. When the inhibit is invoked, it
suppresses the printing of MDIIs for the trunk group(s)
specified by the input message. The request will display INH
when recorded. This inhibit will take effect immediately with
the request.
Entering the 903 command generates the message OP:MDII, which
causes a listing of all suppressed trunk MDIIs to be printed at
the ROP.
Box 04 - Manual Recent Change
This indicator shows whether or not manual entering of recent
changes is inhibited.
When the command 604 is entered, the message INH:RC is
generated. The request will display INH when recorded. This
inhibit will take effect immediately with the request.
The allow command 704 generates the message ALW:RC. The request
will clear the text INH when recorded.
Since the Automatic Customer Station Rearrangement (ACSR)
feature depends upon Recent Change, if Recent Change is
inhibited, ACSR is also inhibited. During manual inhibits of
Recent Change, the RC box (box 04) is illuminated and the CORC
box (box 05) is partially illuminated.
Box 05 - Customer-Originated Recent Change (CORC)
The box 05 indicator shows whether CORCs are inhibited.
Box 05 is shared by CORCs and the ACSR feature. Since the ACSR
feature depends upon Recent Change, if Recent Change is
inhibited, ACSR is also inhibited. During manual inhibits of
Recent Change, the RC box (box 04) is illuminated and the CORC
box (box 05) is partially illuminated.
When a 905 command is entered, ACSR queuing is inhibited and
CORCs are allowed.
Box 06 - Recent Change Logging
The box 06 indicator shows whether or not the logging of
manually entered recent changes for all processors is inhibited.
This does not include customer-originated recent changes. Recent
Change logging may be inhibited in the event logging is causing
a problem, thereby allowing recent changes to be entered.
Unlogged changes are lost after a boot.
Entering the command 606 generates the message INH:RCLOG. The
request will display INH when recorded. This inhibit will take
effect immediately with the request.
Entering the command 706 generates the message ALW:RCLOG. The
request will clear the text INH when recorded.
Box 07 - Box 7 is not currently used.
Box 08 - Communication Link Normalization
If a fault occurs in one or more SM communication links, the
system will automatically try to restore the link(s) on a
periodic basis. This inhibit will suppress this action when
active.
Entering command 608 will generate the message INH:CLNORM. The
request will display INH when recorded. This inhibit will take
effect immediately with the request.
When the command 708 is entered, it generates the message
ALW:CLNORM. The request will clear the text INH when recorded.
Since attempts to restore CLNKS are periodic, there may be a
delay from the time an allow or inhibit request is recorded
until the allow or inhibit is recognized.
Box 09 - Centralized Automatic Message Accounting (CAMA)
Suspension
The box 09 indicator shows whether or not calls are being routed
through the CAMA operator number identification (ONI) process
for billing. Since inhibiting this indicator causes lost
revenue, a minor alarm is sounded when the inhibit is invoked.
Entering the command 609 generates the message INH:CAMAONI. The
request will display INH when recorded. This inhibit will take
effect immediately with the request.
Entering the command 709 generates the message ALW:CAMAONI. The
request will clear the text INH when recorded.
Box 10 - Trunk Hold
The box 10 indicator shows whether or not one or more trunk
groups are being monitored.
To monitor one or more trunk groups, the input message MON:TRUNK
must be entered. The request will display MON when recorded.
This monitoring will take effect immediately with the request.
The system looks for stop-go signaling failures in members of
monitored group(s). If a failure occurs, the member is held
off-hook and out of service for the craft to determine the
nature of the failure.
The input message CLR:TRUNK is entered to remove the stop-go
signaling.
Warning: This message will return all members back to
service, even if they failed. The request will
clear the text MON when recorded.
Entering the 910 command generates the input message OP:TRUNK,
which causes a listing of all trunk groups and members being
monitored to be printed at the ROP.
Boxes 11 Through 15 - Boxes 11 through 15 are not currently
used.
Box 16 - Routine Audits
The box 16 indicator shows if the automatic routine execution of
one or both AM application audit cycles (OKP or SMKP) are
inhibited.
The only way to obtain a single audit inhibit is via a TTY input
message in the message mode. (See INH:AUD=a,ENV=b in AT&T 235-
600-700, Input Messages Manual.) Single inhibits are not phase
protected.
Entering the 616 command requests the inhibit of all audits and
generates the message INH:AUD=CYCLE,ENV. The request will
display INH when recorded. The request state does not
necessarily imply that the inhibit is in effect. Normally, the
status will follow the request within a short period of time.
If the 716 command is entered, the message ALW:AUD=CYCLE,ENV is
sent. The request will clear the text INH when recorded. The
request state does not necessarily imply that the inhibit has
been cleared. Normally, the status will follow the request
within a short period of time.
The command 916 (OP:AUD,STATUS=ALL,ENV=a) can be entered to get
the ROP listing of routine audit status for the application AM.
Box 17 - Routine Exercises
The box 17 indicator shows if any or all of the application
routine hardware exercises are inhibited in the communication
module (CM). Inhibits for routine exercises are effective for
only one exercise session. If the tests are in progress when the
message is received, the inhibit will not take place until the
next session.
Routine exercises are scheduled to run at specific times (for
example, daily at midnight). If inhibited exercises are allowed
after the scheduled time, the exercises are not started until
the next scheduled session.
When 617 is entered, the message INH:REX,CM is generated, which
inhibits all application CM routine exercises. The request will
display INH when recorded. This inhibit will take effect
immediately with the request.
If the command 717 is entered, the message ALW:REX,CM is
generated, which allows all application CM routine exercises.
The request will clear the text INH when recorded.
Entering the command 917 sends the message OP:REXINH,CM, which
generates a status listing at the ROP.
Note: These are application routine exercises and are
different from the routine exercises for the AM, as
shown on the EAI display.
Box 18 - Software Checks
The box 18 indicator reflects whether or not the AM application
software checks have been inhibited. The AM software checks and
the application software checks are different, but are
controlled together from manual commands.
The box 18 indicator can only be controlled from the EAI or TTY
input message INH:SFTCHK. This inhibit will prevent internal
software checks from causing initializations.
Entering the 618 command requests the inhibit of internal
software checks and generates the message INH:SFTCHK. The
request will display INH when recorded. The request state does
not necessarily imply that the inhibit is in effect. Normally
the status will follow the request within a short period of
time.
If the status is inhibited without being requested, the inhibit
was automatically applied by the system.
If the 718 command is entered, the message ALW:SFTCHK is sent.
The request will clear the text INH when recorded.
Box 19 - Min-Mode
The box 19 indicator shows the states of application min-mode.
When this box is backlighted, no call processing functions are
allowed in the AM. This is only used in extreme emergencies to
prevent customer actions from interfering with machine
operations.
Min-mode is invoked and deleted via EAI application pokes ``M''
and ``N,'' respectively.
The request will display INH when recorded. This inhibit will
take effect immediately with the request following the next
major AM initialization.
The request will clear the text INH when recorded and take
effect on the next major AM initialization.
Box 20 - Message Brevity Control
The box 20 indicator gives inhibit status of message brevity
control for all messages originating from the application
processes in the AM only.
Entering inhibit command 620 generates the message INH:BREVC,AM.
The request will display INH when recorded. This inhibit will
take effect immediately with the request.
Entering the allow command 720 generates ALW:BREVC,AM. The
request will clear the text INH when recorded.
This inhibit is cleared by any high-level AM initialization.
Box 21 - Recent Change Backout
The box 21 indicator shows whether or not uncommitted (recently
entered) AM recent changes are loaded or backed out. Backout can
only occur as a result of an AM high-level initialization.
The description portion shows when the recent changes are
actually backed out or loaded. If the backout is in progress, a
number will appear on the third line of the box showing the
progress of the backout. From 200 down to 100 is CORC backout;
200 meaning CORC is still fully backed out and 100 meaning CORC
is fully rolled forward. From 100 down to 0 is RC backout; 100
meaning RC is still fully backed out and 0 meaning RC is fully
rolled forward. Recent changes can be backed out only in
conjunction with a high-level initialization.
Recent changes should be backed out if a recent change is
suspected to be the cause of an AM performance problem.
When the command 421 is entered, the message SET:BACKOUT,RC,AM
is generated. The request will display SET when recorded. The
request state does not necessarily imply that the set is in
effect.
When the command 521 is entered, the message CLR:BACKOUT,RC,AM
is sent. The request will clear the text SET when recorded. The
request state does not imply that the backout has been cleared.
Box 22 - Emergency Action Interface/Miscellaneous Checks
The box 22 indicator shows if Emergency Action
Interface/Miscellaneous checks are inhibited. This box includes
hardware and error interrupts inhibits from the Emergency Action
Interface page and also error source inhibits.
When one of the messages INH:ERRINT or INH:ERRSRC is input, it
will cause the box to backlight. This box will also backlight
if error interrupt is inhibited on the Emergency Action
Interface page. Input messages ALW:ERRINT or ALW:ERRSRC will
allow the respective inhibits.
Note: The lower portion of this box is lighted only if
all error interrupt inhibits have been inhibited or
error source inhibits are inhibited. If error
interrupt checks are allowed unit by unit, the
indicator will not be cleared.
When the command 922 is entered, the message OP:ERRCHK is sent.
This generates a listing of the active inhibits.
Box 23 - Routine Maintenance
This indicator reflects whether or not a routine maintenance
function is inhibited. Should routine maintenance functions be
inhibited for an extended period of time, various system
resource availability and consistency may be adversely affected.
This indicator monitors the AM's Generated Key Collection and
Compression Routine inhibit status. If the routine is
inhibited, the description is backlighted.
When the 623 command is entered, the message INH:GKCCR,AM is
sent which requests that automatic executions of the Generated
Key Collection and Compression Routine be inhibited.
Entering command 723 generates the command ALW:GKCCR,AM which
requests that automatic periodic execution of the Generated Key
Collection and Compression Routine be allowed.
Box 24 - Hardware Checks
The box 24 indicator shows whether or not the AM/CM application
hardware checks have been inhibited. This indicator can only be
controlled from the EAI or by TTY input message INH:HDWCHK.
This inhibit will prevent maskable hardware faults from causing
recovery.
Entering the 624 command requests the inhibit of maskable
hardware faults and generates the message INH:HDWCHK. The
request will display INH when recorded. The request state does
not necessarily imply that the inhibit is in effect, since the
status will follow the request within a short period of time.
If the status is inhibited without being requested, the inhibit
was automatically applied to the system.
When the 724 command is entered, the message ALW:HDWCHK is sent.
The request will clear the text INH when recorded.
Boxes 25 Through 27 - Boxes 25 through 27 are not currently
used.
Figure .AW G287/ is an example of the 110 page display which shows one
system inhibit set and two AM inhibits set. Routine Exercises in
box 17 has been inhibited. Box 21 shows RC BACKOUT is currently
set and has been partially backed out (80%). However, the top
line is normal video and there is no SET text after the 21. This
indicates that the craft does not desire the recent changes to
be kept out.
In addition to the following commands, all available display
commands can be accessed from Display Page 110.
2
CMD RESULT
421 RC Backout (AM) is set (SET:BACKOUT,RC,AM)
521 RC Backout (AM) is cleared (CLR:BACKOUT,RC,AM)
604 Manual RC is inhibited (INH:RC)
606 RC Logging is inhibited (INH:RCLOG)
608 CLNK Normalization is inhibited (INH:CLNORM)
609 CAMA is inhibited (suspended) (INH:CAMAONI)
616 Routine Audits (AM) are inhibited (INH:AUD=CYCLE,ENV)
617 Routine Exercises (CM) are inhibited (INH:REX,CM)
618 Internal Software Checks are inhibited (INH:SFTCHK)
620 Message Brevity Control (AM) is inhibited (INH:BREVC,AM)
623 Routine Maintenance (AM) is inhibited; specifically,
Generated Key Collection and Compression Routine (INH:GKCCR,AM)
624 Internal Hardware Checks are inhibited (INH:HDWCHK)
701 Message Class Brevity Control is allowed (ALW:BREVC,MSGCLS=ALL)
704 Manual RC is allowed (ALW:RC)
706 RC Logging is allowed (ALW:RCLOG)
708 CLNK Normalization is allowed (ALW:CLNORM)
709 CAMA is allowed (no longer suspended) (ALW:CAMAONI)
716 Routine Audits (AM) are allowed (ALW:AUD=CYCLE,ENV)
717 Routine Exercises (CM) are allowed (ALW:REX,CM)
718 Internal Software Checks are allowed (ALW:SFTCHK)
720 Message Brevity Control (AM) is allowed (ALW:BREVC,AM)
723 Routine Maintenance (AM) is allowed; specifically,
Generated Key Collection and Compression Routine (ALW:GKCCR,AM)
724 Internal Hardware Checks are allowed (ALW:HDWCHK)
902 Message Class Log/Print Status is output (OP:LPS<MSGCLS=ALL)
903 MDII Report is output (OP:MDII)
905 CORC Status is output (OP:STAT,CORC,ACSR)
910 Trunk Hold list is output (OP:TRUNK)
916 Routine Audits (AM) are output (OP:AUD,STATUS=ALL,ENV)
917 Routine Exercises (CM) are output (OP:REXINH,CM)
922 Listing of active inhibits is output (OP:ERRCHK)
The purpose of the 115 display page is to provide a summary of
off-normal status for the hardware units and links which support
AM to SM(s) communication and provide paths for all circuit
switched calls.
The 115 display page has two separate and distinct versions.
The first version (Figure .AW G288/) is for offices with communication
module model 2 (CM2) hardware. The second version (Figure .AW G289/)
is for offices with CM1 hardware.
The 115 page provides overall status for MSGS 0, MSGS 1, MI/NC 0
(MI/LI/NC 0 for CM1), MI/NC 1 (MI/LI/NC 1 for CM1), TMS 0, TMS
1, communication links for the SMs, fan and fan fuse alarms for
the ONTCs (for the MSGSs and TMSs for CM1), the status of the
hardware check inhibit request bit, and the status of the
MI/NC/TMSs (MI/LI/NC/TMSs for CM1) functioning as a group
(ONTCCOM).
The ONTCCOM 0 includes MI 0 (and LI 0 in CM1), NC 0, and TMS 0.
The ONTC 0 includes ONTCCOM 0 and all DLIs on side 0. The
ONTCCOM 1 includes MI 1 (and LI 1 in CM1), NC 1, and TMS 1. The
ONTC 1 includes ONTCCOM 1 and all DLIs on side 1.
If an MSGS, MI/NC (MI/LI/NC in CM1), or TMSLNK has an off-normal
condition (out-of-service not family of equipment, unavailable,
hardware checks inhibited), the appropriate indicator with the
page number of the MCC page with the detailed information is
backlighted. The phrase ``SEE PAGE XXXX IF BACKLIT'' is
backlighted when any of the boxes are backlighted to point out
that the numbers in the boxes are the page numbers to request.
Note: The 1210 boxes are backlighted only for NC reference or
oscillator problems.
The CLNKS indicator is a summary of the equipped SM
communication links status which is detailed on Page 1260.
The CLNKs are not TMSLNKs. A CLNK is a communication path
between the AM and an SM which passes through an MSCU, MMP, TMS,
TMSLNK, and DLI. The TMSLNKs connect the TMS to the DLI.
The backlighted indicator shows the page necessary for acting on
the problem. As an example, the box with 1242 indicated is
backlighted in Figure .AW G288/ because a module message processor
(MMP) on Display Page 1242 is shown as out of service (OOS).
The MMP out of service is also reflected on the MSGS 0 Page
1240, but going to 1240 would not be the final step to see and
act on the problem so the MSGS 0 box with 1240 indicated is not
backlighted. If a foundation peripheral controller (FPC) or pump
peripheral controller (PPC) was out of service also, then the
MSGS 0 box would backlight as shown in Figure .AW G289/. The purpose
of this strategy is to get the craft directly to the problem
with minimum paging. Therefore, if the 1240 (MSGS 0) box and
the 1241 (or 1242) were both backlighted, an out of service (not
family of equipment), an unavailable, an out-of-service power,
or an unavailable power condition would exist in an MMP and an
FPC, PPC, or MSCU.
The TMS 0 and 1 boxes (indicating Page 1220) will never
backlight. If a TMS is OOS, it would be due to the whole ONTC
being OOS or UNV; therefore, 1209 is the appropriate page to
display.
Figure .AW G288/ shows an example of the CM2 Version with problems in
MI/NC 1, MSGS 0, TMS 0, CLNKS, and ONTC 1. Further information
on these problems would be found on display 1210 - MI/NC 0 & 1,
1242 - MSGS 0 - COMMUNITIES 2 - 7, 1221 - TMS 0 TMS LINKS 002 -
063, 1260 - CLNK SUMMARY, and 1209 - ONTC 0 & 1. There is a fan
alarm on ONTC 0, and the ONTC 1 fan fuse alarm is inhibited.
Figure .AW G289/ shows an example of the CM1 Version with problems in
MI/LI/NC 1, MSGS 0, TMS 0, CLNKS, and ONTC 0. Further
information on these problems would be found on displays 1210 -
MI/LI/NC 0 & 1, 1240 - MSGS 0 SUMMARY, 1221 - TMS 0 - TMS LINKS
002 - 063, 1260 - CLNK SUMMARY, and 1209 - ONTC 0 & 1. There is
a fan alarm on MSGS 0 and the TMS 0 fan fuse alarm is inhibited.
The FPC DPLF indicator is signaling that FPC duplex failure is
in effect.
There are no menu commands on the 115 display page. Commands for
removing, restoring, diagnosing, etc., are listed on the related
pages. There are no menu commands on the displays for fans or
fan fuses. For fans or fan fuses, see CLR:FANALM in AT&T 235-
600-700, Input Messages Manual.
All available display commands can be entered from the 115
display page.
The 116 display page provides status for various
units/activities which do not fall under any other grouping.
The External Sanity Monitor (ESM) has indicat
