cfl_surpass_hit_7065_20081110
DESCRIPTION
Customer Feature ListSURPASS hiT 7065TRANSCRIPT
-
CFL
Customer Feature List
SURPASS hiT 7065Release 5.0, and 5.1Date: 26.09.2008
Author: Daphne Popescu
This documentation and the product it describes are considered protected by copyrights and other intellectual property rights according to the applicable laws.
The wave logo is a trademark of Nokia Siemens Networks Oy. Nokia is a registered trademark of Nokia Corporation. Siemens is a registered trademark of Siemens AG.
Other product names mentioned in this document may be trademarks of their respective owners, and they are mentioned for identification purposes only.
Copyright Nokia Siemens Networks 2007. All rights reserved. The copyright and the foregoing restrictions on reproduction and use extend to all media in which the information may be embodied.
The information contained in this document is confidential and the property of Nokia Siemens Networks and is supplied without liability for errors or omissions. It is subject to change without notice and describes only the product defined in the introductThis Technical Description is provided as a generic descriptive document only. It does not include any legally binding statement. The product features, and details thereof, discussed in this Technical Description may include those that prove to be tempora
Nokia Siemens Networks will correct errors in this documentation as soon as possible.
IN NO EVENT WILL NOKIA SIEMENS NETWORKS BE LIABLE FOR ERRORS IN THIS DOCUMENTATION OR FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL, DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES, SUCH AS BUT NOT LIMITED TO LOSS OF PROFIT, REVENUE, B
Seite 1 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
1 Physical Design NEW X
1.1 Subrack NEW X
1.1.1 Sub-rack NEW X
ETSI Sub-rack based Physical Design (300mm)
The dimension of the sub-rack (system) is 855mm(H)x495mm(W)x278mm(D)
Note: Optical fiber will excced 300mm depth with 16xSTM-4/1 and 20xGE card. In order to close the rack door with cabling, a special rack door is needed (S42022-L5020-A11 rack with special door)
NEW X
Single-side access(front access) The system is single-side accessible, i.e. front access only. All connectors / indicators / buttons /slots are located on the same side. On the back of the system, there is no interface or indicator.
NEW X
1.1.2 Rack and Installation NEW X
Standard ETSI rack (2200(H)x300(D)x600(W) mm)
hiT 7065 can be mounted in any 600mm wide, 300mm deep and 2200mm high 21'' rack.Recommended rack: S42022-L5020-A11
NEW X
NSN ETSI Rack S42022-L5020-A11(2200x600x300 mm)
Standard equipping: ETSI Rack S42022-L5020-A11 (used also for other hiT 70xx, hiT7300, w/o front/side/rear cover), without Earthquake-ResistanceThe equipment frame meets the requirements of ETSI 300 119-2
NEW X
Insertion/extraction of modules/cards w/o special tools.
NEW X
Insertion/extraction of modules/cards w/o removal of any other (working) modules/cards or external
NEW X
Insertion/extraction of cards w/o powering down of the equipment.
NEW X
Hot insertion and extraction of cards and optical modules (SFP or XFP)
NEW X
All external connectors front access NEW X
Subrack assisted cooling needed NEW X
Up to 2 systems with all cabling installed in one 2200mm rack
Following equipments, panel and cabling can be fit into the same one rack:(1) two hiT7065 chassis(2) one external power fuse panel
NEW X
1.2 Functional Modules NEW X
1.2.1 Power filter and converter NEW X
minus 48V/60V DC power module (range -40V to -72V)
(1) There are two Power IO modules which can be pluggable seperately, in each power IO module, the power connector is one 5-pin connector.(2) For each power module, the power monitoring is supported(3) For each power module, there is PWR/FAULT LEDs to indicate the external power status
NEW X
Max Chassis Power consumption: Per unit: 3KW;
NEW X
1.2.2 FAN The FAN is used to assist cooling of the system.The FAN status can also be monitored by the system. There are two FAN trays.
NEW X
1.2.3 SI SI board integrates E1/E2 EOW function, the board can be pluggable and replaceable.
On the board, there are following interfaces and indicators for customer.Power indicator green LEDFault indicator of the SI card - red LED
Critical alarm - red LEDMajor alarm orange LEDMinor alarm yellow LED
There are totally 8 RJ45s in the SI w/ EOW function:(1)Management LAN -2 (one is for NMS, the other is for LCT), Note: the two ports are forbidden to be looped (also not be allowed to connect to the same HUB), otherwise it might influence system performance because the management packets are always sent out from the two Management ports.
NEW X
Seite 2 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
1.3 TDM Switching Matrix and Timing NEW X
240G HOCC and 20G LOCC TDM switching matrix together with Timing module
The HO/LOCC card includes TDM 240G HOCC plus 20G LOCC. It also includes TDM timing of the system.
NEW X
1.3 Data Switching Matrix NEW
280G Data Switching Matrix The total system can support 280G carrier Ethernet switching capacity. There is total 14 traffic slots and each slot supports 20G respectively. There are two SFCs and two SFMs which support 3+1 protection for switch
NEW
SFC: Data Switching Module combined with Data Controller and Timing module
NEW
Seite 3 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
SFM: Data Switching Module NEW
1.3 System Controllers NEW X
System Controller with pluggable flash memory
System is equipped with a plug-in flash memory card (2G Bytes), which can be manually moved to a new card including the necessary Configuration DB and SW when the old SC fails.
NEW X
1.3 Data Controllers NEW
Data Controller with pluggable flash memory
Data controller is integral part of SFC card functions.
System is equipped with a plug-in flash memory card, which can be manually
NEW
1.4 SDH cards and PDH cards NEW X
16xSTM-4/1 M(per 4 ports configurable)
The operational port mode can be set by operator as either STM-4 mode or STM-1 mode per the unit of quad ports:The ports can be categorized into four groups, port (1,2,3,4), port (5,6,7,8), port
NEW X
8xSTM-16 M This module provides 8 STM-16 ports supporting SFP lasers and receivers with LC connectors. It processes the RS and MS layer functions, supports SDH compliant performance monitoring, consequent actions and optical
NEW X
2xSTM-64 M (XFP) This module provides 2 optical STM-64 port with pluggable XFP module. With different XFP type,the transmission distance will be different. The type is defined in "T.138"
NEW X
2xOTU-2 (XFP) NEW
16xSTM-1e (WP) WP: With Protection function.The system supports STM-1e card which has 1:N(N
-
CFL
CFL chapter Name Customer Description
5.0 5.1
21xE1(2mm IO 75) The card provides 21 E1 interfaces, the impedance is 75 Ohm (fixed, not software configurable). It also support the 1:N protection function against the equipment failure on 126xE1(WP) card.The E1 connector is 2mm connector
NEW X
21xE1(2mm IO 120) The card provides 21 E1 interfaces, the impedance is 120 Ohm (fixed, not software configurable). It also support the 1:N protection function against the equipment failure on 126xE1(WP) card.
NEW X
1.5 Tranditional Data
8xGE/T (the first two ports can be used as 1G FC)
This module provides 8 Gigabit Ethernet optical interfaces (SFP), support both optical and electrical. It supports transparent transmission function. Each port is transparently mapped to a VC-3-Xv or VC-4-Xv via GFP, and LCAS supported, mixed VC-3-Xv and VC-4-Xv can be supported. All GE can be transmitted full speed simultaneously.
The physical card bandwidth connected to backplane is 10G.
The first two ports can be configured working as standard 1xGE Etherent mode or 1G FC working mode, when working under 1G FC mode, GFP-T will be used.
NEW X
1x10GE/T This module provides one 10Gigabit Ethernet optical interfaces (XFP). It supports transparent transmission function. The port is transparently mapped to a VC-4-Xv via GFP, and LCAS supported, it can be transmitted full speed.The physical card bandwidth connected to backplane is 10G.
Note:
NEW
1x10GE+10xGE/L2 (1)The card provides 1 x 10GE XFP module interface and 10 x GE SFP module interfaces. The GE SFP can be optical or electrical. When electrical GE SFP equipped, system shall support 10M/100M/1000M auto-negotiation (Note: half mode is not supported)(2)It supports layer2 functions, and hardware ready for future Carrier Ethernet Transport functionality.(3)The card occupies dual-slot to provide 20G bandwidth on backplane side. It provides up to 80 (2x40) WAN ports, in which 40 WAN ports share 10G backplane bandwidth, and another 40 WAN ports share another 10G backplane bandwidth(4)For each WAN port, it can be mapped into VCG via GFP, and VC-4-nv or VC-3-nv or VC-12-nv mode is configurable via software. LCAS shall be supported for VC-4-nv and VC-3-nv.(5)For each WAN port and VCG, the maximum bandwidth for VC-4-nv or VC-3-nv can be up to 10G (i.e. VC-4-nv, n=164 mapping or VC-3-nv, n=1...192)), while the total backplane bandwidth for first 40 VCGs are 10G, also the total backplane bandwidth for second 40 VCGs are 10G. For each WAN port and VCG, the maximum bandwidth for VC-12-nv can be up to 100M, while the total backplane bandwidth for first 40 VCGs are 1.25G, also the total backplane bandwidth for second 40 VCGs are 1.25G.
NEW X
1.6 Carrier Ethernet line Cards NEW 2x10GE CE line card The 2x10GE carrier Ethernet card provide two 10GE ports. NEW
20x1GE CE line card The 20xGE carrier Ethernet card provide twenty GE ports. The GE SFP can be optical or electrical. When electrical GE SFP equipped, system shall support
NEW
EOS+1/2x10GE card The card provides one or two 10GE ports. The card Provide the bridge between carrier Ethernet plane and SDH plane by Mapping 10Gbps equivalent bandwidth CE signal into SDH VC-4-xv. Only one
NEW
EOS+10xGE card The card provides ten GE ports. The card also provides the bridge between carrier Ethernet plane and MSTP plane by Mapping 10Gbps equivalent bandwidth CE signal into SDH VC-4-xv.
NEW
1.7 Optical Amplifier
Seite 5 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
POA/20dB Pre-amplifier with 20dB NEW
BOA/13dBm Booster amplifier with 13dBm NEW
BOA/18dBm Booster amplifier with 18dBm NEW
1.8 Environment Conditions NEW X
Environment conditions(class 3.1e) The system is designed to meet the following ETSI requirements (ETS 300 019) on environmental conditions:ETSI Class 1.2 on Storage
NEW X
Climatic requirements Climatic requirements: according climatic behavior are stated in ETSI EN 300 019-1-3 V2.22 (2004-07) 3.1E Temp. -controlled locations
NEW X
DC Power supply Voltage of DC power supply: -48V/-60V DC(range from -40V DC to -72V DC.) The requirement of ripple for DC interface is compliant to IEC 61000-4-17;
NEW X
2 milli-seconds DC Power Dip (1) System can sustain maximum 2 ms Power dip for -48V DC without traffic interruption. (Note 2ms dip can be sustained only when power input is not lower than 48V. )(2) When power dip duration time is more than 2ms, some line cards or the whole system may cold reboot due to lacking of power. Traffic may interrupt for some time.
NEW X
Vibration Test according to EN300 019-2-2 Class Level T2.3 (ETSI class 3.1 + 3.1e) for Europe
Compliant with:(1) EN300 019-2-2 Class Level T2.3(2) EN 300 019-2-3 V2.2.2 (2003-04)T3.1E Temperature-controlled locations, exceptional operating conditions mechanical tests
NEW X
Vibration Test according to GR63 for US
ETSI Grounding, Mesh (1) The system grounding should follow the ETS 300253.(2) It is isolated between chassis ground and the power/battery return path inside the chassis.
NEW X
Acoustic Noise Emission according ETS 300 753
NEW X
NSN environment protection features NEW X
Substance List based on global or national regulatory requirements.
NEW X
WEEE Label NEW X
Packaging requirements NEW X
Energy efficiency NEW X
Product Marking label NEW X
Optical Safety All parts of the system are designed to operate and be capable of being maintained without hazard to personnel from optical radiation. Interfaces that exceed the Hazard Level 1 radiation limits are equipped with automatic shutdown facilities that bring down the radiation level below the safety limits as soon as an optical cable breaks. In this matter all recommendations as specified in IEC-60825 (Radiation Safety ofLaser Products Equipment, Classification, Requirements and Users Guide) are followed.
NEW X
Seite 6 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
ESD belt connector NEW X
1.9 Product confirmity NEW X
ETSI EMC compatibility: EN 300386 (2005-04) (ETSI EMC with EN 55022 Class A included)
NEW X
EMC for North America Market: FCC (CFR 47, Part 15), Class A
NEW X
CB certification- IEC60950-1 equipment safety specification. - EN 60950-1 (2001),DIN EN 60950-
NEW X
Product safety for North America Market:-UL for USA (UL60950-1)-CSA for Canada(CSA 60950-1)
NEW X
IEC61000-6-5 NEW X
IEEE C37.1 NEW X
2.0 Network Inter-working
2.1 Inter-working with own products
Inter-working with hiT7020/7030/7060/7060HC/7025/7035/7080 series
NEW X
Inter-working with SURPASS hiT7070 NEW X
Inter-working with SURPASS hiT7050 NEW X
2.2 Inter-working with the other companies' products
Inter-working with other company' MSPP based on the same standards
NEW X
3.0 Bandwidth Management
Data Switching Capability
280G Data Switching Capacity per system, non-blocking full duplex
Bandwidth per slot 20Gbps, total 14 slots. Max throughput is up to 280 Gbps
NEW
3.1 Cross-connect Capability
3.1.1 CC capacity
240G HOCC plus 20G LOCC Total 14 slots, Eight of them are 20G, the left 6 slots are 10G, total 220G capacity for traffic slots. The total HOCC capacity is 240 Gbps (20G LOCC is included).
NEW X
3.1.2 Connectivity NEW X
VC-4 routing NEW X
VC-12 routing NEW X
LO VC-3 routing NEW X
VC-4-4c routing Support of VC-4-4c routing through the system (between any two of STM-4/STM-16/STM-64 interfaces).
NEW X
VC-4-16c routing Support of VC-4-16c routing through the system (between any two of STM-16/STM-64 interfaces).
NEW X
VC-4-64c routing One usage of this feature is to inter-work with POS interfaces NEW X
Non-blocking switching matrix (1) both 240G HOCC and 20G LOCC are non-blocking in hardware. (2) the connection between HOCC and LOCC is VC4 based(3) for operator and software, all LOCC capacity (20G with one HO/LOCC card) are non blocking.
NEW X
Point to Multiple point Cross-connect (1)Supports Point-Point, Point-Multipoint Cross-Connection among all interfaces. (2)The Point-to-Point connection directionality supports both bi-direction and
NEW X
Bi-directional Cross-Connecting The default user command is bi-directional cross-connect; it means the return VC-n path is automatically following the inverse path. Note that this is the internal nature of all connections: a bi-directional cross-
NEW X
Uni-directional Cross-Connecting A special uni-directional cross-connect, it means the return VC-n path remains unassigned
NEW X
Section Overhead Cross-Connecting (OHCC)
The OHCC matrix is used to do following section overhead cross-connecting:(1)MS-DCC(2)RS-DCC
NEW X
3.2 Bandwidth Management
Independent VC-12 SNCP and MS-SPRING
NEW X
Seite 7 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Independent VC-12 SNCP and MSP NEW X
Independent LO VC-3 SNCP and MS-SPRing
NEW X
Independent LO VC-3 SNCP and MSP NEW X
Independent VC-4/4-xc SNCP and MS-SPRING
NEW X
Independent VC-4/4-xc SNCP and MSP NEW X
Fixed Assignment of E1 to TU12 NEW X
Assignment of Ethernet Traffic to VC-4-xv
NEW X
Assignment of Ethernet Traffic to VC-12-xv
NEW X
Assignment of Ethernet Traffic to Lower Order VC-3-xv
NEW X
Maximum allowable differential delay for VC-12-Xv is 108ms
NEW X
Maximum allowable differential delay for VC-4-Xv is 108ms
NEW X
Maximum allowable differential delay for VC-3-Xv is 108ms
NEW X
LCAS for VC-12-Xv NEW X
LCAS for VC-4-Xv NEW X
LCAS for VC-3-Xv NEW X
4 SDH Mappings
4.1 HW Mapping,Alignment and Multiplexing capability
4.1.1 Mapping.
E1 Asynchronous Mapping into VC-12 Mapping path: E1 C-12 VC-12.
NEW X
E3 (34Mbit/s, E31) Asynchronous Mapping into VC-3
Mapping Path: E31 C-3 VC-3TU3
NEW
DS3 (45Mbit/s, E32) Asynchronous Mapping into VC-3
Mapping Path: E31 C-3 VC-3TU3
NEW
1000Mbit/s LAN 1000Mbit/s WAN mapping into VC-4-Xv
Mapping Path: 1000Mbit/s LAN 1000Mbit/s WAN GFP C-4-Xv VC-4-Xv (X=1..7).
NEW X
1000Mbit/s LAN 1000Mbit/s WAN mapping into VC-3-Xv
Mapping Path: 1000Mbit/s LAN GE WAN port GFP C-3-Xv VC-3-Xv (X=1..21).
NEW X
10GEbit/s LAN mapping into VC-4-Xv Mapping Path: 10GEbit/s LAN GFP C-4-Xv VC-4-Xv (X=1..64).
NEW
10GEbit/s LAN mapping into VC-3-Xv Mapping Path(transparent card): 10GEbit/s LAN GFP C-4-Xv VC-3-Xv (X=1..192).
NEW
1G FC mapping into VC-3-Xv Mapping Path: 1Gbit/s FC GFP C-3-Xv VC-3-Xv (X=1..21).
NEW X
1G FC mapping into VC-4-Xv Mapping Path: 1Gbit/s FC GFP C-4-Xv VC-4-Xv (X=1..7).
NEW X
10GEbit/s LAN SPI4 WAN mapping into VC-4-Xv
Mapping Path: 10GEbit/s LAN SPI4 WAN GFP C-4-Xv VC-4-Xv (X=1..64).
NEW X
10GEbit/s LAN SPI4 WAN mapping into VC-3-Xv
Mapping Path: 10GEbit/s LAN SPI4 WAN GFP C-4-Xv VC-3-Xv (X=1..192).
NEW X
10GEbit/s LAN SPI4 WAN mapping into VC-12-Xv
NEW X
10/100/1000Mbit/s LAN SPI4 WAN mapping into VC-4-Xv
NEW X
Seite 8 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
10/100/1000Mbit/s LAN SPI4 WAN mapping into VC-3-Xv
NEW X
10/100/1000Mbit/s LAN SPI4 WAN mapping into VC-12-Xv
NEW X
4.1.2 Aligning and Multiplexing
VC-12 AU-4 NEW X
VC-3 AU-4 NEW
VC-12-Xv VC-12 NEW X
VC-4-Xv AU-4 NEW X
VC-3-Xv AU-4 NEW X
4.2 Payload Support
Support of mixed payloads The system supports the mixing of any combination of TU-12s and TU-3s within a single VC-4, as long as that com-bination conforms to ITU-T Recommendation G.707.
NEW X
4.3 Pointer Processing
Standard Pointer Processing Mode In this mode of operation the pointer processing conforms to ITU-T Rec. G.783. Pointer Adjustments are only gener-ated if one of the thresholds of the pointer buffer is exceeded. The pointer buffer sizes are in conformance with G.783. No
NEW X
Fixed SS-bits format on STM-N optical On STM-N (N=1,4,16,64,) interfaces, the transmitted size (SS-) bits in pointer byte H1 are 10 indicating SDH mode. The sink direction is ignored.
NEW X
5 SDH Overhead Bytes NEW X
5.1 MSOH and RSOH NEW X
A1, A2 NEW X
STM-N Overhead Access:J0
NEW X
B1 NEW X
RS DEG and RS EXC NEW X
E1 (1).Each E1 (2,4,1) channel or E2 (9,7,1) channel will provide a 64kbit/s bandwidth for engineering order wire application.(2). When E1/E2 is not used, an all ones pattern will be transmitted in the E1/E2
NEW X
F1 (1).Each F1 (2,7,1) channel will provide a 64kbit/s bandwidth for data application.(2).When F1 is not used, an all ones pattern will be transmitted in the F1 bytes
NEW X
D1-D3 D1-3 ((3,1,1), (3,4,1) and (3,7,1): 192 kbit/s capacity) is available as physical layer for data communication between the network elements for network management purposes.
NEW X
B2 NEW X
MS DEG and MS EXC NEW X
K1, K2 (bit 1~5) On every STM-N interface the hardware provides access to the bytes K1 (5,4,1) and K2 ((5,7,1): bits 1-5 in case of MSP to enable MSP protection switching in accordance with G.783/ETS 300417 and G.841/ETS 300746 respectively.
NEW X
K2 (bits 6~8) On every STM-N interface the K2 (5,7,1: bits 6-8) byte is accessible to support transmission and detection of MS-AIS and MS-RDI. Usage is in conformance with ITU-T Rec. G.707 and ETSI ETS 300417. Incoming AIS is a trigger for an
NEW X
D4-D12 The bytes D4-12 ((n, 1,1), (n, 4,1) and (n, 7,1) with n = 6, 7 or 8: 576 kbit/s capacity) is available as physical layer for data com-munication between the network elements for network management purposes.
NEW X
S1 (Bits 5~8) NEW X
M1 NEW X
E2 1.Each E1 (2,4,1) channel or E2 (9,7,1) channel will provide a 64kbit/s bandwidth for engineering order wire application.2. When E1/E2 is not used, an all ones pattern will be transmitted in the E1/E2
NEW X
HCOC The HCOC is the unused bytes in Multiplexing Section,there are two types HCOC supported in hiT7065, one is HCOC9, the other is HCOC27,they can not be used simultaneously in one port.
NEW X
SONET section overhead supported (SONET transparency)
(1) Only interpret and insert standard AU4 pointer(2) Only care concatenated SONET signals,i.e. clear channels (STS-3c, STS-12-3c, STS-12c; STS-48-3c, STS-48-12c, STS-48c; STS-192-3c, STS-192-12c, STS-
NEW X
Seite 9 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
5.2 VC-4, VC-3, VC-4-4c, VC-4-16c, VC-4-64c POH
NEW X
VC-4 POH NEW X
Lower order VC-3 POH NEW X
Higher order VC-3 POH
VC-4-4c POH NEW X
VC-4-16c POH NEW X
VC-4-64c POH NEW X
VC-n POH Access: J1(n=4, 4-4c, 4-16c, 4-64c)
NEW X
Lower Order VC-3 POH Access: J1 NEW X
B3 NEW X
DEG and EXC (from B3) NEW X
C2 NEW X
H4 for VC-12-Xv NEW X
Seite 10 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
H4 for VC-4-Xv NEW X
H4 for VC-3-Xv NEW X
G1 (bits 1~4) NEW X
G1 (bit 5) NEW X
G1 (bits 6~7) NEW X
G1 bit 8 NEW X
5.3 VC-12,VC-11 POH NEW X
VC-12 POH NEW X
VC-12 POH for VC-12-Xv NEW X
V5 (bits 1~2) NEW X
DEG and EXC (from V5(bits1~2)) NEW X
V5 (bit3) NEW X
V5 (bit 4) NEW X
V5 (bits 5~7) NEW X
V5 (bit 8) NEW X
VC-n POH Access: J2 (n=12)
NEW X
V5 (bit 5~7) NEW X
K4 (bits 1~2) for VC-12-Xv NEW X
K4 (bits 3~8) for VC-12-Xv NEW X
6 Traditional Data Features (for Tranditional data cards reused from hiT7080)
6.1 Basic forwarding functions
MAC address When used in VLAN, the MAC address is used together with the VLAN IDs. NEW X
128K MAC per card Valid for 1x10GE+10xGE card NEW X
MAC address self-learning based on per card
MAC address self-learning is based per Ethernet card. NEW X
Static MAC address configuration The system shall support manually provisioning static MAC addresses.Note: (1)maximum static MAC address is 2k per card
NEW X
MAC address forwarding The switch do the MAC address filtering and forwarding per standard IEEE 802.1D.
NEW X
ACL (Access Control List) The ACL mode can be configured by user: "filter mode" or "forward mode",the default mode of ACL is filter mode.Filter mode: any MAC entry listed in the ACL table will be discarded. Those
NEW X
Multicast MAC address The system shall support the Multicast MAC address processing.In default all ports are in one multicast group.It is required to manually set the multicast groups.
NEW X
Broadcast The system shall support the Broadcast MAC address processing. NEW X
MAC address aging time configuration It is possible to configure the MAC address ageing time on a card level.The range and default value of aging time are different from different cards:Range is from 10 seconds to 75 mins, in step of 10s, default is 300s
NEW X
Manual configuration on 10/100/1000M LAN port
The feature is applied to 6xGE+4xFEGE/A card.
When the AN function is disabled:
NEW X
Auto-Negotiation on LAN 10/100/1000M port
In default the auto-negotiation function is enabled on each LAN 10/100/1000M port. Default advertised capability is set per the detailed requirements.The configuration and status are visible to the operator.
NEW X
Seite 11 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Manual configuration on optical GE LAN port
When the AN function is disabled, the operator can manually configure the following items:(1)Flow control,i.e. Pause (when in full duplex mode): supported or not
NEW X
Auto-Negotiation on optical GE LAN port
In default the auto-negotiation (Only Flow Control can be auto negotiated) function is enabled on each LAN GE port.The configuration and status are visible to the operator.
NEW X
Backpressure on LAN port when in half duplex mode
When a LAN port is in half duplex mode, the backpressure function is always enabled.
NEW X
Pause frame transparent transport (default:disabled)
For transparent Ethernet card, the pause frame from the user can be transparently transported to the far end user equipment. The pause frame received (by the EOS) from the far end SDH side will be transparently
NEW X
Ethernet LAN port's MDI/MDIX mode setting when Auto-negotiation is disabled
NEW X
Loss of client signal detection for all Ethernet cards
The loss of client signal (CSF GFP control frame) frame can be generated when the link between the client and the system is broken. The CSF can be detected at the far end.
NEW X
Loss of client signal insertion only for transparent card
The loss of client signal (CSF GFP control frame) frame can be generated when the link between the client and the system is broken. The CSF can be detected at the far end.
NEW X
Flow Control from EOS to Ethernet WAN port
The Flow control (IEEE 802.3x, PAUSE) is always enabled from the EOS to the Ethernet WAN ports. The transparent Flow Control to the far end is disabled in default mode
NEW X
Input Rate Limiting on LAN port The frames that exceed the rate limiting will be buffered first; if the buffer is full the frames will be discarded. The granularity range is from 64kbps to 100Mbps for FE port, range is from
NEW X
Subscription mode NEW X
Broadcast Input Rate Limiting(BIRL)
It is possible to limit the broadcast (MAC frame) bit rate received. This function is a method to prevent the broadcast storming. The function can be enabled or
NEW X
Extended Ethernet IEEE802.3ac frame size support for IEEE802.1Q VLAN tag
Ethernet cards support 1800 bytes MTU size by default, but can be configured as 9600 bytesNote:
NEW X
Support of Jumbo Frames Support jumbo frames that are up to 9.6Kbytes long.Note:The 6xGE+4xFEGE/A card supports only 1800 bytes MTU
NEW X
Link aggregation on FE ports(a.k.a. port trunking)
IEEE 802.3 -2002 Clause 43. Both static configuration and dymanical negotiation (compliant with LACP protocol).
NEW X
Link aggregation on GE ports(a.k.a. port trunking)
IEEE 802.3 -2002 Clause 43. Both static configuration and dymanical negotiation (compliant with LACP protocol).
NEW X
Link aggregation on WAN ports(a.k.a. port trunking)
IEEE 802.3 -2002 Clause 43. Both static configuration and dymanical negotiation (compliant with LACP protocol).Both LAN and WAN port can support the function.
NEW X
ERP-Ethernet Ring Transparent NEW
Transparent LAN transport The system supports the transparent LAN transport mode. In this mode, one LAN port can be only connected to one dedicated WAN port.
NEW X
Enabling/disabling local transparent card's Ethernet LAN port connection according to remote transparent card's Ethernet link status
(1)It is done according to GFP_CSF defect information(2)Enabling/disabling can be set by operator, default is disabling.
NEW X
Enabling/disabling local transparent card's Ethernet LAN port connection according to SDH layer link status
(1)It is done according to TLCT defect information(2)Enabling/disabling can be set by operator, default is disabling.
NEW X
6.2 VLAN bridging functions
Seite 12 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
IEEE 802.1Q VLAN tagging/de-tagging, filtering and forwarding
NEW X
VLAN processing priority NEW X
Support of 4094 VLANs simultaneously The switch supports up to 4094 VLANs simultaneously. Each port (including WAN and LAN) can be in any one or many VLAN domains. 4070 active VLAN ID are available for customer.
PVID (port based VID) and the priority are provision able.The VID=1..4094 is supported
NEW X
Double Tagging NEW X
Priority set according to customer specified 802.1p value when double tagged
It is be possible to provision the Priority (0 to 7) for the frames to be double tagged.
NEW X
Priority set according to the same 802.1p priority value contained in incoming customer frame when double tagged
NEW X
Priority set according to the IPv4 TOS-precedence bits contained in incoming customer frame when double tagged
NEW X
Priority set according to the DiffServ (DS Field, 6 bit) value contained in incoming customer frame when
NEW X
The VLAN Tag protocol type in double tagging can be configured
Under double tagging Bridge mode, the VLAN Tag protocol type (i.e. Ethernet Type or TPID) of the Bridge can be configured, the default value is "0xFFFF". Note: The Ether Type (i.e. TPID) "0x8100" can also be configuared.
NEW X
Support of port based tunneling (1)The feature is available when the Bridge mode is set as "Double Tag" mode (2)Operator can enable/disable the "port based tunneling " function which is applied to each LAN/WAN port(3)The "port based tunneling" function can be enabled together with the "port
NEW X
Support of port plus VLAN based tunneling
(1)The feature is available when the Bridge mode is set as "Double Tag" mode (2)Operator can enable/disable the "port plus VLAN based tunneling " function which is applied to each LAN/WAN port(3)The "port plus VLAN based tunneling" function can be enabled together with
NEW X
Support of 8 CoS at the egress of LAN and WAN ports
NEW X
Scheduling Algorithm Scheme for transmission queue
Support of WFQ NEW X
Strict Policing Scheme for transmission
NEW X
Input rate limiting per VLAN per port The Input rate limiting can be configured per VLAN per port. The granularity range is from 128kbps to 100Mbps for FE port, from 128kbps to 1000Mbps for GE port. In step of 128kbps, default is full rateNote, (1)maximum 2k per card
NEW X
Interworking with IEEE802.1D/Q single Spanning Tree Protocol
NEW X
RSTP: Rapid reconfiguration Spanning Tree Protocol (via MSTP CIST mode)
This function will be implemented via MSTP CIST mode, it can interwork with RSTP netowrk both in LAN port and WAN port.Interworking with all ethernet card withing hiT70xx portfolio
NEW X
Rapid reconfiguration Spanning Tree Protocol with SDH layer triggers
On the top of the fast spanning tree protocol, the SDH alarm information (alams affecting traffic from SDH to Ethernet will be auto detected) is used as a trigger for updating the spanning tree, so as to shorten the convergence time.
NEW X
MSTP: Multiple Spanning Tree (Spanning Tree Protocol per VLAN-group)
NEW X
Support of GVRP GVRP (Generic VLAN Registration Protocol) to register/de-register the VLANs per IEEE 802.1Q.
NEW X
Seite 13 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
IGMP Snooping Support IGMP v1, IGMP v2 and IGMP v3 NEW X
GMRP NEW X
Support of VLAN Mapping/replacing NEW X
7.0 Tranditional L2 card Carrier Ethernet Features
NEW
7.1 MPLS
Support of MPLS switching based on static configuration
Note: only applied to 1x10GE+10xGE/L2 cardApplication:Router interconnect using L2 MPLS network (Routers can be connected to any
NEW X
8.0 Metro Ethernet Forum (MEF)
support of configurable CIR NEW X
support of configurable EIR NEW X
support of configurable PIR NEW X support of configurable CBS NEW X support of configurable EBS NEW X Colour blind/Colour aware NEW X10 SDH & PDH performance monitoring
10.1 General
Performance Event The following events are available to estimate the error performance of each monitored trail:SES, ES, BBE, AUS, UAP, PJE
NEW X
Performance Parameter Following SDH related PM parameters are supported: ES,SES,BBE,UAS,CSES,UAP, AU-PJCN, AU-PJCP
NEW X
Unavailable Period (UAP) Registers. Per performance monitoring point the 6 most recent periods of unavailable time are stored by means of pairs of time-stamps indicating the beginning and end of each period of unavailability.
NEW X
UAP counts Per performance monitoring point a count of the number unavailable periods over the last 24 hours is maintained for bi-directional performance monitoring applications.
NEW X
Seite 14 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
24 Hour Registers There are one current and one recent register for the Performance Data in L.100 (with exception of UAP data). Each register is time stamped and contains a suspect interval indication (this indicates that the duration of the interval is
NEW X
15 Minute Registers There are one current and 16 recent registers for the Performance Data in L.100 (with the exception of UAP data). Each register is time stamped and contains a suspect interval indication (this indicates that the duration of the interval is suspected of being unequal to 15 minutes). The 15 minutes intervals are aligned with the 24 hours intervals.
NEW X
TCA on 24 Hours Registers NEW X
TCA on 15 Minutes Registers NEW X
Fixed SES Declaration Threshold NEW X
SDH Near-End Error Uni-directional Performance Monitoring
For near-end error performance monitoring the parameters are counted from the incoming Error Detection Code (EDC) and defects on the basis of errored blocks (G.826). This type of performance monitoring is uni-directional and
NEW X
SDH Far-End Uni-directional Error Performance Monitoring
For far-end performance monitoring the parameters from M.501.x are counted from the incoming REI/RDI information. This type of performance monitoring is uni-directional and mainly for maintenance purposes.
NEW X
500 Monitor points maximum The node can support maximum simultaneously monitoring 500 points. Each point include near end data, far end data, 15min (16 or more recent registers), 24h (current and recent days). Each TP is counted as a point, and if VLAN or VPI
NEW X
HP NIM Higher Order and Lower Order NIM (Non intrusive Monitor) implementation will be compliant with ITU-T G.783 NIM version 1.
NEW X
LP NIM Higher Order and Lower Order NIM (Non intrusive Monitor) implementation will be complaint with ITU-T G.783 NIM version 1.
NEW X
10.2 VC-4/VC-3/VC-12 POH Level
VC-12 Trail Monitoring It is possible for the user to select any incoming VC-12 that is terminated in the network element to be subject to performance monitoring.
NEW X
VC-3 Trail Monitoring It is possible for the user to select any incoming VC-3 that is terminated in the network element to be subject to performance monitoring.
NEW X
VC-4 Trail Monitoring It is possible for the user to select any incoming VC-4 that is terminated in the network element to be subject to performance monitoring.
NEW X
10.3 STM-256/STM-64/STM-16/STM-4/STM-1 MS/RS/OS Level
STM-1 monitoring NEW X
RS Monitoring NEW X
MS Monitoring NEW X
Laser bias monitoring NEW X
Transmitted optical power NEW X
Received optical power NEW X
Transceiver temperature NEW X
STM-4 Monitoring NEW X
RS Monitoring NEW X
MS Monitoring NEW X
Laser bias monitoring NEW X
Transmitted optical power NEW X
Received optical power NEW X
Transceiver temperature NEW X
STM-16 monitoring NEW X
Laser bias monitoring NEW X
Transmitted optical power NEW X
Received optical power NEW X RS monitoring NEW X
MS monitoring NEW X
Transceiver temperature NEW X
Seite 15 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Cooled laser temperature (for DWDM SFP)
NEW X
TEC current (for DWDM SFP) NEW X
STM-64 monitoring NEW X
Laser Bias NEW X
Transmitted optical power NEW X
Received optical power NEW X
RS monitoring NEW X
MS monitoring NEW X
Transceiver temperature NEW X
10.4 PDH level
PDH 2Mbit/s (CRC) Monitoring NEW X
PDH E3/DS3 Monitoring NEW
2Mbit/s (retiming) monitoring NEW X
Support of PDH defect (LOS/AIS/LOF/RDI) of E1
NEW X
Support of PDH defect (LOS/AIS/LOF/RDI) of E3/DS3
NEW
11 Synchronization
TDM Synchronization NEW X
Two external synchronization inputs at framed 2Mbit/s, unframed 2Mbit/s or 2 MHz.
The system provides two input connection points for synchronization purposes, as 2 MHz, or 2 Mb/s. The 2 Mb/s signal format is 2048 kbit/s according to G.703-6. The signal can be either framed according to G.704 or unframed. The impedance of the interfaces can be configured as 75ohm.
NEW X
Two external synchronization outputs at framed 2Mbit/s or unframed 2Mbit/s or 2MHz
The system provides two external synchronization outputs for synchronization purposes, optionally as framed or unframed 2Mbit/s or 2MHz.The sourcing of these two external outputs is one timing reference or system clock and independent of the system clock reference selection.
NEW X
Synchronization source degrade and reference failure declaration
NEW X
G.813 Stratum-3 Option 1 local clock The system is equipped with an internal clock according to ITU-T recommendation G.813 Option 1 with the Stratum-3 (GB/T15941-95) hold-over requirement of the frequency stability of 0.37ppm (environment temperature between 20C~30C) over the first 24 hour holdover period.Under free-running conditions, the SEC output frequency accuracy should not be greater than 4.6 ppm with regard to a reference traceable to a G.811 clock
NEW X
Auto Selection Operation Comply with Figure 23 in ITU-T G.781 standard. NEW X
Free Running Mode The system will enter free running mode by using the internal oscillator instead of using any other external reference signal or stored frequency data. This can only happen if the system has never locked to a reference after power up/reboot.The system clock meets the requirement of G.813 Stratum 3 Option 1, the internal oscillator accuracy should be within +/- 4.6 ppm for at least one-month continuous testing time. It will be displayed as "Freerun" status.
NEW X
Hold-over mode Under this mode, the system is running based on the stored frequency data of the last available valid reference. And G813 Stratum-3 Option 1 SEC (0B) is send out.
NEW X
Locked Mode The operator can fix the system running with one of the synchronization input signals. They are:The external synchronization input
NEW X
Forced Freerun Operation NEW X
Forced Holdover Operation NEW X
Seite 16 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
System clock selection from synchronization reference sources
All external synchronization inputs (station inputs), STM-N recovered clocks and the E1 recovered clocks, can be selected as synchronization references.
For PDH and SDH card except E3/DS3 card, any port can be used as candidate timing reference; but for each card, maximum four ports can be selected as system timing sources.
The maximum total selected timing source number of per NE is 8, and these selected eight timing sources can support frequency bias detection.
The selection and switching can be manually via EMS or automatically via SSM switching algorithm and other failure conditions. Priority designations and manual switching is described in the requirement document.
NEW X
Station clock output selection NEW X
Timing loop prevention NEW X
Support of SSM Switching Algorithm Automatic protection switching between the references that are available to timing link switches for the internal oscillator is supported. The switching algorithm is according to G.781. The algorithm acts on those inputs, which are assigned by the user to participate and to which the user can assign a certain priority. The SSM algorithm can be turned off. In that case only the assigned priorities are considered to determine the active reference.
NEW X
SSM Value can be forced to assign to all available synchronization reference input and output
The user can assign any valid SSM value (overriding the received SSM, if any) to any synchronization reference input signal that can be made available to the SSM selection algorithm.
NEW X
Overriding the outgoing SSM value with DNU
The user can force each individual outgoing SSM value (overriding the SSM computed by the algorithm) to the value DNU (Do not use for synchronization.)
NEW X
Wait-to-Restore timer for Timing link switch
NEW X
Synchronization Event supported NEW X
11.1 Synchronization Ethernet- comply with ITU-T G.8262
Synchronous Ethernet- comply with ITU-T G.8262
NEW
Synchronous Ethernet Master clock capability: For all ports for all CE Line cards???
NEW
Synchronous Ethernet Clock Recovery capability: For all ports for all CE Line Cards
NEW
Synchronous Ethernet Work with Clock Unit for clock redundancy
NEW
Synchronous Ethernet SSM (SDH/SONET clocking) for clock quality addvertisment/reading (Future)
NEW
Work end to end SyncETH with Siemens MSAN
NEW
11.2 Clocking distribution
clock distribution for all ports NEW
clock Redundancy NEW
Internal clock unit with redundancy NEW
External clock feed NEW
In band clock feeding NEW
11.3 IEEE 1588 support
13 Protection and Redundancy
13.1 System High Availability
System Availability - 99.999% up time NEW X
Seite 17 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
HSO (Hot Switch Over) for SC cards - TDM traffic should be hitless
Topology change or any new event in the network can be ignored and not handled during HSO init time Switch performance for application on system controller:(1). EPG switching interval during HSO will be less than 500ms,without traffic impact.(2). DCN: DCN connection should not be down. Note: TCP connection will be down. SNMP connection (UDP based) should not be down.(3). GMPLS Controller switching time: based on FT requirement.
NEW X
HSO: Management via CLI and SNMP: get/read outage 500mSec; set/write - 10sec
NEW X
HSO, ISSU for SFC and CE line cards: forwarding traffic outage (SFC, SFM, LIC) - 10mSec
NEW
ISSU for SFC and CE line cards.ISSU upgrade from any to any release including NP and drivers code
NEW
ISSU for SFC and CE line cards.ISSU upgrade from any to any release Remote downgrade to any release
NEW
13.2 Reliability & Protection
13.3 Equipment Protection
Yes Equipment NEW X
1+1 Power Unit protection NEW X
1+1 FAN Tray protection NEW X
1+1 CC and Timing protection The CC and Timing functions are 1+1 protected NEW X
Hitless HO CC switching on operator command
NEW X
Hit time of STM-N traffic affected should be less than 6ms when 1+1 Lower Order CC switching on operator
NEW X
1:1 SC protection NEW X
1:N(N
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Extra Traffic The Extra traffic can be supported by the MS-SPRing.Note: (1)The implementation of last three bits of K2 byte used for Extra traffic (MS-SPRing) will be compliant with ITU-T G.841 standard(in G.841, when the 6-8 bits of K2 byte is 011, it means there is extra traffic on the protection channel).(2)the extra traffic can not interwork with products which releases are equal or earlier than 7060 R3.3/R4.0, 7060HC R3.2, 7020 R3.2, 7030 R3.4;
NEW X
Card failure as a switching condition NEW X
Exercise command NEW X
Auto Squelch function can be enabled or disabled by operator, default is enabled. When auto sequelch is
NEW X
50ms switch completion time for multiple MS-SPRing groups
NEW X
13.4.2 MSP Compliant with ITU-T G.841. NEW X
MSP on STM-1 Optical interfaces The system shall support MSP on each pair of STM-1 interface protection pairs.1+1 unidirectional/bidirectional revertive/non-revertive MSP shall be supported.The protection pair can be constructed by any two STM-1 ports in the system, no matter there are on a card or two cards wherever the cards are inserted.External commands are supported (force switch, manual switch, lockout, clear)
NEW X
MSP on STM-4 Optical interfaces Between the two STM-4 optical interfaces, the user can set up a 1+1 MSP protection relation. The uni-directional/bidirectional protection switching can be configured revertive or non-revertive. Forced, manual and lock-out commands are supported.
The MSP implementation is compliant with ITU-T G.841/Clause 7.1 (Annex A)/G.783 . External commands are supported (force switch, manual swtich, lockout, clear)
The protection pair can be constructed by any two STM-4 ports in the system, no matter there are on a card or two cards wherever the cards are inserted.
NEW X
MSP on STM-16 Optical interfaces The system shall support MSP on each pair of STM-16 interface protection pairs.1+1 unidirectional/bidirectional revertive/non-revertive MSP shall be supported.The protection pair can be constructed by any two STM-16 ports in the system, no matter there are on a card or two cards wherever the cards are inserted.
NEW X
MSP on STM-64 Optical interfaces The system shall support MSP on each pair of STM-64 interface protection pairs.1+1 unidirectional/bidirectional revertive/non-revertive MSP shall be supported.The protection pair can be constructed by any two STM-64 ports in the system.
NEW X
MSP on STM-1 SFP based Electrical interfaces
The system shall support MSP on each pair of STM-1 SFP based electrical interface protection pairs.1+1 unidirectional/bidirectional revertive/non-revertive MSP shall be supported.The protection pair can be constructed by any two STM-1 ports in the system, no matter there are on a card or two cards wherever the cards are inserted.
MSP and EPG can not be configured simultaneously.
NEW X
MSP on STM-1 pure Electrical interfaces
The system shall support MSP on each pair of STM-1 pure eletrical interface protection pairs.1+1 unidirectional/bidirectional revertive/non-revertive MSP shall be supported.The protection pair can be constructed by any two STM-1 ports in the system, no matter there are on a card or two cards wherever the cards are inserted.
MSP and EPG can not be configured simultaneously.
NEW X
Seite 19 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
MSP on OTU-2 Optical interfaces The system shall support MSP on each pair of OTU-2 interface protection pairs.1+1 unidirectional/bidirectional revertive/non-revertive MSP and 1:N bidirectional revertive MSP shall be supported.The protection pair can be constructed by any two OTU-2 ports in the system.
NEW
MSP behavior acc. To ITU-T G.783, G.806 and G. 841
NEW X
1+1 unidirectional/bidirectional revertive/non-revertive MSP
NEW X
50ms switch completion time for multiple MSP groups
NEW X
1:N bidirectional revertive MSP on STM-1/4/16/64
NEW X
13.4.3 SNCP NEW X
VC-4-mv HO path protection (1+1): Individual switching
NEW X
VC-3-mv LO path protection (1+1): Individual switching
NEW X
VC-12-mv LO path protection (1+1): Individual switching
NEW X
HO SNCP/I (VC-4) compliant with G.841 and G.783 NEW X
HO SNCP/I (VC-4-4c) compliant with G.841 and G.783 NEW X
HO SNCP/I (VC-4-16c) compliant with G.841 and G.783 NEW X
HO SNCP/I (VC-4-64c) compliant with G.841 and G.783 NEW X
LO SNCP/I (VC-12) compliant with G.841 and G.783 NEW X
LO SNCP/I (VC-3) compliant with G.841 and G.783 NEW X
HO SNCP/N (VC-4) compliant with G.841 and G.783 NEW X
HO SNCP/N (VC-4-4c) compliant with G.841 and G.783 NEW X
HO SNCP/N (VC-4-16c) compliant with G.841 and G.783 NEW X
HO SNCP/N (VC-4-64c) compliant with G.841 and G.783 NEW X
LO SNCP/N (VC-12) compliant with G.841 and G.783 NEW X
LO SNCP/N (VC-3) compliant with G.841 and G.783 NEW X
SNCP behavior acc. To ITU-T G.783, G.806 and G. 841
NEW X
50ms switch completion time for multiple LO SNCP groups
NEW X
50ms switch completion time for multiple HO SNCP groups
NEW X
Provision-able Hold-off time for VC-N (N=3, 12) SNCP
range is 0~10s.Note:Because of chip restrictions, the hold-off timer and wait to restore timer of
NEW X
Provision-able hold-off time for VC-N (N=4, 4-4c, 4-16c)
range is 0~10s, in steps of 100ms NEW X
Both bidirectional and unidirectional subnetwork connections are supported
NEW X
13.4.4 DNI
Two-node DNI between SNCP and MS-SPRing
The system supports the Dual Node Inter-working scheme between a Ring with (HO) SNC protected sub-networks and an MS-SPRing according to ITU-T G.842.
NEW
Two-node DNI between two MS-SPRings
The system supports the DNI scheme between two MS-SPRings according to ITU-T G.842.
NEW
DRI between SNCP and MS-SPRing(DRI Dual Ring Inter-working)
For DRI, any one of the two DRI interworking nodes belongs to both rings. DRI is a special variant of DNI, and not specified in ITU-T G.842.
NEW
DRI between two MS-SPRings For DRI, any one of the two DRI interworking nodes belongs to both rings. DRI is a special variant of DNI, and not specified in ITU-T G.842.
NEW
Seite 20 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
DRI between two SNCP Rings NEW
Two-node DNI between SNCP and SNCP
NEW
13.4.5 LCAS NEW X
LCAS protection for VC-4-Xv NEW X
LCAS protection for VC-12-Xv NEW X
LCAS protection for VC-3-Xv NEW X
LCAS implementation according to G.7042 (VC-12, VC-3, VC-4) for GFP-F
NEW X
LCAS implementation according to G.7042 (VC-3, VC-4) for GFP-T
GFP-T mapping on the first two ports of 8xGE/T card which support FC NEW X
Add and remove VCs to/from VC groups without traffic interruption
NEW X
14 Transmission Interface NEW X
14.1 PDH and SDH Interface, OA and WDM optics, FC
NEW X
E1: 2Mbit/s asynchronous mapping, TS0 transparent
Interface at 2048 kbit/s 50 ppm, HDB3 coded and conforming to G.703-6, asynchronously mapped via VC-12 in TU-12. TS-0 passes through transparently.
NEW X
14.1.1 E1 card w/protection NEW X
126 E1 ports per card The function card provides 126 ports, and it can be accompanied by the corresponding IO card (each IO card can provide 21 interface, so one 126xE1 function card can support six IO cards)System can provide 1:N (N
-
CFL
CFL chapter Name Customer Description
5.0 5.1
L-1.1 SFP NEW X
L-1.2 SFP NEW X
L-1.3 SFP NEW X
V-1.2 SFP NEW X
20km BIDI STM-1 SFP BIDI SFP is used for single fiber bi-directinal transmission. It should be used in pairs.The one is Tx: 1260nm~1360nm/ Rx: 1480nm~1580nm;The other is Tx: 1480nm~1580nm/ Rx: 1260nm~1360nm
NEW X
ALS on STM-1 interfaces NEW X
STM-4 SFP interfaces NEW X
S-4.1 SFP NEW X
L-4.1 SFP NEW X
L-4.2 SFP NEW X
L-4.3 SFP NEW X
V-4.2 SFP NEW X
BIDI STM-4 SFP NEW X
ALS on STM-4 interfaces NEW X
STM-16 SFP interfaces NEW X
S-16.1 SFP NEW X
L-16.1 SFP NEW X
L-16.2 SFP NEW X
L-16.3 SFP NEW X
DWDM 2.5G SFP DWDM Wavelength option: 191.7T Hz~196.0T Hz, grid is 100G Hz NEW X
CWDM 2.5G SFP NEW X
2.5G BIDI SFP NEW X
120km STM-16 transmission solution NEW X
160km STM-16 transmission solution NEW X
180km STM-16 transmission solution NEW X
ALS on STM-16 interfaces NEW X
STM-64
ALS on STM-64 interfaces NEW X
2km STM-64 XFP NEW X
10km STM-64 XFP NEW X
40km STM-64 XFP NEW X
80km STM-64 XFP NEW X
40KM DWDM XFP NEW X
80KM DWDM XFP NEW X
120KM XFP NEW X
SFP electrical modules
STM-1 electrical SFP interfaces. NEW X
Seite 22 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Mix of optical and electrical STM-1 interfaces individually on a per-port basis on the same board
NEW X
14.2 TDM Interface Performance
Jitter and Wander ITU-T compliant Jitter and wander tolerance, transfer and production are according to ITU-T Recommendations G.783, G.813 (option 1), G.823, G.824, G.958 and G.825.
NEW X
Robustness according to G.703 All electrical transmission, synchronization and management interfaces conform to over-voltage and signal immunity levels as laid down in ITU-T Recommendation G.703
NEW X
Robustness according to K.20 (original K.41)
All electrical transmission and synchronization interfaces conform to over-voltage and signal immunity levels as laid down in ITU-T Recommendation K.41.
NEW X
Error performance for customer test The system Optical and electrical interface operates error free under worst-case environmental conditions, with the input signals in the middle of their allowed signal strength range, for at least one period of 24 hours out of two consecutive periods of 24 hours.
NEW X
VC-4/3/12 Transfer Delay Performance Maximum transfer delay for a VC-4/VC-3/VC-12 payload between two STM-N ports both operating in AU-4 mode is less than 75us.
NEW X
2Mbit/s Transfer Delay performance Max transfer delay (transit time) of a 2 Mbit/s signal from 2 Mbit/s interface, through the system, looped back via an STM-N interface, back to the 2 Mbit/s interface, depends on the mapping method:Byte synchronous mapping: 120 usAsynchronous mapping: 100 us
NEW X
14.3 Data interface
electrical GE SFP connector for each one of 10/100/1000M interfaces
NEW X
14.3.1 1000Base-X interface
SFP module for 1000Base-X interfaces with LC connector
NEW X
ALS on 1000Base-X optical interfaces NEW X
Optical Bias Current monitoring NEW X
Optical Received Power monitoring NEW X
Optical Transmitting Power Monitoring NEW X
Optical module temperature Monitoring
NEW X
14.3.2 10GE interface NEW X
XFP module for 10GE interfaces NEW X
ALS on 10GE optical interface NEW X
Optical Bias Current monitoring NEW X
Optical Received Power monitoring NEW X
Optical Transmitting Power Monitoring NEW X
Optical module temperature Monitoring
NEW X
14.3.3 Electrical GE SFP interface Flow control of electrical GE SFP is supported:1x10GE+10xGE/L2 card: 10M/100M/1000M speed auto-negotiation is supported
NEW X
1000Base-SX GE/1G FC SFP 850nm;500m distance for 50um MMF220m distance for 62.5um MMF
NEW X
1000Base-LX GE/1G FC SFP NEW X
40km GE/1G FC SFP NEW X
80km GE/1G FC SFP NEW X
10km BIDI GE SFP NEW X
850nm 10GE MM XFP NEW X
10km 10GE XFP NEW X
Seite 23 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
40km 10GE XFP NEW X
80km 10GE XFP NEW X
14.3.4 FC (Fiber Channel) interface NEW X
2 ports 1G Fiber Channel interface per card (the first two ports on 8xGE/T card)
NEW X
14.4 System Interfaces
Management port There are two 10/100Base-T auto-sensing RJ-45 connectors with a green status LED for SNM and LCT connection.
NEW X
Console port A DB9 connector is used as CLI connection. It is located on the SC card. NEW X
Alarm outputs One RJ45 interface is used for Station Alarm output. The interface offers 4 hard contacts, which can be used to extend the alarm signals from the system to the station alarm scheme. The first hard contact is for CR/MJ audible output, the second is for CR/MJ visible output,the third is for MN audible output, the fourth is for MN visible outputThe warning and indeterminate alarms wont activate the contacts.
ALM range:The interfaces are supplied by external power. The maximum allowable voltage must correspond to the SELV voltage limits
-
CFL
CFL chapter Name Customer Description
5.0 5.1
System Date and Time NEW X
System Identifier NEW X
Labeling of System NEW X
LED test NEW X
Self-Diagnostic NEW X
On-Demand diagnostics NEW X
15.2 TDM Test and Diagnostic
Outward E1 signal loopback NEW X
Inward E1 signal loopback NEW X
Outward E3/DS3 signal loopback NEW
Inward E3/DS3 signal loopback NEW
Outward STM-1/4/16/64 optical signal loopback
NEW X
Inward STM-1/4/16/64 optical signal loopback
NEW X
Outward STM-1e signal loopback NEW X
Inward STM-1e signal loopback NEW X
Inward loopback test on LAN port of transparent Ethernet card
NEW X
Thermal Sensor detect the overheating NEW X
PRBS for PDH port NEW X
Out Forced AU-AIS NEW X
In Forced AU-AIS NEW X
Out Forced TU-AIS NEW X
In Forced TU-AIS NEW X
Forced RDI NEW X
15.3 Operation
Auto-initialization of System NEW X
16 Network Element Management
16.1 Network Element Control
The changing of node info should not affect other function
Node information include : node IP, management IP, label , and so on.Other function includes: DCC normal work including layer 1, layer 2 and layer 3. Customer no need to do additional configuration on NE. Note that MS SPRing Auto Mapping and Auto Squelch function does not work after node IP change. Operator must reconfigure these two parts after IP change.
NEW X
Robustness of Network Element Software
NEW X
Seite 25 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Modular NE Software design NEW X
NE version in-service upgradeable via downloading
There are 2 steps involved when talking about upgrade: 1) NE has the capability to upgrade the internal embedded software via online downloading from Network Management System. The downloading protocol used is FTP/SFTP. 2) SW upgrade - NE will boot with the new download SW load. During the upgrade process, NE should converting database. This issue will require to support for DB schema updates and conversions.
NEW X
Failed System Controller is not service-affecting
For SDH/PDH service, always no service affectedFor L2 card, data service, if the topology and protocol state machine are not changed after the system controller is failed, no service affected, otherwise frame loss may happen because protocol and state machine updating needs system controller.SC fail not affect TDM traffic. In R5.1, If two SFC controllers fail, CE traffic may be blocked.
NEW X
Warm reboot system is not service-affecting for PDH/SDH
For SDH/PDH service, always no service affected NEW X
NE Database Backup NEW X
Restore of NE Database Backup File NEW X
DB Persistency - System DB is automatically saved in flash
NEW X
Two Software Image storage The NE element stores two images of embedded software, one active and one backup. These two images can be different. During the upgrade, new software is downloaded into the backup area, and then activated with a command.
NEW X
Manual switch over to new SW. NEW X
Manual switch back to the last committed SW version
NEW X
Configuration Database file failure recovery mechanism
NEW X
Retrieval of all historical configuration log entries
NEW X
Manual reset of configuration log NEW X
Multiple MAC address needed: Unique MAC address for each system controller
NEW X
Multiple IP address are needed For extension shelf (hiT7035), it has it's own IP address for DCN network planning usage
NEW X
Extension Shelf solution:(1) using hiT7035 Ext
Using hiT7035 as Extension Shelf, the solution is based on Network Management SystemNote:(1)physical connection between Main NE and Extension Shelf is via external fiber(2)there are two STM-4 port connections between Main NE and Extension Shelf.Any two STM-4 ports of Main NE can be used as connection port, while two connection ports on Extension Shelf are fixed(3)the protection between Main NE and Extension Shelf is based on 1+1 STM-4 MSP(4)each Extension Shelf can extend 252 protected (1:4) E1 traffic
NEW X
NE cold reboot supported NEW X
NE warm reboot supported NEW X
Card cold reboot supported NEW X
Card warm reboot supported NEW X
Manually NE shutdown operation NEW X
Error messages must be easy to read and self-explanatory
NEW X
Inquire S/W version for CE line card NEW
Inquire main controller S/W version NEW X
Remote Inventory Data NEW
Automatic detection of SFPs capabilites
NEW X
Physical indication of unique slots NEW
Seite 26 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Node auto-discovery NEW X
SNMP last error NEW
Add XML export to task management NEW
VOIP EOW based on DCC NEW X
EOW over E1/E2 NEW X
Own DCC transparency via existing networks
NEW X
Third party DCC transparency via the NE
NEW X
System Event Log NEW X
Support of trap notification NEW X
16.2 CLI Functionalities
CLI There are two parts of CLI:(1)One is for TDM and Traditional layer2 (2)The other is for Carrier Ethernet and NE general configuration
NEW X
CLI for Carrier Ethernet and NE general - Juniper like
NEW
Access protocol RS232, Telnet/SSHv2 NEW X
The maximum number of concurrent CLI/SNMP sessions up to 10- it should be configurable with maximum of 20
NEW X
Number of admin levels 16 : root/read only/ modify privilege for CLI?
NEW
User friendliness NEW
fast config On first power on the system, assuming that there is no prior configuration stored in the nonvolatile RAM (NVRAM), the system enters the Initial Configuration dialog box. The Initial Configuration dialog box is a menu system that assists you in applying basic/ mandatory fields' configuration on the device. We should provide default values for as much parameter as we can. The user can use Ctrl+Z to break out of the Initial Configuration dialog box. (e.g. IP addresses, port definition etc.)
NEW
Restore to factory defaults NEW X
Restore defaults values per category, e.g. MPLS, PBT
NEW
Using the Question Mark (?) to View On-Screen Command Help
NEW
Completing a Partial Command with the Tab Key
NEW
Identifying and validation of Command Syntax Errors and parametr's values
NEW
Editing Command Lines that Wrap NEW
Continue Display Output at the --More-- Prompt
NEW
Redirect Output to a File By default, CLI command output is displayed on screen. CLI command output can be redirected to a user-specified file by entering a filename and location.Record the CLI command output that is shown on the screen. When type a command, the NE return results will not be display on the screen, but send it to the file.
NEW
Seite 27 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Using Wild Cards to Display All Instances of an Interface
NEW
Filtering show Command Output NEW
Adding a Filter at the --More-- Prompt NEW
Aliases NEW
Keystrokes Used as Command Aliases NEW
Command History NEW
Transpose Mistyped Characters NEW
Multi entities bulk configuration e.g. Vlans, ports etc.(mass config)
NEW
Two phase commit NEW
Scripts, exec and macros NEW
Customized view NEW
Network features
Support Ping and trace-route Initiate ping and response to ping, and initate tracing NEW
Telnet in and Telnet out according to security configurationSupport Telnet out i.e. initiate telnet from NE. Create CLI sessions from the one NE CLI
NEW
Trap generation with OID for every CLI command (to update NMS/EMS with the new configuration)
NEW
Special features
Download/upload configuration with offline configuration capabilities (FTP/SFTP) with secured protocol
NEW
Ability to view alarms by CLI NEW
Support audit trails for management operations
NEW
All Bazuka features NEW
Resource Monitoring NEW X
CLI support of displaying "show running config" with all configurations.
NEW
Enhanced statistics NEW
interface between management and NE for downloading file to local host CSV (comma separated value) format support in the NE for PM History etc..
NEW
CLI Menu's language support: English only
NEW X
CLI/SNMP synchronization NEW X
Timeout in seconds for a CLI command to complete: 180s
NEW X
Timeout in seconds to get the next prompt in Telnet session: 60s
NEW X
Show FDB in CLI / EMS NEW
Misc
Support hard break during boot via consol port
16.3 Licensing NEW
Seite 28 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Key Generation in an external tool NEW
Key generation should be done for n nodes
NEW
Key Validation should be in external tool and in the NE
NEW
Key generation structure should contain description
NEW
Key generation should contain NE SID serial number
NEW
Key generation according to bundle of features (and not according to release name)
NEW
Upgrade from version x to x+1 does not require key change
NEW
Key download using EMS NEW
Key download using CLI NEW
Licensing mechanism is capable of using one key for a bundle of features
NEW
Feature bundle can be set to on/off according to key.
NEW
Separate key for NE scale 1.44T, 720G, 320G
NEW
NE will support license which is non-time-limited
NEW
NE will support license which is time-limited
NEW
When time-limit expires an alarm is raised saying license is expired
NEW
NE will support features without licenses
NEW
Enable disable lisence mechanism based on password
NEW
after enable the NE returns to before "disable-license" stage
NEW
17 DCN
Physical Interfaces (Layer 1)
17.1 Physical Interfaces (Layer 1) for TDM
MS-DCC channel switched together with MSP (both 1+1 and 1:N) protection switching
NEW X
HCOC9/27 channel switched together with MSP (both 1+1 and 1:N) protection switching
NEW X
DCCr and DCCm and HCOC can be enabled/used simultaneously
Each DCCr or DCCm or HCOC can be selected to apply any one of following protocol separately,DCCr and DCCm and HCOC can be enabled/used simultaneously:(1)PPP/OSPF(2)LAPD/OSI-light(3)GRE Tunnel(4)GRE Bypass
NEW X
RS-232 (only used for CLI access, not applied to LCT/Network Management System)
NEW X
10/100/1000 Base-T Ethernet acc. to IEEE 802.3 for LCT and Network Management System
NEW X
Seite 29 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
ECC (Embedded Communication Channel): DCCr (192 Kbit/s) / DCCm (576 Kbit/s)
NEW X
High Capacity Overhead Channel (HCOC), n x 64kbit/s; n=9,27
1.For each STM-N card, 2 ports can be selected as the HCOC27 channel.2.For each NE, up to 4 HCOC27 will be supported (at the same time, 24 HCOC9 shall be supported)3.For each NE, up to 36 HCOC9 will be supported (when HCOC27 is not used)4.Besides the above HCOC channels used, at the same time, per NE 96 traditional DCC channels (i.e. DCCr+DCCm, can be supported)
The HCOC channel can be used as:(1)high speed user channel (instead of standard F1 channel)(2)high speed "DCC" channelNote:(1)The HCOC need to be cross-connected via OHCC matrix.(2)HCOC can be enabled simultaneouly together either with RS-DCC or MS-DCC(3)High speed user channel can be transparent via OHCC matrix(4)HCOC can be used for PPP/OSPF(Any parallel links (HCOC or combinations of DCC and HCOC) can be bundeled to a single channel with the bandwidth of all channels by Multilink PPP), LAPD/OSI,GRE tunnel, GRE Bypass, GMPLS(5)HCOC3 is not supported by hiT7080(6)Only group1 of HCOC9 will be supported in hiT7080
NEW X
Signal coding NRZ for optical STM-1/4/16/64 port
NEW X
Signal coding CMI for STM-1 electrical port
NEW X
At the beginning of a service/maintenance action start of local communication with console CLI,
NEW X
At the beginning of a service/maintenance action start of local communication with LCT, must
NEW X
17.2 Physical Interfaces (Layer 1) for CE
User configurable remote test loop NEW
Out band V.90/92 NEW
In band traffic acc. to 802.3ah plus enterprise extensions
NEW
In band traffic from any interface (not applied to tranditional transparent card.)
NEW
In band traffic is in high Class (Guaranteed)
NEW
In Band Forwarding of control traffic NEW
Seite 30 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
In Band mng&ctrl LDP NEW
In Band mng&ctrl Support for IP fragmentation
NEW
In band management via dedicated VPLS instance
NEW
Port mirroring NEW
ETH-RDI (remote debugging interface) NEW
Ethernet DCN for CE line card NEW
17.3 Data Link Protocols (Layer 2)
17.3.1 Data Link Protocols (Layer 2) for TDM
PPP over DCC channels for IP DCN When both DCCr, DCCm and/or HCOC of one NE are selected to apply PPP protocol, and both of the connected peer NEs IP address are same,and the related PPP status is up, then DCCr, DCCm and/or HCOC will be combined into one whole multiple link PPP bundled DCC channel automatically
NEW X
LAPD over DCC channels for OSI-light protocol stack
NEW X
Configurable LAPD parameters NEW X
17.3.2 Data Link Protocols (Layer 2) for CE
In band management via dedicated VLAN instance - at least 3 VLAN for DCN
NEW
17.3.3 Network Layer Protocols (Layer 3)
Static IP routing acc. To RFC791 (IP protocol)
NEW X
Dynamic IP routing with OSPFv2 acc. To RFC2328
NEW X
For each NE, support of 32 OSPF areas maximum
NEW X
Support of route summary NEW X
Support of ABR NEW X
Support of ASBR NEW X
Support of DR and BDR NEW X
Forwarding IP packets according to IP priority
NEW X
Loop back IP address NEW X
Seite 31 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
RFC 792 ICMP NEW X
Dynamic ARP NEW X
Routing In-band and out of band interfaces
NEW X
Network Layer Protocols (Layer 3) for TDM & Tran. L2
OSI-light protocol stack with ES-IS and CLNP configuration
NEW X
Configurable access and support of 2 OSI-light DCCs.
NEW X
IP tunneling (IP traffic over OSI-light) NEW X
OSPF protocol used for IP routing over DCC (via PPP)
NEW X
OSPF protocol used for IP routing over DCC (via OSI-light)
NEW X
LAPD encapsulation into GRE (OSI over IP)
NEW X
GRE tunnel (OSI traffic over IP) NEW X
GRE tunnel (IP over IP) acc. To RFC2784
NEW
GRE Bypass (software DCC transparency)
NEW X
GRE Keep Alive NEW X
IP Ping NEW X
IP Trace Route NEW X
OSPF authentication NEW
Ipsec NEW
Network Layer Protocols (Layer 3) for CE
IS-IS support for DCN NEW
Support up to 3 different rounting instances per IP network - base on Virtual routing forwarding
DCN IP v4 packets must be forwarded in HW for CE line card
NEW
security issues for limited attacks and limited CPU utilization
NEW
17.3.4 Transport Layer Protocols (Layer 4)
TCP NEW X
UDP NEW X17.3.5 Application Layer Protocols (Layer 5-7)
SNMP version 3 NEW X
FTP for Configuration DB and software download
NEW X
SFTP for Configuration DB and software download
NEW X
Telnet for CLI interface access NEW X
17.3.6 Network Element Management
Management Framework NEW X
Login from remote system NEW X
Operator can set NE to synchronize time clock from remote NTP server
NEW X
Support of NE write access control mechanism
NEW X
17.4 Alarm, Fault, Event management
Seite 32 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Reported alarm contents The contents of the alarms reported by the NE include the following fields:Alarm descriptionAlarm severity levels: Critical, Major, Minor, Warning.Alarm categories: Communication, Quality of Service, Equipment, Processing Error, and Environmental Failures.Time stamp: The time when the alarm event is generated or clearedAlarm entity: the managed object that generates the reported alarmAlarm status: Active or clearedAlarm acknowledgement status: Acknowledged, Not Acknowledged.
NEW X
Alarm Monitoring NEW X
Support of configurable alarm persistent time
NEW X
Alarm analysis NEW X
Alarm processing and reporting NEW X
Alarm Log Each network element is capable of storing 5000 alarm records. NEW X
External Event management and Alarm report
NEW X
Disable/enable alarm reporting based on alarm type
NEW X
Manual reset of entire historical alarm log.
Clear the historical alarm log. NEW X
The severity of the alarm should be adjustable.
NMS will determine the severity. NEW X
NE-Network Management System connectivity check
NMS: Polling mechanism, the polling time is adjustable. SNMP Ping packets are used to do connectivity check; triggered by Network Management System.NE: NE will check the "write access" time to check if the NMS is existed, for detail, please refer to .
NEW X
17.5 Alarm, Fault, Event management for TDM & Tran. L2
Support of enabling/disabling TIMAISdis
NEW X
Support of enabling/disabling RS-LOF reporting switch
NEW X
Support of enabling/disabling TU-LOP reporting switch
NEW X
Support of enabling/disabling TU-LOM reporting switch
NEW X
AIS alarm inhibit based on per NE NEW X
AIS alarm inhibit based on per TP NEW X
RDI alarm inhibit based on per NE NEW X
RDI alarm inhibit based on per TP NEW X
Alarm inhibit based on NE NEW X
Alarm inhibit based on port NEW X
Alarm inhibit based on card NEW X
17.6 Alarm, Fault, Event management for CE
For every event (status change) which can be reported by means of a trap, the following configurable possibilities must exist: 1)A trap is generated 2)A trap is not generated3)It should be possible to set trap and alarm generation individually for each interface4)Alarms are triggered/not triggered5)No status change traps are triggered/not triggered
NEW
Seite 33 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Traps and alarms should first be generated when a situation which requires reporting is present throughout an adjustable integration time ranging from 1 s to 1 min. If the situation which requires reporting ceases to exist within the integration time, no
NEW
It should be possible to block the generation of spontaneous alarm reports:1) Individually for each alarm2) For the entire network element
NEW
Keep persistent link information (between two ports)
NEW
Perform basic alarm correlation based on link
NEW
Show labels in Alarm list window and NBI
NEW
17,7 Performance & Traffic Related Alarms NEW
Link state Up/Down NEW
Resource threshold NEW
Topology discovery fault NEW
Alarm Event Filtering NEW
Filter outgoing alarms acc. to precedence
NEW
Alarm Thresholds NEW
Threshold for traffic counters and resource status
NEW
Equipment Related Fault Types NEW
NE fault NEW
NE component fault should be reported
NEW
External PSU failure alarm NEW
17.8 Performance Management
Performance monitoring functions Network Element is capable of providing performance event counts defined elsewhere for all PM objects including RS, MS, VC levels and Data related. Any PM parameter contained in an PM object can be chosen to do the following functions:Start 15-min/24-hour/5s(only applied to Ethernet) performance monitoringStop 15-min/24-hour/5s(only applied to Ethernet) performance monitoringQuery 15-min/24-hour/5s(only applied to Ethernet) performance monitoring status
NEW X
Seite 34 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Timestamp of performance data NEW X
Support of inquiring current performance data
NEW X
Spontaneous reporting of current performance data
NEW X
Support of inquiring history performance data
NEW X
The NE shall support the following intervals: 96 intervals x 15 minutes and 3 intervals x 24 hours
NEW X
24-hour intervals begin and end at 00:00 of each day
NEW X
PM Threshold Setting NEW X
TDM function will use 32 bits counter.Most of the Data TCA and current counters require NE's support for 64 bits. The NE must be able to count the
NEW X
17.9 Tranditional Data Performance Monitoring
Accounting parameters on the port basis
Maximum Ethernet related PM points are 100 per NE. NEW X
Accounting per port per VLAN basis Maximum Ethernet related PM points are 100 per NE. NEW X
15 minutes Registers The accounting parameters shall be stored in 15 minutes registers in the NE to be queried.The NE shall store the last 16 15-minute interval values and the current accumulating 15-minute interval values.
NEW X
24 hours Registers The NE shall support the last 24 hour statistic data and the current accumulating 24 hour interval values.
NEW X
5 seconds Registers For each NE, the maximum 5 seconds monitored TP number is 2 NEW X
17.10 Tranditional Data TCA Management
1 second Threshold crossing alarm NEW X
17.11 Special Performance Management for CE Card
TCA & history support NEW
The counters to be calculated per interval as well as the number of intervals to be stored on the NE are
NEW
The NE must implement the relation between the Alarm Table and Event Table.
NEW
A standard mib should be supported unless it is not exist.History and TCA should be generic implementation like RMON2.
NEW
TCA polling time is configurable with default of 1min and for specific important information in less than 10 sec
NEW
All discard packets must specify the dropping reason
NEW
17.12 Configuration Management
Network Element initialization Network Element software is capable of supporting the following configuration:Set/Delete the unique IP address (among the network) of the system, default gateway of management port, subnet mask of management port.
NEW X
Monitored (MON), Not Monitored (NMON) and automatic (AUTO) modes
NEW X
Admin State of a port NEW X
Operating state of a port NEW X
Cross-Connect Configuration NEW X
Synchronization Configuration NEW X
Seite 35 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Protection Configuration NEW X
Loopback Configuration for PDH/SDH port
NEW X
17.13 Security Management
Network Element Level Security for CLI Access
NEW X
Security concept with password stored inside the network element.
NEW X
Encryption , Password rules, Client authentication, Client authorization, Logging features, Security alarming features
Client authentication (password): MD5 encryptedPassword complexity rules: at least 8 characters (2 alphabetic, 1 numeric, 1 special) password does not contain user name in any logical arrangements no more than three consecutive characters (abcd, 1234, etc.) (R4.1)Password spinning: deny login after 5 unsuccessful loginsPrivacy Encryption: DES-56 encryptionPrivacy Encryption: AES-128 encryption according to RFC 3826 (R4.1)Client authorization (user classes): 3 (R4.1: 5) fixed user classes Administration (r/w all configuration) Configuration (r/w, but no security administration) Operation (R4.1) Maintenance (R4.1) Supervision (read-only)New NE users can be created and assigned to these user classesAccount expiration & password aging (R4.1)Logging features (R4.1: more detailed log information, e.g user id): Security-relevant events (logon, logoff, wrong pw, R4.1: replay msg) Security administration events (add / delete user, change pw) Configuration commands Modifying operations (write access to NE internal configurations)Security alarming features Alarm to NMS/LCT after 5 invalid authentification attempts Alarm on replaying, delaying or redirecting messages (R4.1) Alarm on Security Log full / 80% capacity (R4.1)
NEW X
ACL for management NEW
System firewall
SSHv2 support NEW X
password recovery NEW X
RADIUS (Client)Radius interoperability with:Cisco CNR,Juniper Radius server;
NEW
DHCP relay with option 82
Authentication Authorization NEW
RSVP authentication NEW
17.14 Reliability and Service requirement
Reliability, MTBF, MTTR acc. to IEC50(191), CEI/IEC 61709
NEW X
Calculated MTBF for traffic signal failure: >= 25 years.
NEW X
Calculated MTBF for each individual card >= 10 years
NEW X
Calculated MTBF for each individual card >= 15 years
Calculated Mean in-station repair time for traffic modules/cards:
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Calculated Mean in-station repair time for the equipment controller:
-
CFL
CFL chapter Name Customer Description
5.0 5.1
Warning event should be raised if too much system resource is consumed
NEW X
Security level statistics NEW
Monitoring & Configurable CPU Utilization per process
NEW
CLI session through serial for: Technical support and in filed debugging
NEW
Y1731: Jitter, delay Network Level NEW
Connectivity: based on OAM section Network Level NEW
Status of services nodes and links NEW
End 2 End services Configuration & view
Network Level: CE RELATED ONLYProvide also information for the Primary and Backup path along the network.- part of NMS
NEW
SLA Monitoring - require mechanishm like PM for SLA
Network Level: CE RELATED ONLYthat include: Delay, Delay Variation, Packet loss.
NEW
PS,CPU load, Port Utilization, Fan speed, Temp, memory Monitor ,Alarm. threshold
Node Level NEW
Card rejection (BIT, mismatch etc..) should be reported with the reason for the following modules: SFC, SFM, LIC
Node Level NEW
Port mirroring PORT + VLAN on local node
Node Level NEW
Port mirroring - per flow Node Level
SW traceability - protocol and trace functions for all protocol stacks
NEW
3 Leds : Critical/Major/Minor NEW
2 Leds : ACT;OOS NEW
CPU load, Port Utilization, memory, Temp - Monitor Alarm and threshold
NEW
A dump/trace mechanism NEW
A backlog mechanism. NEW
Basic Capabilities NEW
Real time monitoring NEW
Analysis of Fatals by R&D. NEW
CDB Backup/restore NEW
CDB Backup/restore NEW
Alarm log on unit level - ROM that stored the preiodic BIT failure reason
NEW
Alarm log on unit level - ROM that stored the preiodic BIT failure reason
NEW
Error Log Node level - Indicators (audit messages) for SW errors or sporadic HW errors must be collected in a log file. Complete symptom data are saved before restart, reset, crash, Symptoms data shall contain all pre recovery and post mortem information.- automated collection of Troubleshooting data. - Auto saving of dynamic logs. - Ability for System/Solution level tracing.
NEW
Seite 38 von 41
-
CFL
CFL chapter Name Customer Description
5.0 5.1
SW/HW failure logging Core Dump (post mortem)
NEW
Periodic + deep BIT with configurable 2 mode (full diagnostic and partial)
NEW
18.2 Debug & Monitor TS + R&D
Simulator for Establishing large Network Environment
NEW
Network Failure logging Network level NEW
Establishing Scale configuration VIA external editor
NEW
Logging management Configuration activiti