Home
Login
Register
Search
Home
9500 MPR Product Description
9500 MPR Product Description
March 24, 2018 | Author: Roger Juan Gomez Ramirez | Category:
Asynchronous Transfer Mode
,
Network Switch
,
Quality Of Service
,
Computer Network
,
Multiprotocol Label Switching
DOWNLOAD
Share
Report this link
Comments
Description
9500 MPRMicrowave Packet Radio Description & Application OPTICS-WTpu (AT & ARD) Internal Tendering Training, March 2009 Agenda 1- 9500 MPR - Microwave Packet Radio 2- 9500 MPR & Network Synchronization 3- 9500 MPR Application 4- 9500 MPR Network Management Solution 5- Tools and documents 6- Roadmap 7- Demo - 9500 MPR Description and Application – All Rights Reserved © Alcatel-Lucent 2008, XXXXX 1 9500 MPR Microwave Packet Radio - 9500 MPR Description and Application – All Rights Reserved © Alcatel-Lucent 2008, XXXXX 9500 MPR . XXXXX .9500 MPR Description and Application – Microwave Service Switch MSS MMS-8 MMS-4 All Rights Reserved © Alcatel-Lucent 2008.Microwave Packet Radio Equipment Components Outdoor Radio Unit ODU . 9500 Family Components Alcatel-Lucent 9500 MPR Common Network Management System Universal Radio Unit (ODU) Common Universal ODU with 9500 MXC allows smooth migration from TDM to Packets TDM Option (MXC Series) • INUs • IDU-155 •IDU-ES . XXXXX .9500 MPR Description and Application – IF coax cable Packet Option (MPR Series) Broadcasting Mobile TV § MSS-8 § MSS-4 All Rights Reserved © Alcatel-Lucent 2008. …) Service Classification (up to 8 classes) Statistical Multiplexing 2G E1-TDM WiMax -IPoETH 3G – ATMIMA CDMA IPoE1 Ethernet Output TDM Pseudo Wire (ML-PPP) Existing PDH/Ethernet Links (Aggregation) .9500 MPR – Microwave Service Switch MSS – Microwave Service Switch Access Protocol termination (ATM-IMA. BestEffort traffic. ML-PPP) Pseudo-wire / Circuit Emulation Service recognition (Voice. Video. XXXXX ATM Pseudo Wire IP over Native Ethernet .9500 MPR Description and Application – All Rights Reserved © Alcatel-Lucent 2008. 9500 MPR Description and Application – All Rights Reserved © Alcatel-Lucent 2008.Architecture ASAP board NxE1 ATM-IMA ATM ATM Peripheral Peripheral MW MW ODU ODU Peripheral Peripheral ATM PseudoWiring 16 Gb/s Gb/s Ethernet Ethernet Switch TDM TDM Peripheral Peripheral Standard Gigabit Ethernet Signal Mo-demodulation TDM over Ethernet standard mapping Microwave Transport NxE1 TDM Stream .Patented data-aware algorithms: Service type is recognized Bandwidth Optimization Latency control BER improvement Embedded Embedded ETH ETH interfaces interfaces 9500 MPR . XXXXX . 9500 MPR – Protections No single point of failure Passive backplane Full CORE protection (traffic & Mgm). Peripheral Unit protection Errorless Rx Switching .9500 MPR Description and Application – Main CORE Stby CORE Peripheral Unit Peripheral Unit 1Gbs ETH backplane connection Errorless Switching channel All Rights Reserved © Alcatel-Lucent 2008. XXXXX . XXXXX .9500 MPR .9500 MPR Description and Application – Protected ODU with symmetric or asymmetric coupler and integrated antenna All Rights Reserved © Alcatel-Lucent 2008. 56 MHz channel spacing options Common to 9500 MXC product line Unprotected ODU with integrated antenna .14 MHz. 28 MHz.Microwave Packet Radio Universal Outdoor Unit High capacity RF transceiver supporting Integrated antenna system Modulation scheme up to 256 QAM 10 to 350 Mbs capacity Support to hitless Adaptive Modulation 7 MHz. 75/120 Ohm 4x SFP 0 . 75/120 Ohm 8GBE Peripheral 4x 10/100/1000BaseT 7/14/28/56 MHz CS Adaptive Modulation 32E1 Peripheral 32 Ports PDH.9500 MPR – Microwave Service Switch Boards MSS – Microwave Service Switch CORE Board System Controller 10 Gbs traffic matrix 4x 10/100/1000BaseT + 1x SFP NMS/CT access Peripheral Boards Modem Peripheral 4 to 256 QAM 16E1 ASAP Peripheral 16 Ports ATM/TDM.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX . 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.Microwave Packet Radio Microwave Service Switch Two options CORE BOARD CORE BOARD (Protection) MSS-8 Any Peripheral Any Peripheral 2RU – 8 slots Any Peripheral Any Peripheral Any Peripheral Any Peripheral MSS-4 1RU – 4 slots CORE BOARD CORE BOARD/AnyTraff. XXXXX FAN FAN .9500 MPR .Peripheral Any Peripheral Any Peripheral 1 . 1 radio direction . 32 E1 and 5 GE 2 .9500 MPR . XXXXX .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.8 with 128 E1 + 5xGBE Protected Radio terminal CORE board protected with 4 x GE Modem Board 32E1 Access Board MSS-4 with core protection.Microwave Packet Radio: Examples of system configuration 2x CORE board with embedded 5x Gigabit Ethernet access ports 2x Modem Board FAN Unit 4x 32E1 Access Board MSS. CORE BOARD A new CORE BOARD is available from Rel 1. XXXXX .9500 MPR .1.5.2) 1x Ethernet 10/100 Base-T (Craft Terminal) 1x 2.5.10MHz synch-in 1x 2.2 full management of L2 Ethernet features) (including the enhanced Ethernet switch with 16 Gbit/s capacity and Characteristics Main System Controller 16Gbs Ethernet Switch for traffic routing Synchronization processor Removable CF card for NE configuration Interfaces 4x Ethernet 10/100/1000 Base-T (traffic) 2x Ethernet 1000 SFP (traffic) (Only one managed in Rel.10MHz synch-out System Up to 2 units per shelf 1+1 EPS protection 3 .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX .9500 MPR – Modem Board Characteristics 4/16/32/64/128/256 QAM Modem 4/16/64 Errorless Adaptive modulation 7/14/28/56 MHz channels Connects 9500MXC Outdoor Units Data-aware pre-processing algorithms Interfaces 1x IF over COAX cable System Up to 6 units per shelf 1+1 EPS and RPS protection 4 . 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.9500 MPR – Modem Profiles 5 . XXXXX . 703 – SCSI Connectors 75/120 Ohm selectable System Up to 6 units per shelf (192 E1) 1+1 EPS protection 6 . XXXXX .9500 MPR – 32 E1 ACCESS BOARD Characteristics 1 to 32xE1 G.703 MEF-8 Circuit Emulation Differential and adaptive clock-recovery Interfaces 32 E1 G.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. • Supports multiple services • Interfaces: 16xE1 G.9500 MPR – ASAP (Any Service Any Port) card (1/7) ASAP board main characteristics This board has been developed jointly with IPD. XXXXX .703 – SCSCI connector 75/120 Ohm selectable Same installation material of PDH board 7 .703 ports • Up to 6 boards on MSS-8 shelf Traffic Management PWE3 ATM: transport ATM cells with MPLS encapsulation Interfaces 16 E1 G. is available in 7705 SAR platform and deployed worldwide. R99 traffic) is allocated at PCR (guaranteed service) Radio bandwidth for VBR is allocated at SCR Radio bandwidth for UBR + is allocated at MDCR The traffic exceeding the SCR/MDCR (but below PCR) is transported if radio bandwidth is available UBR is a best effort service w/o guaranteed bandwidth •MW awareness over ATM service: Like for TDM service. VBR-rt. UBR+. XXXXX . patented algorithms are applied to ATM traffic in order to provide better radio efficiency in terms of bandwidth (ATM header compression) and Cell error rate performances 8 . VBR-nrt.e.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.9500 MPR – ASAP (2/7) : ATM services supported •ATM interface: -up to 8 IMA groups on ASAP card -up to 8 E1 ports per IMA group (with the limitation of the number of groups) -up to 24 pseudowires per IMA group •ATM traffic management: -ATM Service Category: CBR. UBR -Internal Coherent scheduling wrt ATM service scheduling Radio bandwidth for CBR (i. 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.9500 MPR – ASAP: Introduction of ATM in 9500 MPR (3/7) Requirement: Keep current ATM base station on E1 as long as possible to reduce investments Simplify packet transport by removing ATM switches 5620 SAM / 1350 OMS E1 TDM E1 ATM Ethernet 7750SR 1850TSS Unified Packet Transport BSC/MSC E1 TDM E1 ATM Ethernet 9500 MPR E1 TDM E1 ATM Ethernet TDM MEF8/SatoP ATM PWE3 Eth VLAN/PW S-GW MME e2e TCO reduction without extra-ATM switches when 3G nodeB ATM 9 . XXXXX RNC . enabling to remove ATM switches (further differentiator towards TDM/Hybrid platforms on the market) •Enable to keep current ATM base station with E1 IMA as long as possible to reduce investments 9500 MPR management of ATM Service enables statistical multiplexing of ATM traffic together with E1 and Ethernet traffic. reduces bandwidth and offers a common transmission layer (Ethernet) infrastructure enabling to remove ATM switches 0 .9500 MPR – ASAP card (4/7) 9500 MPR introduces management of native ATM services connecting ATM Node B with E1 IMA and optimising transport of ATM traffic in terms of Quality of Service and aggregation Main advantages : • bandwidth optimisation thanks to removal of idle cells of the IMA group • statistical multiplexing on the aggregation nodes • Service awareness for ATM traffic (differentiated QoS for different type of services like R99 and HSDPA). in conjunction with adaptive modulation •Simplify network with unified network topology with ATM Pseudo wire. XXXXX .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. concentrating HSDPA traffic on reduced number of E1 interface. In the last 9500 MPR node facing the Core Network. E1 IMA E1 IMA NodeB Core Network E1 IMA E1 IMA NxSTM-1 RNC NodeB ATM Switch Main benefit for the customer Keep NODE ATM infrastructure longer by optimising ATM traffic thanks to QoS and statistical multiplexing 1 .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. the original ATM streams are re-built on ASAP card.9500 MPR – ASAP (5/7) : Application Scenario 1 Native ATM traffic collection and restitution in the aggregation Node 9500 MPR is able to terminate the native ATM stream collected through ASAP card and to aggregate this traffic into a unique Ethernet flow towards the air. XXXXX . 9500 MPR – ASAP (6/7) : Application Scenario 1 In the last MPR Node facing the Core Network. it is possible to configure ATM services on ASAP in two modes: •To recreate the original IMA group for each NodeB that is connected to MPR network in a 1:1 mode IMA A IMA B IMA A IMA B 2) to perform ATM aggregation collecting the traffic of multiple Node Bs onto a single IMA group with a reduced number of E1 links (N: 1 mode) IMA A: nxE1 IMA B: mxE1 IMA A IMA B 2 . XXXXX .9500 MPR Description and Application IMA C nxE1 IMA C: kxE1 with k <n+m All Rights Reserved © Alcatel-Lucent 2008. an MPLS gateway with Multisegment PW capability shall decapsulate the ATM cells from the Ethernet frames and rebuild the original ATM streams 1xSTM-1 Packet Network GE RNC GE nxE1 MPLS Gateway NodeB Benefit for the customer: No more need of SDH/ATM infrastructure on Core Network 3 .9500 MPR – ASAP (7/7) : Application Scenario 2 ATM cells transported into PW frames in the Core Network: IMA groups are terminated by MPR Network on Node-B side. XXXXX .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. and ATM traffic is transported over Ethernet frames towards RNC At RNC site. 9500 MPR Description and Application 9500MPR E1 ETH All Rights Reserved © Alcatel-Lucent 2008. 9500 MPR acts as a pure TDM Radio TDM2TDM mode: E1s are “translated” in packets only for transport in 9500 MPR subnet 9500MPR E1 ETH 4 . In this case. XXXXX 9500MPR E1 ETH .9500 MPR . thanks to the internal switching matrix. In each station (nodal or terminal) E1s may be added/dropped without additional devices and/or cabling.Typical Configurations TDM2TDM Mode (linear chain topology) Classical scheme for MW networks. switched in the node and then de-packetized at the last node. XXXXX . transmitted over the radio.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.Typical Configurations TDM2TDM Mode (tree topology) 9500MPR 9500MPR 9500MPR E1 ETH 9500MPR E1 ETH In TDM2TDM mode. E1s are collected.9500 MPR . the 9500 MPR operates like a TDM Radio. packetized. 5 . XXXXX .Typical Configurations TDM2ETH Mode SA OS 9500MPR SA OS 9500MPR SA OS 9500MPR E1 ETH 9500MPR ETH In TDM2ETH mode.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. all the E1s are collected.9500 MPR . packetized and made available over Ethernet at the last node 6 . 9500 MPR .Typical Configurations MEF-8 Gateway Legacy PDH Radio N*E1 9500MPR – MSS Only N*E1 Ethernet Ethernet Packet Network N*E1 E1 ETH MEF-8 Compliant device The MSS can operate in stand-alone mode acting as high-density circuit emulation gateway (192 E1s per shelf) 7 .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX . can be off-loaded and transmitted over a broadband access network 8 . XXXXX .9500MPR Typical Configurations HSDPA Offload 2G + R.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.99 9500MPR E1 ETH Legacy PDH Radio IF 9500MPR N*E1 N*E1 IF Ethernet E1 xDSL modem HSDPA ETH Broadband traffic without stringent latency/PDV requirement. 9500MPR in Ring/Mesh topology Ring/Mesh protection is usually implemented in Metro/Core networks Supply an additional level of protection Need specific protocols/equipment to support automatic operations Current solution: 9500 MPR + additional switch/router Switches supporting RSTP (not carrier grade solution) Routers supporting IP/MPLS 9500 MPR configuration mode: ETH2ETH Proprietary Multiservice Packet ring protection feature will be available (see roadmap) to avoid external Router Switch/Router ETH ETH 9 . XXXXX ETH .9500 MPR Description and Application Switch/Router ETH ETH Switch/Router All Rights Reserved © Alcatel-Lucent 2008. 79 ghz Modulation schemes 4 QAM /16 QAM /32 QAM /64 QAM /128 QAM /256 QAM Interfaces 10/100/1000 Ethernet. no point of failure 0 . E1. Synch-E) All Rights Reserved © Alcatel-Lucent 2008. ATM Up to 192 E1.9500 MPR Description and Application Packed-based internal cross connect based on VLAN Circuit Emulation and ATM Pseudowire Synchronization distribution for packet traffic LTE Ready (Support 1Gbs E-Band radio. 5 embedded GE ports up to 53 GE ports Throughput Up to 350 Mb/s per radio carrier 2Gb/s Radio capacity 10 GB/s switching capacity Configurations 1+0.9500 MPR – Key features Mechanical Arrangement Split Mount Frequency Range 6 GHz to 38 GHz. Frequency Diversity. XXXXX . Nodal configurations up to 6 radio paths per shelf Features Full equipment protection. Space Diversity. 1+1 HSB. 2 9500 MPR & Network Synchronization 1 . XXXXX .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. Timing is essential for service quality and customer satisfaction Most stringent sync requirement Source: Symmetricom White Paper. Services and Applications Perspective . May 18th 2006 2 .Timing and Synchronization in Next-Generation Networks. XXXXX .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. Call Drop rates have been directly correlated to QoS and Customer satisfaction data.Service Synchronization Requirements Synchronization ensure service continuity i. Successful call handover without call drop is a key QoS parameter of mobile services.successful call handovers.e. Lack of stability (wander and jitter) or accuracy (frequency offset) in frequency cause bit errors and/or underflows and overflows of frame buffers for TDM signals (“frame slips”) Both bit errors and frame slips in the PDH framing will cause packet drop Synchronization is essential to avoid all of the above 3 .Need for Synchronization in Packet Networks Traditionally packet networks are asynchronous Sometimes the underlying physical layer is synchronous However services transported across packet networks are not always asynchronous: TDM CES Frequency accuracy and stability are required for good performance in TDM systems.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX . 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.pactiming). XXXXX .8261 (former G. E1) 4 . the following model shall be applied in a packet network in term of clock distribution PSN Network clock is the clock distributed in the network and used to synchronize different NEs of the network Service clock is the clock needed to terminate the different services (ex.9500MPR Synchronization – network clock and service clock concepts The introduction of a packet network in the NodeB/RNC link breaks the “timing connection” between the two path sides According to G. 9500 MPR Description and Application Clk information transmitted and recovered as relative difference All Rights respect Reserved © Alcatel-Lucent 2008. precise pkt arrival time or looking at jitter buffer fill level) • Output signal quality very sensitive to PDV (Packet Dealy Variation) • It is the only method usable when an external reference clk is not available at both ends • Each TDM interface has a separate clk recovery Differential method The service clk is reconstructed making use of a common reference clk available at both IWK functions • Output signal quality insensitive to PDV TDM Servic e Clock The two PRCs m ay also originate from the same source.8261 figure 7 and figure 8) Adaptive Clock Recovery CE IWF IWF Packet Switched Network TDM Recovered TDM timing based on the adaptive clock recovery TDM TDM Service Clock Diff erential Timing Messages IW F IWF Packet Switc hed Network TDM CE Clock recovered from pkts mean arrival packetization CE Adaptive method Rec overed TDM timing based on the differential timing mes sages TDM Sync hronization Network Synchronization Network PRC PRC CE The service clk is reconstructed observing the pkt arrival from the network (e. XXXXX with to a common ref. Clk (PRC) .g.Extending TDM over PTN Synchronization quality Schemes for service Clk reconstruction (G. 6 . 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX .Case 1 (MPR Connection to TDM networks): Sync over Packet not available PoC 3 (Connection to SDH Metro Ring) Cell Site Cell Site Differential Clock Recovery Cell Site Cell Site Sync distribution Sync signal available Differential clock recovery Sources: 2MHz G.703 or Any E1 interface or MSS internal Free run oscillator(G 813) The 9500MPR guarantees TDM-like performances for legacy E1 synchronization and synch distribution to all MPR nodes without synch-over-packet technologies. 7 . XXXXX .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.9500MPR Synchronization : network clock options available in MPR Any E1/T1 can be selected Free runnung Stratum Clock at 25MHz Any Radio Direction can be selected 8 . G. avoiding deployment of synch over Packet in the access.8261) or L2 sync (IEEE 1588v2) 5/10 Mhz (GPS) The 9500MPR can get the synch signal from packet network using Differential method or using the Adaptive recovery method.Case2 (MPR Connection to Metro Ethernet networks): Sync over Packet available IEEE 1588V2 Master PoC 3 (Connection to IP/MPLS packet infrastructure) Cell Site Cell Site Differential/Adaptive Clock Recovery Packet Infrastructure Cell Site Embedded IEEE 1588V2 Slave Cell Site Sync distribution Sync signal available Ethernet Interface differential clock recovery Sources: L1 sync (Synch Ethernet Network. in case no synchronization sources are available and distribute it in the access. 9 .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX . 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.3 9500 MPR Application 0 . XXXXX . alcatel-lucent.9400 AWY – 9500 MXC – 9500 MPR feature comparison Feature 9500 MPR 9500 MXC 9400 AWY Note Mixed Traffic (TDM + Ethernet) Yes Yes Yes Point-to-point configuration Yes Yes Yes Node configuration Yes (*) Yes No Native Packet Transport (over Air) Yes No No Adaptive Modulation Yes No No Internal cross-connections Yes Yes No End-to-end traffic management Yes No No QoS management Yes Yes Yes End-to-end QoS management Yes No No NE pre-configuration (Off-line tool) Yes (*) No Yes (*) (*) TCO Software Suite (*) backplane capacity ≥ 10 times other (vendor’s) products For a complete MPR Feature List.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX .com/wps/portal/businessgroups/carrier/wtp) -> Products and Solutions -> 9500 MPR •-> Technical Documents 1 . see GAD and “Product Release Note” document available at: •->WTPG Web (http://all. currently is the best combination of features/prices in the Backhauling environment (from Last mile to Metro networks) Tail /last Mile Microwave Feeder Aggregation Trunk Microwa ve Microwave BSC BTS Microwave BSC Up to XXX E1 9600 LSY 9500MXC SDH ring 9400 AWY Up to 32E1 2 . XXXXX up to 8xSTM1 .9500 MPR Description and Application Full TDM Network All Rights Reserved © Alcatel-Lucent 2008.9500 MPR positioning in WTPG portfolio Full TDM Network ALU 9400 AWY + 9500 MPR. 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.9500 MPR positioning in WTPG portfolio Hybrid and full packet network Tail /last Mile Microwave Feeder Aggregation Trunk Microwav e Microwave BSC BTS Microwave BSC Up to XXX E1 ETH Up to XXX Mbs 9600 LSY 9500MPR 9400 AWY Multiservice packet ring Up to 32E1 ETH up to xxx Hybrid and full packet network 3 . XXXXX up to 8xSTM-1 . XXXXX Network Management .5G Edge 3G HSDPA Access cloud 9400AWY 1678 MCC BSC 1660 SM 9500 MPR 9400AWY E1 E1 and and Ethernet Ethernet Optical SDH/Packet transport E1 E1 and and Ethernet Ethernet Fiber Fiber access access Backhauling Backhauling ATM NxSTM-1 RNC ETH 1660 SM 1660 SM 2G 2.9500 MPR product positioning capacity per site > 4 E1. support for Ethernet connectivity Microwave Microwave access access Backhauling Backhauling SDH SDH Aggregation Aggregation 9400AWY 2G 2.9500 MPR Description and Application 1350 OMS All Rights Reserved © Alcatel-Lucent 2008.5G Edge 3G HSDPA 1643 AMS 1642 EMC Access cloud 1642 EM E1 E1 and and Ethernet Ethernet 4 . High peak rate Microwave Microwave access access Backhauling Backhauling National DWDM RNC RNC interconnection interconnection backbone backbone network (Nx2.5Gb/10Gb) (Nx2.5Gb/10Gb) 9500MPR 2G 2. XXXXX Network Management RNC .5G Edge 3G HSPA+ LTE 1643 AMS 1642 EMC E1&Eth E1&Eth over over SDH SDH Access cloud 1642 EM E1 E1 and and Ethernet Ethernet 5 .9500 MPR Description and Application 1350 OMS All Rights Reserved © Alcatel-Lucent 2008.9500 MPR product positioning HSPA+/LTE initial.5G Edge 3G HSDPA 9500MPR BSC 1850 TSS 9500 MPR 1850 TSS (w/DWDM) Optical SDH/Packet transport TMPLS 9500MPR E1 E1 and and Ethernet Ethernet 1850 TSS (w/DWDM) Access cloud Ethernet Ethernet Only Only ETH ATM NxSTM-1 1660 SM Fiber Fiber access access Backhauling Backhauling 1660 SM 2G 2. suggested applications Year 2009: general guideline for 9500 MPR 1. metro ring Remarks E1.2 proposal 9500 MPR has to be proposed for all Ethernet and Super PDH application 9500 MXC has to be proposed only for SDH Last mile Suggested Application Aggregation.) well covered by traditional TDM.When to use 9500 MPR . 3G) AWY MXC MPR Smooth evolution to IP transformation WiMax backhaul AWY MXC MPR Ethernet backhaul DSLAM backhaul MPR MXC MPR Ethernet backhaul. high capacity MPR Other applications (Private…. XXXXX . Others AWY 6 . Ethernet SDH Super PDH. Ethernet Mobile Backhaul (2G.9500 MPR Description and Application MXC All Rights Reserved © Alcatel-Lucent 2008. XXXXX MSS-4 variant (1U) Unprotected 2way repeater Protected Radio Terminal .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.9500 MPR scalability MSS-4 MSS-8 variant (2U) Packet Nodes up to 6 directions MSS-8 MSS-4 One MSS-8 shelf is able to manage: Multiple directions Multiple interfaces Multiple ODUs 7 . x Any combination: 1+0/1+1 up to 6 radios 300Mbps (E1+GE) 300Mbps (E1+GE) 300Mbps (E1+GE) 300Mbps (E1+GE) 300Mbps (E1+GE) 300Mbps (E1+GE) IDU Max capacity: Switch capacity = 10Gbps Local GE traffic 6 Radios x 300Mbps + Local GE 8 .9500 MPR Capacity Node solution Release 1.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX . 1) 4. HW platform for the Packet Node MSS-8 + boards ODU v2: common PL with MXC 2.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. OS NE software (TDM or Service Aggregator application) 3. XXXXX . RTU Right To Use (or license fee) per ODU RTU per on-air capacity RTU for the Adapt. Modulation (in PL R1.9500 MPR Price List structure PL structure is based on 1. If existing MXC ODU (& coupler) pricing Protect the price of the key MPR values Align the ODU & coupler pricing OS SA RTU AM PL is structured around the solution added-values 9 . 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.is a web application developed by AlcatelLucent to allow customers and our service team to upgrade license keys from a web interface. from 40 to 300 Mbps Service aggregator 9500MPR release 1.0 Capacity of each of the 6 directions.1 Adaptative modulation 9500MPR 1. 24 hours/day.9500 MPR and LKDI (License Key Delivery Infrastructure) 9500MPR license management 9500 MPR features are controlled through a license key that can be upgraded via the Alcatel-Lucent licensing solution LKDI What is LKDI ? LKDI . 7 days/week.the License Key Delivery Infrastructure .2 and next releases… Numbers of features introduced with the next product releases will be managed with the license key upgradeable via LKDI 0 . XXXXX . Upgradable features: 9500MPR release 1. He places an order to Alcatel-Lucent. When the order has been process. XXXXX . an Email is sent to the customer to inform him that he can connect to LKDI portal to proceed with the license upgrade. Purchase Order Customer Initial configuration 1 . Later on.9500 MPR License upgrade process overview (1/2) 1 2 A customer set up a new 9500MPR network with the required features (initial configuration). the customer decides to upgrade his network.9500 MPR Description and Application Email login id / password All Rights Reserved © Alcatel-Lucent 2008. 9500 MPR Description and Application Current License Key UPGRADED License Key New configuration ! All Rights Reserved © Alcatel-Lucent 2008. selects his entitlement and provides the current license keys. connects to LKDI portal. The network is ready to run with the new configuration 2 . 4 The customer download the new license keys generated by LKDI and transfer them to his network elements. XXXXX .9500 MPR License upgrade process overview (2/2) 3 The customer extracts the current license keys from his network. or any other configuration as long as the price doesn’t exceed the one of the purchased configuration. This gives the possibility to the customer to adjust at the last minute his upgrade. the customer connects to LKDI and can get a new license key corresponding to his purchase order. The customer can simulate his future upgrades and get a quotation of license points.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. 3 . feature per feature. After processing. License point can be consumed in one shot or in several The evaluation of license points required for upgrades can be done with LKDI. License points The customer purchases a certain amount of anonymous license points that allows him to perform any license upgrades at any time. XXXXX . the upgrade that needs to be performed.9500 MPR Standard upgrade order & license points concepts Two options are proposed to our customers to purchase their license upgrades : Standard upgrade order The purchase order describes. XXXXX .4 9500 MPR Network Management Solution 4 .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. 9500 MPR Network Management Solution Flexible Management Platforms 1350 OMS Supervision of an all Alcatel-Lucent transport(Optics) portfolio and third-party SNMP elements North-bound IOO interface for easy integration in umbrella systems 1350 OMS-EML Element Manager and TDM circuit management. Web-based Craft Terminal for field engineers and small networks. 5620 SAM.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX . 1350 OMS. One common EML User Interface for any platform. Webbased CT 5 . –10% on I&C cost) Tool 6 .9500 MPR Description and Application PC or Smartphone Web browser Save All Rights Reserved © Alcatel-Lucent 2008. XXXXX .9500 MPR Installation and Commissioning for Total Cost of Ownership Reduction Back-office 1 2 On-Site Installation and Commissioning Pre-Provisioning Embedded Web Server in NE: Alarm list RSL Standalone PC Web browser Pre-provisioning tool (TCO) OR USB Key and (ca. XXXXX . NMS) 1x Ethernet 10/100/1000 Base-T configurable (port 4) 7 .2c (SNMP v3 under evaluation) OSPF and Static Routing supported Interfaces 1x Ethernet 10/100 Base-T (Local/Remote CT.9500 MPR – DCN capabilities Characteristics SNMP v.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. 9500 MPR: Simplified operations with full featured graphical interface Unlike Command Line tools used in some Ethernet gears. 9500 MPR Craft Terminal simplifies the field operations Microwave Strategy Meeting January 21° 2009 page58 8 . XXXXX .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.9500 MPR: Full integration in Alcatel-Lucent end to end management Network Management can scale to support end to end service over nationwide networks Microwave Strategy Meeting January 21° 2009 page59 9 . XXXXX . 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.9500MPR: ALU End to End Solution E1 2G 3G 9500 Packet Domain (Microwave Transport) 9500 1850 SDH Domain 1850 BSC 1850 1850 T-MPLS Domain GE connectivity 3G 2G 3G 3G RNC E1 Service Management with 1350OMS 2G 3G 9500 Packet Domain (Microwave Transport) IP/MPLS Domain 9500 7705 2G 77xx 3G 3G 3G GE connectivity & MPLS Gateway E1 Service Management with 5620 SAM 0 . XXXXX BSC RNC . Network Management Synergies 77x0 SR 7250 SAS 7705 SAR 7450 ESS Packet based portfolio 5620 SAM IP portfolio 1353 NM 9500 MPR (beginning 2009) TDM based portfolio 9400 AWY 9500 MXC 9600 USY 9600 LSY MDR 8000 Optical portfolio DWM OMSN X-C 1850 TSS Comprehensive and integrated solution for the end to end network transformation to Unified Packet Infrastructure 1 .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX . 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. XXXXX .5 Tools and documents 2 . Have a look at WTPG Home Page for documentation (see next slides) 2.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. Have a look at WTPG :: 9500 MPR tendering & product support forum 3 . Look for 9500 MPR GAD @ Alcatel-Lucent Wiki 4. remember to: 1.Tendering tools To offer 9500 MPR equipment. Use Ogcat tool for tender activities MPR configurator for Equipment and Installation material Service configurator 3. Evaluate the network with Dimensioning tools 5. XXXXX . 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.WTPG web documentation for 9500 MPR 4 . XXXXX . XXXXX .WTPG web documentation for 9500 MPR 5 .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. WTPG web documentation for 9500 MPR 6 - 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008, XXXXX 9500 MPR configurator – Ogcat Tool 7 - 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008, XXXXX 9500 MPR configurator – Ogcat Tool 8 - 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008, XXXXX 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.9500 MPR: GAD @ Alcatel-Lucent Wiki 9 . XXXXX . XXXXX .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.6 Roadmap 0 . 9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.ond-nr. XXXXX .alcatel.it/NRS/Default.9500 MPR (ETSI): Product Release Roadmap (http://aww.Optics Network Release Strategy - 1 .aspx) NRS . “Planned release” means low probability to change content “Target release” means subject to change content according to market needs.9500 MPR (ETSI): Product Release Roadmap 9500 MPR(Product and Solutions web) https://sps.de. XXXXX . 2 . The document is not intended for unsolicited distribution. it should be delivered to customer after a specific request.com/sites/Corporate%20Other/wtd_corner/ProductsAndSolutions/ -> 9500 MPR -> Customer Documentation Note: -> 9500 MPR Customer Roadmap This document provides to customer long-term visibility on 9500MPR features roadmap.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.lucent. XXXXX .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.7 Demo 3 . MOV 4 . Not yet a trial or type homologation but main features are proven A Demo video is now available in Optics Division ALU web: http://135.3.9500 MPR is available for demo and proof of concepts Demo / lab Proof of concept in Vimercate or in RSC HUB First step to appeal customers and proof 9500MPR is ready Objective : demonstrate main innovative concepts of 9500 MPR Field proof of concept Objective : demonstrate hitless service Driven Adaptive Modulation in a real field environment. XXXXX .32.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.103:8082/data/content/ Internal_Resources/en_WW/Videos_Internal /9500_MPR_Demo. XXXXX sl34 1G E Voice TSS-320 M sl34 Video HSI Residential Service .1003.4VC4 TSS-320 R 1GE Service Platform Service Platform Access & Aggregation Network All Rights Reserved © Alcatel-Lucent 2008.100 sl16 1G E 3VC4 STM.Demo video in Vimercate:1850 TSS and 9500 MPR delivering Triple Play Service MSPP Application (Data over SDH) Access Platform Business Service Adaptive Modulation VoIP Data Video/TV 1G E 9500 MPR TSS-100 M3 sl15 sl35 9500 MPR 64 sl35 GBE over VCG sl34 with LCAS 9500 MPR TSS-320 L N X STM-16 CWDM Trunk 3VC4 Video NMS Platform 5 .9500 MPR Description and Application Cvlan 1001. DEMO OBJECTIVES : PROOF 9500 MPR MAIN INNOVATIVE CONCEPTS Multiservice Aggregation Layer Ethernet as common transmission layer Demonstration of how the system is capable to aggregate any service/interface over a single transmission media (Gigabit Ethernet). 6 . Service awareness: traffic handling and quality management. XXXXX . Packet Node: All services aggregated over Ethernet “Demonstration of how the traffic is flowing through an intermediate aggregation node. Service Driven Adaptive Modulation: Exploitation of the entire air bandwidth by changing modulation scheme according to the propagation availability and allocate transport capacity discriminating traffic by different services Demonstration and focus on how the bandwidth change will impact the services and how the modulation switching does not affect the E1 transmission. different type of traffic. including E1 Circuit Emulation will be use for to this purpose.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. independent by the type of interface Demonstration of how different services are managed by the system and how the system is capable to assign different priorities. queuing traffic according to the type of service assigned. In the demo. 3 2 E1 Node Station -.2 Station.1 2 E1 Eth traffic Generator 8 E1 Priority Eth traffic 1 Generator TSS VOIP.9500 MPR Demo Lay out in Vimercate (Italy) RF attenuator Station. XXXXX 2 E1 Station.5 Node Station .4 QAM: 64 4 16 64 FTP 2 E1 Adaptive modulation VOIP ET H Node Station .9500 MPR Description and Application Public Public Telepho Telepho nn Networ Networ kk VIDEO All Rights Reserved © Alcatel-Lucent 2008. FTP Voip 7 .6 . XXXXX .The Best Effort data stream (priority 6) is impacted in terms of throughput 3) Attenuation on link-> switch to 4QAM . Video.40Mbit/s total net throughput .VoIP not impacted .FTP Service.80Mbit/s total net throughput . Video and hi-priority Ethernet not impacted . high and low priority Ethernet impacted in terms of throughput 4) Inverse procedure is performed coming back to the initial stage 5) Extras (live VoIP call with modulation switching.E1 transported with no degradation and no errors during the switching .FTP Service. VoIP.E1 transported with no degradation and no errors during the switching .9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008. others) 8 .Test Description 1) System starts @ maximum throughput @ 64QAM in 28MHz channel -120Mbit/s total net throughput -all services (TDM and packets) transported with no degradation 2) Attenuation on link->switch to 16QAM: . Conclusions of 9500 MPR Demo in Vimercate (Italy) 9500 MPR is “service aware” 9500 MPR capable to manage (prioritise) different services according to the assigned classes 9500 MPR is Error free when modulation switching No errors on TDM traffic Change of modulation are without loss of data. error free on E1 can be deployed in current TDM networks w/o affecting the quality system compared to a traditional TDM system 9500 MPR is Multi level aggregation layer System is capable to remove any E1 intermediate connectivity clear benefit in terms of CAPEX and OPEX (no DDF. improved reliability) Link dimensioning allows to carry 3 times more traffic during most of time Link dimensioning for 40 Mbit/S. carrying 120Mbit/s (*) : depending on link Budget 9 .9% (*) of time : MPR link can work @ 64QAM. XXXXX . 4 QAM Around 99.9500 MPR Description and Application Optics Division All Rights Reserved © Alcatel-Lucent 2008. XXXXX .com 0 .www.alcatel-lucent.9500 MPR Description and Application All Rights Reserved © Alcatel-Lucent 2008.com www.alcatel-lucent.
Report "9500 MPR Product Description"
×
Please fill this form, we will try to respond as soon as possible.
Your name
Email
Reason
-Select Reason-
Pornographic
Defamatory
Illegal/Unlawful
Spam
Other Terms Of Service Violation
File a copyright complaint
Description
Copyright © 2024 DOKUMEN.SITE Inc.