PRIVATE BRANCH EXCHANGE Meridian 1 – Option 81C CONTENTS BASIC TELEPHONE SYSTEMS. …………………………………………………………………………………………………… MERIDAIN SYSTEM MODELS. ……………………………………………………………………………………………………. M1 SYSTEM ARCHITECTURE ……………………………………………………………………………………………………… MERIDAIN 1 HARDWARE …………………………………………………………………………………………………………… COMMON EQUIPMENT.. NETWORK EQUIPMENT. ……………………………………………………………………………………………………………… PERIPHERAL EQUIPMENT …………………………………………………………………………………………………………… E1 SIGNALING ………………………………………………………………………………………………………………………………. OPTION 81C BLOCK DIAGRAM.. M1 CONFIGURATIONOVERLAYS ………………………………………………………………………………………………… PROBLEM DETERMINATION TOOL.. GENERAL INFORMATION – MULTI-GROUP SYSTEMS. …………………………………………………………… MERIDAIN 1 SYSTEM HEALTH CHECK. ……………………………………………………………………………………… REFERNCE ……………………………………………………………………………………………………………………………………….
This document is for you if you want to learn a bit more about how Meridian 1 – Option 81C PBX system works. This document will be good for those who need to know about the configuration of Meridian 1. A little bit telecommunication knowledge is required to go through this document. This document has been made with the full reference of M1R25 document of Nortel Networks. So, thanks for the Nortel Networks.
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Types of telephone systems When telephones are required in a building for a group of users, there are several options from which to choose There are three main types of systems are: • • •
Centrex Key System Private Branch Exchange
Nortel Networks manufactures systems of all the three types.
• • •
The Nortel Networks system that servers Centrex telephones is called the DMS systems The Nortel Networks system that servers Key System telephones is called the Norstar systems The Nortel Networks system that servers Private Branch Exchange are called the Meridian 1 systems
PBXs, trunks, and Central Offices PBXs provide telephone service to large numbers of users, usually between 30 and 10,000.When you are connected to a PBX and you lift the handset of your telephone, the dial tone you hear is coming from the PBX. The PBX receives the digits you dial, interprets them and connects you to the destination you want. Sometimes the destination is an internal telephone, connected to the same PBX. Sometimes it is an external telephone connected to the PBX by a trunk. Trunks are pairs of wires or optical fiber that connect the PBX to an outside system. One of these systems is called a Central Office. The Central Office (or CO) provides telephone service to businesses and residences in your local area. Central Offices are sometimes called exchange offices. When your call goes out to one of these offices you have accessed the exchange network, sometimes called the public exchange network. If you have more than one trunk connected to the same end-system, handling the same kinds of calls, arrange them in trunk groups (also called trunk routes). For example, trunks connected to the Central Office that handle public exchange network calls are called Central Office Trunks (COTs).
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Analog and digital There are trunks that handle analog signals and those that handle digital signals. There are analog and digital PBXs as well as analog and digital telephones. Analog signals are transmissions that travel along in a wave format. They might travel through a wire (when a signal is traveling along a trunk) or the air (when you are speaking to someone beside you). Digital signals are on and off pulses put together in a particular sequence. The pulses and the sequence are deciphered by equipment at the other end that can either read the message and understand it digitally or change it into an analog format to be heard and understood by a person. When a telephone or system is called digital it means it is built to send and receive signals in a digital format. The Meridian 1 is a digital PBX system The Meridian 1 can be connected to both analog and digital trunks
System models There are three distinct families or generations of PBX systems manufactured by Nortel Networks. The most recent generation is called the Meridian 1. The earliest Generation was called the SL-1, followed by the generation called the Meridian SL-1. Each generation has at least three models. Each model is designed to handle different quantities of telephones. Generally, you can divide each generation into the categories of small, medium and large systems. In the most recent Meridian 1 generation there is also a system that handles a very small number of telephones.
Option 11, compact Option 21, Option 51, Option 61, Option 71,
System Name Option 11E, 11C, 11C
Size Range Very Small Systems
Option Option Option Option
Small Systems Medium Systems
21E 51C 61C 81, Option 81C
Large Systems
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PBX BASIC ARCHITUCTURE
M1 System Architecture
CONTROL
P
Network Control Bus
CPU
MEMORY
MASS STORAGE
USER INTERFACE
Control
O NETWORK Network Control Bus
W
Switching Network
Network Loop Network ACCESS s TERMINALS
Network Loop
E R
Peripheral Equipment
TERMINALS
Control • Controlling elements of the system • Controls high-level call processing, maintenance and I/O Network Control Bus • Carries messages between the control and network elements Network (Digital Switch) • Connects data (conversations) from Network loop as instructed by main computer • Controlled by the main computer
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Network Loop
• • •
Routes information from terminals into the Network (digital switch) Carries messages and conversations between the access and network components TIME DIVISION MULTIPLEXING (TDM): Several conversations share the same wire path, but at different times – time is divided up into time slots
Access • Distribution/Multiplexing • Concentration • Protocol conversion Terminals • Analog Telephone sets • Digital Telephone sets • Trunks MERIDIAN 1 HARDWARE The hardware components of the system belong to three main groups of equipment. •
Common Equipment (CE)
•
Network Equipment (NE)
•
Peripheral Equipment (PE)
COMMON EQUIPMENT (or) CONTROL EQUIPMENT CALL PROCESSOR (CP) The components in this area of the machine can be called the computer because they control the operation of the rest of the system. • • • •
Central Processing Unit (CPU) Memory Disks Input/output ports
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The CPU performs the functions required by the telephones and trunks connected to
the system.
The memory has all the instructions stored so the CPU can operate. The disks have a permanent record of the instructions. If the memory is erased because of a power failure, for example, the instructions stored on the disk are automatically loaded into the memory when the power failure ends. The input/output ports are called Serial Data Interface (SDI) ports. They allow your system maintainer to connect a terminal to the system for programming purposes. If you are going to move, add and change telephones, you will be using this terminal as well. Other devices, such as printers for traffic studies and call detail records, are also connected to these ports Inter-Processor bus to communicate with in the Control Equipment INPUT/OUTPUT DISK UNIT WITH CD- ROM (IODU/C) Software is delivered to Meridian 1 systems by CD-ROM. IODU/C applies to Options 51C, 61C, 81, and 81C. CORE NETWORK INTERFACE (CNI) • •
It provides interface between the inter-processor bus and the network shelves It provides interface between the Call Processor and the Three Port Extender (3PE) cards, each CNI can be connected to two 3PE cards
NETWORK EQUIPMENT The telephones and trunks interconnected by the PBX are connected using the Network Equipment components of the system. Time slots The system uses timeslots to connect each party on an active call. If two internal telephone users are speaking, the system uses two timeslots to connect them, one for each telephone. If a telephone user is calling out on a trunk, the system uses two timeslots, one for the telephone and another for the trunk. Loops and Super loops These timeslots are present on Network Equipment components called Loops. Each Loop has 32 timeslots, if it is an Enhanced or Standard Loop. Meridian 1 systems use Enhanced Loops. Meridian 1 systems can also use newer versions of Loops called Super loops. Super loops have 128 timeslots. Loops and Super loops are cards that sit in the Network Equipment area of the
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machine. A Virtual Super loop has been introduced in X11 Release 25 to support i2004 Internet Telephones. Up to 1024 telephones can be configured on a single Virtual Super loop for a system, compared to the traditional 512 telephones. Collectively, 32 loops are called a group. The Option 81C is called a multi-group system because you can equip up to five groups. Introduced in X11 Release 25, Fiber Network fabric (FNP) allows the expansion of Meridian 1 Option 81 and 81C systems from five Network groups to eight Network groups, a 60% increase in port and trunk capacity. A Dual Ring fiber optic network has replaced the intergroup cards and intergroup module in pre-Release 25 Meridian 1 systems. A Fiber Network provides 7680 timeslots for 3840 simultaneous conversations. This significantly enhances the number of telephones that you can configure on a system. Network Controller cards ENET – Enhanced Network card (handles 2 network loops, max. 8 per N/W shelf), XNET –Super loop Network card (handles 1 super loop – equivalent to 4 network loops), max. 4 per network shelf) Digital Trunk Cards DTI – Digital trunk interface (E1 for Europe, T1 for North America), PRI– Primary rate interface (PRI2 for Europe, PRI for North America) Conference and Tone and Digit Switch Cards When you look at your system you will notice there are also Conference cards and Tone and Digit Switch (TDS) cards sitting near the Loop and Super loop cards. They are also part of the Network Equipment. The Conference card supplies extra timeslots to a conversation when additional people are added in a conference. The TDS card supplies tones like dial tone and busy tone, when told to do so by the computer in the system. On some systems, the Conference and TDS functions are combined on dual-function cards. Peripheral Signaling provides buffering and signaling interface between CPU and peripheral equipment Clock Controller Provides a stable clock reference for synchronization with the public network (PSTN); requires when system uses digital trunks PERIPHERAL EQUIPMENT Line cards and trunk cards The telephones and trunks on your system are connected to the system with cards that sit on shelves. There are line cards for telephones and trunk cards for trunks. On the newer Meridian 1 systems these shelves for cards are housed in modules. There are unique cards designed for each type of telephone and trunk. More than one telephone or trunk is connected to a card. The version of the card determines how many can be connected. When you add more telephones and trunks to your system, you will need to add more cards when the existing ones are fully utilized. Density
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A term, density, is used to describe, in general, the vintage and capacity of a card. For example, when line cards were introduced in 1975, they had four units on them to connect up to four telephones. These are called single-density cards. Later, line cards were introduced with twice as many units for twice as many telephones and these are called double-density cards. The development of new cards continued, with the introduction of quad-density cards that connect up to 16 telephones, and then octal-density cards. These have 32 units, 16 of which are for digital telephones and the other 16 are for associated data terminals that you can connect to the telephones. PE cards vs. IPE cards There are two versions of cards: • Intelligent Peripheral Equipment (IPE) • Peripheral Equipment (PE) Meridian 1 systems can accommodate IPE cards and PE cards. Only upgraded SL-1 and Meridian SL-1 systems can handle IPE cards. If not upgraded, they can only have PE cards. Intelligent line cards and trunk cards can have more telephones and trunks connected to them than the older, non-intelligent kinds of cards. This saves room in your system and keeps your system small. XPEC- Controller card – performs protocol conversion between DS30Y (used in super loop side) and DS30X (comm.b/w xpec & ipe). Intelligent cards are served by Super loops. Non-intelligent cards are served by Loops. Other line cards placed in PE XALC, XDLC, XUT, LSE1 and XEM Ring Generator - generates the electrical signal, which causes an analog set to ring Digitone receiver (DTR) If you use Digitone-type telephones, your system has digitone receiver (DTR) cards. Digitone-type telephones are sometimes called 2500 or DTMF telephones. They are analog telephones that out pulse tones when keys on the keypad are pressed. The CPU of your system requires assistance in interpreting these analog tones. The DTR card was designed to interpret these tones and change each tone into a digital signal, suitable for the CPU.You need DTR cards if your system has any Digitone-type telephones, or Digitone-type trunks which carry these tones into your system from other systems. STIPULATION The greater the number of Loops or Super loops equipped on your system, the greater the number of timeslots you have. As you add more telephones and trunks to your system it is important to keep the timeslots in mind. If you do not provision sufficient timeslots, or manage the system properly, the users on your system might begin to complain of poor service. This usually appears first in the form of dial tone delay problems. When users lift their handsets to make calls, it is called taking their telephones off-hook. The system attempts to provide dial tone to the telephone that is off-hook. Timeslots are needed in order to provide dial tone. An under-provisioned system will not have enough timeslots for the demand, especially during busy times of the day. If there are not enough timeslots available for dial tone, a user must wait until another user on the same Loop (or Super loop) hangs up. Since Super loops have far more timeslots than Loops, dial tone delays usually do not occur when you use Super loops on your system.
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This demand for timeslots is called traffic. You can predict the expected demand with the help of your system supplier. The occurrence of service problems is sometimes called blockage. There are many things you and your system supplier can do initially, and on an ongoing basis, to eliminate blockage. Refer to the module called Traffic for many suggestions. DTI TRUNK CARDS – E1 SIGNALING (Connecting PBX to the External world) CAS Channel Associated Signaling The signaling associated with a channel Not many features/services possible In-band Signaling (same channel carries both voice & data) Eg. DTI
CCS Common Channel Signaling Same signaling channel for all the channels Many features/services are possible Out of band Signaling (separate channel for signaling) Eg.ISDN (PRI)
OPTION 81C BLOCK DIAGRAM
CORE MODULE 0
Inter Processor Bus (IPB)
Network Bus
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ENET XNET SDI XCT PRI DTI
Call Processor
IODUC
Core to Network
[CNI]
Three Port Extender (3PE)
Peripheral Signali ng
(PS)
DUAL Inter-group Switch(fnp)
LOOPS 0 - 15
CABLES TO INTER-GROUP MODULE
Inter CPU Cables
SCSI bus cables
M1 CONFIGURATION - OVERLAYS What are Overlays? •Prompt – Response systems used to configure M1 switch. •Used to Create, Modify & Delete configurations •Are identified by “LD xxx” where “xxx” are numbers. CLASSIFICATION OF OVERLAYS •Administration Overlays •Maintenance Overlays •Print Overlays
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ADMINISTRATION OVERLAYS
Configuration Record (LD 17, LD 97) Hardware of the System Loops
To peripheral equipment (ENET) Conference and Tone loops (XCT) T1/E1 (DTI, PRI)
Super loops to IPE shelf – IPE segmentation TTY’s, Number of CPUs Background and Midnight routines Call Processing Data structure allocation Digitone Receivers (LD 13) CDB (CUSTOMER DATA BLOCK) – (LD 15)
Characteristics applying to all customer resources are defined in this data block
ROUTES (LD 16)
Logically groups multiple trunks coming\going to a common destination Each route is assigned an Access code (ACOD) which determine which calls it will handle
Trunks (LD 14)
Links trunks with routes
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Has a physical location called a Terminal Number (TN) - TN consists of loop, shelf, card, unit (lscu)
Digital Sets (LD 11) M39XX sets Analog Sets (LD 10) 500, 2500 sets Attendant Console (LD 12) 2250 sets MAINTENANCE OVERLAYS LD 30 – Network and signaling Diagnostics LD 31 – Telephone and Console Diagnostics LD 32 – Network and peripheral Diagnostics LD 34 – TDS and DTR Diagnostics LD 2 – Traffic • •
Set time and date Set traffics report schedules, print reports
LD 1 – Audit (template audit) •
Audits the PBX and BCS template data structures
LD 44 – Software Audit • •
Audits data structures: Call registers, queues, etc Checks/Repairs network connections, linkages
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PRINT OVERLAYS LD 20 – Prints TN related data (sets, trunks, DTRs, Dn blocks) LD 21 – Prints Customer Data Block LD 22 – Configuration Record Data Block LD 81 – Print a list or count of sets with selected features LD 82 – Prints hunting patterns and DN blocks LD 83 – Prints a list of TNs in DES order LD 97 – Administrates and Print some portions of Configuration record PROBLEM DETERMINATION TOOL (PDT) •PDT can be invoked by typing Cntrl+P Cntrl+D Cntrl+T (^P^D^T) •The user interacts with PDT by means of PDT Shell •To switch between PDT and Overlays, – From Overlay (OVL000) prompt type ^P^D^T – From PDT (pdt>) prompt type “sl1input” •PDT has two special operating modes – Debug mode – Super-user mode • Default is regular mode •At any time only one PDT shell can be in super-user mode or debug mode. •In Super-User mode, PDT invokes VxWorks native shell and operates in its context. All VxWorks shell functionality is available in this mode.
Security –General User Security Level
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•Restricted set of PDT commands –Expert Security Level •Full set of PDT commands •Debug operation mode of PDT shell •Superuser operation mode of PDT shell •Direct Access of operating System subroutines and data –Passwords • (= Rls 22) – xxxxxxxxx (Hidden)
Debugging •PDT provides tools for debugging SL1 tasks and other tasks too • Debugging activities are based on “Debugging events” and “Debugging Actions”. • PDT provides access to – Memory [examination and modification] – CPU registers [examination and modification] – Symbolic task trace printing – Retrieving details of system INI – Capturing of Rdtail file
Maintenance Commands •rds •rdgo •rdtail •pstat •pload
n n n file
Opens a particular record Goes to a particular record of the system Prints the latest records of the switch. Lists the total number of patches in system Loads a particular patch into the system
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•pins •poos •pout •osVersion •cd /u/ •ll •rm •tree /u •mv •cp •reboot -1 •reboot •sl1Version
Inserts a patch into the system Puts a particular patch into out-of-service Removes a particular patch from the memory Lists the current software release of the switch Used to change directories Long listing of file in that directory Removes that particular file name Lists all the directories in u partition Used to rename a file Used to copy a file Cold Start Warm start Lists the current version & the processor type.
General Information All the terminals connected (access) to the M1 have their individual Physical Address called as TNs and their respective DNs TN (Terminal Number) consists of Loop, Shelf, Card, unit (lscu)
Option 81C – Multi-group Systems What’s a Group? Up to 16 loops (or 4 super loops) can be equipped on a single network shelf.The back plane of a network shelf has 32 traces (or links), each of which carries traffic for a single network loop, 2-network shelves together (32 loops) max out the capacity of the back plane, these two shelves constitute a “Network Group” Or “Group” Multi-group systems require additional equipment -
For network connections between groups To interface with the core equipment
Maximum 5 groups, 160 loops, 10,000 ports – IGX Maximum 8 groups, 256 loops, 20,000 ports – FNP
MERIDIAN 1 SYSTEM HEALTH CHECK CPU REDUNDANCY AND STATUS:
>LD 135 CCED000
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stat cpu cp 0 16 PASS – ENBL .
TRUE REDUNDANT DISK STATE = REDUNDANT HEALTH = 28 VERSION = Oct 3 2003, 19:23:08 Side = 0, DRAM SIZE = 256 Mbytes
cp 1 16 PASS -- STDBY TRUE REDUNDANT DISK STATE = REDUNDANT HEALTH = 28 VERSION = Oct 3 2003, 19:23:08 Side = 1, DRAM SIZE = 256 Mbytes CNI CARD STATUS: >LD 135 . stat cni cni 0 9 0: remote = group 0 ENBL cni 0 9 1: remote = group 1 ENBL cni 0 10 0: remote = group 2 ENBL cni 1 9 0: remote = group 0 ENBL cni 1 9 1: remote = group 1 ENBL cni 1 10 0: remote = group 2 ENBL . stat mem Side = 0, DRAM SIZE = 256 Mbytes
Side = 1, DRAM SIZE = 256 Mbytes MMDU AND ELNK STAUS: >LD 137 . stat CMDU 0 ENABLED (ACTIVE) CMDU 1 ENABLED (STANDBY) RDUN ENABLED ELNK ENABLED
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SDEV 0 OK (KC VALID) . stat elnk ELNK ENABLED Ethernet (fei unit number 0): Host: PRI_IP Internet address: 10.10.10.11 Broadcast address: 10.255.255.255 Ethernet address: 00:01:af:04:6c:e0 Netmask: 0xff000000; Subnetmask: 0xff000000 23237272 packets received; 23574397 packets sent 0 input errors; 0 output errors 0 collisions ELAN STATUS: >LD 48 . STAT ELAN SERVER TASK: ENABLED ELAN #: 16 DES: SCCS APPL_IP_ID: 10 .10 .10 .10 LYR7: ACTIVE EMPTY APPL ACTIVE ELAN #: 17 APPL_IP_ID: 10 .10 .10 .13 LYR7: ACTIVE EMPTY APPL ACTIVE ELAN HOST CONFIGURATION:
>LD 117 => prt host ID Hostname IP Address 1 LOCAL_PPP_IF 137.135.192.4 2 REMOTE_PPP_IF 100.1.1.1 3 PRI_IP1 10.10.10.11 4 SEC_IP1 10.10.10.12 OK => prt route ID Network Gateway 10.0.0.0 10.10.10.0 OK => prt elnk ACTIVE ETHERNET: "PRI_IP1" "10.10.10.11" INACTIVE ETHERNET: "SEC_IP1" "10.10.10.12"
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OK FIJI RING AND CARD STATUS: >LD 39 . stat ring 0 RING STATE: DRIVES HALF (000 - 479) RING AUTO RECOVERY IS ON FIJI 0 0 ENBL FIJI 1 0 ENBL FIJI 2 0 ENBL FIJI 3 0 UNEQ FIJI 4 0 UNEQ FIJI 5 0 UNEQ FIJI 6 0 UNEQ FIJI 7 0 UNEQ . stat ring 1 RING STATE: DRIVES HALF (480 - 959) RING AUTO RECOVERY IS ON FIJI 0 1 ENBL FIJI 1 1 ENBL FIJI 2 1 ENBL FIJI 3 1 UNEQ FIJI 4 1 UNEQ FIJI 5 1 UNEQ FIJI 6 1 UNEQ FIJI 7 1 UNEQ SUPERLOOP STATUS: >LD 97 SCSYS000 MEM AVAIL: (U/P): 22193398 USED U P: 6143328 236966 TOT: 28573692 DISK SPACE NEEDED: 329 KBYTES 2MB BACKUP DISKETTE(S) NEEDED: 1 (PROJECTED LD43 - BKO) REQ prt TYPE supl
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SUPL SUPL 004 008 020 024 036 040 052 056 068 084 248 252
SUPT SLOT STD LEFT STD RGHT STD LEFT STD RGHT STD LEFT STD RGHT STD LEFT STD RGHT STD LEFT STD LEFT ---- ------- ----
XPEC0 01 0 3 06 0 3 02 0 1 02 2 3 03 0 1 03 2 3 04 0 1 07 0 3 05 0 1 05 2 3 PHANTOM PHANTOM
XPEC1 -- - -
-- - -
-- - -- - -- - -- - -- - -- - -- - 04 2 3 -- - -- - -
>LD 97 REQ prt TYPE xpe XPEC S0 S1 S2 S3 LOC 01 02 03 04 05 06 07
004 020 036 052 068 008 056
004 020 036 052 068 008 056
004 024 040 084 084 008 056
004 024 040 084 084 008 056
DIS RGTP NO NO NO NO NO NO NO
08 08 08 08 08 08 08
E1 LOOP STATUS: LD 60 . stat 18 DTI2 LOOP 18 - ENBL REF CLK: DSBL SERVICE RESTORE: YES ALARM STATUS: ACCEPTABLE CH 01 - BUSY TIE VOD CH 02 - BUSY TIE VOD CH 03 - IDLE TIE VOD CH 04 - IDLE TIE VOD
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CH 05 - IDLE TIE CH 07 - IDLE TIE CH 09 - IDLE TIE CH 11 - IDLE TIE CH 13 - IDLE TIE CH 15 - BUSY TIE CH 17 - IDLE TIE CH 19 - IDLE TIE CH 21 - IDLE TIE CH 23 - BUSY TIE CH 25 - IDLE TIE CH 27 - IDLE TIE CH 29 - IDLE TIE
VOD VOD VOD VOD VOD VOD VOD VOD VOD VOD VOD VOD VOD
CH 06 - BUSY TIE CH 08 - BUSY TIE CH 10 - BUSY TIE CH 12 - BUSY TIE CH 14 - BUSY TIE CH 16 - BUSY TIE CH 18 - BUSY TIE CH 20 - BUSY TIE CH 22 - IDLE TIE CH 24 - BUSY TIE CH 26 - IDLE TIE CH 28 - IDLE TIE CH 30 - IDLE DID
VOD VOD VOD VOD VOD VOD VOD VOD VOD VOD VOD VOD VOD
LSE1 CARD STATUS: >LD 32 . stat 68 0 4 00 = UNIT 00 = IDLE (L500) 01 = UNIT 01 = IDLE (L500) 02 = UNIT 02 = BUSY (L500) 03 = UNIT 03 = BUSY (L500) 04 = UNIT 04 = BUSY (L500) 05 = UNIT 05 = BUSY (L500) 06 = UNIT 06 = BUSY (L500) 07 = UNIT 07 = BUSY (L500) 08 = UNIT 08 = BUSY (L500) 09 = UNIT 09 = BUSY (L500) 10 = UNIT 10 = BUSY (L500) 11 = UNIT 11 = BUSY (L500) 12 = UNIT 12 = BUSY (L500) 13 = UNIT 13 = BUSY (L500) 14 = UNIT 14 = BUSY (L500) 15 = UNIT 15 = BUSY (L500)
STATUS OF DLC, FALC AND MFC CARDS: DLC STATUS: >LD 32 .stat 20 0 4 00 = UNIT 00 = IDLE (3904 LOG OUT)
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01 = UNIT 01 = IDLE (3905 LOG OUT) 02 = UNIT 02 = IDLE (3905 LOG IN ) 03 = UNIT 03 = IDLE (3905 LOG OUT) 04 = UNIT 04 = IDLE (3905 LOG OUT) 05 = UNIT 05 = IDLE (3905 LOG OUT) 06 = UNIT 06 = IDLE (3905 LOG OUT) 07 = UNIT 07 = IDLE (3905 LOG OUT) 08 = UNIT 08 = IDLE (3905 LOG OUT) 09 = UNIT 09 = IDLE (3905 LOG OUT) 10 = UNIT 10 = IDLE (3905 LOG OUT) 11 = UNIT 11 = IDLE (3905 LOG OUT) 12 = UNIT 12 = BUSY (3905 LOG IN ) 13 = UNIT 13 = IDLE (3905 LOG OUT) 14 = UNIT 14 = IDLE (3905 LOG OUT) 15 = UNIT 15 = IDLE (3905 LOG OUT) 16 = UNIT 16 = UNEQ 17 = UNIT 17 = UNEQ 18 = UNIT 18 = UNEQ 19 = UNIT 19 = UNEQ 20 = UNIT 20 = UNEQ 21 = UNIT 21 = UNEQ 22 = UNIT 22 = UNEQ 23 = UNIT 23 = UNEQ 24 = UNIT 24 = UNEQ 25 = UNIT 25 = UNEQ 26 = UNIT 26 = UNEQ 27 = UNIT 27 = UNEQ 28 = UNIT 28 = UNEQ 29 = UNIT 29 = UNEQ 30 = UNIT 30 = UNEQ 31 = UNIT 31 = UNEQ FALC STATUS:
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.stat 4 0 0 00 = UNIT 00 = IDLE 01 = UNIT 01 = IDLE 02 = UNIT 02 = IDLE 03 = UNIT 03 = IDLE 04 = UNIT 04 = IDLE 05 = UNIT 05 = IDLE 06 = UNIT 06 = IDLE 07 = UNIT 07 = IDLE 08 = UNIT 08 = IDLE 09 = UNIT 09 = IDLE 10 = UNIT 10 = IDLE 11 = UNIT 11 = IDLE 12 = UNIT 12 = IDLE 13 = UNIT 13 = IDLE 14 = UNIT 14 = IDLE 15 = UNIT 15 = IDLE
(L500) (L500) (L500) (L500) (L500) (L500) (L500) (L500) (L500) (L500) (L500) (L500) (L500) (L500) (L500) (L500)
MFC STATUS: .stat 20 0 0 00 = UNIT 00 = IDLE MFC 01 = UNIT 01 = IDLE MFC 02 = UNIT 02 = IDLE MFC 03 = UNIT 03 = IDLE MFC
How to list the patches installed in the Meridian? >LD 22 REQ: issp Site ID >LD 22 REQ: tid
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HOW TO IDENTIFY A SYSTEM PROCESSOR AND GENERIC '16' '17' '18' '19' '22' '23' '24' '25' '26' '28' '29' '30' '96' '97' '98' '99' '00'
=> => => => => => => => => => => => => => => => =>
1611 1711 1811 1911 2111 2211 2311 2411 2511 2611 2811 2911 3011
'81C/CP1', '51C/CP1', '61C/CP1', '81C/CP2', '51C/CP2', '61C/CP2', '51C/CP3', '61C/CP3', '81C/CP3', '51C/CP4', '61C/CP4', '81C/CP4', 'INSTALL', 'MDCS ', 'FoxPSDL', 'PSDL ', 'Info ',
= = = = = = = = = = = = =
81/81C CP1 51C CP1 61C CP1 81/81C CP2 OPTION 11C (not supported) 51C CP2 61C CP2 51C CP3 61C CP3 81/81C CP3 51C CP4 61C CP4 81/81C CP4
PROBLEM DETERMINATION TOOL (PDT PROMPT) PDT: login on /sdi/tty3 Password: PDT in Progress. Please Wait.... Done! pdt> hiHealthShow
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Local (Side 1, Active, Redundant): sio8 1 16 1: 0002 sio8 1 16 2: 0002 sutl 1 15: 0002 strn 1 15: 0002 xsmp 1 15 1: 0002 cnib 1 9: 0002 cnib 1 10: 0002 cnip 1 9 0: 0002 cnip 1 9 1: 0002 cnip 1 10 0: 0002 cnip 1 10 1: 0000 (OutOfService) cmdu 1 16 1: 0008 eth 1 16 0: 0000 (OutOfService) Local Total: 0028 Remote (Side 0, Inactive, Redundant): sio8 0 16 1: 0002 sio8 0 16 2: 0002 sutl 0 15: 0002 strn 0 15: 0002 xsmp 0 15 1: 0002 cnib 0 9: 0002 cnib 0 10: 0002 cnip 0 9 0: 0002 cnip 0 9 1: 0002 cnip 0 10 0: 0002 cnip 0 10 1: 0000 (OutOfService) cmdu 0 16 1: 0008 eth 0 16 0: 0000 (OutOfService) Remote Total: 0028 value = 0 = 0x0
RDTAIL pdt> rdtail RPT: ... rdNotify: SWO happened,default rptFile will open. RPT: ...rd : 1017 new reports arrived since last command RPT: ...rd : showing 16 records up to the newest record (rec 86)
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71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 value
:(5/6/05 2:00:08.538) SRPT773 TOD 1: Starting midnight job 'rstThr' :(5/6/05 2:00:08.538) SRPT774 TOD 1: Midnight jobs completed :(5/6/05 2:01:57.257) TEMU049 WARNING: record no mismatch, curr= 2, rec= 5 :(5/6/05 2:01:58.338) CIOD157 INFO: CMDU 1 is ACTIVE, RDUN is ENABLED :(5/6/05 2:02:00.630) HWI0009 HI FS: saving data to directory "/u/db/hi_b" :(5/6/05 2:03:51.055) TEMU129 BackUP process ended successfully. Number of floppy diskette(s) used: 1 Amount of space remaining on the last floppy: 1055 :(5/6/05 2:14:16.369) HWI0655 SUTL: sutlBackGrndTest invoked :(5/6/05 2:14:17.394) SRPT770 TOD 1: Midnight job server started. Number of jobs to do: 2 :(5/6/05 2:14:17.394) SRPT773 TOD 1: Starting midnight job 'pchMidNite' :(5/6/05 2:14:32.342) SRPT773 TOD 1: Starting midnight job 'kcm_24h' :(5/6/05 2:14:33.385) SRPT774 TOD 1: Midnight jobs completed :(5/6/05 2:32:52.359) ELAN011 ELAN 17 host IP=10.10.10.13 disabled due tot :(5/6/05 2:32:52.359) ELAN011 ELAN 17 host IP=10.10.10.13 disabled due tot :(5/6/05 2:42:02.145) ELAN014 ELAN 17 host IP=10.10.10.13 is enabled :(5/6/05 2:42:05.684) SRPT093 AML: local side AML connection 17 to 10.10.. :(5/6/05 2:42:05.684) SRPT091 HB: Local side AML health change:4. = 0 = 0x0
RDSHOW pdt> rdshow
Work file : "/e/rpt/rpt.log" RPT: ... GetTod: record 87 without time_stamp (ROM Report) File status File capacity oldest rec current rec newest rec display size
: : : : : :
full(old 1372 87 ( 0/ 86 ( 5/ 86 ( 5/ -16 ( 5/
reports are replaced by new ones) 0/00 6/05 6/05 6/05
00:00:00) 02:42:05) 02:42:05) 19:21:32)
value = 0 = 0x0
DISK STATUS: pdt> drShow Disk State is: Master Redundant Normal
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Partition 0: Status: active Type: primary Offset: 63 Size: 626472 Partition 1: Status: inactive Offset: 626598
Type: extended Size: 626472
Partition 2: Status: inactive Offset: 1253133
Type: extended Size: 626472
value = 17 = 0x11
Reference: M1R25 – Nortel Networks
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