BSC Acceptance Test Procedures.doc

BSC HW Acceptance Test Procedures

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BSC Acceptance Test Procedures Contents 1.

APG43 Tests................................................................................................................3 1.1. APG43 HW structure...........................................................................................3 1.2. Initial APG43 tests...............................................................................................5 1.3. Test APIO SW and STS SW are installed and activated.....................................6 1.4. FAN test...............................................................................................................8 1.5. Test of IO Device.................................................................................................9 1.6. Configuration Change for the SSU Folder..........................................................9 1.7. Backup of APG43 SW and Transfer to DVD....................................................10 1.8. Restore of APG43 SW from DVD.....................................................................13 1.9. NSF (Network Surveillance Function) testing..................................................14 1.10. Failover test (prcboot)....................................................................................14 1.11. FTP test..........................................................................................................15 2. APZ 212 55 Tests.......................................................................................................16 2.1 APZ 212 55 HW configuration..........................................................................16 2.2 Manual Intervention when CP-A is EX.............................................................17 2.3 Manual Intervention when CP-B is EX.............................................................18 2.4 Manual Initiated Small Restart..........................................................................20 2.5 Manual Initiated Large Restart..........................................................................21 2.6 Activate the Command Log...............................................................................22 2.7 Manual Initiated Large Restart with Reload from MS......................................23 2.8 Manual Initiated Large Restart with Reload from File......................................26 2.9 FEX Load on CP-A...........................................................................................28 2.10 FEX Load on CP-B............................................................................................29 2.11 Function Change Method II...............................................................................30 2.12 Initial Loading of CP-A.....................................................................................32 2.13 Initial Loading of CP-B.....................................................................................37 3 APT Tests:..................................................................................................................43 3.1 Check of RPs and EMs......................................................................................43 3.2 Test of CLM.......................................................................................................43 3.3 Test of XM.........................................................................................................45 3.4 Test of MUX3....................................................................................................46 3.5 Final Test of XM................................................................................................47 3.6 Test of RCM.......................................................................................................48 3.7 Test of ET...........................................................................................................49

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1. APG43 Tests 1.1.

APG43 HW structure

The APG43 contains the following boards, which are located in an eGEM. The eGEM magazine with the APG43 always contain an APZ 212 55. APUB The APUB is a GEP board. APG43 contains two boards, one per side. Disk The disk is a GED board. APG43 contains two boards, one per side. DVD The DVD is a GED board. APG43 contains one optional board. Alarm The alarm is a GEA board. APG43 contains one optional board.

Figure 1 – APG43 connectivity

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Figure 2 – APG43 connectivity

Figure 3 – BSC APG43 configuration

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Figure 4 –APG43 external connectivity

1.2.

Initial APG43 tests

Logon via remote desktop over the public network towards both sides of the APG43. Before start of test it should be verified that the system is running normally. 1. Logon to the active APG43 side. Check that you are connected to the active side: C:\>prcstate Printout: active 2. Print the ‘Cluster_name’ and the ‘Host_name’ from the active side: C:\>cluster /ver

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C:\>hostname 3. Check that all cluster groups are online: C:\>cluster group Printout: Status is listed for all available resource groups. 4. Check that all cluster resources are online: C:\>cluster res Printout: Listing status for all available resources 5. Check that the right SW is installed: C:\>swrprint Printout: AP SOFTWARE CHARACTERISTICS 6. Check that the right time zone is set: C:\>mtzln -p 7. Check the date: C:\>date Printout: The current date is: day mm/dd/yyyy Enter the new date: (mm-dd-yy) Note: Enter RETURN or new date. 8. Check the time: C:\>time Printout: The current time is: hh:mm:ss Enter the new time: Note: Enter RETURN or new time. 9. List all alarms on APG: C:\>alist Note: Clear all alarms by using the appropriate OPI. Some alarms might not be cleared here due to the missing CP connection (for example "AP SYSTEM CLOCK NOT SYNCHRONIZED"). 1.3.

Test APIO SW and STS SW are installed and activated

1. Open a command prompt: Start -> All Programs -> Accessories -> Command Prompt 6

C:\>dsdls -a The printout must contain: node cp0 node ap1a or ap1b Connect to the CP through the AD-ports. Use the SW Winfiol. Verify that the CP AP connection is enabled. C:\>mml APAMP; Printout: AP MAINTENANCE DATA 2. Test of MCS. C:\>cpdtest -c Printout: STATE must have the value CONNECTED Start an MML session (with spontaneous printouts). C:\>mml –a cpfls -ls Printout: CP FILE TABLE 4. Test of MAS. C:\>mml –a
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5. Test of CPS. List all defined system backup files: Printout: SYSTEM BACKUP FILES Leave the MML session: bupls If any value is faulty, change it by using the command bupdef. C:\>bupdef -n -m -s ^{1.4.

FAN test

This chapter can be omitted when the APG43 is delivered standalone, or if the fan has been tested earlier. 1. Connect the power cabling to the Fan subrack. 2. Return to Central Processor (CP) mode. C:\>exit 3. Make sure the alarm list is empty.

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8. Verify that the alarm has ceased. 9. Repeat step 1 on page 8 to step 8 on page 9 for all fans in the magazine Using the fan alarm function.

1.5.

Test of IO Device

The test in this chapter must only be done if the APG43 also has got the APIO SW installed, that is, it is only for AP1. In this test the connection ports for AD-terminals are checked and tested. 1. IO Device in CP, Attributes. C:\>cpdlist -l 2. Print CP-AP connections. C:\>cpdtest -c 3. Change IO Device in CP if the test is not successful. C:\>cpdchange < . . .> 4. Return to Central Processor (CP) mode. C:\>exit 5. Print IO device table.

Configuration Change for the SSU Folder

1. Logon to the AP active side as a user with administrator rights and check that you are logged on to the active side. C:\>prcstate 2. List the APG43 configuration type for the SSU folder. C:\>ssuls -l The printed configuration type must be BSC, MSC or HLR for a One CP System. Check that it is the correct one, if it is known what it must be. If it is not known, It must be BSC for a One CP system. If OK, omit the next step and continue with the next chapter. 3. Change the APG43 configuration type, if it is not the correct one. 9

C:\>ssucfg -c BSC -f Check the result: C:\>ssuls

1.7.

Backup of APG43 SW and Transfer to DVD

1. Logon to the AP active side as a user with administrator rights check that you are logged on to the active side. Check current alarms. C:\>prcstate C:\>hostname C:\>alist 2. Display a list of directories in the root directory of the system disk and check that c:\acs\data\BUR\ exists. C:\>dir /ad c:\acs\data Note: Create the BUR directory, if the directory does not exist: C:\>mkdir c:\acs\data\BUR 3. Logout from the current active side. C:\>exit 4. Logon to the AP passive side as a user with administrator rights and check that you are logged on to the passive side. Check current alarms. C:\>prcstate C:\>hostname C:\>alist 5. Display a list of directories in the root directory of the system disk and check That c:\acs\data\BUR\ exists. C:\>dir /ad c:\acs\data Note: Create the BUR directory, if the directory does not exist:

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C:\>mkdir c:\acs\data\BUR 6. Check that directory ‘images’ exists in K:\. Replace with the Name of the cluster. Check that the directories ‘NodeA’ and ‘NodeB’ exist. C:\>dir \\\images 7. Perform a complete backup of both sides. That is, data disk information is saved, backup of partition C:\ to D:\ is performed, and an archive backup is stored on the data disks. The image name and archive_filename are automatically generated. C:\>burbackup -o Confirm it by entering ‘y’ Note 1: The printout ... returned error 5 . . . . Might be received according to TR HH91244. It is solved in LLV10. Note 2: The created backup archives will be automatically verified. Note 3: The procedure will take approximately one hour depending on system load. Note 4: The automatically generated image name is: sidename_YYYYMMDD_HHMMSS.zip The automatically generated archive_filename is: K:\\Images\Node(A/B)\sidename_YYYYMMDD_HHMMSS.zip Note 5: The text .burBackup one button backup execution completed. followed by a prompt must be received 8. Print the current/last operation: C:\>emfinfo 9. Is the current/last operation in status PROCESSING? YES: Wait a while for the copy process to finish. Processing time for 1 GB is approximately 22 minutes. NO: If the APG43 contains no DVD board, continue with the next chapter. Otherwise continue with the next step. 10. Insert an empty DVD into the APG43. Note 1: The DVD must be an approved version for APG43 DVD Media Compatibility List. Note 2: A DVD of type DVD-R has to be chosen. This DVD must be used for the delivery to the customer. 11. Transfer the backup file for side A on the DVD.

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C:\>emfcopy -m TODVD \\\images\NodeA\ Note 1: Parameter .o must be used, if the DVD is of type RW, so that the DVD is erased before data is copied to it. Note 2: Enter the command from the active side. Note 3: Lable the DVD with the name of the APG43, the side name, and the date. 12. Print the current/last operation: C:\>emfinfo 13. Is the current/last operation in status PROCESSING? YES: Wait a while for the copy process to finish. Processing time for 1 GB is approximately 22 minutes. Then go to step 12 on page 35. NO: Continue with the next step 14. Check the contents of the DVD: C:\>dir G: 15. Insert another empty DVD into the APG43. Note 1: The DVD must be an approved version for APG43.DVD Media Compatibility List. Note 2: A DVD of type DVD-R has to be chosen. This DVD must be used for the delivery to the customer. 16. Transfer the backup file for side B on the DVD. C:\>emfcopy .m TODVD \\\images\NodeB\ Note 1: Parameter -o must be used, if the DVD is of type RW and if it is not the same DVD as was used for side A, so that the DVD is erased before data is copied to it. Note 2: Enter the command from the active side. Note 3: Lable the DVD with the name of the APG43, the side name, and the date. 17. Print the current/last operation: C:\>emfinfo 18. Is the current/last operation in status PROCESSING? YES: Wait a while for the copy process to finish. Processing time for 1 GB is approximately 22 minutes. NO: Continue with the next step. 19. Check the contents of the DVD:

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C:\>dir G: 1.8. Restore of APG43 SW from DVD 1. Logon to the passive side. 2. Make the passive side owner to the DVD. C:\>emfget 3. Insert a DVD with the backup for side A into the APG43. 4. Copy the zip backup for side A from the G: partition (DVD) to K:\images. C:\>copy G:\.zip \\\images\NodeA 5. Insert a DVD with the backup for side B into the APG43. 6. Copy the zip backup for the side B from the G: partition (DVD) to K:\images. C:\>copy G:\.zip \\\images\NodeB 7. Verify the zip backups for both sides. C:\>burverify -i \\\images\NodeA\.zip C:\>burverify -i \\\images\NodeB\.zip 8. Perform a restore to the D: partition on the passive side. C:\>burrestore -a \\\images\Node(A/B)\.zip 9. Logon to the active side and reboot the side. C:\>prcboot -.f Wait until the side reboots and then logon to the same side, now passive. Note: Maximum two reboots in 30 minutes per APG43 side must be executed to prevent cyclic AP reboot. 10. Perform a restore to the D: partition on the other side that is now passive. C:\>burrestore -a \\\images\Node(A/B)\.zip 11. Restore passive side without rebooting the side. C:\>burrestore -r -s Note: After a restore of the system it takes up to 10 minutes until the net share is available. Until the share is available a new backup must not be made. Use command "net share sysvol" to make sure that the share is available. 12. Shutdown the passive side. C:\>prcboot -s 13. Logon to the other active side and restore this side. C:\>burrestore -r

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Note: After a restore of the system it takes up to 10 minutes until the net share is available. Until the share is available a new backup must not be made. Use command "net share sysvol" to make sure that the share is available. 14. Verify cluster and side resources are online after restore C:\>cluster res Note: It can take some time before the side resources are online. 15. Reset the other side from the active side C:\>hwmreset -f -n other Wait for the other side to reboot and then logon to that side. Check that all cluster resources are online. C:\>cluster res | findstr -ive online 16. Check that there are two DVD-R versions with backups available for delivery to the customer. The DVDs must be strapped to the APG43 magazine

1.9.

NSF (Network Surveillance Function) testing

External Network Surveillance Functionality - Check if functionality flag is active (0=not active, 1=active) using command C:\ phaprint acs_nsf_activeflag - If active disconnect the Ethernet (Public IP) cable in the active node. - Wait for Failover to occur and active node is rebooted. - Check the rebooted node (now passive) is up again and stable. - Check all the cluster resources are online. - Reconnect Ethernet cable and check interfaces are up running. - Repeat on the second node (now active)

1.10.

Failover test (prcboot) -

Reboot active node by entering C:\PRCBOOT After Failover, check that the external interfaces are up and running. Check the rebooted node (now passive) is up again and stable. Check all the cluster resources are online. Repeat on the second node (now active)

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1.11.

FTP test -

Using a (S) FTP client, such as that provided by MS-DOS, open up a session to the active node. Dir and cd ftpvol if needed Goto the dedicated FTP directory on the Node, K:\ftpvol\ Upload any test file onto the directory. Exit session. Open a new session to the active node. Check for test file and rename it. Download file to Local PC. Exit session. Check renamed file from Local PC.

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2. APZ 212 55 Tests 2.1

APZ 212 55 HW configuration

Figure 5 –APZ boards

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Table 1 – APZ 212 55 cabling 2.2

Manual Intervention when CP-A is EX

1. Check the alarm list. . Printout: CP STATE 3. Passivate the automatic output function.

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Note 1: Be sure first that you have an unbroken chain with RELFSW0, RELFSW1 and RELFSW2. RELFSW3 is not defined. Note 2: SYBUP command separates CP-SB in APZ 212 55 and in APZ 212 60. . Printout: BACKUP INFORMATION OUTPUT PROGRESS Printout: BACKUP INFORMATION OUTPUT Wait until the output is finished. 5. Initiate procedure for CP repair. . Printout: CP DIAGNOSIS 6. Select a suspected board from the list of CP DIAGNOSIS printout. Initiate manual intervention in the CP with parameters of the selected suspected board. . Printout: CP REPAIR Note: In APZ 212 55 and APZ 212 60, the system will always have the A side as EX after successful command execution. 9. Activate the automatic output function.

2.3

Manual Intervention when CP-B is EX

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1. Switch executive side. CP in WO state. CP-B should be executive. . Printout: CP STATE 2. Initiate procedure for CP repair. . Printout: CP DIAGNOSIS 3. Select a suspected board from the list of CP DIAGNOSIS printout. Initiate manual intervention in CP with parameters of the selected suspected board. . Printout: CP STATE 5. Initiate a repair check. . Printout: CP REPAIR Note: In APZ 212 55 and APZ 212 60, the system will always have the A side as EX after successful command execution. 6. Check whether CP-A is EX. . Printout: CP STATE

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2.4

Manual Initiated Small Restart

1. Check the alarm list. . Printout: CP EVENT RECORD 8. Check the RP event record. It contains information about common events, RP events and EM events. No new UNEXPECTED events should have occurred in conjunction with the restart. Information about the restart itself will be added as a common event. No new RP or EM events should have been added.

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2.5

Manual Initiated Large Restart

1. Check the alarm list.

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Release the terminal by entering . Printout: CP EVENT RECORD 8. Check the RP event record. It contains information about common events, RP events and EM events. No new UNEXPECTED events should have occurred in conjunction with the restart. Information about the restart itself will be added as a common event. No new RP or EM events should have been added.

2.6

Activate the Command Log

1. Switch to AP mode. cpfls -ls RELCMDHDF For a Multiple CP system: C:\>cpls -l C:\>cpfls -cp -ls RELCMDHDF If it does not exist, create the command log file. C:\>cpfmkfile -l 512 -c RELCMDHDF RELVOLUMSW For a Multiple CP system: C:\>cpfmkfile .cp -l 512 -c RELCMDHDF RELVOLUMSW Note: must be written with capital letters. Return to Central Processor (CP) mode: C:\>exit 3. Check the alarm list.

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cpfmkfile RELCMDHDF -0000001. For a Multiple CP system: C:\>cpls -l C:\>cpfmkfile -cp RELCMDHDF -0000001. Return to CP Mode. C:\>exit Note: must be written with capital letters. 5. Activate the command log. . Wait for the result printout. Printout: COMMAND LOG ACTIVATION RESULT The command log is activated.

2.7

Manual Initiated Large Restart with Reload from MS

This chapter is only for AP1, since AP2 does not have APIO. Manual Initiated Large Restart with Reload from Main Store (MS). 1. Print the system backup files and make sure that RELFSW2 can be Overwritten. . . Printout: SYSTEM BACKUP FILES 2. The command logging function is initiated, if it has not already been initiated. . Printout: COMMAND LOG ACTIVATION RESULT 3. Passivate the automatic output of the system backup.

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4. Make a system backup. Wait for result printout. . Printout: BACKUP INFORMATION OUTPUT PROGRESS Printout: BACKUP INFORMATION OUTPUT Wait until the printout is finished. 5. Rotate the backup files. During normal operation (that is, in a live exchange) all the files RELFSW0, RELFSW1 and RELFSW2 contain valid dump generations. In that case command SYTUC is used for rotation of backup files. . If SYTUC is successfully executed, proceed with the next step. Otherwise continue with this step. At start-up it might not be allowed to rotate the files, because some of the files are defined but empty. In this case a manual rotation can be done. Note 1: The following procedure must never be used in a live switch! Switch to AP local mode. cpfrename relfsw0 dummy C:\>cpfrename relfsw2 relfsw0 C:\>cpfrename dummy relfsw2 For a Multiple CP system: C:\>cpls -l C:\>cpfrename -cp relfsw0 dummy C:\>cpfrename -cp relfsw2 relfsw0 C:\>cpfrename -cp dummy relfsw2 Note 2: must be written with capital letters. The contents of the files RELFSW0 and RELFSW2 are swapped. RELFSW0 will afterwards contain the latest dump. Return to CP Mode. C:\>exit 6. Activate automatic, periodic output towards the backup in the MS. The predefined reloading file is RELFSW0.

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Printout: CP STATE BUA STATE must have the value 1 if MS is validated. 8. Print system backup copy in MS. . Printout: SYSTEM BACKUP FILES 9. Order a restart with reload. Wait for the reloading to finish. Check that a reload was performed and that it was command initiated. The printout RESTART DATA is directed to the device defined for PRCA=32. .

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Printout: CP EVENT RECORD 15. Check the RP event record. It contains information about common events, RP events and EM events. No new UNEXPECTED events should have occurred in conjunction with the restart. Information about the restart itself will be added as a common event. No new RP or EM events should have been added.

Manual Initiated Large Restart with Reload from File

1. Print the system backup files and make sure that RELFSW2 can be overwritten. . . Printout: SYSTEM BACKUP FILES 2. The command logging function is initiated, if it has not already been initiated. . Printout: COMMAND LOG ACTIVATION RESULT 3. Passivate the automatic output of the system backup. . Printout: BACKUP INFORMATION OUTPUT PROGRESS Printout: BACKUP INFORMATION OUTPUT Wait until the printout is finished. 5. Rotate the backup files. . If SYTUC is successfully executed, proceed with the next step. Otherwise Continue with this step. Rotate the reload files manually. Note 1: This procedure must never be used in a live switch! Switch to AP local mode. cpfrename relfsw0 dummy C:\>cpfrename relfsw2 relfsw0 C:\>cpfrename relfsw1 relfsw2

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C:\>cpfrename dummy relfsw1 For a Multiple CP system: C:\>cpls -l C:\>cpfrename -cp relfsw0 dummy C:\>cpfrename -cp relfsw2 relfsw0 C:\>cpfrename -cp relfsw1 relfsw2 C:\>cpfrename -cp dummy relfsw1 Note 2: must be written with capital letters Return to CP Mode. C:\>exit 6. Order a restart with reload. Wait for the reloading to finish. Check that a reload was performed and that it was command initiated. The printout RESTART DATA is directed to the device defined for PRCA=32. . Printout: CP EVENT RECORD

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11. Check the RP event record. It contains information about common events, RP events and EM events. No new UNEXPECTED events should have occurred in conjunction with the restart. Information about the restart itself will be added as a common event. No new RP or EM events should have been added.

2.9

FEX Load on CP-A

1. Disconnect the CP-A board and the CP-B board from the eGEM. Note 1: The boards can be disconnected in any order. Note 2: The boards should only be pulled out a few centimetres, not completely removed from the magazine. Note 3: A torx wrench is needed to disconnect the boards. 2. Disconnect the power to MAUB and wait 10 seconds. Note: Use the unconditional power switch on the MAUB. If it does not have any power switch, pull out the MAU board. 3. Reconnect the CP-A board into the eGEM. Wait 2-15 minutes for the reload to finish. The following exchange header is an example of a printout that can be received, if the logon attempt is successful. ‘FEX’ must be received as CP state. FEX 55REF_LSV18_C00_0925 AD-4 TIME 980101 0000 PAGE 1 < Note 1: Nothing is received on the CDU display when the reload is finished, due to the fact that the display is connected to the MAUB. Note 2: The alarm CP FAULT is received due to missing MAUB. 4. Set the program clock.

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8. Check the CP. . Printout: CP REPAIR Note: The alarm CP FAULT will not cease even though RECCI is successfully completed. 9. Reconnect the CP-B board into the eGEM. Wait 5 minutes until CP display arrives to 390 phase. 10. Make a parallel start of standby CP-side, CP-B. . Printout: CP REPAIR Note 1: In APZ 212 55 and APZ 212 60, the system will always have the A side as EX after successful command execution. Note 2: The alarm CP FAULT will cease. 11. Wait for CP to return to parallel operation.

2.10

FEX Load on CP-B

1. Disconnect the CP-A board and the CP-B board from the eGEM. Note 1: The boards can be disconnected in any order. Note 2: The boards should only be pulled out a few centimeters, not completely removed from the magazine. Note 3: A torx wrench is needed to disconnect the boards. 2. Disconnect the power to MAUB and wait 10 seconds. Note: Use the unconditional power switch on the MAUB. If it does not have any power switch, pull out the MAU board. 3. Reconnect the CP-B board into the eGEM. Wait 2-15 minutes for the reload to finish. The following exchange header is an example of a printout that can be received, if the logon attempt is successful. .FEX. must be received as CP state. FEX 55REF_LSV18_C00_0925 AD-4 TIME 980101 0000 PAGE 1 < Note 1: Nothing is received on the CDU display when the reload is finished, due to the fact that the display is connected to the MAUB. Note 2: The alarm CP FAULT is received due to missing MAUB.

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4. Set the program clock. . Printout: CP REPAIR Note: The alarm CP FAULT will not cease even though RECCI is successfully completed. 9. Reconnect the CP-A board into the eGEM. Wait 5 minutes until CP display arrives to 390 phase. 10. Make a parallel start of standby CP-side, CP-A. . Printout: CP REPAIR Note 1: In APZ 212 55 and APZ 212 60, the system will always have the A side as EX after successful command execution. Note 2: The alarm CP FAULT will cease. 11. Wait for CP to return to parallel operation. . Printout: COMMAND LOG ACTIVATION RESULT

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2.11

Function Change Method II

1. If the automatic size alterations function is active, make it passive. mml -as For a Multiple CP system: C:\>cpls .l C:\>mml -cp -as Note 2: must be written with capital letters. Note 3: The prompt changes from the Shell prompt to (<). 7. Start the application blocks in CP-SB. exit Note 2: The prompt changes from the Shell mode to (<).

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9. Switch the CP sides. . Printout: OUTPUT TO FILE RELFSW2: Accept the proposed file and give order for execution with semicolon (;). ORDERED Release the terminal by entering . Printout: BACKUP INFORMATION OUTPUT PROGRESS Printout: BACKUP INFORMATION OUTPUT Wait until the printout is finished. 11. Rotate the reload files. . 12. Make parallel start of CP-SB side. . Printout: CP SB START PASSED Note: In APZ 212 55 and APZ 212 60, the system will always have the A side as EX after successful command execution. 13. Activate the automatic dumping.

2.12

Initial Loading of CP-A Initial loading is performed to CP-side A. Then RECCI is used to order CP in normal state.

1. Open mml session to CP-SB. C:\>mml -as

2. Connect CPT.

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3. Ensure that the PHCI function is active. The PHCI indicator is on, when the PHCI function is active. Check CP status: cpt

4. If CP-A is not CP-SB, use the following command. cpt

5. Separate the CP. cpt

6. Stop program execution. cpt

7. Disconnect CPT : cpt

8. Close mml session to CP-SB . cpfls Printout: CPF FILE TABLE For details of selected RELFSW99 file: C:\>cpfls -ls RELFSW99

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Printout: CPF FILE TABLE Open mml session to CP-SB . C:\>mml -as

9. Connect CPT.

10. Order an initial load. cpt

11. Release the IO terminal and wait for the initial load to finish. Enter on the IO terminal used for CPT.

12. Check the printouts from CPT (this repeats for a few minutes). The following printouts may be received. Printout: CPT MESSAGE INITIAL LOADING (ABSOLUTE) STARTED Printout: CPT MESSAGE INITIAL LOADING (ABSOLUTE) IN PROGRESS

13. If loading is successful, this printout may appear: Printout: CPT MESSAGE INITIAL LOADING (ABSOLUTE) FINISHED

14. If loading is not successful, check the meaning of the fault code in POD. Printout: CPT MESSAGE INITIAL LOADING (ABSOLUTE) STOPPED

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Printout: CPT MESSAGE INITIAL LOADING (ABSOLUTE) STARTED Printout: CPT MESSAGE *** INITIAL IN PROGRESS LOADING ABNORMAL Solve the fault, and start again from step Error: Reference source not found on page Error: Reference source not found.

15. Disconnect CPT: cpt

16. Close mml session.


18. Wait for printout result (RANK SYSTEM START) after loading in CP-SB side, or the exchange header. Printout: SYSTEM STARTED

(if received)

19. Start the application blocks in CP-SB.

20. Set Error Printout Format to large format in CP-SB.

21. Close mml session to CP-SB.

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22. Open mml session to CP-EX. C:\>mml -a

23. Connect CPT.

24. Switch EX-side. cpt

25. Disconnect CPT. cpt

26. Wait for a large restart in CP-EX, side A. Then the restart is received as a result of the Side Switch. Printout: SYSTEM RESTARTED

27. Set the program clock in CP-EX.

28. Passivity the PHCI function by pressing the PHCI button on the MAU board. The PHCI indicator is off when the PHCI function is passive.

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29. Prepare output of a system backup copy to RELFSW2 ( i.e. to the highest defined reload file in an unbroken sequence of files) : . Printout: BACKUP INFORMATION OUTPUT PROGRESS Printout: BACKUP INFORMATION OUTPUT Wait until finished.

30. Make parallel start of CP-SB side. Wait for result:

31. Check that CP-A is EX and CP-B is SB.


2.13

Initial Loading of CP-B

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This section is intended to ensure that initial loading has been tested on CP-B.

1. Open mml session to CP-SB, side B. C:\>mml -as

2. Connect CPT.

3. Activate the PHCI function. The PHCI indicator is on, when the PHCI function is active. Check CP status: cpt

4. Separate the CP. cpt

5. Stop program execution. cpt


7. Close mml session to CP-SB .

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cpfls Printout: CPF FILE TABLE For details of selected RELFSW99 file: C:\>cpfls -ls RELFSW99 Printout: CPF FILE TABLE Open mml session to CP-SB . C:\>mml -as

8. Connect CPT.

9. Order an initial load. cpt

10. Release the IO terminal and wait for the initial load to finish. Enter on the IO terminal used for CPT.

11. Check the printouts from CPT (this repeats for a few minutes). The following printouts may be received. Printout: CPT MESSAGE INITIAL LOADING (ABSOLUTE) STARTED Printout: CPT MESSAGE INITIAL LOADING (ABSOLUTE) IN PROGRESS

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12. If loading is not successful, check the meaning of the fault code in POD. Printout: CPT MESSAGE INITIAL LOADING (ABSOLUTE) STOPPED Printout: CPT MESSAGE INITIAL LOADING (RELOCATABLE) STARTED Printout: CPT MESSAGE *** INITIAL LOADING PROGRESS ABNORMAL Fix the fault, and start again from Step Error: Reference source not found on page Error: Reference source not found.

13. If loading is successful, this printout may appear: Printout: CPT MESSAGE INITIAL LOADING (ABSOLUTE) FINISHED




17. Wait for printout result (RANK SYSTEM START) after loading in CP-SB side, or the exchange header. Printout: SYSTEM STARTED

(if received)

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18. Start the application blocks in CP-SB.

19. Set Error Printout Format to large format in CP-SB.

33. Close mml session to CP-SB.

34. Open mml session to CP-EX. C:\>mml -a

35. Connect CPT.

36. Switch EX-side. cpt


38. Wait for a large restart in CP-EX. Printout: SYSTEM RESTARTED

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39. Set the program clock in CP-EX.

40. Passivity the PHCI function on the MAU: Press the PHCI button on the MAU. The PHCI indicator is off when the PHCI function is passive.

41. Prepare output of a system backup copy to RELFSWn ( n, highest defined reload file in an unbroken sequence of files) :

42. Start parallel operation. Check that CP-SB can be updated. Wait for result.


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3 APT Tests: 3.1

Check of RPs and EMs

This is an initial check of strapping, cabling and making sure that RPs and EMs are working. --------------------------------------------------------------------------------------------1. Make sure that the GEM/CDM magazines are strapped and cabled correctly --------------------------------------------------------------------------------------------2. Check that RPs are Working (WO). Command: EXRPP:RP=rp; Printout: RP DATA --------------------------------------------------------------------------------------------3. Check that EMs are Working (WO). Command: EXEMP:EM=ALL,RP=rp; Printout: EM DATA ---------------------------------------------------------------------------------------------

3.2 Note:

Test of CLM

If Network Synchronization data is defined, but none of the sources are working, then the test of CLMs will fail. In this case, undefine the NS data. Before test 8, the power must have been "on" for a minimum of 15 minutes. RCM shall be blocked during the test, except for diagnostic test due to error conditions encountered in test 8.

--------------------------------------------------------------------------------------------1.

Check that the CLMs are defined and the state of the CLMs.

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Command: GDSTP:UNIT=unit; Printout: DISTRIBUTED GROUP SWITCH STATE --------------------------------------------------------------------------------------------2.

Deblock CLM-0 and make sure that CLM-0 is WO and the other CLMs are MBL. Command: GDBLE:UNIT=CLM-0; Printout: DISTRIBUTED GROUP SWITCH UNIT DEBLOCKING RESULT

--------------------------------------------------------------------------------------------3.

Initiate the test for CLM-1. Command: GDTEI:UNIT=CLM-1; Printout: DISTRIBUTED GROUP SWITCH UNIT TEST RESULT

--------------------------------------------------------------------------------------------4.

Deblock CLM-1. Command: GDBLE:UNIT=CLM-1; Printout: DISTRIBUTED GROUP SWITCH UNIT DEBLOCKING RESULT

--------------------------------------------------------------------------------------------5.

Wait until CLM-1 is WO, then block CLM-0. Confirm the blocking order. Command: GDBLI:UNIT=CLM-0; Printout: DISTRIBUTED GROUP SWITCH UNIT DEBLOCKING RESULT The system responds: WARNING ACCEPTANCE MEANS CONSIDERABLE RISK FOR THE WHOLE EXCHANGE ANSWER WITH YES IF YOU WANT TO CONTINUE :YES;

--------------------------------------------------------------------------------------------6.

Initiate the test for CLM-0 and wait for result printout.

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Command: GDTEI:UNIT=CLM-0; Printout: DISTRIBUTED GROUP SWITCH UNIT TEST RESULT --------------------------------------------------------------------------------------------7.

Deblock CLM-0. Command: GDBLE:UNIT=CLM-0; Printout: DISTRIBUTED GROUP SWITCH UNIT DEBLOCKING RESULT

--------------------------------------------------------------------------------------------8.

Check CONTRVALUE. Should be 32768 +-7000 (for all oscillators). If not, follow the procedure: 1. Try to activate NS (i.e. deblock RCM or any other external reference). 2. If the activation is successful, wait 10 hours and repeat test 8. 3. If the activation is not successful then: If the value out of range belons to oscillator 1 (son), replace the faulty board. If the value out of range belongs to oscillator 0 (father), replace both CGB boards (it is not possible to discriminate which board is faulty). DO NOT ADJUST CONTROL VALUE Command: GDCVP; Printout: DISTRIBUTED GROUP SWITCH CLM CONTROL VALUE

---------------------------------------------------------------------------------------------

3.3

Test of XM

RPs and EMs for XMs should be deblocked and working. --------------------------------------------------------------------------------------------1. Test plane A in the XM Command: GDTEI:UNIT=XM-A-0-0; Printout: DISTRIBUTED GROUP SWITCH UNIT TEST RESULT --------------------------------------------------------------------------------------------2. Deblock the XM.

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Command: GDBLE:UNIT=XM-A-0-0; Printout: DISTRIBUTED GROUP SWITCH UNIT DEBLOCKING RESULT ---------------------------------------------------------------------------------------------3. Repeat point 1 and 2 for all XMs, both A- and B-plane. --------------------------------------------------------------------------------------------4. Check the working state of the group switch. All XMs should be working. Command: GDSTP; Printout: DISTRIBUTED GROUP SWITCH STATE ---------------------------------------------------------------------------------------------

3.4

Test of MUX3

MUX3 have no EM control, so there is no need to check EMs. --------------------------------------------------------------------------------------------1. Test plane A in the MUX3 Command: GDTEI:UNIT=MUX3-A-0; Printout: DISTRIBUTED GROUP SWITCH UNIT TEST RESULT --------------------------------------------------------------------------------------------2. Deblock the MUX3. Command: GDBLE:UNIT=MUX3-A-0; Printout: DISTRIBUTED GROUP SWITCH UNIT DEBLOCKING RESULT --------------------------------------------------------------------------------------------3. Repeat step 1 and 2 for all MUX3s, both A- and B-plane. --------------------------------------------------------------------------------------------4. Check the working state of the group switch. All MUX3s should be working. Command: GDSTP; Printout: DISTRIBUTED GROUP SWITCH STATE

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---------------------------------------------------------------------------------------------

3.5

Final Test of XM

This is the final test of XMs. Note: All units within the distributed group switch should be working before the final test of XMs is started.

--------------------------------------------------------------------------------------------1. Block XM in plane A. Command: GDBLI:UNIT=XM-A-0-0; Printout: DISTRIBUTED GROUP SWITCH UNIT BLOCKING RESULT --------------------------------------------------------------------------------------------2. Test XM in plane A. Command: GDTEI:UNIT=XM-A-0-0; Printout: DISTRIBUTED GROUP SWITCH UNIT TEST RESULT --------------------------------------------------------------------------------------------3. Deblock the XM. Command: GDBLE:UNIT=XM-A-0-0; Printout: DISTRIBUTED GROUP SWITCH UNIT DEBLOCKING RESULT --------------------------------------------------------------------------------------------4. Repeat point 1 and 2 for all XMs, both A- and B-plane. --------------------------------------------------------------------------------------------5. Check the working state of the group switch. All XMs should be working. Command: GDSTP; Printout: DISTRIBUTED GROUP SWITCH STATE ---------------------------------------------------------------------------------------------

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3.6

Test of RCM

External Network Synchronization should be blocked during this test. These are tested later during the integration test of the exchange. In this test the RCM connection to the CLMs and the RCM data are checked and the RCM is deblocked. Automatic tests verify that the reference clock operates within defined limits and puts the unit out of service if not. Note: RCM is an optional feature and might not exist in all switches.

--------------------------------------------------------------------------------------------1. Load all Network Synchronization commands from DT. --------------------------------------------------------------------------------------------2. Check if the RCM is defined and manually blocked (otherwise block it). Command: NSSTP; Printout: CLOCK REFERENCE STATE Command: NSBLI:RCM=RCM-x; --------------------------------------------------------------------------------------------3. Print the network synchronization data. Command: NSDAP; Printout: CLOCK REFERENCE SUPERVISION DATA --------------------------------------------------------------------------------------------4. Initiate test of RCM. During test the frequency deviation and wander of the reference clock is controlled against values printed above. Command: NSTEI:RCM=RCM-x; Printout: CLOCK REFERENCE TEST RESULT --------------------------------------------------------------------------------------------5. Deblock the RCM if the test was successful. External clock references should be left manually blocked.

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Command: NSBLE:RCM=RCM-x; Printout: NETWORK SYNCHRONIZATION MANUAL DEBLOCKING OF CLOCKREFERENCE EXECUTED ---------------------------------------------------------------------------------------------

3.7

Test of ET

Exchange terminal should be checked during this test. Note:

MSP 1+1 protection also is checked during this test. MSP 1+1 protection is optional and can be omitted during configuration.

--------------------------------------------------------------------------------------------1. Perform loopback test of ET terminal on ODF. --------------------------------------------------------------------------------------------2. Check if the status of SDIP using command TSTP. Make sure that state for SDIP is working. In the case of MSP 1+1 both MS should be in working state. Command: TPSTP:SDIP=; Printout: SYNCHRONOUS DIGITAL PATH STATE --------------------------------------------------------------------------------------------3. In the case of MSP 1+1 protection disconnect cable on ODF from one port of protected pair. Make sure that state for SDIP is working. Command: TPSTP:SDIP=; Printout: SYNCHRONOUS DIGITAL PATH STATE --------------------------------------------------------------------------------------------4. In the case of MSP 1+1 protection disconnect cable on ODF from other port of protected pair. Make sure that state for SDIP is working. Command: TPSTP:SDIP=; Printout: SYNCHRONOUS DIGITAL PATH STATE --------------------------------------------------------------------------------------------5. Repeat above steps for all exchange terminals in the node.

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50}

BSC Acceptance Test Procedures.doc

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