Loop-AM3440 series TDMoE Card User`s Manual
Contents
1. Loop AM3440 series TDMOE Card User s Manual LOOP TELECOMMUNICATION INTERNATIONAL INC 8F NO 8 HSIN ANN RD SCIENCE BASED INDUSTRIAL PARK HSINCHU TAIWAN Tel 886 3 578 7696 Fax 886 3 578 7695 2011 Loop Telecommunication International Inc All rights reserved Version 6 5AUG 2011 Table of Content PRODUCTION DESCRIPTION tia 1 decke DES e E 1 1 2 TDMoEthernet Theory of Operation ss 1 1 2 1 Clock RECI Vi la 2 1 2 2 Eiter 2 1 3 A O ela doce lt 3 1 4 Sal ele EE 5 INSTALLATIONS SR nn adi 7 2 1 Mechanical ins Gao aia T OPERATION a da o ee eut tue 9 3 1 Ala a D et EE 9 9 2 EE Peas meas eld needed ane wate ae cota sua a ae ete naine 9 MAINTENANCE EE 10 4 1 Near End OO DO ACK soi ora dada 10 4 1 1 Backplane Loopback Time Slot Interface Loopback FPGA to Backplane LOOP ora ts 10 4 1 2 Payload Loopback FPGA to Ethernet Loopback 10 4 1 3 Local Loopback FPGA to Backplane Loopback 10 4 1 4 Line Loopback TDMOE Chipset to Ethernet Loopback 10 TERMINACO EB EH 11 5 1 OCOM AAM OC A ee ne es en de le 11 SYSTEM STATUS suscitada oda en dite 16 6 1 15 Min 1 Hr 7 Days Perf REDON saat dieu vuwdsdeutinareteacuadvaseundsdvoentbecsuebindseus 16 6 2 e e IR DAY En GREEN 17 6 3 System COMMON AU OM ste SES de en a on sd no 17 6 3 1 Miscellaneous Display escritorios ab rende 18 6 3 2 OGS DISP EE 18 0 322. 13 44 28 12 29 2010 Trib 1 Bundle 0 Rx Lost Valid Seconds in Current 15 Min Interval 0 seconds Valid 15 Min Intervals in Current 24 Hour Interval Rx Lost J UR J OR Current 15 Min Interval 0 0 0 Current 24 Hour Interval ke 0 0 Trib 1 Bundle 0 Rx Lost Last 96 15 Min Interval CLOUS 5 09 16 f gt 17 24 25 32 33 40 41 48 49 56 57 64 65 72 73 80 81 88 89 96 w Oo OO Oo O lt lt TAB key to show Statistics Report gt gt lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 6 3 System Configuration gt Command Path Main Menu gt C System Configuration gt Description There are seven options you can select from the System Configuration menu A Miscellaneous Display C QoS Display E Ethernet Port Display L Ethernet Switch Display P Link Aggregation Display R RSTP Display T Tributary Display 17 CHAPTER 6 SYSTEM STATUS 3 1 Miscellaneous Display Command Path Main Menu gt C System Configuration gt A Miscellaneous Display Display the active bundle time alarm filter and delay switch time 6 3 2 QoS Display Main Menu gt C System Configuration gt C QoS Display Description There are three options you can select from the QoS Display A Class of Service B Transmission Scheduling C Rate Control Display 6 3 2 1 Class of Service Main Menu gt C System Configuration gt C Qos Display gt A Class of Service
3. Class ee sidad 18 6 3 2 1 1 Priority Mode Display uk 18 0 3 2 1 2 EixXed Priornty AR E TEE 18 6 3 2 1 3 Vlan CoS Priority Display 18 6 3 2 1 4 ToS Field Priority Display 18 6 3 2 2 Transmission Scheduling AA 18 EA 15 A de SRE A ne id PR Mau 19 6 3 2 2 2 Scheduling Algorithm ooooncnccconnnncconcnnnonononcnnncnnconanononnancnnononons 19 6 3 2 2 3 WRR Weight Display 19 09 29 Rate CONTO inet MAR ee ald ead ce nna idee e 19 6 3 3 Ethernet Port RUE a EE 19 6 3 4 Ethernet Switch RTE E 19 6 3 5 HnkAggregat n DISpla y ESS A ita 19 6 3 6 A A A eee 20 6 3 7 O 21 O1 Mib tary Mode Display eee demie 21 A A E eme si 21 6 4 All Mine nen E 21 6 5 Time SlotIP COG Ul Atl OV coats ies celles tients hoes dow ceed aber iene cand et 22 6 5 1 Bundle AlloGation Display sn ects ian une ane dns 22 6 5 2 Time Slot Assignment Display ccoooccoccccononccconnnononnncccnanonnonannnconannnnononnnnss 22 6 5 3 Bunde AP IDISDIAY Sas ed ada 23 6 5 4 Time Slot IP ASsignment DISDIAY sheet a Mensuel 23 6 6 Status SAIS CS tied ed en iS MD 23 6 6 1 Bundle SLAUS CS ita sad 23 6 6 2 Em emet Porte Stasies aiii 23 6 6 3 MAC Address Ee TEE 24 6 6 4 Bundle SATUS einen id 25 6 6 5 ENEM Port Salina deed 25 6 6 6 SER lali 26 6 7 Alarmi FS O Y aron e AN da 26 So TEN SETI leads de 21 7 1 WOOPDACK EU e dal eno e a o e de ADS 27 7 2 Systemi o SUD nn T M hide ahd haat destine 28 7 2 1 Miscellaneous SOUDE
4. 90 km 110 km 120 km 10 km 30 km 40 km 50 km 60 km 80 km 90 km 110 km 120 km 10 km Distance 10 Km 10 Km 20 Km 20 Km 40 Km 40 Km 60 Km 60 Km 10 Km 10 Km 20 Km CHAPTER 1 PRODUCTION DESCRIPTION PTE2D Single bi directional fiber 1 25G 1550nm LC with DDM 20 Km PTD4D Single bi directional fiber 1 25G 1310nm LC with DDM 40 Km PTE4D Single bi directional fiber 1 25G 1550nm LC with DDM 40 Km PTD6D Single bi directional fiber 1 25G 1310nm LC with DDM 60 Km PTE6D Single bi directional fiber 1 25G 1310nm LC with DDM 60 Km PTD8D Single bi directional fiber 1 25G 1310nm LC with DDM 80 Km PTE8D Single bi directional fiber 1 25G 1310nm LC with DDM 80 Km Combo Gigabit Ethernet GbE Interface Number of Ports 2 Speed 10 100 1000M Base T Connector RJ45 for twisted pair GbE LC for optical GbE auto detection Gigabit Ethernet GbE Interface Number of Port 2 Speed 10 100 1000M Base T Connector RJ45 Ethernet Function Basic Features MDI MDIX for 10 100 1000M BaseT auto sensing Ping function contained ARP Per port programmable MAC hardware address learn limiting max MAC table 8192 8k entry Packet Delay Variation Unframed T1 Up to 340 ms Framed T1 Up to 256 ms E1 up to 256 ms Framed T1 with CAS Up to 192 ms Packet Transparency Packet transparency support for all types of packet types including IEEE 802 1q VLAN and 802 1ad Q in Q QoS User configurable 802 1p CoS ToS in out going IP frame Traffic Control Ingress pac
5. Description There are four options you can select from the Class of Service A Priority Mode Display B Fixed Priority Display C Vlan CoS Priority Display D ToS Field Priority Display 6 3 2 1 1 Priority Mode Display gt Command Path Main Menu gt C System Configuration gt C Qos Display gt A Class of Service gt A Priority Mode Display gt Description Display the priority mode of Ethernet 1 4 6 3 2 1 2 Fixed Priority Display gt Command Path Main Menu gt C System Configuration gt C Qos Display gt A Class of Service gt B Fixed Priority Display gt Description Display the transmission priority of Ethernet 1 4 6 3 2 1 3 Vlan CoS Priority Display gt Command Path Main Menu gt C System Configuration gt C Qos Display gt A Class of Service gt C Vlan CoS Priority Display gt Description Display the CoS priority value and its transmission priority 6 3 2 1 4 ToS Field Priority Display gt Command Path Main Menu gt C System Configuration gt C Qos Display gt A Class of Service gt D ToS field Priority Display gt Description Display the ToS priority value and its transmission priority 6 3 2 2 Transmission Scheduling gt Command Path Main Menu gt C System Configuration gt C Qos Display gt B Transmission Scheduling gt Description There are three options you can select from the Transmission scheduling A Flow Control Di
6. Here you can setup the age time for Ethernet layer two ports and add or delete any Ethernet port and its MAC address gt Description For setup procedures please see the screen demonstrations shown below Age Time the period of time that MAC addresses are flushed from the MAC Address Table if they have not been accessed during that interval MGT Management Table 7 13 Ethernet Switch Setup Field Setting Options 1 3825 0000300 Table 7 14 Add Ethernet MAC Address Field Setting Options Default Table 7 15 Delete Ethernet MAC Table Field Setting Options Default gt Ethernet Switch Setup Screens When you enter this section you will first see the Ethernet Switch Setup menu Use arrow keys to select the action you need SLOT 2 TDMoE Ethernet Switch Setup 15 28 32 12 31 2009 Select Action gt gt Age MAC Address If you select Age you will see a screen as below SLOT 2 TDMoE Ethernet Switch Setup LIS ER 2786 2009 ARROW KEYS CURSOR MOVE Please input 0 1048575 BACKSPACE to edit 36 CHAPTER7 SYSTEM SETUP Age Time 0000300 NOTE Setting the age time to zero disables the aging process Aging time must be a multiple of 15 lt lt Press ESC key to return to previous menu gt gt If you select MAC address you ll first have to choose from two actions Add add a new static address or Del delete a port or a static address Use arrow keys to make your selection and press
7. Press ESC key to return to previous menu gt gt VT 100 Terminal Path Main Menu gt S System Setup gt C Qos Setup gt A Class of Service gt C Vlan CoS Priority Setup Class of Service CoS is a 3 bit field added in the MAC header when applying VLAN tagging CoS is adopted to discriminate higher priority traffic from lower priority one CoS determines the relationship between priorities of ingress Ethernet frame traffic and queues There are 8 levels of priority values ranging from 0 to 7 where O is the lowest priority and 7 the highest By attaching priority value to frames users are enabled to classify and place them into different queues The screen above allows users to configure the transmission priority queue for packets with different priorities Assumed that the priority mode for ETH3 and ETH4 are CoS then both ports should apply the VLAN CoS Priority Setup Moreover ETH3 and ETH4 share common settings rather than have their own 8 2 1 3 ToS Priority Setup If ToS is selected as the Priority Mode the next step is to configure the ToS Field Priority Setup The screen is shown as below SLOT 2 TDMoE TOS field Priority Setup 13 28 23 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Tos priority Transmission priority YO O1 amp GON RO NOTE Priority P3 gt P2 gt P1 gt PO lt lt Press ESC key to return to previous menu gt gt VT 100 Terminal Path Ma
8. gt Command Path AM3440 Controller Menu gt S System Setup gt C TSI Map Setup LOOP AM3440 A System Setup 15 48 10 08 03 2011 ARROW KEYS CURSOR MOVE TABS ROLL OPTIONS MAP_1 Target Quad T1 NON CAS TDMOE NON CAS TS PO TS D SL PO D SL PO TS PO TS D SL PO TS PR RP RARE LA WO OO AJ cn ms A3 kA WO O AJ cn o b i Ferner kr epep 2 0 p 0080800 ND NN ND NN ND ND ND N See EEE Ka O 2 ex ns bit Jo vs D ND H H Aj e e RS bar 2 0009000 H k kA kA Fi Fi Pop G dl GE Melen 10 lok 12 LS 14 15 16 10 LE 12 LS 14 15 16 10 11 12 13 14 Confirm Yes 1 15 16 H H A NO H A LA LA GA Fi oe E ER eo Oo O OS Oo CE ES N po Nw ND D ND NN NN D D NO N D N 2 000000 0ppeorrpo LA OY lt lt Press ESC to return to Controller Setup menu Press D to active gt gt 9 3 3 Activate TSI Map After configuring the TSI MAP the next step is to activate the TSI MAP gt Command Path AM3440 Controller Menu gt S System Setup gt D Select a New TSI MAP Select the MAP that is configured and Press ESC A prompt will ask if you are sure LOOP AM3440 A System Setup New map 15 50 03 08 03 2011 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Last activated TSI Map MAP_1 Change to TSI Map MAP_1 This item will be ignored if anyone of the following is enabled TSI Map switch start hr min Mapl DISABLE 00 00 Map2 DIS
9. 2009 ARROW KEYS CURSOR MOVE Please Input 0 100 BACKSPACE to edit PO queue P1 queue P2 queue P3 queue Weight 007 DES 027 053 NOTE The sum of weights must equal 100 lt lt Press ESC key to return to previous menu gt gt VT 100 Terminal Path Main Menu gt S System Setup gt C Qos Setup gt B Transmission 99 CHAPTER 8 Appendix A Quality of Service QoS Setup Scheduling gt C WRR Weight Setup Weighted Round Robin WRR When a port uses the WRR algorithm the transmission scheduling depends on the weight ratio of each queue The port will read out data of the 4 queues in a round robin way relying on the configured Weight Ratio Accordingly to have WRR function successfully users should configure the weight ratio for each queue as the above screen shown The queue with the higher weight will be transmitted first and the one gets the lowest weight will be forwarded last For example the weight ratios of PO P1 P2 and P3 are 7 13 27 and 53 respectively Hence since P3 has the highest weight packets in P3 will be sent first After P3 completes the transmission it s the turn of P2 and then P1 and finally PO Moreover within all the packets been forwarded in a round 53 data come from P3 27 from P2 13 from P1 and 7 from PO After one round the port goes back to P3 and repeats the round again and again One thing should be noticed ports adopting WRR share common settings of Weight Ratio rath
10. 22 22 Jitter Size ae 23 23 VLAN DEB 24 24 CVLAN ID 25 25 CVLAN Priority 26 26 SVLAN ID 27 271 SVLAN Priority 28 28 Action Add bundle 9 Confirm Yes 30 30 31 31 lt lt Press ESC key to return to previous menu gt gt CESoPSN SLOT 2 TDMoE Time Slot IP Assignment 13 35 36 05 27 2010 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Port Trib Bundle ID 00 PO TS TS PO TS TS BNDL ID UDP NUM Dest IP Address Format CESoPSN Tos 000 UDP Number 00000 Dest IP Addr 000 000 000 000 Stratum 2 Number of Frame 05 Jitter Delay 020 Jitter Size 256 VLAN OFF CVLAN ID CVLAN Priority SVLAN ID SVLAN Priority Action Add bundle Confirm No ONES mut e 46 CHAPTER7 SYSTEM SETUP lt lt Press ESC key to return to main menu or save system setup gt gt After configured it press Y or N to confirm it are you sure Y N After confirming to save the configuration the screen will be shown as below SLOT 2 TDMoE Time Slot IP Assignment 09 00 43 01 06 2010 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Port Bundle ID TS PO TS TS BNDL ID UDP NUM Dest IP Address Format Tos 1 001 001 001 002 UDP Number 1 18 18 Dest IP Addr 001 001 001 002 1 19 19 Cell Num Jitter Delay Jitter Size Stratum B 1 20 20 Cell in Bundle 05 T 21 21 Jitter Delay 020 T 22 22 Jitter Size 256 IS 2S VLAN S 1 24 24 CVLAN ID 1 25 25 CVLAN Priority
11. Ee EE 49 Table 122 DOWNIO EIERE 51 GB ES NL DK FIN PL CZ SK SLO GR PRC Bitte f hren Sie das Ger t am Ende seinerLewbensdauer den zue Verf gung stehended R ckgabeund Sammelsystemen zu At the end of the product s useful life please dispose of 1t at appropriate collection points provided in your country Une fois le produit en fin devie veuillez le d poser dans un point de recyclage appropri Para preservar el medio ambiente al final dela vida til de su producto depositelo en los laguares destinado aello de acuerdo con la legislaci n vigente No final de vida til do producto por favor coloque no ponto de recolha apropriado Onde tutelare l ambiente non buttate l apparecchio trai 1 normali rifiuti al termine della sua vita utile ma portatelo presso 1 punti do taccolta specifici per questi rifiuti previsti dalla normativa vigente Wy raden u aan het apparant aan het einde van zijn nuttige levensduur niet bij hey gewone huisafval te deponeren maar op de dearvoor bestemde adressen Nar produktet er udtjent bor det bertskaffes via de sz rlige indsamlingssteder 1 landet Ved slutten av produktets levetid ber det avhendes p en kommunal milj stasjon eller leveres til en elektroforhandler L mna v nligen in produkten p l mplig tervinningsstation n r den r f rbrukad H vit tuote k yt i n p ttyess viem ll se asianmukaiseen ker yspisteeseen Gdy produkt nie
12. Enter SLOT 2 TDMoE Ethernet Switch Setup 15 38 36 12 31 2009 Select Action gt gt Age MAC Address Add Del To add a new port select Add Using Tab to select a port and using BACKSPACE to edit and enter new MAC address SLOT 1 TDMoE Add ethernet MAC Address 18 17 54 11 05 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Add Port MGT Add MAC 00 00 00 00 lt lt Press ESC key to return to previous menu gt gt After you choose a port and enter the MAC address press ESC A prompt will ask if you wish to add the address Press Y to confirm Start to add Y N When the MAC address is added successfully a message will appear as shown below RESULT OK To delete a port select Del Using Tab to select a port and a static SLOT 2 TDMoE Delete Ethernet MAC Table 09 03 58 01 12 2010 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Delete Port MGT lt lt Press ESC key to return to previous menu gt gt After you choose a port and a static press ESC A prompt will ask if you wish to add the address Press Y to confirm Start to delete Y N When the MAC address is deleted successfully a message will appear as shown below 37 CHAPTER7 SYSTEM SETUP 7 2 5 Link Aggregation Setup Command Path Main Menu gt S System Setup gt P Link Aggregation Setup Function Enables users to change the state of Trunk1 and Trunk 2 for the link aggregation Description Link Aggregation Setup e
13. External Clock Protection Disable lt lt Press ESC key to return to previous menu gt gt NOTE For AM3440 2 the clock source is bundle clock Hence the Master clock source will be SLOT_1 P1 and Second clock source is SLOT_2 P1 After the entire process of setting up 1 1 protection for both AM3440 1 and AM3440 2 are complete users can ascertain whether the settings are successfully configured by checking the bundle status If the bundle status is active then the configuration is accomplished 63 CHAPTER 9 Appendix B 1 1 Protection between TDMoE and QE1 T1 Card Bundle Status gt Command Path TDMoE Main Menu gt N Status amp Statistics gt D Bundle Status SLOT 1 TDMOE Bundle Status 15 44 46 08 03 2011 P BID status lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 64
14. PPm amp OCXO OCXO 10 PPb When a VT 100 terminal is connected to the CONSOLE port of the TDMoE a main menu is displayed on the VT 100 monitor The main menu consists of four groups of commands DISPLAY LOG SETUP and MISC All commands are detailed in the VT 100 Menu Tree illustrations below 12 CHAPTER 5 TERMINAL OPERATION VT100 Main Menu Overview DISPLAY SETUP 1 gt 15 Min l Hr 7 Days Perf Report L gt LoopBack Setup 2 gt 15 Min 1 Day Perf Report S gt System Setup C gt System Configuration T gt Time Slot IP Assignment J gt All Time Slot Assignment M gt Alarm Setup H gt Time Slot IP Configuration R gt Clear Alarm History N gt Status amp Statistics X gt Clear Performance Data A gt Alarm History W gt Firmware Upgrade LOG MISC U gt Choose Other Slot F gt Log Off SETUP MISC Menu Y gt Unit Load Default O Log On SETUP MISC Menu E gt Return to Controller Main Menu Z gt Card Reset Figure 5 1 VT 100 Menu Tree for TDMoE 13 CHAPTER 5 TERMINAL OPERATION A gt Priority Mode Setup B gt Fixed Priority Setup gt Class of Service L gt Loopback Setup C gt Vlan CoS Priority Setup A gt Miscellaneous Setup D gt TOS Field Priority Setup C gt QoS Setup A gt Flow Control Setup B gt Transmission Scheduling B gt Scheduling Algorithm C gt Rate Control Setup C gt
15. Upgrade gt Command Path Main Menu gt W Firmware Upgrade gt Description There is only one selection A Download Firmware Press A to enter Download Firmware configuration 7 7 1 Download Firmware Command Path Main Menu gt W Firmware Upgrade gt A Download Firmware gt to do the download gt Description There are two firmware versions 1and 2 for you to select To confirm you TF TP server IP type in the IP address and firmware file name and then press Enter gt Download Firmware Screen LOOP AM3440 C Download Firmware 10 22 03 01 04 2010 ARROW KEYS CURSOR MOVE Please Input nnn nnn nnn nnn BACKSPACE to edit Bank 1 Firmware Ver V1 01 02 05 03 2010 Good Bank 2 Firmware Ver V1 01 02 05 03 2010 Good Working Firmware Bank 2 TFTP Server IP 0 0 0 000 000 000 Firmware File Name lt lt Press ESC key to return to previous menu gt gt 50 CHAPTER7 SYSTEM SETUP Table 7 27 Download Firmware Field Setting Options TFTP Server IP Setup by User 000 000 000 000 Firmware File Name 51 CHAPTER 8 Appendix A Quality of Service QoS Setup 8 APPENDIX A QUALITY OF SERVICE QOS SETUP 8 1 Overview This chapter provides a more detailed explanation on Quality of Service QoS and Scheduling Algorithm QoS is a control mechanism with the ability to provide different priorities to different data flows and to ensure a corresponding level of performance to each data f
16. WRR Weight Setup E gt Ethernet Port Setup S gt System Set dee L gt Ethernet Switch Setup P gt Link Aggregation Setup R gt RSTP Setup A gt Tributary Mode Setup T gt Tributary Setup VT100 B gt Tributary Setup Menu Tree SETUP A gt Bundle Allocation Setup SETUP Section B gt Time slot Assignment Setup T gt Time Slot IP Assignment C gt Bundle IP Setup D gt Time Slot IP Assignment M gt Alarm Setup R gt Clear Alarm History X gt Clear Performance Data W gt Firmware Upgrade A gt Download Firmware Figure 5 2 VT100 Menu Tree SETUP Section 14 CHAPTER 5 TERMINAL OPERATION 1 gt 15 Min 1 Hr 7 Days Perf Report 2 gt 15 Min 1 Day Perf Report A gt Priority Mode Display A gt Miscellaneous Displa ae B gt Fixed Priority Display gt Class of Service pe C gt Vlan CoS Priority Display D gt TOS Field Priority Display C gt Qos Display A gt Flow Control Display B gt Transmission Scheduling B gt Scheduling Algorithm C gt System Configuration C gt Rate Control Display C gt WRR Weight Display E gt Ethernet Port Display L gt Ethernet Switch Display P gt Link Aggregation Display R gt RSTP Display VT100 Menu Tree gt Tributary Mode Display __ DISPLAY B gt Tributary Display J gt All Time Slot Assignment RENN A gt Bundle Allocation Display H gt Time Slot IP Configuration B gt Time slot Assignment Disp
17. confirm Change configuration Y N Note to save please use V command When the configuration is successfully changed the screen will return to the previous menu 7 2 2 1 3 Vlan CoS Priority Setup gt Command Path Main Menu gt S System Setup gt C Qos Setup gt A Class of Service gt C Vlan CoS Priority Setup Enables users to change the transmission priority for each CoS priority gt Description By changing the transmission priority for each class of service the user can specify that the transmission priority for any class of service is high medium or low Table 7 5 Vlan CoS Priority Setup CoS priority Transmission priority oz POPIP2PS PO oo gt Vlan CoS Priority Setup Screens Using Tab to select one of the priorities for each CoS priority 30 CHAPTER7 SYSTEM SETUP SLOT 2 TDMoE Vlan Cos Priority Setup T3 18747 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Cos priority Transmission priority PO Eo PO PO PO PO PO ENG 0 1 2 3 4 5 6 1 NOTE Priority P3 gt P2 gt P1 gt PO lt lt Press ESC key to return to previous menu gt gt After you choose the transmission priority for each tag priority press Esc A prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save please use V command When the configuration is successfully changed the screen will return to the previous menu 7 2 2 1 4 ToS F
18. gt N Status amp Statistics gt G SFP Status gt Description You will see selections ETH1 and ETH2 at the button of the screen Use arrow keys to select the action you need then press Enter to show the detail information of the action you choose gt SFP Status Screens Use arrow keys to select an action and press Enter SLOT 2 TDMoE SFP Status 083552500 T2317 2009 Select Action gt gt ETH1 ETH2 You will see the SFP status for the port you selected as shown below SLOT 1 TDMoE SFP Status 18 22 47 01 05 2010 Connector Not available Transceiver OC 3 multi mode short Link Length long distance L Technology Shortwave laser w OFC SL Encoding Not available Length 9 125 mm fiber 12700 m Length 50 125 mm fiber 1270 m Length 62 5 125 mm fiber 1270 m Temperature 127 490 degrees C Vcc 3 263 mV Tx Bias 65 278 mA Tx Power 3 263 mW Rx Power 3 263 mW lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 6 7 Alarm History gt Command Path Main Menu gt A Alarm History gt Description Display the alarm message been transmitted of the card gt Alarm History Screen SLOT 1 TDMoE Alarm History 18 21 28 01 05 2010 TYPE PORT BUNDLE CURR STATE COUNT THRESHOLD ALARM ETH4 LINK DOWN ALARM 1 MAJOR lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 26 CHAPTER7 SYSTEM SETUP 7 SYSTEM S
19. ihc casters NS nd a ao tenue akin 28 7 2 2 EE eebe 29 We Zee A re ard de Ro dcr 29 12 21 15 Priority Mode Se tU As de aaan a nee 29 12 2 WER Ee EE 30 2213 Vlan CoS Priority Setup a ad 30 T2214 TOS Field Priority Sep da bare 31 2 22 Transmission SCHECUIING i iii seen 32 71 22 21 Flow Control Set 32 7 2 2 2 2 Scheduling Algorithm ss 32 1222 3 WRR Weight SetU aan teint 33 7 2 2 87 Rate Control SGU pisses eed ec aes 34 7 2 3 EMemet POM SOUP eis a e geet aera ee Us ete 35 1 2 4 Ste EE EE 36 1 25 Link Aggregation Seti A 38 7 2 6 RSTP Contiguration Set nia 39 12 1 TBU S EWP EE 42 Teal Tribltary Mode Selina cidos 42 Llas Klein ee EE 42 149 Time SIOUIPASSIONM NE S SR sn etui antenne 44 7 3 1 Seele eler Ee EE 44 7 3 2 Time Slot Assignment Setup sn 44 Tio Bundle RS 45 1 3 4 lee e en EE 45 7 4 NES ie a Ra a sees ante iis ee ane de te Po ets 48 7 5 A an con tr 49 7 6 Clear Penormance Da HS Seed beastie ew sae road 50 T T Firmware MOGI AGG os 50 7 7 1 LOW FA OAC A UIT i iat adie dis 50 APPENDIX A QUALITY OF SERVICE QOS SETUP ota li 52 8 1 ENEE a a ne eal ome sole 52 8 2 Step by Step Setup Instructions sn 52 8 2 1 QoS for Ingress Traffic Writing Data From Ethernet Interface To Its Queues 53 A o A ts eared ieee 53 92 A COS MONTY d le WEE 54 0 212092 TOS PHONY SEP o le 54 8 2 2 Scheduling Algorithm for Ingress Traffic Reading Data From Queues to TDM Inter
20. to the queues of ingress traffic whereas Scheduling Algorithm is in charge of reading data from the queues to the Tributary Port TDM interfaces of ingress traffic Noted that for the whole egress traffic data path the QoS method of writing data from TDM interface to the queues is Fixed method and the Scheduling Algorithm of reading data from the queues to Ethernet interfaces is SP Strict Priority and both cannot be changed Step by step setup instructions are interpreted below The setup procedure explicated in this section can be referred back to the QoS Setup shown in the VT 100 terminal Path Main Menu gt S System Setup gt C QoS Setup 52 CHAPTER 8 Appendix A Quality of Service QoS Setup 8 2 1 QoS for Ingress Traffic Writing Data From Ethernet Interface To Its Queues In IP Networks Quality of Service QoS serves as an essential role to guarantee the transmission quality of service of the packets in a Best Effort environment Real time video and voice data for example require larger bandwidth and smaller transmission delay variation than e mail service It is assumed that the network manager can recognize applications such as voice video or email traffic and can evaluate their relative time sensitivity or importance before the site installation The network manager can then group the applications into classes which determine those frames with higher priority for transmission and those whi
21. 1 26 26 SVLAN ID 1 27 27 SVLAN Priority 1 28 28 Action Add bundle 1 29 29 Confirm Yes 1 30 30 L 31 31 lt lt Press ESC key to return to main menu or save system setup gt gt Table 7 25 Time Slot IP Assignment Field Setting Options Default Bundle ID EI 0731 00 LI OA Format AAL1 SATOP AAL1 AAL1 CESoPSN UDP Number Dest IP Addr 000 000 000 000 Stratum When Format is AAL1 When Format is CESoPSN When Format is SAToP When Vlan is 1 Vlan CVLAN ID 0000 CVLAN Priority When Vlan is 2 Vlan CO 0 MAND 0 7 E SE IS Add Bundle Delete All Change Add Bundle 47 CHAPTER7 SYSTEM SETUP O Note 1 There are 4 ports to have UDP number from 1 to 65535 If one port gets UDP number such as 100 another port cannot use the same UDP number 2 If the user chooses Add Bundle option for Action the bundle ID must be unique for the particular port If the user chooses Delete Bundle option the particular bundle must already be created The UDP number needs to be unique for all the ports size This area is empty and can be used to store incoming bursts delay This area is full and there is still data to send on the line if incoming data is missing due to network delays Delay should be smaller than size Also the difference between size and delay should be larger than the time that it takes to reconstruct a packet otherwise an overrun may occur when the packet ar
22. 1 Hour 7 Days Perf Report for the port and bundle you select listed as below SLOT 1 TDMoE 15 Min 1 Hr 7 Days Perf Report 13 42 29 12 29 2010 Trib 1 Bundle 0O Valid Seconds in Current 15 Min Interval 0 seconds Rx Lost J UR Current 15 Min Interval lst Nearest 15 Min Interval 2nd Nearest 1 i Interval 3rd Nearest 1 i Interval 4th Nearest 1 db Interval Valid 15 Min Intervals in Current 24 Hour Interval Rx Lost Current 24 Hour Interval 3 12 28 2010 12 27 2010 12 26 2010 12 25 2010 12 24 2010 12 23 2010 12 22 2010 lt lt TAB key to show Statistics Report gt gt lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 16 CHAPTER 6 SYSTEM STATUS 6 2 15 Min 1 Day Perf Display Display the 15 Min 1 Day performance report Table 6 2 24 Hour Perf Display Field Setting Options Default Register Bundle Ef 00 31 000 T1 00724 00 gt ETH 24 Hour Perf Report Screens Use arrow keys to select a port a bundle and a parameter and press Enter SLOT 2 TDMoE 15 Min 1 Day Perf Report 13 02 08 12 30 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Register Port RD Register Bundle Register Parameter Rx Lost lt lt Press ESC key to return to previous menu gt gt Then you will see the 15 Min 1 Day Perf Report for the port bundle and parameter you select listed as below SLOT 1 TDMoE 15 Min 1 Day Perf Report
23. ABLE 00 00 Map3 DISABLE 00 00 Map4 DISABLE 00 00 lt lt Press ESC to return to previous menu gt gt 62 CHAPTER 9 Appendix B 1 1 Protection between TDMoE and QE1 T1 Card NOTE To make sure whether the MAP is activated users can check the Current TSI MAP from the System Main Menu gt Command Path AM3440 Controller Menu gt C System Configuration gt D Current TSI MAP LOOP AM3440 A System Configuration Current Map 15 51 10 08 03 2011 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Current Map Slot Number 1 TDMo PO TS D SL PO TS PO TS D SL PO TS Port Number P1 NON CAS o A OD YN o A OD e NA a OO CO N ND NN N ND N N N LO 2000000000000 0 Q WO 10 11 12 13 14 1 15 1 16 d 10 Lo 12 13 14 L da 1 16 D ND NN ND NN NN D ND D ND ND NO NN DN NW N lt lt Press ESC to return to previous menu gt gt 9 3 4 Configure Clock Source After activating the TSI Map the last step is to setup the clock source gt Command Path AM3440 Controller Menu gt S System Setup gt K Clock Source Setup For AM3440 1 the Master Second clock source is INTERNAL LOOP AM3440 A System Setup CLOCK Normal Mode 14 14 07 09 09 2008 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Master_Clk Source Clock Hold Over ON Second_Clk Source Current Clock MASTER _ CLK Clk _ Recover_Mode AUTOMATIC Clock Status NORMAL Ext Clock Type S E1 75o0ohm Dual
24. Assignment Display 00nn00nannnannnnnnennnnnnnnnnnennnnnnrnnrnnrrnnrrnnrnnrnrrrsnrnerrnnrrnnrnnresnnennrne 22 Table nl eieiei SSID nn nee sr item need Dee este 28 Table 72 Advanced SEUD asada 28 Table 7 3 Priority Mode Setup n nnn0nnnnnnnnannnnnnnnnnnnrnnnnnnnernnsnnrsnrronrrrsnresnrronrrrsninnrrrsnrrnnrronrrreneresnrrenrrnnne 29 Table 7 4 Fixed Priority Setup ccccccccssseecceeseeeceesseceeseeecaueeecseeeecseseeeseaseeessageeessueeessegseeessseeeesens 30 Table 7 5 Vlan CoS Priority Getup 30 Table 7 6 Tos Field Priority SOU icon ei tt da 31 Table o eet 32 Table 7 6 Scheduling Ne Le un E 33 Table 7 9 WRR Weight D EE 33 Table 7 10 Rate Control SetuP irssi oi ne ee aan tente a a in 34 Table 7211 Gi e Ee ege e REN 35 Table 7 12 Auto Negotiation and Duplex ss 35 Table 7 15 Ethernet Switch Seb A ent 36 Table 7 14 Add Ethernet MAC Address iii 36 Table 7 15 Delete Ethernet MAC Table 36 Table 7 16 Link Aggregation Setup EE 38 Table 7 17 RSTPCONIQUrAtON a 41 Table 7 189 ETH1 74 Configuration sssaaa E E E ia 41 Table 7 19 RSTP and RSTP Port Setup Harameters 41 Table 7 20 Tributary Mode Setup ii E 42 Table 7 21 Tributary Configuration Setup Trib1 Trib2 Trib 3 Trib4 43 Table 7 22 Bundle Allocation Setup iii 44 Table 7 23 Time Slot Assignment Sell nn Nan ini 44 Table 7 24 Bundle IP SSD Res nn Ee E 45 Table 7 25 Time SIOP ASSIM ni an Ne la aan 47 Table E d
25. Configuration Q Alarm Queue Summary I R P Information Summary Redundant CTRL Information Performance Report LOG U gt Choose a Slot F gt Log Off SETUP MISC Menu O gt Log On SETUP MISC Menu gt gt SPACE bar to refresh or enter a command gt After logging on a full Controller Menu will appear as shown below Press U from the full Controller Menu to choose the slot that your TDMoE card is in Key in the slot number Press the Enter key LOOP AM3440 A Controller Menu 18 15 36 05 25 2010 Serial Number 170530 Redundant Controller Disabled Hardware Version Ver H Start Time 13 00 08 05 25 2010 Software Version V8 10 01 05 19 2010 Device Name LOOP AM3440 A DISPLAY SETUP C gt System Configuration S gt System Setup B Clock source Configuration M gt System Alarm Setup Q Alarm Queue Summary W gt Firmware Transfer I Information Summary V gt Store Retrieve Configuration R Redundant CTRL Information K gt Clock source Setup P Performance Report T gt Bit Error Rate Test LOG MISC U gt Choose a Slot A gt Alarm Cut Off F gt Log Off SETUP MISC Menu x gt Clear Alarm Queue O gt Log On SETUP MISC Menu Y gt Controller Return to Default Z gt Controller Reset gt gt Input the unit number A D or 1 5 11 CHAPTER 5 TERMINAL OPERATION After choosing the appropriate slot the Port Menu will appear for the TDMoE card You w
26. D2W PTE2W PTD4W PTE4W PTD6W PTEGW PTD1D PTE1D PTD2D Single bi directional fiber Single bi directional fiber Single bi directional fiber Single bi directional fiber Single bi directional fiber Single bi directional fiber Single bi directional fiber Single bi directional fiber Single bi directional fiber Single bi directional fiber Single bi directional fiber seen ss Backup line Data Rate Wavelength nm 1 25G 850 1 25G 850 1 25G 1310 1 25G 1310 1 25G 1310 1 25G 1310 1 25G 1550 1 25G 1550 1 25G 1550 1 25G 1550 1 25G 1550 1 25G 1550 1 25G 1310 1 25G 1310 1 25G 1310 1 25G 1550 1 25G 1550 1 25G 1550 1 25G 1550 1 25G 1550 1 25G 1550 622Mbps 1 1310 25G Data Rate Wavelength nm 1 25G 1310nm 1 25G 1550nm 1 25G 1310nm 1 25G 1550nm 1 25G 1310nm 1 25G 1550nm 1 25G 1310nm 1 25G 1310nm 1 25G 1310nm 1 25G 1550nm 1 25G 1310nm 5 E AM3440 A B C Connector LC without M LC with DDM LC with DDM LC without DDM LC without DDM LC without DDM LC without DDM LC without DDM LC without DDM LC without DDM LC without DDM LC without DDM LC with DDM LC with DDM LC with DDM LC with DDM LC with DDM LC with DDM LC with DDM LC with DDM LC with DDM LC with DDM Connector LC without DDM LC without DDM LC without DDM LC without DDM LC without DDM LC without DDM LC without DDM LC without DDM LC with DDM LC with DDM LC with DDM Distance 550 m 550 M 2 km 2 km 20 km 40 km 50 km 60 km 80 km
27. DM signals E1 T1 Jitter and Wander adheres to G 823 Traffic and G 823 Synchronous 1 2 TDMoEthernet Theory of Operation Over the past few years packet switched network PSN coverage has become ubiquitous stimulating a desire for convergence of all communications services over a unified infrastructure This has brought into prominence the concept of a pseudowire PW A pseudowire emulates a native service e g ATM frame relay Ethernet or TDM but utilizes transport over a PSN TDM over Ethernet or TDMoEthernet is a TDM PW technology that makes it possible to provision E1 T1 and serial data services across IP MPLS or layer 2 Ethernet networks The services are provided in a manner transparent to all protocols and signaling TDMoEthernet enables service providers to migrate to next generation networks while continuing to provide all their revenue generating legacy voice and data services and without fork lift upgrades of end user equipment TDMoEthernet also benefits data carriers by enabling them to offer lucrative leased line and voice services on their packet switched infrastructures It enables enterprises to run voice and video over the same IP Ethernet based network that is currently used to run only LAN traffic thereby minimizing network maintenance and operating costs Unlike other traffic types that can be carried over pseudowires TDM is a real time bit stream leading to TDMoEthernet having unique characteristics In addi
28. Disable disable the link aggregation function e Leader_ETH1 4 the trunk group s configuration depends on the leader port s setting Table 7 16 Link Aggregation Setup Eield SettingOptionss_________k Default gt Link Aggregation Setup Screen SLOT 2 TDMoE Link Aggregation Setup 15 49 31 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Trunk Groupl Disable Trunk Group2 Disable NOTE Trunk Group1 ETH1 ETH2 Trunk Group2 ETH3 ETH4 lt lt Press ESC key to return to previous menu gt gt What is Link Aggregation Link Aggregation is a method of binding two or more ports links into a single logical link trunk in order to increase the bandwidth and implicitly provides redundancy as well Load Balancing Algorithm is applied automatically so that no single port of a trunk group will be overwhelmed The Load Balancing Algorithm of the TDMoE card is based on the result of XOR Boolean operation on both Source MAC address and Destination MAC address For a TDMOE card 4 interfaces form two trunk groups ETH1 and ETH2 compose one trunk group while ETH3 and ETH4 establish another one The following figure illustrates the trunk groups of a TDMOE card Each Fast Ethernet interface possesses 100 Mbps bandwidth By combining two ports and forming a trunk group the bandwidth of that logical interface reaches up to 200 Mbps 38 CHAPTER7 SYSTEM SETUP TDMOE Card 1 TDMOE Card 2 Figure 7 1 Link Aggregation o
29. ETUP This chapter introduces setup procedures of TDMoE This includes loopback setup system setup time slot IP assignment alarm setup clear alarm history clear performance data and firmware upgrade Please go to the SETUP section in the main menu to find the part you want to operate 7 1 Loopback Setup Command Path Main Menu gt L Loopback Setup Function Enable users to setup the near end loopback LB port and LB map Description Loopback Setup e Near End Loopback 1 Backplane Loopback The incoming signal is immediately looped back to Backplane after entering FPGA without going through FPGA process Payload Loopback The signal is looped back to TDMOE Chipset from FPGA after it goes through Ethernet Switch and TDMOE Chipset The signal then passes Ethernet Switch and arrives at the remote physical link Line Loopback The signal is immediately looped back to Ethernet Switch after entering FPGA without going through FPGA process The signal then arrives at the remote physical link 4 Local Loopback The incoming signal is looped back to Backplane from FPGA Loopback Port the port that runs the loopback test Loopback MAP the amount of time slots for a port that runs the loopback test Loopback Test Screen SLOT 2 TDMoE Loopback Setup 09 43 11 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS NEAR END LOOPBACK OFF LB PORT LB MAP ML a aL aL aa 21 E TL OL AL TL LIL IL AL TL AL ILL AL LaLa AL TL AL IL
30. HAPTER 1 PRODUCTION DESCRIPTION Point to Multi Point Application IP6700 E pr Ve Rat IP6700 Ethernet Sg 0 AM3440 A E C Ethernet E WW ug Netwrok Remote Management Remote Management IP6700 AM3440 Ste SS eel ln IP6700 SES NMS AM3440 Hun Hun F AM3440 TE EME Cur CHAPTER 1 Ethernet and QE1 T1 Protection Ethernet Radio S Y Ethernet Radio AM3440 A B C TD mn mn CU ve 1 4 Specifications PRODUCTION DESCRIPTION TDMOE and QE1 T1 1 1 protection Leased line Optical SFP Module Characteristic for Gigabit Ethernet GbE SFP Optical Module Direction MTAFW MTAFD MTBTD MTBTW PTB2W PTB4W PTCOW PTC6W PTC8W PTCIW PTCVW PTCXW PTB1D PTB3D PTB4D PTC5D PTC6D PTC8D PTC9D PTCVD PTCXD PKB1W SFP Optical dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber dual uni directional fiber Direction Module PTD1W PTE1W PT
31. L AL CHELON lt lt Press ESC key to return to previous menu gt gt NOTE If the Near End Loopback is OFF all four ports Trib1 4 do not perform loopback When the framing mode for each port is T1 None or E1 Unframe the screen is shown as SLOT 2 TDMoE Loopback Setup 11 58 07 05 24 2010 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS NEAR END LOOPBACK OFF LB PORT soil LB MAP 1111111111111111111111111 lt lt Press ESC key to return to previous menu gt gt 27 CHAPTER7 SYSTEM SETUP Table 7 1 Loopback Setup Field Setting Options Default Near End Loopback OFF Backplane PLB LLB OFF Local LB Port Trib1 4 LB MAP CH01 CH32 AAA CHO1 CH24 EA 7 2 System Setup Command Path Main Menu gt S System Setup Function In System Setup section you can change the original system configuration Description There are seven options you can select from the System Setup A Miscellaneous Setup C Qos Setup E Ethernet Port Setup L Ethernet Switch Setup P Link Aggregation Setup R RSTP Setup T Tributary Setup 7 2 1 Miscellaneous Setup Main Menu gt S System Setup gt A Miscellaneous Setup of alarm filter and delay switch Table 7 2 Advanced Setup Field Setting Options Default 0 180 TI 000 S O Delay Switch 0 180 000 o Recover Delay 0 180 000 o gt Advanced Setup Screen Use BACKSPACE to edit the active bundle time SLOT 2 TDMoE Miscellaneous Setup
32. LOSOELE 2273172009 Please input decimal number 1 99999999 BACKSPACE to edit Active Bundle Time s 00000090 Protection Alarm Filter 003 Delay Switch 000 Recover Delay 000 lt lt Press ESC key to return to previous menu gt gt Active Bundle Time Active bundle time is the period of time that the system tries to activate an established but inactive bundle A bundle is necessary between local and remote devices to transmit TDMOE traffic If the local device receives the MAC address of the remote device through ARP Response Address Resolution Protocol then the traffic can be steadily forwarded and Active Bundle Time will not be triggered However if the local device cannot receive TDMOE traffic from the remote device this situation is the so called Remote Loss Hence the local device will send ARP request frames and request the MAC address of the remote device Once a bundle is inactive this status would trigger its own Active Bundle Time in operation Alarm Filter When an alarm occurs the system will monitor the alarm status If the alarm still exists after the configured time the alarm queue will be issued 28 CHAPTER7 SYSTEM SETUP Delay Switch When alarm is issued in the primary line the configured time is the waiting time to activate the switching protection switch from the primary line to the backup line Recover Delay It s the delay switch for the backup line to switch back to the Master
33. ME and CAS Please clear TSI MAP MAP 1 4 of this port and delete bundle first lt lt Press ESC key to return to previous menu gt gt 9 2 3 Step 3 Configure Bundle IP Once the framing mode setup is accomplished the next step is to configure the bundle IP including Source IP Address Subnet Mask and Gateway IP gt Command Path TDMoE Main Menu gt T Time Slot IP Assignment gt C Bundle IP Setup SLOT 1 TDMoE Bundle IP Setup 15 36 23 08 03 2011 ARROW KEYS CURSOR MOVE Please Input nnn nnn nnn nnn BACKSPACE to edit Src IP Address Subnet Mask Gateway IP lt lt Press ESC key to return to previous menu gt gt NOTE For AM3440 2 the source IP Address is configured as 192 168 014 200 as an example To check the Bundle IP setting users can go to Bundle IP Display TDMoE Main Menu gt H Time Slot IP Configuration gt C Bundle IP Display 9 2 4 Step 4 Assign Timeslots to an Interface After Configuring the Bundle IP the following step is to assign bundles to the timeslots Each tributary interface can be assigned more than one bundles gt Command Path TDMoE Main Menu gt T Time Slot IP Assignment gt B Time Slot Assignment Setup SLOT 1 TDMoE Time Slot Assignment Setup 15 40 52 08 03 2011 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Pores Tribl TSO Idle TS1 152 192 TS4 TS5 TS6 Te TS8 Tog 3 TS10 59 CHAPTER 9 Appendix B 1 1 Pr
34. S 6 5 3 Bundle IP Display gt Command Path Main Menu gt H Time Slot IP Configuration gt C Bundle IP Display gt Display the Source IP address subnet mask and gateway IP 6 5 4 Time Slot IP Assignment Display Assignment Display Display the UDP setting of a port 5 gt Command Path Main Menu gt H Time Slot IP Configuration gt D Time Slot IP gt 6 6 Status amp Statistics gt Command Path Main Menu gt N Status amp Statistics gt Description There are six options you can select from the Network Status B Bundle Statistics S Ethernet Port Statistics M MAC Address Display D Bundle Status E Ethernet Port Status G SFP Status 6 6 1 Bundle Statistics gt Command Path Main Menu gt N Status amp Statistics gt B Bundle Statistics gt Description Display the amount of bundle a port has and the traffic statistics of each bundle gt Bundle Statistics Screen SLOT 2 TDMoE Bundle Statistics 10 38 41 01 07 2010 P BID J UR J OR Jit Buf Rx Lost RX Good TX Good min max lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 6 6 2 Ethernet Port Statistics gt Command Path Main Menu gt N Status amp Statistics gt S Ethernet Port Statistics gt Description You will see actions ETH1 ETH2 ETH3 and ETH4 at the button of the screen Use arrow keys to select the action you need then press Enter to show the detail info
35. Setup 10 40 53 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS ETH1 Fixed ETH2 Fixed ETH3 Fixed ETH4 Fixed lt lt Press ESC key to return to previous menu gt gt After you change the priority mode for ETH1 ETH2 ETH3 and ETH4 press Esc A prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save please use V command 29 CHAPTER7 SYSTEM SETUP When the configuration is successfully changed the screen will return to the previous menu 7 2 2 1 2 Fixed Priority Setup gt Command Path Main Menu gt S System Setup gt C QoS Setup gt A Class of Service gt B Fixed Priority Setup gt Function Enables users to change the transmission priority of each port gt Description By changing the transmission priority for each port the user can specify that the transmission priority for any port is high medium or low Table 7 4 Fixed Priority Setup Transmission priority ETH1 4 PO P1 P2 P3 gt Fixed Priority Setup Screens Using Tab to select one of the priorities for each port SLOT 2 TDMoE Fixed Priority Setup 13 17 01 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Transmission priority Priority P3 gt P2 gt P1 gt PO lt lt Press ESC key to return to previous menu gt gt After you choose the transmission priority press Esc A prompt will ask if you wish to change configuration Press Y to
36. T1 T1403 T1 ESF T1 D4 gt Framing options for E1 E1 Unframe E1 FAS Users have to select the port for framing mode to be configured Here we choose Trib1 as an example SLOT 1 TDMoE Tributary Setup 1533 10 06 03 2011 Select Action gt gt After choosing a port then set up its framing mode For T1 mode we select T1 ESF as an example SLOT 1 TDMoE Tributary Setup 15 34 45 08 03 2011 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Framing Mode CAS OLLE Remote Loss Continue NOTE Send Packet after remote unit is undetected lt lt Press ESC key to return to previous menu gt gt NOTE For voice application CAS must be ON The framing mode and CAS need to be configured for all the 4 ports and each port has its own settings If the Framing Mode of a port is framed and TSI Map Setup in AM3440 Controller Menu S System Setup gt C TSI Map is configured you need to clear TSI Map AM3440 Main Menu gt S System Setup gt F Clear a TSI Map and delete bundle s of that port before changing settings of Framing Mode and CAS A warning message will appear at the bottom 98 CHAPTER 9 Appendix B 1 1 Protection between TDMoE and QE1 T1 Card of the screen SLOT 1 TDMoE Tributary Setup 15 35 35 08 03 2011 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Framing Mode CAS Remote Loss Continue NOTE Send Packet after remote unit is undetected Warning If you need to change FRA
37. a bursty traffic of 9OMbps 10 Mbps of data will be dropped Table 7 10 Rate Control Setup Port L etttng Options Default When the Ethernet speed is 10M ETH1 4 1 15 x 64kbps 00 x 64kbps 1 10 x 1Mbps When the Ethernet speed is 100M ETH1 4 1 15 x 64kbps 00 x 64kbps 1 100 x 1Mbps When the Ethernet speed is 1000M ETH1 4 1 15 x 64kbps 00 x 64kbps 1 100 x 1Mbps 10 100 x 10Mbps gt Rate Control Setup Screens Using BACKSPACE to edit and enter decimal numbers and speed for each port SLOT 2 TDMoE Rate Control Setup 14 34 06 12 31 2009 Please input decimal number 1 15 BACKSPACE to edit THT EZ TAS TH4 64kbps 64kbps 64kbps 64kbps x x x x lt lt Press ESC key to return to previous menu gt gt After you enter decimal number and speed for each port press Esc A prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save please use V command 34 CHAPTER7 SYSTEM SETUP When the configuration is successfully changed the screen will return to the previous menu 7 2 3 Ethernet Port Setup Command Path Main Menu gt S System Setup gt E Ethernet Port Setup Function Enables users to change state auto negotiation speed and duplex for each port Description You will see selections ETH1 ETH2 ETH3 and ETH4 at the button of the screen Use arrow keys to select the port you need then press Enter to show the Ether
38. ch possess lower priority QOS happens to be the technique that groups data into different priorities In other words applying QoS is to maintain the quality of service within IP Networks Based on various techniques of QoS setting procedures will become distinct For TDMOE card three types of QoS concerning ingress traffic are available Fixed CoS and ToS which define the way data are written from Ethernet interface to its own queues The setup screen is shown as below SLOT 2 TDMoE Priority Mode Setup 10 40 53 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS ETH1 Fixed ETH2 Fixed ETH3 Fixed ETH4 Fixed lt lt Press ESC key to return to previous menu gt gt VT 100 Terminal Path Main Menu gt S System Setup gt C QoS Setup gt A Class of Service gt A Priority Mode Setup For further information of Fixed CoS and ToS priority modes please refer to the relevant section beneath 8 2 1 1 Fixed Priority Setup If the Priority Mode of interfaces is set as Fixed mode the next step is to configure the Fixed Priority Setup The screen is shown as below SLOT 2 TDMoE Fixed Priority Setup 13 17 01 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Transmission priority i Priority P3 gt P2 gt Pl gt PO lt lt Press ESC key to return to previous menu gt gt VT 100 Terminal Path Main Menu gt S System Setup gt C QoS Setup gt A Class of Serv
39. ch queue decides the transmission order of those queues Table 7 9 WRR Weight Setup Queue Setting Options Default PO o oo 007 0 100 gt WRR Weight Setup Screens Use BACKSPACE to edit the WRR weight for each queue SLOT 2 TDMoE WRR Weight Setup 14 24 08 12 31 2009 33 CHAPTER7 SYSTEM SETUP ARROW KEYS CURSOR MOVE Please Input 0 100 BACKSPACE to edit PO queue PI queue P2 queue P3 queue Weight 007 013 027 053 NOTE The sum of weights must equal 100 lt lt Press ESC key to return to previous menu gt gt After you enter new WRR Weight for each queue press Esc A prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save please use V command When the configuration is successfully changed the screen will return to the previous menu 7 2 2 3 Rate Control Setup gt Command Path Main Menu gt S System Setup gt C Qos Setup gt C Rate Control Setup gt Function Rate Control Limit Rate Control Limit is applied to manage the transmission bandwidth of data flow from an interface to its buffer When the transmission bandwidth of the ingress traffic exceeds the preconfigured data rate the exceeded portion of ingress traffic will be dropped For example if the speed of a Fast Ethernet port is 100 Mbps and the rate limit is configured as 80 Mbps then only 80 Mbps of data can be forwarded to the buffer If there is
40. d Quad E1 T1 cards should be installed in one of the following slot groupings 1 amp 2 3 amp 4 5 amp 6 7 amp 8 9810 or 114 12 Each TDMoE and Quad E1 T1 card has four ports The ports of one card protect the corresponding ports of the other card For example Port 1 of the protection card protects Port 1 of the other card Similarly Port 2 of the protection card protects Port 2 of the other card etc 57 CHAPTER 9 Appendix B 1 1 Protection between TDMoE and QE1 T1 Card 9 2 Configuring TDMoE Card To setup 1 1 protection start with the TDMoE card Five steps listed in the previous section are to be fulfilled This section will detail each setup steps 9 2 1 Step 1 Configure the Interface Mode First of all configure the TDMoE card mode either E1 or T1 gt Command Path TDMoE Main Menu gt S System Setup gt T Tributary Setup gt A Tributary Mode Setup gt Mode options E1 T1 Here we use T1 mode as an example SLOT 1 TDMoE Tributary Mode Setup 15 28 03 08 03 2011 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Mode ei lt lt Press ESC key to return to previous menu gt gt 9 2 2 Step 2 Configure the Interface Framing Mode After setting the card mode then go on to set up the framing mode and CAS for each of the 4 tributary ports gt Command Path TDMoE Main Menu gt S System Setup gt T Tributary Setup gt B Tributary Setup gt Framing options for T1 T1 None
41. ddress of destination Ethernet Link Down Ethernet ports on the TDMoE link down 48 CHAPTER7 SYSTEM SETUP gt Alarm Setup Screen SLOT 2 TDMoE Alarm Setup 09 24 53 01 04 2010 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Type Alarm Threshold ARP bundle DIABLE 00001 Rx Lost bundle DTSABTE 00001 Cell Lost bundle DISABLE 00001 Underrun bundle DISABLE 1 Overrun bundle DISABLE 1 Ethernet Link Down DISABLE lt lt Press ESC key to return to previous menu gt gt Table 7 26 Alarm Setup Threshold Setting Options Default Setting Options Default ARP Bundle Rx Lost Bundle 1 65535 00001 Cell Lost Bundle isable Major Disable PEO D Underrun Bundle Critical Minor Overrun Bundle Ethernet Link Down 7 5 Clear Alarm History gt Command Path Main Menu gt R Clear Alarm History Enables users to clear alarm history gt Clear Alarm History Screen To clear alarm history press R from the port menu A prompt will ask if you are sure you want to clear the alarm queue Press Y for yes The alarm queue will be cleared and you will be returned to the port menu This procedure is complete SLOT 2 TDMoE Port Menu 09 40 30 01 04 2010 FPGA Version Ver A OSC Type TCXO Software Version V1 01 02 05 03 2010 DISPLAY SETUP 1 gt 15 Min 1 Hr 7 Days Perf Report L gt Loopback Setup 2 gt 15 Min 1 Day Perf Report S gt System Setup C System Configuration T gt Time Slot IP A
42. e use V command When the configuration is successfully changed the screen will return to the previous menu 7 2 2 2 2 Scheduling Algorithm 32 CHAPTER7 SYSTEM SETUP gt Command Path Main Menu gt S System Setup gt C Qos Setup gt B Transmission Scheduling gt B Scheduling Algorithm Enables users to change the scheduling method for each port gt Description Scheduling Algorithm e SP depends on the hierarchy of the transmission priority P3 is the highest and PO is the lowest e WRR depends on the weight of each priority Table 7 8 Scheduling Algorithm ETH1 4 SP WRR gt Scheduling Algorithm Screens Using Tab to change the scheduling method for each port SLOT 2 TDMoE Scheduling Algorithm 13 37 16 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS ep NOTE SE StL ZE e WRR Weighted Round Robin lt lt Press ESC key to return to previous menu gt gt After you choose SP or WRR for each port press Esc prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save please use V command When the configuration is successfully changed the screen will return to the previous menu 7 2 2 2 3 WRR Weight Setup gt Command Path Main Menu gt S System Setup gt C Qos Setup gt B Transmission Scheduling gt C WRR Weight Setup Enables users to change the weight for each queue gt Description The weight of ea
43. egation Display Main Menu gt C System Configuration Display gt P Link Aggregation Display aggregation NOTE Please refer to section 7 2 5 for detailed information on Link Aggregation 19 CHAPTER 6 SYSTEM STATUS 6 3 6 RSTP Display gt Command Path Main Menu gt C System Configuration gt R RSTP Display gt Description You will see actions RSTP ETH1 ETH2 ETH3 and ETH4 at the button of the screen Use arrow keys to select the action you need then press Enter to show the detail information of the action you choose If you select RSTP you will see its state If you select ETH1 4 you will see its STP state port priority port cost link type and edge port gt RSTP Display Screens Using arrow keys to select an action and press Enter SLOT 2 TDMoE RSTP Display 15 49 47 12 30 2009 Select Action gt gt MN DN DO DS DO Then you will see the detail information for the action you select listed as below SLOT 2 TDMoE RSTP Display 15 49 06 12 30 2009 RSTP State lt lt ESC key to return to previous menu SPACE bar to refresh gt gt ETH1 SLOT 2 TDMoE RSTP Port Display 08 35 34 01 06 2010 ETH1 STP State DISABLE Port Priority 128 Port Cost Ge Link Type auto Edge Port Enable lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 20 CHAPTER 6 SYSTEM STATUS 6 3 7 Tributary Display gt Command Path Main Menu gt C S
44. er than have their own 56 CHAPTER 9 Appendix B 1 1 Protection between TDMoE and QE1 T1 Card 9 Appendix B 1 1 Protection between TDMoE and QE1 T1 Card 9 1 Overview TDMOE card supports 1 1 protection function with QE1 T1 card which is illustrated in the figure below This chapter predominantly provides users with step by step guide for configuring 1 1 protection Ethernet Radio S A E Ethernet Radio MoE e NE TD a lad Gg slot1 pdrti AM3440 2 SA Gi Q j a piP CHE RE H Ka HAREE Que bere LT pl d SHE nih Tu tig ua Del RLH TDMOE and QE1 T1 1 1 protection slot2 port1 Leased line Backup line Figure 9 1 TDMoE and QE1 T1 1 1 Protection To successfully setup 1 1 protection follow the steps below in sequence 1 Configuring TDMOE card e Configure the interface mode Configure the interface framing mode Configure bundle IP Assign timeslots to an interface Configure parameters for each bundle 2 Configuring AM3440 Controller e Configure QDS1 1 1 protection e Configure TSI map e Activate the TSI map e Configure Clock Source For both AM3440 1 and AM3440 2 the configuration procedure is identical In this section the setup instructions of the AM3440 1 are applied as an example NOTE When using 1 1 Protection with Quad E1 T1 card two plug in cards must be inserted next to each other as a pair so that one plug in card can be used to protect the other For example A pair of TDMoE an
45. evious menu gt gt 7 3 2 Time Slot Assignment Setup gt Command Path Main Menu gt T Time Slot IP Assignment gt B Time Slot Assignment Setup Enables users to select a bundle for each time slot of a port Table 7 23 Time Slot Assignment Setup _Field Setting Options Default Trib1 4 TS0 31 Idle Bundle 0 32 Idle TS0 24 Idle Bundle 0 24 Idle 44 CHAPTER7 SYSTEM SETUP gt Time Slot Assignment Setup Screen SLOT 2 TDMoE Time Slot Assignment Setup 18 31 33 01 05 2010 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Port TSO Idle TS1 MS TS2 MS TS3 MS TS4 MOS TS5 MMS TSO MMS TS7 RS TS8 MMS TS9 Idle TS10 MS TSI MS TS12 MS TS13 MMS TS14 Idle TS15 MS lt lt Press ESC key to return to previous menu gt gt Note If you want to perform the Time Slot Assignment Setup you should do the TSI Map Setup in the AM3440 controller menu S System Setup gt C TSI Map Setup first 7 3 3 Bundle IP Setup gt Command Path Main Menu gt T Time Slot IP Assignment gt C Bundle IP Setup gt Function Enables users to key in the source IP address subnet Mask and Gateway IP for the bundle gt Bundle IP Setup Screen SLOT 2 TDMoE Bundle IP Setup 17701739 12 31 2009 ARROW KEYS CURSOR MOVE Please Input nnn nnn nnn nnn BACKSPACE to edit Src IP Address 000 000 000 000 Subnet Mask 000 000 000 000 Gateway IP 000 000 000 000
46. f TDMoE Card Redundancy Link Aggregation implicitly provides redundancy yet it is not a truly port backup function of a TDMoE card For example If 160 Mbps of data are transmitting over the trunk group which implies each of the two ports forwards 80 Mbps respectively However if one port fails then its 80 Mbps traffic will be transferred to another port Yet 60 Mbps of data will be dropped since the maximum bandwidth for a single FE port is 100 Mbps Hence it is suggested that Flow Control should be enabled After enabling the Flow Control function the system will send the connected device a pause frame to quench the data rate Otherwise data will be dropped all along Precautions of Setup For the Link Aggregation to function properly the Link Aggregation function of the connected devices on both ends of an Ethernet cable must first be enabled Within each trunk group one port is selected as the leading port and all the member ports must follow the configurations of that leading port For example ETH1 is selected as the leading port then the port configurations of ETH2 such as flow control speed and duplex mode must be identical with ETH1 Furthermore the ports of the connected device e g ETH1 and ETH2 of TDMOE card 2 ought to have the configurations identical to those of ETH1 of TDMoE card 1 Flow Control should be enabled so that the system will send the connected device a pause frame to quench the data rate Other
47. face 55 Appendix B 1 1 Protection between TDMOE and QE1 T1 Card 57 9 1 OV GIVI OW eege 57 9 2 Configuring TDMOE Card sise 58 9 2 1 Step 1 Configure the Interface Mode 58 9 2 2 Step 2 Configure the Interface Framing Mode nnnnennnnnnnenennnesnnnnnnnnnsnnnesennnnne 58 9 2 3 Step 3 Configure Bundle IP 59 9 2 4 Step 4 Assign Timeslots to an Interface 59 9 2 5 Configure Parameters for Each Bundle 60 9 3 Configuring AM3440 Controller ss 61 9 3 1 Configure QDS1 1 1 Protection 61 9 3 2 COMING UTC ol Maputo tana E 62 9 3 3 Activate RW EE 62 9 3 4 COMIQUrS ClOCK ere 63 List of Figures Figure 2 1 Front Panel ot TOMOE Card ne an ieee ein dee Ree intel 7 Figure 4 1 Loopback RI Lei EE 10 Figure 5 1 VT 100 Menu Tree for TDMoE sn 13 Figure 5 2 VT100 Menu Tree SETUP Section sise 14 Figure 5 3 VT100 Menu Tree DISPLAY Section ss 15 Figure 7 1 LinK Aggr gation of TOMOE Card ss dt 39 Figure 7 2 Jitter BUMGr RU e el BEE 48 Figure 6 1 Q0S Diagram for TOMOE Te WEE 52 Figure 9 1 TDMoE and QE TT 1 1 Protection na eee Men Ne diene 57 List of Tables Table 2 1 Ethernet Function bl a sala decada e la o 8 Table 2 2 RIAS forEthernet PON bs siete essere e nettes lient ei 8 Table 3 1 Alarm Default for System and Line 9 Table 3 2 LED Indication Tor Mal Unit on Ne times tien a niet nent Gi 9 Table 6 1 15 Min 1 Hour 7 Days Perf Report 16 Table 6 2 24 Four Pen DISPO ds dci 17 Table 6 3 Timeslot
48. going signal then passes TDMoE Chipset and Ethernet Switch and arrives at the remote physical link 4 1 4 Line Loopback TDMoE Chipset to Ethernet Loopback Line loopback is illustrated in Figure 4 1 The signal is immediately looped back to Ethernet Switch after entering FPGA without going through FPGA process The signal then arrives at the remote physical link Remote TDMoE Ethernet Physical Chipset Switch Link Backplane loopback Payload loopback Local loopback Line loopback SONS Figure 4 1 Loopback Diagram 10 CHAPTER 5 TERMINAL OPERATION 9 TERMINAL OPERATION The TDMOE provides comprehensive report and configuration capability through the console port By using single character commands and arrow keys the TDMoE can be configured and monitored through the use of a VT 100 terminal The single character commands are not case sensitive except for when using a password 5 1 Log on and Log off The Controller Menu screen will appear after you login To Log off simply press the F button Note The AM3440 chassis type will appear in the top left hand corner of the screen See highlighting in the sample screen below Controller Menu 10 04 45 12 29 2009 Slot AD iS Serial Number 123529 Redundant Controller Disabled Hardware Version Ver F Start Time 10 03 27 12 29 2009 Software Version V8 07 01 12 25 2009 Device Name LOOP AM3440 C DISPLAY SETUP C gt System Configuration B Clock source
49. gt gt Select Setup Status On the Setup Screen there are four selections for the user to setup such as disable line nonrevertive line revertive 1 1 nonrevertive and 1 1 revertive To perform the 1 1 protection select 1 1 nonrevertive or 1 1 revertive The sample below is to setup the port 1 of slot 1 2 as 1 1 revertive protection LOOP AM3440 A QDS1 1 1 Protection 15 46 07 08 03 2011 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS p tect Pair Master Backup RTR TDMOE QuadT1 NNNNNNMN MN Av A UI GA kA CH D ke Fr oO VG NN D ct H os VG NN DO ro n Working Port RITR RTR TDMOE QuadT1 gt DTE A X 50 10 3 QuadT1 lot 11 12 lt lt Press ESC key to return to previous menu gt gt vo AJ Um GA k CO Dm CO P S S S ei S S S S NOTE 1 1 1 revertive When the master line recovers the working line will automatically switch from the backup line back to the master one The switching time is user configurable 61 CHAPTER 9 Appendix B 1 1 Protection between TDMoE and QE1 T1 Card Command Path TDMoE Main Menu gt S System Setup gt A Miscellaneous Setup 2 1 1 nonrevertive After the working line switches from master to backup it will not shift back to the master even though the master line has recovered 9 3 2 Configure TSI Map After activating the 1 1 protection users need to set the cross connect map
50. hernet port Eth3 and 1000M Link with 1000M bps Eth4 SPEED 100M Green Link with 100M bps 1 Off Link with 10M bps Eth1 and Eth2 Electrical Link with 100M bps ACT Data is being transmitted or received through Ethernet port Eth1 and SPEED 1000 Amber WAN port is link up Eth2 100 Green Optical Link with 1000M bps Off Link with 10M bps CHAPTER 4 MAINTENANCE 4 MAINTENANCE 4 1 Near End Loopback The near end loopbacks such as backplane loopback payload loopback local loopback and line loopback are activated by the TDMOE The loopbacks are at the near end facility The following paragraph describes each loopback in detail 4 1 1 Backplane Loopback Time Slot Interface Loopback FPGA to Backplane Loopback Backplane loopback is illustrated in Figure 4 1 The incoming signal is immediately looped back to Backplane after entering FPGA without going through FPGA process The outgoing signal then passes TDMOE Chipset and Ethernet Switch and arrives in the remote physical link 4 1 2 Payload Loopback FPGA to Ethernet Loopback Payload loopback is illustrated in Figure 4 1 The signal is looped back to TDMoE Chipset from FPGA after it goes through Ethernet Switch and TDMoE Chipset The signal then passes Ethernet Switch and arrives at the remote physical link 4 1 3 Local Loopback FPGA to Backplane Loopback Local loopback is illustrated in Figure 4 1 The incoming signal is looped back to Backplane from FPGA The out
51. ice gt B Fixed Priority Setup NOTE Transmission priority Queue thus PO QueueO P1 Queue1 and so on Configuring the priority mode of an interface as Fixed implies the relationship between LAN side interfaces and transmission priorities its queues are fixed For example if the priority mode for both ETH1 and ETH2 is Fixed and their transmission priorities are set as P1 and PO respectively this suggests frames entering ETH1 will be assigned to its own P1 Queue1 and ingress traffic of ETH2 will be sent to its own PO Queue0 53 CHAPTER 8 Appendix A Quality of Service QoS Setup One thing should be noticed If the priority mode of ETH4 is set as CoS or ToS for instance and then you go on to configure its Fixed priority the system will ignore the setting of Fixed Priority This is because that if you set the priority mode of an interface as CoS or ToS the next step is to perform the VLAN CoS priority setup or ToS field priority setup rather than Fixed Priority and both CoS and ToS are introduced in succeeding sections 8 2 1 2 CoS Priority Setup If CoS is selected as the Priority Mode the next step is to configure the VLAN CoS Priority Setup The screen is shown as below SLOT 2 TDMoE Vlan Cos Priority Setup 13 18 47 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Cos priority Transmission priority 0 1 2 3 4 5 6 7 NOTE Priority P3 gt P2 gt P1 gt PO lt lt
52. ield Priority Setup gt Command Path Main Menu gt S System Setup gt C Qos Setup gt A Class of Service gt D ToS Field Priority Setup Enables users to change the transmission priority for each ToS priority gt Description By changing the transmission priority for each type of service the user can specify that the transmission priority for any type of service is high medium or low Table 7 6 ToS Field Priority Setup ToS priority Transmission priority PO P1 P2 P3 gt ToS Field Priority Setup Screens Using Tab to select one of the priorities for each ToS priority SLOT 2 TDMoE TOS field Priority Setup 13 28 23 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Tos priority Transmission priority PO 20 PO PO E 2O PO B YO O1 amp GA NO HR NOTE Priority P3 gt P2 gt P1 gt PO lt lt Press ESC key to return to previous menu gt gt After you choose the transmission priority for each tag priority press Esc A prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save please use V command 31 CHAPTER7 SYSTEM SETUP When the configuration is successfully changed the screen will return to the previous menu 7 2 2 2 Transmission Scheduling Command Path Main Menu gt S System Setup gt C Qos Setup gt B Transmission Scheduling Description There are four options you can select from the Class of Se
53. ill see DISPLAY and LOG sections on the main menu SLOT 2 TDMoE Port Menu 11 30 59 05 24 2010 FPGA Version Ver A OSC Type TCXO Software Version V1 01 02 05 03 2010 DISPLAY SETUP 1 gt 15 Min 1 Hr 7 Days Perf Report 2 gt 15 Min 1 Day Perf Report E System Configuration J All Time Slot Assignment H N A Time Slot IP Configuration Status amp Statistics Alarm History Choose Other Slot Log Off SETUP MISC Menu Log On SETUP MISC Menu Return to Controller Main Menu gt gt SPACE bar to refresh or enter a command gt Press O to log on and you will see the SETUP and MISC sections SLOT 2 TDMoE Port Menu 11 30 59 05 24 2010 FPGA Version Ver A OSC Type TCXO Software Version V1 01 02 05 03 2010 DISPLAY SETUP 1 gt 15 Min 1 Hr 7 Days Perf Report L gt Loopback Setup 2 15 Min 1 Day Perf Report S gt System Setup C System Configuration T gt Time Slot IP Assignment J All Time Slot Assignment M gt Alarm Setup H Time Slot IP Configuration R gt Clear Alarm History N Status amp Statistics X gt Clear Performance Data A Alarm History W gt Firmware Upgrade LOG MISC Choose Other Slot Y gt Unit Load Default Log Off SETUP MISC Menu Z gt Card Reset Log On SETUP MISC Menu Return to Controller Main Menu gt gt SPACE bar to refresh or enter a command gt Note 1 OSC Ver There are two kinds of hardware version TCXO TCXO 1
54. in Menu gt S System Setup gt C Qos Setup gt A Class of Service gt D ToS Field Priority Setup 54 CHAPTER 8 Appendix A Quality of Service QoS Setup Type of Service ToS is an 8 bit field placed in the IP header to indicate how packets are treated ToS determines the relationship between priorities of ingress IP packet traffic and queues The 3 leftmost bits possess a priority value ranging from O to 7 which implies the importance of a packet The higher the value the more important the packet default value 0 By attaching priority value to packets users are enabled to classify and place them into different queues The screen above allows users to configure the transmission priority queue for packets with different priorities Assumed that the priority mode for ETH1 and ETH4 are ToS then both ports should apply the ToS Field Priority Setup Moreover ETH1 and ETH4 share common settings rather than have their own 8 2 2 Scheduling Algorithm for Ingress Traffic Reading Data From Queues to TDM Interface After QoS setup for ingress traffic is complete the following process is to configure the Scheduling Algorithm for ingress traffic which determines how packets are polled out of the queues and transmitted to TDM interfaces If more than one of the queues for a port contains packets then a transmission scheduling algorithm determines which queue should be transmitted first Here TDMoE card supports t
55. ing mode CAS ARP on remote loss of each tributary port gt Description You will see selections Trib1 Trib2 Trib3 and Trib4 at the button of the screen Use arrow keys to select the port you need then press Enter to show the configuration of the port you choose 42 CHAPTER7 SYSTEM SETUP gt Tributary Setup Screens When you enter this section you will first see the Tributary Setup menu Use arrow keys to select the action you need SLOT 2 TDMoE Tributary Setup 16 21 41 12 31 2009 Select Action gt gt PM Gee MO eee Press Enter key You will see the screen below T1 SLOT 2 TDMoE Tributary Setup 16 29 58 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Framing Mode T1 None CAS Ge ARP on Remote Loss Continue NOTE Send ARP Packet after remote unit is undetached lt lt Press ESC key to return to previous menu gt gt SLOT 2 TDMoE Tributary Setup 08 43 26 01 12 2010 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Framing Mode El Unframe CAS MN ARP on Remote Loss Continue NOTE Send ARP Packet after remote unit is undetached lt lt Press ESC key to return to previous menu gt gt Note If the Framing Mode of a port is framed and TSI Map Setup in AM3440 Controller Menu S System Setup gt C TSI Map is configured you need to clear TSI Map AM3440 Main Menu gt S System Setup gt F Clear a TSI Map and delete bundle s of that port before cha
56. ket Rate limiting buckets per port for ethernet port Supporting Rate based and Priority based rate limiting for LAN port Granularity a From 64 Kbps to 1 Mbps in increments of 64 Kbps b From 1 Mbps to 100 Mbps in increments of 1 Mbps c From 100 Mbps to 1000 Mbps in increments of 10Mbps Pause frame issued when the traffic exceeding the limited rate before packet dropped following IEEE802 3X Jitter amp Wander PPM per G 823 Traffic PPB per G 823 Synchronous Standard Compliance IETF TDMolP RFC5087 SAToP RFC4553 CESoPSN RFC5086 IEEE 802 1q 802 1p 802 1d 802 3 802 3u 802 3x 802 3z 802 1s 802 1w CHAPTER 2 INSTALLATION 2 INSTALLATION 2 1 Mechanical Installation The TDMoEthernet card can be plugged into any of the available full size slots in the AM3440 chassis AM3440 A AM3440 C Up to 12 full size slots AM3440 B Up to 5 full size slots Up to 3 full size slots fe TDMoE ACTIVE LINK ACT 4 000 ACT eo Figure 2 1 Front Panel of TDMoE Card CHAPTER 2 INSTALLATION The front panel is shown in Figure 2 1 Pin definition and pin connection of the console port are listed in the following tables NOTE If you see protruding screw heads on the slot 3 of CHB or slot 5 of CHC as shown in the figure below do not plug the TDMoE card into these two locations because the card might be damaged AM3440 CHB AM3440 CHC Table 2 1 Ethernet Function Table Ethernet Four 10 100 1000 Mbps au
57. lay C gt Bundle IP Display D gt Time Slot IP Assignment Display B gt Bundle Statistics N gt Status amp Statistics n S gt Ethernet Statistics C gt MAC Address Display A gt Alarm History D gt Bundle Status E gt Ethernet Port Status G gt SFP Status Figure 5 3 VT100 Menu Tree DISPLAY Section 15 CHAPTER 6 SYSTEM STATUS 6 SYSTEM STATUS This chapter shows the DISPLAY section on VT100 Main Menu This is where you can get the information about current system status You can also check your settings here after you do the setup configuration in the SETUP section Note The screen for System Configuration Display should correspond to the System Setup page Time Slot IP Configuration should correspond to Time Slot IP Assignment 6 1 15 Min 1 Hr 7 Days Perf Report gt Command Path Main Menu gt 1 15 Min 1 Hr 7 Days Perf Report gt Description Display the 15 Min 1 Hr 7 Days performance report Table 6 1 15 Min 1 Hour 7 Days Perf Report Field Setting Options Default Register Bundle Ef 00 31 ___00 T1 00 24 Im gt 15 Min 1 Hr 7 Days Perf Report Screens Use arrow keys to select a port and a bundle and press Enter key SLOT 2 TDMoE 15 Min 1 Hr 7 Days Perf Report 12 53 06 12 30 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Register Port coa Register Bundle 00 lt lt Press ESC key to return to previous menu gt gt Then you will see the 15 Min
58. low For TDMoE card QoS can be sorted into three types Class of Service CoS Type of Service ToS and Fixed these three methods are responsible for writing TDMoIP traffic from Ethernet interface to its own queues and all will be discussed later Scheduling Algorithm is a method that determines the transmission order of packets in the queues to the TDM interface or Tributary Port Two types of Scheduling Algorithms are applied in TDMoE card Strict Priority SP and Weighted Round Robin WRR both of which will be introduced later Generally each interface of TDMoE card contains 4 queues i e PO P1 P2 and P3 and the order of queues is P3 gt P2 gt P1 gt PO So there are 16 queues in total The total size of the 16 queues is 1M bits 8 2 Step by Step Setup Instructions The following figure depicts the entire setup process Noted that the whole settings are designated for ingress traffic only the QoS Fixed method and Scheduling Algorithm SP Strict Priority of egress traffic is fixed and cannot be changed 1 QoS 2 Scheduling Algorithm LAN side CoS ToS Fixed SP WRR WAN side TDMoE Card Ingress Traffic IDD tributary CO CT Port Egress Traffic Figure 8 1 QoS Diagram for TDMoE Card To fulfill the complete QoS setup of ingress traffic two steps are required select 1 one of the three QoS types and 2 one of the two Scheduling Algorithms QoS is responsible for writing data from Ethernet interface
59. lt lt Press ESC key to return to previous menu gt gt Table 7 24 Bundle IP Setup Field Setting Options Default Subnet Mask Gateway IP 7 3 4 Time Slot IP Assignment gt Command Path Main Menu gt T Time Slot IP Assignment gt D Time Slot IP Assignment Enables users to change UDP settings for a port 45 CHAPTER7 SYSTEM SETUP gt Time Slot IP Assignment Screens There are two unframed modes for user to choose AAL1 and SAToP AAL1 SLOT 2 TDMoE Time Slot IP Assignment 14 08 55 01 04 2010 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Port Mt Bundle ID 00 PO TS TS PO TS TS BNDL ID UDP NUM Dest IP Address Tos aa UDP Number WO Dest IP Addr 000 000 000 000 Stratum 2 Cell in Bundle 0005 Jitter Delay 10220 Jitter Size PRE VLAN OFF CVLAN ID CVLAN Priority SVLAN ID S 10 10 SVLAN Priority 11 11 Action Add bundle 12 12 Confirm Yes 13 13 14 14 15 15 16 16 lt lt Press ESC key to return to main menu or save system setup gt gt 0 1 2 3 4 e 6 7 8 9 SAToP SLOT 2 TDMoE Time Slot IP Assignment 14 16 42 01 04 2010 Please input decimal number 1 65535 BACKSPACE to edit Borre cao IL Bundle ID 0O PO TS TS PO TS TS BNDL ID UDP NUM Dest IP Address Format SATOP Tos OOO UDP Number 00000 18 18 Dest IP Addr 000 000 000 000 19 19 Cell Num Jitter Delay Jitter Size Stratum E Size in Bytes 0300 21 21 Jitter Delay O
60. ment For detailed information please refer to Section 7 3 4 Time Slot IP Assignment To check the bundle settings users can go to Time Slot IP Assignment Display TDMoE Main Menu gt H Time Slot IP Configuration gt D Time Slot IP Assignment Display The entire process of setting up bundle s is complete Users can ascertain whether the settings are successfully configured through All Time Slot Assignment All Time Slot Assi gt Command Path TDMoE Main Menu gt J All Time Slot Assignment SLOT 1 TDMoE All Time Slot Assignment 15 44 20 06 03 2011 60 CHAPTER 9 Appendix B 1 1 Protection between TDMoE and QE1 T1 Card Cell Jit Tol Jit Buf Dest IP Address 192 168 014 200 lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 9 3 Configuring AM3440 Controller After configuring the TDMoE card users have to go back to the AM3440 Controller Menu to perform the following four configurations Configure QDS1 1 1 Protection Configure TSI Map Activate TSI Map Configure Clock Source et oe 9 3 1 Configure QDS1 1 1 Protection First of all 1 1 protection function should be enabled gt Command Path AM3440 Controller Menu gt S System Setup gt Q QDS1 1 1 Protection The QDS1 Protection screen will appear Choose Setup The Setup menu is to setup the protection modes for each protection pair and ports LOOP AM3440 A QDS1 1 1 Protection 15 46 05 08 03 2011
61. n on the screen SLOT 2 TDMoE MAC Address Display 18 19 57 01 05 2010 No MAC Address Port 0000 00 50 c6 aa 00 01 MGT 24 CHAPTER 6 SYSTEM STATUS lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 6 6 4 Bundle Status gt Command Path Main Menu gt N Status amp Statistics gt D Bundle Status gt Description Display whether the bundle is active or inactive gt Bundle Status Screen SLOT 2 TDMoE Bundle Status 18 20 10 01 05 2010 P BID status lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 6 6 5 Ethernet Port Status gt Command Path Main Menu gt N Status amp Statistics gt E Ethernet Port Status gt Description Shows layer one configuration for all RSTP ports This includes the state auto negotiation speed and duplex status gt Ethernet Port Status Screen SLOT 2 TDMoE Ethernet Port Status 08 48 11 12 31 2009 ETH1 State Enable Speed 1 0Mbps Duplex Half Auto Negotiation Enable Link Down ETH2 State Enable Speed 10Mbps Duplex Halt Auto Negotiation Enable Link Down ETH3 State Enable Speed 10Mbps Duplex Halt Auto Negotiation Enable Link Down ETH4 State Enable Speed 10Mbps Duplex Half Auto Negotiation Enable Link Down lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 25 CHAPTER 6 SYSTEM STATUS 6 6 6 SFP Status gt Command Path Main Menu
62. nadaje sie juz do dalszego uzytku nalezy zostawic go w jednym ze specjalnych punkt w zajmujacych sie zbi rka zuzytych produckt w w wybranych miejscach na terenie kraju Po skon en jeho ivotnosti odlo te pros m v robek na p islu n m sb rn m m st z zen m dle p edpis ve va zemi Po skon en jeho ivotnosti odovzdajte pros m zariadenie na pr slu nom zbernom mieste pod a platn ch miestnych predpisov a noriem Ko se izdelku izte e ivljenska doba ga odnesite na ustrezno zbirno mesto oziroma ga odvrzite v skladu z veljavnimi predpisi Xto T loc rno AEttovpyikys ZM TOV npot vtos TAPAKAAG Ilet te to ota E101KG Onuela TOD Ilap xovtal OTH XOPA GAS r E er FES RER a EY Bd ae Pe Ce EU A aoe CHAPTER 1 PRODUCTION DESCRIPTION 1 PRODUCTION DESCRIPTION 1 1 Description Loop Telecom s TDMOE plug in card is designed for the Loop AM3440 series TDMoE card is used to transport TDM traffic over IP network in addition to Ethernet traffic As the communications network migrates from TDM to IP the TDMOE card provides a flexible and cost effective choice for the transport of legacy TDM signals It provides four Ethernet ports with no limitation for WAN or LAN port assignment two aggregate ports with GbE combo interface and two tributary ports with 10 100 1000 BaseT Ethernet interfaces The TDMOE card support point to point and point to multi point voice and date application For transport of T
63. net Port Setup of the port you choose Table 7 11 Ethernet Port Setup o Field Setting Options Default Port Status Enable Disable ETH1 ETH2 Auto Negotiation Enable Disable ETH3 ETH4 10 100 1000 Mbps 10 Mbps Duplex Half Full Note1 1000 Mbps Half Duplex is not supported yet Note2 If you want to upgrade downgrade the SFP speed to 1000 100 Mbps you need to order an extra SFP module Table 7 12 Auto Negotiation and Duplex Description Auto Negotiation Auto negotiation is a function by which the two connected Ethernet ports share common transmission parameters such as speed and duplex The two connected Ethernet ports will first share their possible values of parameters and then apply the best transmission mode they both support For example if two FE ports are with Auto Negotiation enabled then they will be linked up at 1000Mbps and Full duplex Duplex Duplex is a transmission mode that describes how two connected Ethernet ports transmit the traffic There are two types of Duplex Full Duplex and Half Duplex Full Duplex means that data can be transmitted in both directions on a single Ethernet Cable simultaneously i e transmitting and receiving Half Duplex means that data can only be delivered in one direction at a time on a single Ethernet Cable rather than two directions gt Ethernet Port Setup Screens When you enter the Ethernet PHY Configuration Setup section you will see a selection page as follo
64. nfigured only when the RSTP State is RSTP Table 7 18 ETH1 4 Configuration Field Setting Options Default Table 7 19 RSTP and RSTP Port Setup Parameters RSTP state Specifies the type of spanning tree on this device Priority Priority is used in selecting the root device root port and designated port The device with the highest priority lower value becomes the root device Interval in seconds at which this device transmits a configuration message BPDU Maximum age sec The maximum time in seconds a device can wait without receiving a configuration message before attempting to reconfigure The maximum time in seconds this device will wait before changing states i e discarding to learning to forwarding Port priority Defines the priority used for this port in the STP If the path cost for all ports on a device is the same the port with the highest priority i e lowest value will be configured as an root port for the device Port cost This parameter is used by the STP RSTP to determine the best path between devices Therefore lower values should be assigned to ports attached to faster media and higher values 41 CHAPTER7 SYSTEM SETUP assigned to ports with slower media Link type Defines the link type attached to this interface e Auto device automatically determines if the interface is attached to a point to point link or to shared media This feature is applicable only for RSTP e P to p co
65. nging settings of Framing Mode and CAS Table 7 21 Tributary Configuration Setup Trib1 Trib2 Trib 3 Trib4 Field_________ Setting Options Default Framing Mode ARP on Continue Stop a Remote Lose After you change the options press ESC A prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save please use V command When the RSTP configuration is changed successfully the screen will return to the previous page 43 CHAPTER7 SYSTEM SETUP 7 3 Time Slot IP Assignment gt Command Path Main Menu gt T Time Slot IP Assignment gt Description There are four options you can select from the Time Slot IP Assignment A Bundle Allocation Setup B Time Slot Assignment Setup C Bundle IP Setup D Time Slot IP Assignment 7 3 1 Bundle Allocation Setup Command Path Main Menu gt T Time Slot IP Assignment gt A Bundle Allocation Setup Enables users to change the bundle allocation of each tributary port Table 7 22 Bundle Allocation Setup Field____________ _ Settings Options Default OO Bundle o Tribt Trib2 Trib3 Trib4 Allocation Option 1 16 16 16 16 Option 2 32 Disable 32 Disable gt Bundle Allocation Setup Screen SLOT 2 TDMoE Bundle Allocation Setup 16 53 17 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Tribl Trib2 Trib3 Trib4 Bundle Allocation 16 16 16 16 lt lt Press ESC key to return to pr
66. nnection to exactly one other bridge e Shared connection to two or more bridges Edge port Enable only when an interface is attached to a LAN segment that is at the end of a bridged LAN or to an end node Since end nodes cannot cause forwarding loops they can pass directly through to the spanning tree forwarding state e fast forwarding This feature is applicable only for RSTP 7 2 7 Tributary Setup gt Command Path Main Menu gt S System Setup gt T Tributary Setup gt Description There are two options you can select from the Tributary Setup A Tributary Mode Setup and B Tributary Setup 7 2 7 1 Tributary Mode Setup gt Command Path Main Menu gt S System Setup gt T Tributary Setup gt A Tributary Mode Setup Enables users to change the tributary mode Table 7 20 Tributary Mode Setup Field Setting Options Default __ E1 T1 E1 gt Tributary Mode Setup Screens Using Tab to select a mode SLOT 2 TDMoE Tributary Mode Setup 16 18 33 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Mode El lt lt Press ESC key to return to previous menu gt gt After you select a mode press ESC A prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save please use V command 7 2 7 2 Tributary Setup Main Menu gt S System Setup gt T Tributary Setup gt B Tributary Setup Enables users to change the fram
67. one when the Master line recovers from link failure After you key in the active bundle time press ESC A prompt will ask if you wish to change the configuration Press Y to confirm gt gt Change configuration Y N Note to save please use V command When the configuration is successfully changed the screen will return to the previous menu 7 2 2 Qos Setup 2 gt Command Path Main Menu gt S System Setup gt C Qos Setup gt Description There are three options you can select from the Qos Setup A Class of Service B Transmission Scheduling C Rate Control NOTE Please refer to the Chapter 8 Appendix A Quality of Service Setup for the entire explanation and setup procedure on QoS Setup 7 2 2 1 Class of Service gt Command Path Main Menu gt S System Setup gt C Qos Setup gt A Class of Service gt Description There are four options you can select from the Class of Service A Priority Mode Setup B Fixed Priority Setup C Vlan CoS Priority Setup D ToS Field Priority Setup 7 2 2 1 1 Priority Mode Setup gt Command Path Main Menu gt S System Setup gt C Qos Setup gt A Class of Service gt A Priority Mode Setup Enables users to change the priority mode for each port Table 7 3 Priority Mode Setup Field Setting Options ETH1 4 Fixed CoS ToS Fixed gt Priority Mode Setup Screen Using Tab to select one of the options for each port SLOT 2 TDMoE Priority Mode
68. otection between TDMoE and QE1 T1 Card lt lt Press ESC key to return to previous menu gt gt To check the time slot assignment setting users can go to Time Slot Assignment Display TDMoE Main Menu gt H Time Slot IP Configuration gt B Time Slot Assignment Display 9 2 5 Configure Parameters for Each Bundle After the Time Slot Assignment Setup is fulfilled users have to configure the parameters for each bundle gt Command Path TDMoE Main Menu gt T Time Slot IP Assignment gt D Time Slot IP Assignment Here the destination IP Address is the IP Address of AM3440 2 SLOT 1 TDMOE Time Slot IP Assignment 15 43 08 08 03 2011 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS PG E Bundle ID PO TS TS PO TS TS BNDL ID UDP NUM Dest IP Address Format Los UDP Number Dest IP Addr Stratum 3 Cell in Bundle 05 Jitter Delay 64 Jitter Size VLAN CVLAN ID CVLAN Priority SVLAN ID SVLAN Priority Action Add bundle Confirm Yes PP PE PRP PRR PP PP EH lt lt Press ESC key to return to main menu or save system setup gt gt NOTE The UDP number must be unique for all the bundles The Destination IP is the IP address for the remote TDMoE card to be mapped to For TDMoE card with PPM version Stratum should always be 3 For AM3440 2 the destination IP Address is the IP Address of AM3440 1 i e 192 168 014 100 The Jitter Delay setting depends on the network environ
69. r equal to twice the value of hello time 1 and smaller or equal to twice the value of forward delay 1 SLOT 2 TDMoE RSTP Setup 16 02 40 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS ENTER CHANGE RSTP STATE RSTP State RSE Priority BARE Hello Time 02 s Maximum Age 20 s Forward Delay 15 s NOTE Acceptable value max age gt 2 hello time 1 max age lt 2 forward delay 1 lt lt Press ESC key to return to previous menu gt gt 40 CHAPTER7 SYSTEM SETUP Table 7 17 RSTP Configuration Setting Options Default RSTP state OFF STP RSTP OFF When RSTP state is RSTP Priority Hello time sec Maximum age sec Forward delay sec After you change the RSTP state priority hello time maximum age and forward delay press ESC A prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save please use V command When the RSTP configuration is changed successfully the screen will return to the previous page After you change the RSTP State to STP or RSTP you can change the configuration for ETH1 4 SLOT 2 TDMoE RSTP Port Setup 08 52 04 01 06 2010 ARROW KEYS CURSOR MOVE Please input 0 240 BACKSPACE to edit ETH1 STP State DISABLE Port Priority 128 Port Cost OOIE Link Type Se Edge Port Enable lt lt Press ESC key to return to previous menu gt gt Note Link Type and Edge Port can be co
70. riginating from a single E1 T1 or an entire E3 DS3 Bundles are single direction streams frequently coupled with bundles in the opposite direction to enable full duplex communications More than one bundle can be transmitted between two TDMoEthernet devices For E1 T1 the chip provides internal bundle cross connect functionality with DSO resolution You can establish a cross connect between different E1 T1 interfaces of TDMoEthernet device or within one interface of TDMoEthernet Only one bundle can be defined for E3 DS3 Up to 64 bundles are supported Each bundle in the TDMoEthernet is transmitted using one of the following payload type methods AAL1 CESOPSN or SAToP Each TDM over Ethernet bundle connection may be assigned to one of the payload types For E1 T1 the chip provides internal bundle cross connect functionality wit DSO resolution You can establish a cross connect between different E1 T1 interfaces of the TDMoEthernet device or within one interface of the device CHAPTER 1 PRODUCTION DESCRIPTION 1 3 Application TDMOE plug in card in AM3440 series is to transport TDM traffic voice signals E1 T1 DTEs Ethernet into IP Traffic Netwrok Voice ELTE TEs Ethernet Point to Point Application TDMoEthernet application on VPN Network mm E wm an ee 16 100 1000 BaseT Kai W 4 gt wW 10 10 1000 Base 10 100 BaseT Fx 1000 BaseT FX ii i a Se ce me or ex wm wn m ee C
71. rives Configuring the Jitter Buffer parameters correctly avoids under run and overrun situation Under run occurs when the Jitter Buffer is empty the entering rate is lower than the exiting one In case of an under run event the chip transmits conditioning data instead of actual data towards the TDM interface Overrun occurs when the jitter buffer is full and there is no room for new data to enter the entering rate exceeds the exiting one Under run and overrun require special treatment from the chip HW depending on the bundle type Figure 7 2 Jitter Buffer Diagram 7 4 Alarm Setup gt Command Path Main Menu gt M Alarm Setup gt Function Enables users to change the Alarm for each type and the threshold for ARP bundle RX Lost bundle and Cell Lost bundle e xx bundle each alarm is based on a bundle i e every bundle has its own alarm Rx Lost bundle Rx lost means the received packet sequence number is not the same as expected sequence number Cell Lost bundle For AAL1 cell lost means AAL1 cell received with wrong cell sequence number For SAToP and CESoPSN cell lost means received packets that are discarded by SAToP and CESoP hardware machine Underrun bundle Jitter buffer underrun means jitter buffer is empty Overrun bundle Jitter buffer overrun means that jitter buffer is full and there is no room for new data to enter ARP bundle destination doesn t response ARP packet So the transmitter doesn t know the MAC a
72. rmation of the action you choose 23 CHAPTER 6 SYSTEM STATUS gt Ethernet Port Statistics Screens Use arrow keys to select an action and press Enter SLOT 2 TDMoE Ethernet Port Statistics 16 33 58 12 30 2009 Select Action gt gt METH ETH2 ETHS ETH4 Then you will see the traffic statistics for the port you select listed as below SLOT 2 TDMoE Traffic Statistics 18 19 13 01 05 2010 ETH4 Rx packets 702630 Rx bytes 203759888 Tx packets 661144 Tx bytes 191728270 Tx unicast Packets 661140 multicast Packets 0 broadcast Packets 4 pause Packets 0 unicast Packets H 102627 multicast Packets 0 broadcast Packets 3 pause Packets 0 bulky packets SE 0 0 shorty packets fragment packets CRC Error O lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 6 6 3 MAC Address Display gt Command Path Main Menu gt N Status amp Statistics gt M MAC Address Display gt Description You will see selections All ETH1 ETH2 ETH3 and ETH4 at the button of the screen Use arrow keys to select the action you need then press Enter to show the detail information of the action you choose gt MAC Address Display Screens Use arrow keys to select a port and press Enter SLOT 2 TDMoE MAC Table Display 16 39 48 12 30 2009 Display By gt gt ALL ETH1 ETH2 ETH3 ETH4 You will see the MAC address information about the port connected show
73. rotection is maximized CHAPTER 1 PRODUCTION DESCRIPTION 1 2 1 Clock Recovery Sophisticated TDM clock recovery mechanisms one for each E1 T1 interface allow end to end TDM clock synchronization despite packet delay variation of IP MPLS Ethernet network TDMoEthernet supports the following clock recovery modes e Adaptive clock recovery e External clock e Loopback clock The clock recovery mechanisms provide both fast frequency acquisition and highly accurate phase tracking e Jitter and wander of the recovered clock are maintained at levels that conform to G 823 G 824 traffic or synchronization interfaces For adaptive clock recovery the recovered clock performance depends on packet network characteristics e Short term frequency accuracy 1 second is better than 16 ppb using PPB reference or 100 ppb using PPM reference e Capture range is 90 ppm e Internal synthesizer resolution of 0 5 ppb e High resilience to the packet loss and mis ordering up to 5 of packet loss misordering without degradation of clock recovery performance e Robust to sudden significant constant delay changes e Automatic transition to hold over is performed upon link break events 1 2 2 Bundles A bundle is defined as a stream of bits that have originated from the same physical interface They are transmitted from a TDMoEthernet source device to a TDMoEthernet destination device For example bundles may comprise any number of 64 Kbps timeslots o
74. rvice A Flow Control Setup B Scheduling Algorithm C WRR Weight Setup 7 2 2 2 1 Flow Control Setup Command Path Main Menu gt S System Setup gt C Qos Setup gt B Transmission Scheduling gt A Flow Control Setup Enables users to change the state of flow control for each port Description Flow Control Flow Control is a method that manages the rate of data transmission between two devices If the sending device forwards data at a faster rate than the buffer of the receiving device can handle then the latter device will send the former one pause frames to request for quenching the transmission rate Flow Control Setup e Enable the port is able to control the transmission speed e Disable the flow control mechanism is disabled Table 7 7 Flow Control Field L etting Options ETH1 4 Enable Disable gt Flow Control Setup Screens Using Tab to change the state for each port SLOT 2 TDMoE Flow Control Setup 13 34 22 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS ETH1 Disable ETH2 Disable ETH3 Disable ETH4 Disable lt lt Press ESC key to return to previous menu gt gt NOTE The transmitting port s of both local and remote devices should be Enable for Flow Control to function successfully After you choose Enable or Disable for each field press Esc A prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save pleas
75. splay B Scheduling Algorithm 18 CHAPTER 6 SYSTEM STATUS C WRR Weight Display 6 3 2 2 1 Flow Control gt Command Path Main Menu gt C System Configuration gt C Qos Display gt B Transmission Scheduling gt A Flow Control Display gt Description Display the state of flow control for Ethernet 1 4 6 3 2 2 2 Scheduling Algorithm gt Command Path Main Menu gt C System Configuration gt C Qos Display gt B Transmission Scheduling gt B Scheduling Algorithm gt Description Display the scheduling method for each port 6 3 2 2 3 WRR Weight Display gt Command Path Main Menu gt C System Configuration gt C Qos Display gt B Transmission Scheduling gt C WRR Weight Display gt Description Display the weight for each queue 6 3 2 3 Rate Control gt Command Path Main Menu gt C System Configuration gt C Qos Display gt C Rate Control gt Description Display the rate control of Ethernet 1 4 6 3 3 Ethernet Port Display gt Command Path Main Menu gt C System Configuration gt E Ethernet Port Display gt Description Shows layer one configuration for all RSTP ports This includes the state auto negotiation speed and duplex status 6 3 4 Ethernet Switch Display gt Command Path Main Menu gt C System Configuration gt L Ethernet Swtich Display gt Description Shows layer two configuration age time for RSTP 6 3 5 Link Aggr
76. ssignment J All Time Slot Assignment M gt Alarm Setup H Time Slot IP Configuration N Status amp Statistics X gt Clear Performance Data A Alarm History W gt Firmware Upgrade MISC Choose Other Slot Y gt Unit Load Default Log Off SETUP MISC Menu Z gt Card Reset Log On SETUP MISC Menu Return to Controller Main Menu 49 CHAPTER7 SYSTEM SETUP 7 6 Clear Performance Data gt Command Path Main Menu gt X Clear Performance Data Enables users to clear performance data gt Clear Performance Data Screen To clear alarm history press X from the port menu A prompt will ask if you are sure you want to clear the performance data Press Y for yes The data will be cleared and you will be returned to the port menu This procedure is complete SLOT 2 TDMoE Port Menu 09 40 30 01 04 2010 FPGA Version Ver A OSC Type TCXO Software Version V1 01 02 05 03 2010 DISPLAY SETUP 1 gt 15 Min 1 Hr 7 Days Perf Report L gt Loopback Setup 2 15 Min 1 Day Perf Report S gt System Setup C System Configuration T gt Time Slot IP Assignment J All Time Slot Assignment M gt Alarm Setup H N A Time Slot IP Configuration R gt Clear Alarm History Status Statistics Alarm History W gt Firmware Upgrade MISC Choose Other Slot Y gt Unit Load Default Log Off SETUP MISC Menu Z gt Card Reset Log On SETUP MISC Menu Return to Controller Main Menu 7 7 Firmware
77. the ability that a port can tolerate the jitter 21 CHAPTER 6 SYSTEM STATUS gt All Time Slot Assignment Screen SLOT 2 TDMoE All Time Slot Assignment 15 21 03 01 07 2010 P BID UDP Format Cell Jit Tol Jit Buf Dest IP Address 001 001 001 002 lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 6 5 Time Slot IP Configuration gt Command Path Main Menu gt H Time Slot IP Configuration gt Description There are four options you can select from the Time Slot IP Configuration A Bundle Allocation Display B Time Slot Assignment Display C Bundle IP Display D Time Slot IP Assignment Display 6 5 1 Bundle Allocation Display Command Path Main Menu gt H Time Slot IP Configuration gt A Bundle Allocation Display Display the bundle allocation of Trib1 4 6 5 2 Time Slot Assignment Display Command Path Main Menu gt H Time Slot IP Configuration gt B Time Slot Assignment Display Display the bundle for each time slot Table 6 3 Timeslot Assignment Displa Field Setting Options Default Port Trib1 4 gt Time Slot Assignment Display screens Using arrow keys to select a port and press Enter then you will see the timeslot assignments for the port you select listed as below SLOT 2 TDMOR Time Slot Assignment Display 16 03 07 12 30 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS Port Trib1 22 CHAPTER 6 SYSTEM STATU
78. tion conventional TDM networks have numerous special features in particular those required in order to carry voice grade telephony channels These features imply signaling systems that support a wide range of telephony features a rich standardization literature and well developed OAM mechanisms All of these factors must be taken into account when emulating TDM over PSNs One critical issue in implementing TDM PWs is clock recovery In native TDM networks the physical layer carries highly accurate timing information along with the TDM data but when emulating TDM over PSNs this synchronization is absent TDM timing standards can be exacting and conformance with these requires innovative mechanisms to adaptively reproduce the TDM timing TDMoEthernet ensures that recovered clock jitter and wander levels conform to ITU T G 823 824 even for networks that introduce high packet delay variation and packet loss TDMoEthernet complements VoIP in those cases where VoIP is not applicable and in those cases where VoIP price performance is not optimal Most importantly TDMoEthernet can provide higher voice quality with much lower latency than VoIP And unlike VoIP TDMoEthernet can support all applications that run over E1 T1 circuits not just voice TDMoEthernet can provide traditional leased line services over IP and is transparent to protocols and signaling Because TDMoEthernet provides an evolutionary as opposed to revolutionary approach investment p
79. to negotiation Functions Auto MDI MDIX Auto crossover function support Flow control Force mode duplex half full speed 10 100 1000M Egress Rate Limiting Table 2 2 RJ45 for Ethernet Port Signal Direction Transmit Data Output from TDMoE card Transmit Data Output from TDMoE card Input to TDMoE card 5 No Connection le 6 Receive Data Inputto TDMOE card 7 No Connection le Ll 8 NoConnection _____ CHAPTER 3 OPERATION 3 OPERATION 3 1 Alarm When the TDMoE card reports an alarm condition such as loss of synchronization the ALARM will cause the LED on the front panel to light Each alarm can be individually enabled or disabled The alarm types are listed in the table as below Table 3 1 Alarm Default for System and Line Alarm Option LDetauk ARP bundle DISABLE MAJOR CRITICAL MINOR DISABLE Rx Lost bundle DISABLE MAJOR CRITICAL MINOR DISABLE 3 2 LED The front panel of the TDMoE has multi color LEDs for operation and error indications The indication is either off steady on or flickering The following table lists each LED and its color and the meaning it represents Note that when powering up and self test is in progress the unit front panel LEDs are also used to indicate fault conditions Table 3 2 LED Indication for Main Unit No power card failure or LED failure Active Flashing Green Hard waving Alarm Flashing Green Data is being transmitted or received through Et
80. wise data will be dropped all along RSTP Configuration Setup Command Path Main Menu gt S System Setup gt R RSTP Configuration Setup Setup your RSTP parameters or close RSTP operation Description In this section you can do both RSTP and RSTP port configuration setup Use arrow key to select the action you would like to activate lt can be RSTP ETH1 ETH2 ETH3 or ETH4 RSTP state e OFF Disable RSTP operation e STP Eisable STP operation e RSTP Enable RSTP operation 39 CHAPTER7 SYSTEM SETUP gt RSTP Configuration Screens When you enter this section you will first see the RSTP Configuration menu Use arrow keys to select the action you need SLOT 2 TDMoE RSTP Setup 15 58 41 12 31 2009 Select Action gt gt MN Bi PO DS PO Press Enter key You will see the screen below SLOT 2 TDMoE RSTP Setup 16 02 40 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS ENTER CHANGE RSTP STATE RSTP State lt lt Press ESC key to return to previous menu gt gt If you change the RSTP State from OFF to STP you will see the screen as below SLOT 2 TDMoE RSTP Setup 09 52 14 01 05 2010 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS ENTER CHANGE RSTP STATE RSTP State lt lt Press ESC key to return to previous menu gt gt If you change the RSTP State from OFF to RSTP you will see the screen as below Note that the acceptable value for the maximum age should be bigger o
81. wo scheduling algorithm taking charge of reading data from queues to TDM interface Strict Priority SP and Weight Round Robin WRR The mechanisms and setup screens are shown below SLOT 2 TDMoE Scheduling Algorithm 13 37 16 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS NOTE SES Ser RCL BPELOrLCY WRR Weighted Round Robin lt lt Press ESC key to return to previous menu gt gt VT 100 Terminal Path Main Menu gt S System Setup gt C Qos Setup gt B Transmission Scheduling gt B Scheduling Algorithm Strict Priority SP When a port applies SP Algorithm it suggests packets frames will be delivered from queues to that port in a strict order Whenever packets are to be forwarded the system will transmit packets starting from the highest priority queue For TDMOE card each port includes 4 queues The hierarchy of all the queues is queue 3 is considered with highest priority queue 2 is prior to queue 1 and Queue 0 has the lowest priority i e queue3 gt queue 2 gt queue 1 gt queue 0 For example queue 3 queue 2 and queue 1 all contain 4 packets All 4 packets of queue 3 should be transmitted before any of those in queue2 or queue 1 are Before queue 1 sends packets all the packets in queue 2 should be delivered Yet if you configure the scheduling algorithm as WRR there is one last step to go i e setup the WRR Weight Ratio as shown below SLOT 2 TDMoE WRR Weight Setup 14 24 08 12 31
82. ws Select one action from the button of the screen to view its configuration SLOT 2 TDMoE Ethernet Port Setup 15 00 28 12 31 2009 Select Action gt gt ETH1 ETH2 ETH3 ETH4 Press Enter You will see the screen below SLOT 2 TDMoE Ethernet Port Setup 15 03 43 12 31 2009 ARROW KEYS CURSOR MOVE TAB ROLL OPTIONS 35 CHAPTER7 SYSTEM SETUP Electrical ETH1 Port Status Enable Auto Negotiation Enable Speed 10Mbps Duplex Een lt lt Press ESC key to return to previous menu gt gt NOTE If Auto Negotiation is Enable then there is no need to setup Speed and Duplex If both local and remote devices configure Auto Negotiation as Disable then configurations of Speed and Duplex for both devices should be the same Otherwise the link will fail If Auto Negotiation is Disable for the local device and is Enable for the remote device then the remote device needs not configure Speed and Duplex It will automatically apply same configurations of the two modes as those of the local device After you change the setting options for each field press ESC A prompt will ask if you wish to change configuration Press Y to confirm Change configuration Y N Note to save please use V command When the configuration is successfully changed the screen will return to the previous menu 7 2 4 Ethernet Switch Setup gt Command Path Main Menu gt S System Setup gt L Ethernet Switch Setup gt
83. ystem Configuration gt T Tributary Display gt Description There are two options you can select from the Tributary Display A Tributary Mode Display and B Tributary Display 6 3 7 1 Tributary Mode Display gt Command Path Main Menu gt C System Configuration Display gt T Tributary Display gt A Tributary Mode Display gt Description Display the tributary mode 6 3 7 2 Tributary Display Main Menu gt C System Configuration Display gt T Tributary Display gt B Tributary Configuration Display gt Description You will see actions Trib1 Trib2 Trib3 and Trib4 at the button of the screen Use arrow keys to select the action you need then press Enter to show the detail information of the action you choose You will see its framing mode CAS and remote loss gt Tributary Display Screens Using arrow keys to select an action and press Enter SLOT 2 TDMoE Tributary Display 15 56 31 12 30 2009 Select Action gt gt PM MU MO eee Then you will see the detail information for the action you select listed as below SLOT 2 TDMoE Tributary Display 18 08 24 05 21 2010 Framing Mode El Unframe CAS DLL Remote Loss Continue NOTE Send ARP Packet after remote unit is undetached lt lt ESC key to return to previous menu SPACE bar to refresh gt gt 6 4 All Time Slot Assignment gt Command Path Main Menu gt J All Time Slot Assignment gt Description Display
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