The OptiX OSN 8800 is mainly deployed on national backbone networks, regional/provincial backbone networks, and metro networks. It include OptiX OSN 8800 T16 & OptiX OSN 8800 T32 &OptiX OSN 8800 T64 .In addition to large-capacity OTN grooming features, the OptiX OSN 8800 integrates the following:
ROADM
Terabit-bit electrical cross-connection
Full-granularity grooming ranging from 100 Mbit/s to 100 Gbit/s
Optical-electrical ASON synergy
40G/100G transmission capability
Various management and protection functions
The OptiX OSN 8800 is recognized as the platform with the highest integration in the industry. One OptiX OSN 8800 subrack supports access of 320/640 x 10G or 32/64 x 100G services. The OptiX OSN 8800 can accommodate mass IP services and provide centralized grooming and unified management. Because one OptiX OSN 8800 subrack is equivalent to multiple subracks of other WDM devices, the OptiX OSN 8800 saves 80% of the equipment footprint and reduces power consumption per bandwidth unit by 55%. OptiX OSN 8800 devices can be directly connected, rather than being connected through ODFs, and therefore are highly reliable.
The OptiX OSN 8800 enables congestion-free 3.2T/6.4T-bit electrical cross-connections, supports complex network topologies, and provides centralized grooming of numerous services. It provides optical and electrical cross-connections and supports optical cross-connections in 2, 4, 9, or 20 degrees using ROADMs. In this way, it supports flexible wavelength-level and subwavelength-level grooming and quick service deployment and reduces CAPEX. In addition, the OptiX OSN 8800 creates the industry's first simply-structured colorless, directionless, contentionless, and gridless (CDCG) ROADM and simplifies node configurations for optical-layer ASON.
The mature commercial 96 x 100G system supports transmission with unlimited bandwidth. The system provides both OCh-layer ASON and ODUk-layer ASON, a new optical-electrical ASON synergy mode pioneered in the industry by Huawei, featuring high reliability.
The OptiX OSN 8800 has MS-OTN features cross-connections of OTN/SDH/packet services on centralized cross-connect boards and the flexible transmission of OTN, SDH, and packet services to improve board utilization.
The OptiX OSN 8800 supports submarine cable transmission. Huawei's industry-leading 100G submarine cable solution supports 12,000 km transmission without electrical regeneration.
The OptiX OSN 8800 supports transmission of 2M, IEEE 1588v2, and synchronous Ethernet clocks to fully satisfy the clock precision requirements of 3G, 4G, and future 5G networks.
The OptiX OSN 8800 monitors the OSNR, optical power, and BER of any channel on 10G/40G/100G networks and supports real-time online monitoring of optical parameters, to improve network O&M efficiency.
The OptiX OSN 8800 supports the online OTDR function by an OSC board, which measures fiber parameters and rapidly locates fault points and deterioration points on a fiber.
The OptiX OSN 8800 supports smooth evolution to TSDN, which improves service provisioning efficiency, simplifies network O&M, and makes networks more intelligent. Based on TSDN architecture, the OptiX OSN 8800 supports various apps and innovative services and implements intelligent network management and the unified grooming of cross-layer and cross-domain network resources.
ROADM
Terabit-bit electrical cross-connection
Full-granularity grooming ranging from 100 Mbit/s to 100 Gbit/s
Optical-electrical ASON synergy
40G/100G transmission capability
Various management and protection functions
The OptiX OSN 8800 is recognized as the platform with the highest integration in the industry. One OptiX OSN 8800 subrack supports access of 320/640 x 10G or 32/64 x 100G services. The OptiX OSN 8800 can accommodate mass IP services and provide centralized grooming and unified management. Because one OptiX OSN 8800 subrack is equivalent to multiple subracks of other WDM devices, the OptiX OSN 8800 saves 80% of the equipment footprint and reduces power consumption per bandwidth unit by 55%. OptiX OSN 8800 devices can be directly connected, rather than being connected through ODFs, and therefore are highly reliable.
The OptiX OSN 8800 enables congestion-free 3.2T/6.4T-bit electrical cross-connections, supports complex network topologies, and provides centralized grooming of numerous services. It provides optical and electrical cross-connections and supports optical cross-connections in 2, 4, 9, or 20 degrees using ROADMs. In this way, it supports flexible wavelength-level and subwavelength-level grooming and quick service deployment and reduces CAPEX. In addition, the OptiX OSN 8800 creates the industry's first simply-structured colorless, directionless, contentionless, and gridless (CDCG) ROADM and simplifies node configurations for optical-layer ASON.
The mature commercial 96 x 100G system supports transmission with unlimited bandwidth. The system provides both OCh-layer ASON and ODUk-layer ASON, a new optical-electrical ASON synergy mode pioneered in the industry by Huawei, featuring high reliability.
The OptiX OSN 8800 has MS-OTN features cross-connections of OTN/SDH/packet services on centralized cross-connect boards and the flexible transmission of OTN, SDH, and packet services to improve board utilization.
The OptiX OSN 8800 supports submarine cable transmission. Huawei's industry-leading 100G submarine cable solution supports 12,000 km transmission without electrical regeneration.
The OptiX OSN 8800 supports transmission of 2M, IEEE 1588v2, and synchronous Ethernet clocks to fully satisfy the clock precision requirements of 3G, 4G, and future 5G networks.
The OptiX OSN 8800 monitors the OSNR, optical power, and BER of any channel on 10G/40G/100G networks and supports real-time online monitoring of optical parameters, to improve network O&M efficiency.
The OptiX OSN 8800 supports the online OTDR function by an OSC board, which measures fiber parameters and rapidly locates fault points and deterioration points on a fiber.
The OptiX OSN 8800 supports smooth evolution to TSDN, which improves service provisioning efficiency, simplifies network O&M, and makes networks more intelligent. Based on TSDN architecture, the OptiX OSN 8800 supports various apps and innovative services and implements intelligent network management and the unified grooming of cross-layer and cross-domain network resources.
Specifications | OptiX OSN 8800 T16 | OptiX OSN 8800 T32 | OptiX OSN 8800 T64 | |
Dimensions (mm) | 498 x 295x 450 (W) (D) (H) | 498 x 295 x 900 (W) (D) (H) | 498 x 580 x 900 (W) (D) (H) |
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Number of slots for service boards | 16 | 32 | 64 | |
Switch | Optical | 1 to 9-degree ROADM | ||
Electrical | 1.6T ODUk(k=0, 1, 2, 2e, 3, 4, flex) 640G VC-4 and 20G VC-3/VC-12 800G Packet | Enhanced subrack: 3.2T ODUk(k=0, 1, 2, 2e, 3, 4, flex) 1.28T VC-4 and 80G VC-3/VC-12 1.6T Packet General subrack: 1.28T ODUk(k=0, 1, 2, 2e, 3, flex) 1.28T VC-4 and 80G VC-3/VC-12 | Enhanced subrack: 6.4T ODUk(k=0, 1, 2, 2e, 3, 4, flex) 1.28T VC-4 and 80G VC-3/VC-12 General subrack: 2.56T ODUk(k=0, 1, 2, 2e, 3, flex) 1.28T VC-4 and 80G VC-3/VC-12 |
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Wavelength (max) | DWDM: 80-ch, CWDM: 8-ch | |||
Wavelength range | DWDM: 1529.16 nm to 1560.61 nm (Band-C, ITU-T G.694.1) CWDM: 1471 nm to 1611 nm (Band S+C+L, ITU-T G.694.2) |
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Max. rate per channel | 100Gbit/s (OTU4) | |||
Max. distance | Multi-span transmission (without electrical regeneration): 32 span x 22 dB/span (10G), 25 span x 22 dB/span (40G), 20 span x 22 dB/span (100G) Ultra-long single-span transmission: 1 span x 81 dB/span (10G), 1 span x 71 dB/span (40G) |
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Service types supported | SDH, SONET, Ethernet, SAN, OTN, Video | |||
Line rate | 2.5 Gbit/s, 10 Gbit/s, 40 Gbit/s, 100 Gbit/s | |||
Max. capacity per PID group | 200 Gbit/s | |||
Topology | Point-to-point, chain, star, ring, ring-with-chain, tangent ring, intersecting ring and mesh |
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Redundancy and Protection | Network level protection (OTN) | Optical line protection, intra-board 1+1 protection, client 1+1 protection, ODUk SNCP, tributary SNCP, SW SNCP, ODUk SPRing protection, OWSP |
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Network level protection (OCS) | Linear MSP, MSP ring, transoceanic MSP ring, SNCP, SNCTP | |||
Network level protection (Ethernet and packet) | DBPS, DLAG, ERPS, LAG, LPT, MC-LAG, MSTP, PW APS, STP and RSTP, Tunnel APS, VLAN SNCP | DBPS, DLAG, ERPS, LAG, LPT, MC-LAG, MSTP, PW APS, STP and RSTP, Tunnel APS, VLAN SNCP | DBPS, DLAG, ERPS, LAG, LPT, MC-LAG, MSTP, STP and RSTP, VLAN SNCP |
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Equipment level protection | Power redundancy, fan redundancy, cross-connect board redundancy, system control and communication board redundancy, centralized clock board redundancy, AUX Board 1+1 Redundancy |
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Optical power management | ALS, AGC, ALC, APE, IPA, OPA | |||
Synchronization | Synchronous Ethernet clock IEEE 1588v2 2 Mbit/s or 2 MHz (with the SSM function), ITU-T G.703-compliant external clock source External time source (1PPS+TOD) |
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ASON | An OTN network supports the Optical-Layer ASON and electrical-Layer ASON. An OCS network supports the SDH ASON feature. |
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Operation Environment | Subrack temperature: Long-term operation: 5°C (41 °F) to 45°C (113 °F) Short-term operation: -5°C (23 °F) to 55°C (131 °F) Relative humidity: Long-term operation: 5% to 85% Short-term operation: 5% to 90% |
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