MegaVision_LambdaDriver_Mgt [ML 46661, Rev. 02
Contents
1. 5 S600 127523450351 up Modem basicl SOM 20 19200 112233445566 down 5 32 023 7 YOU 2 83421 testing 5 4800 ATBZCSD4E5 T akenHing 23 110 Phone 5 01121 2400 12233445566 7 testing Number of entries Statistics and Graphs per interface Utilization Statistics and Graphs per counter Figure 14 Interfaces Table Window Table 7 Interfaces Table Window Fields and Tools o J Fein o w O ____ 2 s Uma stats ofthe Lambdabriver _____ Statistics and Graphe per interface Open window shown below showing interface statistics and graphs i Interfaces Statistics Graphs Interfaces 7800 co Multiply Line E Input Bytes 2668098 6 Input Unicast Packets 4002127 6 Input Non Unicast Packets 5336049 6 Input Discarded Packets 2001107 Input Error Packets 3335076 6 Input Unknown Protocol Packets 4669091 EN Output Bytes 33 e Output Unicast Packets 2001164 6 Output Mon LInicast Packets 3335083 Output Discarded Packets 4002021 j Output Error Packets 2EBB AT 6 Output Queue Length packets 1887 Add graphs as Reset C Mew windows ee mim mis miuimimiu im Mew lines In _ ID index associated with an interface type2. 23 LambdaDriver Management ML46661 Rev 02 October 2004 Number Column The counts Multiply _ Scale factor spam _ Show a speedometer indicating the rate at which data enters the interface in Bytes sec 4 000K gt 6 000 7 000K 8 000K 200 700 9 000K Bytes sec 10 000K gt gt N Line _ Show a line graph indicating the rate at which data enters the interface in Bytes sec as a function of time To display the total bytes and the elapsed time click with the left mouse button m InBytes 6 2 000 1 000 d Un EA 0 00 50 0 01 40 0 02 30 0 03 20 0 04 10 0 05 00 7 2 C Bal _ Show a bar graph indicating the rate at which data enters the interface in Bytes sec To display the total bytes click with the left mouse button L8 Stop collection of additional statistical data EA Get context sensitive help Show graph display options 24 LambdaDriver Management ML46661 Rev 02 October 2004 Graph Options Polling interval sec sec Min 0 1440 00 Max 10000 00 1740 00 Automatic change of ranges Show in the graph C Absolute value Yalue in persents Cancel Polling interval _ The time in seconds the MegaVision polls the LambdaDriver Y Y axis Rate in bytes s
3. OSC Virtual Fiber A device that directly amplifies an optical signal without first converting it into an electrical signal Optical multiplexing device that enables a specific wavelengths to be added to or dropped from a WDM link while passing all other wavelengths to the next node on the link A technology for multiplexing widely differing wavelengths on a single optical fiber The range of wavelengths is typically 1470 to 1610 nm and the gap between the wavelengths are usually integral multiples of 20 nm A technology for multiplexing narrowly spaced wavelengths on a single optical fiber The wavelengths are in the infrared range typically about 1550 nm and differ from one another usually by integral multiples of 0 2 to 1 6 nm Device for converting a wave of one specific wavelength into a wave of a different wavelength An optical channel for carrying management data between two WDM nodes The wavelength of the channel is different from those of the WDM channels The traffic in the OSC is multiplexed along with the traffic in the WDM channels on the same physical fiber A virtual fiber is infrared light of a specific wavelength In the LambdabDriver the virtual fibers are selected in the 1550 nm region for maximum operating distance through fiber 34
4. Mon 9 Map Level WiInNdOW un ila Guten Res dle ic Gn to 10 Figure 5 DEVICE ZOOM VV ns a e a 11 Figure 4 Device Configuration Window irrisa aE N a a a e A E 12 Figure 5 Device Information WiNndOW oie eet ee Gide Re ee ae 15 FOUE O FING VVING rt cem 16 Figure 7 Vvarm Reset VVINGOW vet DA ru vac oaa ee C bv a d vv ai VE A b V EA D 16 Figure 8 Cold RESCUE VVIBOdOW sisse tef io edu deduces nad on ida erae ei naues e 16 Figure 9 Initialize NVRAM WindoOwW sssesssseseeeennenm nennen nnne nnne nnn nnns 17 Figure TO Reset Statistics WINDOW succo ioa a ee eds re Feo d scu Ead re S bum deco ruin Mosen 17 Foure Ti Describe VVINGOW rtc 17 Figure 12 Identity O 20 Foure ARP Table WNdOW PE 21 Figure 14 Interfaces Table Window sees nnnm nnns 23 Foure TS Adam Log VVIDIGOW 28 Figure 16 Transponder Module Window enne nnne nnn nnns 29 Figure 17 Management Module WINdOW ccccecccceeeeeeeeeeeaeeeeceeeeseeeeseeeessaueesaeeeseneeeseneeeses 30 19 HET Module VVINGOW oed Givers oues a dese peas ouem de cd av 31 Tables Table 1 Device Configuration Window Fields and 12 Table 2 Devi
5. RxD SDH SNMP SONET TDM TELNET TxD UPS URL WAN WDM LambdaDriver Management ML46661 Rev 02 October 2004 Acronyms ARP Address Resolution Protocol i 5E Synch ones _________________________________ OO _ gg gig ig IZ gig I gig gig GIG gig gi gig IZ 4I g I II g Ig IZ gig I gig IZ SX y IZ IZ gig ig IZ gig ig IZ II g Ig IZ II g Ig IZ IZ I ig IZ gig Ig IZ IZ IZ 4I g Ig IZ IZ IZ IZ I y ig IZ IZ II g ig IZ II g ig IZ IZ g ig IZ IZ g ig IZ IZ g ig IZ II g ig I II g ig ZI 4I g IZ 4I 4 ig IZ IZ g ig IZ II g ig 4I gig riri rirriririrrirrirrrrrrrrrrrirrirrrrirrrrrrirrrrrrrrrrrrrrrrrr FEsRRsRa aig sg gig gg gig XX gig gg gig gg gig I g IZ gig GIG gig gg gig Ig IZ gig Ig IZ II g I IGI ig IZ gig I II g Ig IZ II g IGI Ig GI II gI SIG I ig Ig IZ IZ GI y Ig IZ GI g Ig IZ II y Ig IZ YI g Ig IGI y S I 4I g Ig IG II g Ig IZ II g Ig IZ II GI S IZ II GI S I 4I gI S IZ I Gg Ig IZ II gI S IZ II gI SI I GI S IZ II GIG IZ II gIg ZI y Ig II gig gigi gi riri rirrrririrrrrrirrrrirrirrrrrrrirrrrrrrirrrrrrrrr LambdaDriver Management ML46661 Rev 02 October 2004 LambdaDriver Overview General The LambdaDriver is a multi functional modular wavelength division multiplexer that can operate in D
6. Settable by DIP switch hardware 7 Card Actual Rate Data rate of the Transponder Module in Mbps Uptical Leds Status Access _ Reception at access port The possible values are on and off Access _ Transmission from access port The possible values are on and off WDM Laser T _ WDM transmission laser status The possible values are failed and ok 29 LambdaDriver Management ML46661 Rev 02 October 2004 w DM Fin and off WOR Ts on and off Reception at WDM port The possible values are on Reception at access port The possible values are Accept the changes in the window and close it 10 Ignore the changes in the window and close it Update the ARP Table Active Areas Ports Green Communication with SNMP host OK Blue Port disconnected Red Port faulty Gray Not informational LEDs ACCESS RX Green Reception at access port OK Black Reception at access port faulty WDM RX Green Reception at WDM port OK Black Reception at WDM port faulty TX FAIL Red WDM Transmission laser faulty Black WDM Transmission laser OK TMP ALRM Red Module too hot Black Module temperature OK Management Hot Spots Clicking on the port 8 Management module opens the window shown in Figure 17 Confirm iin P Do pou really want to open a Telnet Session for 0800 i Cancel Figure 17 Management Module Windo
7. you can Contact your local MRV representative E mail us at InternationalSupport mrv com Visit our MRV Web site at http www mrv com LambdaDriver Management ML46661 Rev 02 October 2004 Contents this eicit 5 Ren oe ean ee eee ene 5 ING EIE TITIUS 5 Ielated Documehls ae ace basso a 5 ORG ON ces ET TH PS 5 Typographical Conventions 5 S sais Sos cca Casca udas estu den ca e sas E S EAER EAER 6 LambdaDriver 7 GONG I al S 7 COMPONENTS MM UM Md 7 AS SIS a 7 MUX MOQUE ____ _____ 7 Big Melius UU ae ade can a aa eae 7 Iransponder MOGUC eos ou a 7 Management Mod le e Cua bv ru A Paw La ve aia o Ou Vv C 7 SENICE MOCUIE 8 144 8 PIV OG NRI d 8 POWEF SUDDIY MOGULI 8 Redundant Power Supply MOdule cccccsecccceeecc
8. Number 100000 Requests 10032 Responses 10037 Start Owner Close Figure 6 Ping Window Table 3 Ping Window Fields and Tools Get context sensitive help Confirm ii 9 vau really want to execute restart for 0800 Figure 7 Warm Reset Window 1 9 vau really want to execute cald hardware restart for LD 8007 Cancel Figure 8 Cold Reset Window 16 LambdaDriver Management ML46661 Rev 02 October 2004 Figure 10 Reset Statistics Window Describe Describe Device Communications Parameters Figure 11 Describe Window 17 LambdaDriver Management ML46661 Rev 02 October 2004 Table 4 Describe Window Fields and Tools Name Identity of LambdaDriver Type Type of device 3 Notepad Area for typing remarks Stored in the MegaVision s database 4 Interfaces Device Address address of the device s interface _ Type of interface e g Ethernet Token Ring etc Falling interval _ The time in seconds the MegaVision polls the LambdaDriver _ Add Open the window for adding an interface IP address which may be accessed by a host Define Interface IP Address EACE Resolve ONS gt 0800 Interface Type Ethernet Polling Interval 10 seconds Time D ut 3 seconds Hetries 2 Cancel IF Address address o
9. link receive fiber OK 31 LambdaDriver Management ML46661 Rev 02 October 2004 Primary econdary Switch Position Receive from the Primary Fibre Primary link fiber selected Receive fromthe Secondary Fibre _ Secondary link fiber selected Current The fiber primary or secondary from which the status LambdaDriver is currently receiving Last Switch Operation Created automaticaly How the last link switch was caused The possibilities are automatically or manually Accept the changes in the window and close it Ignore changes in window and close it Active Areas Ports Green Communication with SNMP host OK Blue Port disconnected Red Port faulty Gray Not informational LEDs P SEL Green Primary link selected Black Primary link deselected S SEL Green Secondary link selected Black Secondary link deselected P RX Green Primary link fiber OK Black No Ethernet data flowing S RX Green Primary link fiber faulty Black Secondary link fiber faulty 32 LambdaDriver Management ML46661 Rev 02 October 2004 Software Upgrading Downloading General Software can be upgraded downloaded into the LambdaDriver in either of the following modes e LambdaDriver as TFTP client E LambdaDriver as TFTP server Note EL Upgrading downloading does not affect LambdaDriver operation or user configured settings Requirements LambdaDri
10. 2 168 2 1 Interfaces Errors second Interfaces Utilization 2 Errorstzec 2 per zec x Dtilization 485 67 1 100 00 80 00 Ju l by 1 H 1 u 4 415 09 t 50 00 379 51 2 40 00 mud 1 3 4 5 6 10 Statistics and Graphs per counter the window shown below showing the 1 interface counts and graphs 26 LambdaDriver Management ML46661 Rev 02 October 2004 Input Bytes Itti 3052044 Int 2 3052086 Int 3 3052038 Intt 3082028 Inf amp 30852104 Inthe 3052064 Int 3052051 Inthe 5052080 Trig 10 lath ESTE latte lathe L LLLLLLL mimm im m im m im L LLLLLLL mim im im im im im im L LLLLLLLIYI mI m Add graphs Reset Tile Mew windows 6 New lines bars Close Help pdm See Statistics and Graphs per interface above Line See Statistics and Graphs per interface above E _ See Statistics and Graphs per interface above Add graphs _ Store graphs as new windows Mew windows _ Use separate windows for each graph f Newlines bars _ Same window for one or more graphs Note Avoid using Pew windows ong New lines together Reset Restart collection and display of statistical data Til ea Reduce and rearrange the graph windows for visual convenience Close Iqn
11. WDM and CWDM modes Model 400 can create as many as four virtual fibers channels on a single physical fiber Model 800 can create as many as eight virtual fibers on a single physical fiber Model 1600 can create as many as sixteen virtual fibers on a single physical fiber Each virtual fiber is fully independent of the others and can carry data at the same rate as a physical fiber LambdaDriver is architectured as a scalable system that can be expanded and enhanced simply by inserting pluggable modules The basic LambdaDriver consists of a chassis and the following modules Mux and Demux 1 each or OADM 1 Transponders 1 per virtual fiber Power Supply 1 LambdaDriver can be scaled up by inserting the following modules Additional Transponders up to 4 for LambdaDriver 400 8 for LambdaDriver 800 and 16 for LambdaDriver 1600 ESCONS 1 per physical or virtual fiber Management 1 Service 1 1 1 Protection 1 OA 1 or 2 GM2 Gigabit Ethernet Multiplexers 1 per physical or virtual fiber Redundant Power Supply 1 The chassis and modules are described in the section Components just below Components Chassis The chassis is a host for up to six for LambdaDriver 400 twelve for LambdaDriver 800 twenty four for LambdaDriver 1600 pluggable network modules and up to two pluggable power supplies and contains WDM support functionality It can support various combinations of network modules to offer a wide range of appl
12. ZMRV MegaVision L ambdaDriver Management User Guide MegaVisionWeb MRV Communications Inc URL hitp www mrv com LambdaDriver Management ML46661 Rev 02 October 2004 Disclaimer MRV 9 reserves the right to modify the management application for this device at any time and in any way it sees fit in order to improve it MRV provides this document without any warranty of any kind either expressed or implied including but not limited to the implied warranties of merchantability or fitness for a particular purpose The user is advised to exercise due discretion in the use of the contents of this document since the user bears sole responsibility Trademarks All trademarks are the property of their respective holders Copyright 2001 by MRV All rights reserved No part of this document may be reproduced without the prior permission of MRV This document and the information contained herein are proprietary to MRV and are furnished to the recipient solely for use in operating maintaining and repairing MRV equipment The information within may not be utilized for any purpose except as stated herein and may not be disclosed to third parties without written permission from MRV MRV reserves the right to make changes to any technical specifications in order to improve reliability function or design Document Number ML46661 Document Revision Rev 02 Release Date October 2004 Contact Information For customer support
13. abled Iv Enable trap generation when a host makes a get or set set request to the LambdaDriver with a E community string Disable the TFTP the changes in the window and close it Cancel gt the changes in the window and close it LambdaDriver Management ML46661 Rev 02 October 2004 Device Information LD 800 Device System Information Identification Product Type 1 2800 IP Address 132 158 1 78 Address 12 15 ZX 31 Mon Oct 9 05 40 2001 Version Software 220 Hardware 200 UpTime 2 hours 43 minutes Head Community M ame public Figure 5 Device Information Window Table 2 Device Information Window Fields and Tools No Field Tool Praduct Type Type S ______ device IP Address IP address of the LambdaDriver agent MAC Address MAC address of the LambdaDriver agent 4 Created In Date and time of creation of the current LambdaDriver firmware Version Software 2989976 _ The version of the LambdaDriver firmware Hardware adare _ The version of the hardware of the LambdaDriver The time the LambdaDriver has been operating since the last reset 7 Read Community Name The read only community string for getting responses from LambdaDriver Ignore the changes in the window and close it 15 LambdaDriver Management ML46661 Rev 02 October 2004 Ping Ping 0800 IP Addrezz 1321 68 1 67
14. ce Information Window Fields and Tools 15 Table 3 Ping Window Fields and Tools 16 Table 4 Describe Window Fields and Tools 18 Table 5 Identify Window Fields and Tools sees 20 Table 6 ARP Table Window Fields and 21 Table 7 Interfaces Table Window Fields and Tools 23 Table 8 Alarm Log Window Fields and 0 8 28 Table 9 Transponder Module Window Fields and 29 Table 10 1 1 Module Window Fields and Tools 31 LambdaDriver Management ML46661 Rev 02 October 2004 About this Guide Scope This guide shows how to manage any of the series of LambdaDrivers e g LambdaDriver 400 LambdaDriver 800 LambdaDriver 1600 using MRV s MegaVision network management application Audience This guide is intended for the use of network administrators who have working knowledge of SNMP management Related Documents e MegaVision NMS Application User Manual This manual describes how
15. cifically to the LambdaDriver is described below Opens the LambdaDriver Device Level management window Green Communication with SNMP host OK Blue LambdaDriver powered on but is not SNMP manageable Red Communication with SNMP host lost Gray LambdabDriver turned off Adding an LambdaDriver This section describes the procedures for manually and automatically adding an LambdaDriver image to the network map Manual Addition In the manual mode the administrator selects the device from the device map list and adds it to the network map Auto discovery Automatic Addition In the auto discovery mode the system adds the device to the network map The procedure for manual addition is as follows 10 LambdaDriver Management ML46661 Rev 02 October 2004 Device Level i a To open the device zoom window Figure 3 double click on in the map level window Figure 2 Lambda Driver Ted Device IP Address 192_168 2 1 Device Help LDGO00 F5 1470 1480 Figure 3 Device Zoom Window 11 LambdaDriver Management ML46661 Rev 02 October 2004 Hot Spots Device Device Configuration LD 800 Device Configuration In Band Parameters After Reset Address 132 158 1 78 Som Cams MetMask 255 255 0 0 Gateway 132 158 1 1 Remote TFTP Agent Software Filename flashs hens Remote TFTF Server IP Address 136 0 2 1 IFTP Process Enable Trap Rece
16. cursor is moved to it Clicking with the left mouse button in a hot spot causes a menu window to be opened Active Areas An active area is a colored region indicating the status of the device module or port Access The procedure for accessing the MegaVision application is as follows 1 Double click the icon 2 Follow the prompts until the login window Figure 1 opens MegaVision Wet a C Supervisor Enter Password First time login as SUPERVISOR with password Cancel Help Figure 1 Login Window 3 Select the access level by clicking a dot in against H5 Superviser Figure 1 shows that user level is selected 4 Inthe Enter Password either type the password or if the default password was not changed leave it empty Click or press key to open the Map Level window Figure 2 LambdaDriver Management ML46661 Rev 02 October 2004 HM WebD evelopingEnvironment map Eddy NMS IP 194 90 137 191 File Edit Monitor Control Options NetWork Help Map Internet Options HEANAS ASE SYST mm TerescoJd TSJ OS100 TS3000 TS3000 Figure 2 Map Level Window Map level Hot Spots amp Active Areas The hot spots and active areas that apply generically to devices are described in detail in the MegaVision NMS Application User Manual The hot spot and active area that applies spe
17. ec tiec _ X axis Time in seconds Min Lower limit of range on Y axis _ Upper limit of range on Y axis Automatic change of ranges Mw check mark the left box causes automatic scaling of the Y axis for optimal display along the Y axis A check mark in the right box causes automatic scaling of the X axis for optimal display along the X axis how in the graph Absolute wale _ The actual bytes sec Relative ta e g packets sec _ The change in the bytes sec per sec Value _ The absolute value expressed as a percentage Accept the changes in the window and close it _Cancel Ignore the changes in the window and close it Show legend Show grid on graph 25 LambdaDriver Management ML46661 Rev 02 October 2004 BE InBytestt amp Bytes 0266 InBytes 6 10 000 K 9 000 al 9001 m 8 000 X 2 3 CJ Add graphs as _ Reset Reset count value display not counters Tile Oo m Reduce and rearrange the graph windows for visual convenience Accept the changes in the window and close it _ Ignore changes in the window and close it Help TT __8 Get context sensitive help Open the window shown below showing the utilization of the interface and interface errors Interfaces Utilization LD800 IP 19
18. ected the secondary link becomes the active link The module also has full Service Module functionality OADM Module OADM Module is a passive multiplexer that can add and or drop a specific channel wavelength to from an optical WDM signal while all other channels are routed from the input to the output with minimal attenuation OADMSs are normally used Ring or Multipoint network topologies Power Supply Module Power Supply Module powers the LambdaDriver It is auto adaptive in the range 90 to 260 Redundant Power Supply Module Redundant Power Supply Module is identical to the Power Supply Module It backs up and is backed up by the Power Supply Module in the same LambdaDriver while equally sharing the power load Device Channels CWDM The LD 800 can be configured to support up to 8 CWDM channels carrier wavelengths Each channel can carry data at any rate in the range 10 Mbps to 2 7 Gbps The channels span the wavelength range 1470 to 1610 nm with 20 nm spacing between the wavelengths DWDM The LD 800 can be configured to support up to any of 8 DWDM channels carrier wavelengths from among 20 DWDM channels Each channel can carry data at any rate in the range 10 Mbps to 2 7 Gbps The channels span the wavelength range 1530 33 to 1560 61 nm with 1 6 nm spacing between the wavelengths LambdaDriver Management ML46661 Rev 02 October 2004 Management General Hot Spots A hot spot protrudes when the mouse
19. eeececeeeeeseeeeseecesseeeesseeeeseeeesaeeeeseeeessaeees 8 Device Channels cis eic me vt aicenticnnadaecavnenaeovageasucawaesmacekeuagecunamnaneecguesacuese ED pcan CIIM II ees 8 SUD ERREUR LTEM 8 BIBT 8 Management 2 haee ipd ec tc sce eee eee 9 Generali e M M MM chan uM M I MM EU 9 mio SOLS m 9 ACIE oR Rene s Mas MEAS Le M E nee 9 f 9 Map level eere en EN 10 HOLD SOLS ACIVE ACIS meri ec eq ee dte ELI 10 Adding an tude ca tuse as cvi eene daa uie seva FOE 10 Device TOV CN anni dad IM IEEE IUIUS M MU E DIE 11 LOU ONS s ue ELM D M EI IM MM ME Dc at 12 d tdm ot edm Nada PNE Eu mI M du IPM 28 SUDDIY Scheie M eld 29 Varie DODdel asas eer et tere tie et et ene eet ILC M 29 ofr da DX DU Va du a Da DX Ch 30 LambdaDriver Management ML46661 Rev 02 October 2004 TEA TRO CUIGAINCY mE 31 Software Upgrading Downloading 33 e rr 33 C EE EE RTT TIE E IE 33 Procedure TE 33 TOS SAU Yess ace E 34 Figures Foure 1
20. er of entries in the ARP Table _ Stops insertion of entries into the ARP table Open the window shown below for adding an entry in the ARP Table Add ARF Table Entry 0800 Interface fy IP Address o 0 0 0 Address 1000000000000 las None static 21 LambdaDriver Management ML46661 Rev 02 October 2004 InterfacelFor _ Software interface port number of the LambdabDriver IF Address _ address of LambdaDriver agent MAL address _ address of the LambdaDriver agent alias Alias of the most significant bits of the MAC Address Class Whether the entry in the ARP table is dynamic temporary i e automatically removed by the MegaVision or static permanent i e removable only by the operator Accept the changes in the window and close it Cancel Lance Ignore the changes in the window and close it Hel Get context sensitive help Open the window shown below for editing an entry in the ARP Table The window is the same as the Add ARP Table Entry window above Interface IP Address Address Ignore the changes in the window and close it Refresh Update the ARP Table 22 LambdaDriver Management ML46661 Rev 02 October 2004 Interfaces Table Interfaces T able 10800 Description Speed Bits sec address UpStat Ethernet
21. f LambdaDriver agent Resolve DNs Name _ Request MegaVision to display the IP address associated with the DNS name of the LambdaDriver Interface Type of interface e g Ethernet Token Ring Polling Interval _ The time in seconds the MegaVision polls the LambdaDriver Time Uut _ The wait time for a response from the LambdaDriver at the end of which the MegaVision decides failure of response Retties The number of times the MegaVision attempts to get a response from the LambdabDriver Accept the changes in window and close it 18 LambdaDriver Management ML46661 Rev 02 October 2004 _ Ignore the changes in the window and close it Modify Same as for _Add above except that the window is used for modifying an interface IP address Delete Delete the selected row in the 11121128 SNMP Parameters SNMP Fort _ TCP IP port at which SNMP data traffic enters and exits SNMF Yersin _ Current SNMP version Clicking on the list box shows the selectable SNMP versions SAMP 172 Community Names GET _ Get string i e Password for getting information on a specific SNMP setting of the tor SET _ Set community string i e Password for changing a specific SNMP setting of the LambdaDriver Accept the changes in the window and close it 8 Ign
22. ications Mux Module Mux module multiplexes the egress channels on the physical fiber Demux Module Demux module demultiplexes the ingress channels on the physical fiber Transponder Module Transponder Module converts waves of one wavelength into waves of a different wavelength to match the access terminal equipment operating wavelength 850 nm or 1310 nm It also performs the 3R function A transponder module is required for each LambdaDriver channel Management Module Management Module enables management by SNMP Manager TELNET station and Craft Terminal VT100 terminal or emulator Data voice or video carrier wavelengths 2 Channels carrying data out of the 0800 Channels carrying data into the 0800 j Reshape re time re transmit LambdaDriver Management ML46661 Rev 02 October 2004 Service Module Service Module provides a separate 1310 nm channel on the WDM trunk that is used for management of remote LambdaDriver nodes The Service Module is needed only when it is required to manage a remote LambdabDriver which has no local connection to a Fast Ethernet network 1 1 Redundancy Module Redundancy Module is an interface for two fiberoptic cables for carrying identical data The cables backup each other The same information is transmitted on both fibers Normally the data on the primary link cable connected to the Primary port is received by the nodes When the primary link fails no reception is det
23. it Verify or type in this information no more than 255 characters Device Contact Information on your contact agent for the LambdaDriver unit Verify or type in this information no more than 255 characters 12 Open the ARP Table window described in the Section ARP Table Interfaces Table Statistics Graphs Open Interfaces Table window described in the Section Interfaces Table HE Accept the changes in the window and close it IW HEN Ignore the changes in the window and close it Get context sensitive help 20 LambdaDriver Management ML46661 Rev 02 October 2004 ARP Table ARP Table 0800 IP Address 192 158 2 1 interracelF ert Address address Class DAIS Name 1 YES der ABD 33 Mot resolved Number of entries 1 Stap Add Edit Delete Refresh Print Help Figure 13 ARP Table Window Close Table 6 ARP Table Window Fields and Tools Field Tool Interface Part Software m O number of the LambdabDriver Address address of LambdaDriver agent MAC address MAC address of the LambdaDriver agent Class Whether the entry in the ARP table is dynamic temporary 1 automatically removed by the MegaVision or static permanent i e removable only the operator DNS Name Mnemonic for an IP address The DNS knows how to find the associated IP address from the DNS name Numb
24. ivers T able Community 132 158 1 55 hasteamm1 132 158 1 5 hasteammz 132 158 1 1 hastcomm 3 Ej Table Size Iv Authentication generation Enabled Figure 4 Device Configuration Window Table 1 Device Configuration Window Fields and Tools In Band Parameters After Reset Address _ IP address of LambdaDriver agent Mask _ address of network mask for agent Gateway P address default gateway node where packets should be sent in the absence of other routing information anmp Communities Read Password for getting information on a specific SNMP setting of the LambdaDriver write Password for changing a specific SNMP setting of the LambdaDriver Remote Agent Software Filename Name of SNMP Agent software file to be downloaded Remote TFTP Server IP Address IP address of server relevant only if the TFTP Mode is Client 12 LambdaDriver Management ML46661 Rev 02 October 2004 5 Process Enable IV Enable the TFTP to function Disable the TFTP Trap Receivers Table Host address of host destination station for traps Community SNMP community string name of host for traps AddHos Open the window shown below for adding a host which is to receive traps from the LambdabDriver Add Host Host IF Address This Host Community public SEIT Host IP Address _ addres
25. ore the changes in the window and 27 LambdaDriver Management ML46661 Rev 02 October 2004 close it Help Get context sensitive help Figure 15 Alarm Log Window Table 8 Alarm Log Window Fields and Tools ped Ignore the changes in the window and close it Help About Shows the software version of the MegaVision application Active Areas SNMP Communication SNMP Communication No SNMP Communication Failed 28 LambdaDriver Management ML46661 Rev 02 October 2004 Power Supply Hot Spots None Active Areas Ports Gray Not informational LEDs PWR Green Power distribution OK Black Power distribution faulty Transponder Hot Spots Clicking on the Transponder module opens the window shown in Figure 16 i Transponder Card Configuration Slot 7 0800 Device Card EMZUDS LM Optical Leds Status Revision Wave Length nm 1590 Access As on WOM Hx off Ambient Temperature high n MESE TS Card Hate Made auta m y Card Actual Rate WOM Laser ok fber channel 1062 Lancel Refresh Figure 16 Transponder Module Window Table 9 Transponder Module Window Fields and Tools Suction Ambient Temperature Ambient temperature of Transponder Module The possible values are normal and high i Card Rate Mode Auto Settable by management software Manual
26. ore the changes in the window and close it 9 Help Get context sensitive help Identity Device Identify 10800 Product Type System Description witch Time 2 hours 51 minutes MIB ID 1 3 5 1 4 1 523 1 Services Provided physical internal MAC Address 2345 C31 Address 0 0 0 1 Interfaces Number 8 ase Communications Device Mame Device Location 8943 Fullbright Ave 91311 Device Contact com Evgeny Volkov SAP T able Interfaces T able Statistics Graphs Cancel Help 19 LambdaDriver Management ML46661 Rev 02 October 2004 Figure 12 Identify Window Table 5 Identify Window Fields and Tools 3 Up Time The time the LambdaDriver has been operating since the last reset MIB ID ID of the current MIB Services Provided The set of services that is primarily offered DM MAC Address MAC address of the LambdaDriver agent 7 Primary Address IP address of primary interface of LambdaDriver This is the first IP address that appears in the table of IP addresses for the LambdabDriver Interfaces Number The number of SNMP accessible interfaces the L ambdabDriver has Device Mame Mnemonic for readily identifying the LambdaDriver unit Verify or type in this information no more than 255 characters Device Location Location of the LambdaDriver un
27. s of a host to which traps will be sent from the L ambdabDriver _1 Enter the IP address of the host with which you are accessing the LambdaDriver Host Community _ SNMP community string name of host for traps Defaut Enter the default host community i e public Accept the changes in the window and close it _ Ignore the changes in the window and close it Get context sensitive help Open window shown below for changing the host which is to receive traps from the LambdabDriver 13 LambdaDriver Management ML46661 Rev 02 October 2004 i Edit Host X Host IP Address 132 158 187 This Host Community hostcomm 2 Default crea Host IF Address _ address of a host to which traps will be sent from the LambdaDriver This Enter the IP address of the host with which you are accessing the LambdaDriver Host Community _ SNMP community string name of host for traps Default Defaut Enters the default host community i e public Accept the changes in the window and close it Cancel _ Ignore the changes in the window and close it Help Get context sensitive help H _Bemove Host _ Open the window shown below for removing a host which is to receive traps from the LambdaDriver you realy want to delete this line Cancel T able Size Authentication TRAF generation En
28. to install and use the MRV s MegaVision NMS Application e MegaVision LambdaDriver Release Notes This document contains information not found in the User Guide and or overriding information and is produced if warranted Organization For customer convenience the management description is organized according to the service architecture of the MegaVision Application GUI which is hierarchical Accordingly management is described on the following four levels Map level The LambdaDriver is represented by an identifying icon the network map and is manageable as a network element Device level The LambdabDriver is represented by an identifying live image and is manageable as a single entity Module level A module of the LambdaDriver is represented by an identifying live image and is managed as an individual entity Port level A module port of the LambdabDriver is represented by an identifying live image and is managed as an individual entity Typographical Conventions The typographical conventions used in this document are as follows Convention Explanation CourierBold This typeface represents information provided by to the system al 0 mem XEM CTS CWDM dB DCD DNS DSR DTR DWDM Gnd GUI ISP ITU LAN MAN 0 MDI X NMS OADM OID osc RARP RI RMON RTS
29. ver IP Address TFTP Server having a TFTP program and the file containing the operative program to be downloaded to the LambdaDriver TFTP Server IP Address if LambdaDriver is to be set as client e TFTP File Name i e name of file containing the operative program to be downloaded to the LambdaDriver Procedure 1 Make sure you have logged in as a supervisor as follows i Double click the icon li Follow the prompts until the login window Figure 1 opens iii Select 200211801 iv Type the password in the ES Password field and click or press key to open the Map Level window Figure 2 Wd L UNE Lam Double click the LambdaDriver icon to open the device zoom window Figure 3 From the Device menu open the Device Configuration window Figure 4 4 Make sure that all settings in the window are correct In particular ensure that the TFTP Process Enable and DownLoad from Application is selected 5 Click or press key to start the download After upgrading downloading is completed the LambdaDriver automatically performs reset to run the new software Reset retains the user configured settings it does not change them into the default settings Once an IP address is assigned to the LD800 it can be changed at a TELNET station with the command set ip 33 LambdaDriver Management ML46661 Rev 02 October 2004 Glossary OADM CWDM DWDM Transponder
30. w To open a TELNET session click To revoke click Active Areas Ports Green Communication with SNMP host OK 30 LambdaDriver Management ML46661 Rev 02 October 2004 Blue Port disconnected Red Port faulty Gray Not informational LEDs PWR Green Power to module OK Black Power to module faulty MGT Green SNMP data flowing Black No SNMP data flowing ACT Eth Green Ethernet data flowing Black No Ethernet data flowing LINK Eth Green Ethernet link OK Black Ethernet link faulty OSC ACT Green Optical Service Channel data flowing Black No OSC data flowing OSC LINK Green OSC link OK Black OSC link faulty 1 1 Redundancy Hot Spots Clicking on the Transponder module opens the window shown in 11 Redundant Card Configuration Pi E3 Slot H 11 Card T ype 10800 Primary fibre Receive Status Up Secondary fibre Status Up Friman Secondary Switch Position Hecerve from the Primary Fibre is Hecerve from the Secondary Fibre Last Switch Operation Created automaticaly Cancel Refresh Figure 18 1 1 Module Window Table 10 1 1 Module Window Fields and Tools Field Tool K The number the slot in which 1 1 Module resides Primary fibre Receive Status Primary link receive fiber OK Secondary fibre Receive Status Secondary
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