TNF1EGS4

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PN03055447
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Huawei OSN1800V 4*GE switching and processing board TNF1EGS4, 03055447

Description

TNF1EGS4 overview

Huawei OSN1800V 4*GE switching and processing board TNF1EGS4.

The EGS4 is used to transmit/receive Ethernet services, manage bandwidths, and realize Layer 2 switching of Ethernet services.

EGS4 boards support the Layer 2 switching, link aggregation, and multicast functions.

Version description of the TNF1EGS4 board

Board

Logic Board

Product Applicable-System Control Board-Initial Board Version Supported by System Control Board

Note

TNF1EGS4

EGS4

1800 I Enhanced-TMA1UXCL-V100R008C10

1800 V-TNF5UXCM-V100R005C00

1800 V-TNF5UXCME-V100R005C20

1800 V-TTNZ5UXCMS-V100R006C10

1800 II Enhanced-TNZ1UXCL-V100R007C10

1800 II Enhanced-TNZ2UXCL-V100R008C00SPC600

1800 V-TNZ5XCS-V100R019C10SPC300

For OptiX OSN 1800 V:

The TNF1EGS4 board can be created as the EGS4 or EGS4D board on the NMS. When created as the EGS4D board, the TNF1EGS4 board not only supports EoS application but also transmits 2xGE signals between the packet plane and SDH plane (EoD application). When created as the EGS4 board, the TNF1EGS4 board supports EoS application only.

NOTE:

Unless otherwise specified, for OptiX OSN 1800 V, the EGS4 boards mentioned in this document include both ESG4 and EGS4D boards created on the NMS.

EGS4D

1800 V-TNZ5UXCMS-V100R006C10

1800 V-TNZ5XCS-V100R019C10SPC300

Item
TNF1EGS4

Basic functions

Receives/Transmits and processes 4*FE or 4*GE services.

NOTE:

If created as the EGS4 or EGS4D board on the NMS, the board supports EoS application.

Port types

  • FE SFP optical module type: 100BASE-BX/100BASE-FX/100BASE-LX/100BASE-VX/100BASE-ZX

  • GE SFP optical module type: 1000BASE-SX/1000BASE-LX/1000BASE-ZX
  • GE SFP electrical module type: 1000BASE-T, supporting auto-negotiation
  • SFP module types:
    • FE/GE two-fiber bidirectional pluggable optical module
    • FE/GE single-fiber bidirectional pluggable optical module
    • GE pluggable electrical module
  • A GE optical port can be a colored CWDM optical port. A colored CWDM optical port supports a transmission distance of 40 km or 80 km.

Port characteristics

Working modes

GE electrical port: auto-negotiation, 1000M full-duplex, 100M full-duplex, and 10M full-duplex

GE optical port: auto-negotiation and 1000M full-duplex

FE optical port: 100M full-duplex

Traffic control at ports

  • Supports auto-negotiation flow control (supported only by GE ports).
  • Supports non-auto-negotiation flow control.

Query/Setting of port status

Supported

Query of port types

Supported

Service categories

EPL service

Supports PORT-based transparent transmission.

EVPL service

  • Supports PORT-shared EVPL services.
  • Supports VCTRUNK-shared EVPL services.
    • The services are isolated by VLAN tags.
    • The services are isolated by QinQ tags.

EPLAN service

  • Supports the EPLAN services that are based on the IEEE 802.1d MAC bridge.
  • Supports a maximum of 16 VBs. The maximum number of logical ports for each VB is 68.
  • Supports the self-learning of the source MAC address. The capacity of the MAC address table is 16K. The aging time of the MAC address can be set and queried.
  • Supports the configuration of static MAC routes.
  • Supports the query of dynamic MAC addresses.
  • Supports the blacklist that can contain 512 records and also the static MAC address table that can contain 512 records.
NOTE:

EGS4 boards support SVL modes. Ensure that all bridges on a board apply the same learning mode.

EVPLAN service

  • Supports the EVPLAN services that are based on the IEEE 802.1q virtual bridge and IEEE 802.1ad provider bridge.
  • Supports data isolation based on VB+VLAN.
  • Supports the setting of a maximum of 4095 VLAN filtering tables.
NOTE:

EGS4 boards support SVL and IVL modes. Ensure that all bridges on a board apply the same learning mode.

Service specifications

Formats of Ethernet data frames

  • Supports IEEE 802.3.
  • Supports Ethernet II.
  • Supports IEEE 802.1 q/p.

Frame length range

  • Supports the setting of the frame length to a value ranging from 1518 bytes to 9600 bytes.
  • Supports a jumbo frame with a maximum length of 9600 bytes.

Bound bandwidth

16 x VC-4, or 48 x VC-3, or 252 x VC-12

Concatenation granularities

VC-12, VC-3, VC-4, VC-12-Xv (X ≤ 63), VC-3-Xv (X ≤ 24), and VC-4-Xv (X ≤ 8).

Encapsulation formats

  • Supports HDLC, LAPS, GFP-F.

MPLS technology

Not supported

VLAN technology

Supports a total number of 4094 VLANs, which comply with IEEE 802.1q/p.

Maximum uplink bandwidth

2.5 Gbit/s.

VCTRUNK specifications

64

Configuration principles are as follows:

  • Supports a maximum of 16 VC-4s.
  • When a lower-order channel is bound, VC-4 channels numbered 1 to 4 support the binding of VC-3 and VC-12 channels. VC-4 channels numbered 5 to 16 support the binding of VC-3 channels only.

Protection schemes

BPS

Not supported

PPS

Not supported

Distributed link aggregation group (DLAG)

  • Supports static DLAGs.
  • Supports non-load sharing DLAGs.
  • Complies with IEEE 802.3ad and IEEE 802.1ax.

LAG

  • Supports manual link aggregation and static link aggregation.
  • Supports the load sharing mode and non-load sharing mode.
  • Complies with IEEE 802.3ad and IEEE 802.1ax.

LCAS

Dynamically increases or decreases the bandwidth and protects the bandwidth in compliance with ITU-T G.7042.

LPT

Supports P2P LPT and P2MP LPT in compliance with Huawei proprietary protocol.

STP/RSTP

Supports the RSTP, which complies with IEEE 802.1w.

MSTP

Not supported

Synchronization

Physical Clock

Supported

NOTE:

SFP electrical modules do not support physical clock.

IEEE 1588v2

Not supported

Maintenance features

ETH-OAM

  • Supports CC, LB tests, and LT tests in compliance with IEEE 802.1ag and OAM ping in compliance with Huawei proprietary protocol.
  • Supports OAM auto-discovery, remote loopbacks, fault detection, and link performance detection in compliance with IEEE 802.3ah, and selfloop detection in compliance with Huawei proprietary protocol.

Test Frame

Supports test frames in GFP bearer mode.

Response to ping

Supported

Port mirroring

Supports ingress mirroring.

Loopback capability

  • Supports inloops at the PHY layer of the Ethernet port.
  • Supports inloops at the MAC layer of the Ethernet port.
  • Supports outloops at the VC-4 level, VC-3 level and VC-12 level.

RMON

Supports RMON of the Ethernet performance of Ethernet ports and VCTRUNKs.

Warm resets

Supported

Cold resets

Supported

Alarms and performance events

Reports various alarms and performance events, which facilitates the management and maintenance of the equipment.

QoS

Traffic classification

Supports traffic classification based on PORT, PORT+VLAN, PORT+SVLAN, and PORT+VLAN+PRI.

Class of service (CoS)

Supports CoS types including simple, VLAN priority, DSCP, and IP TOS.

Committed access rate (CAR)

Supports the CAR, with the granularity of 64 kbit/s.

Shaping

Supports queue shaping on ports.

Queue scheduling policy

Supports strict priority (SP) and weighted fair queuing (WFQ).

Congestion avoidance

Supports random early detection (RED).

IGMP snooping

Protocol enabling

Supports protocol enabling in compliance with IGMPv1 and IGMPv2.

Port aging time

Supported

Fast leave

Supported

Discarding of unknown broadcast packets

Supported

Static broadcast entry

Not supported

Traffic control

Supports the port-based traffic control function that complies with IEEE 802.3x.

Traffic monitoring

EGS4 boards support port-based and VCTRUNK-based traffic monitoring.

SDH ASON

When working with TNZ5UXCMS, the board supports this function.

2M ASON

When working with TNZ5UXCMS, the board supports this function.

Table 2 EoD functions and features of the EGS4D board

Function and Feature

Description

Basic functions

  • On the EGS4D board, two port channels for connecting to the packet plane and SDH plane are added. One channel connects to an EoD port (internal port of IN1/OUT1) and virtual port 5, and the other channel connects to an EoD port (internal port of IN2/OUT2) and virtual port 6.
  • In the EoD application scenario, the board can transmit a maximum of 2 x GE optical signals. The supported transmission scenarios are as follows:

    SDH service from the cross-connect board <-> EoD port <-> virtual port <-> packet plane (packet board)

    GE optical signal at the IN3/OUT3 and IN4/OUT4 ports of the EGS4D board <-> EoD port <-> virtual port <-> packet plane (packet board)

    Hybrid transmission of the two services

  • The EGS4D board supports both EoD and EoS applications.
  • In the EoD application scenario, virtual ports 5 and 6 provide the packet feature, and the packet attribute must be configured for virtual ports 5 and 6. The EGS4D board does not support packet data processing. Instead, packet data is processed by packet boards and cross-connect boards.
NOTE:

The channels support the EoD function only when the EGS4 board is created as the EGS4D board on the NMS and the IN1/OUT1 and IN2/OUT2 ports are set to the EoD mode.

Virtual port

Working mode

1000M Full-Duplex

NOTE:

In the EoD application scenario, the working mode of the EoD port is 1000M full-duplex.

Flow control at ports

Supported

Comply with IEEE802.3x (Only supports response request).

Ethernet data frame format

IEEE 802.3, Ethernet II, IEEE 802.1q, IEEE 802.1p.

MFL

9600

NOTE:

In the EoD application scenario, the maximum frame length of the EoD port is 9600.

Service bearing medium

Port

E-Line

UNI-UNI service models

Port<->Port

CVLAN<->CVLAN, VLAN translation supported

SVLAN<->SVLAN, VLAN translation supported

E-LAN

Bridge type

IEEE 802.1d, IEEE 802.1q

Bridge learning mode

IVL, SVL

VSI tag type

C-Aware, S-Aware

Protection scheme

Tunnel APS

Not supported.

PW APS

Not supported.

LAG

Not supported.

MC-LAG

Not supported.

LPT

Not supported.

QoS

Diffserv

Supported, compliant with RFC 2474 and RFC 2475.

Traffic classification

Complex traffic classification. The ACL rules are customized based on packet information.

Traffic policing

Committed access rate (CAR), two rate three color marker (trTCM) compliant with RFC 4115.

Congestion management

Class of service (CoS), supporting SP/WFQ scheduling algorithms.

Congestion avoidance

WRED, tail dropping.

Traffic shaping

Queues based on port policies (CS7 to BE) and Egress port

IGMP Snooping V1/V2

Supported

Maintenance

Ethernet service OAM (CFM)

Not supported

Ethernet port OAM (EFM)

Not supported

MPLS-TP OAM

Not supported

RMON

Supported

Port mirroring

The board supports mirroring at only one port.

Loopback

Not supported

Synchronization

Physical clock

Not supported

NOTE:

In the EoD application scenario, the EoD port does not support physical clocks.

IEEE 1588v2

Not supported

Inband DCN

Supported

SDH ASON

When working with TNZ5UXCMS, the board supports this function.

2M ASON

When working with TNZ5UXCMS, the board supports this function.

Additional information

Brand

Huawei

Lead Time

3-5 days

Ship From

Shenzhen Warehouse

Item
TNF1EGS4

Basic functions

Receives/Transmits and processes 4*FE or 4*GE services.

NOTE:

If created as the EGS4 or EGS4D board on the NMS, the board supports EoS application.

Port types

  • FE SFP optical module type: 100BASE-BX/100BASE-FX/100BASE-LX/100BASE-VX/100BASE-ZX

  • GE SFP optical module type: 1000BASE-SX/1000BASE-LX/1000BASE-ZX
  • GE SFP electrical module type: 1000BASE-T, supporting auto-negotiation
  • SFP module types:
    • FE/GE two-fiber bidirectional pluggable optical module
    • FE/GE single-fiber bidirectional pluggable optical module
    • GE pluggable electrical module
  • A GE optical port can be a colored CWDM optical port. A colored CWDM optical port supports a transmission distance of 40 km or 80 km.

Port characteristics

Working modes

GE electrical port: auto-negotiation, 1000M full-duplex, 100M full-duplex, and 10M full-duplex

GE optical port: auto-negotiation and 1000M full-duplex

FE optical port: 100M full-duplex

Traffic control at ports

  • Supports auto-negotiation flow control (supported only by GE ports).
  • Supports non-auto-negotiation flow control.

Query/Setting of port status

Supported

Query of port types

Supported

Service categories

EPL service

Supports PORT-based transparent transmission.

EVPL service

  • Supports PORT-shared EVPL services.
  • Supports VCTRUNK-shared EVPL services.
    • The services are isolated by VLAN tags.
    • The services are isolated by QinQ tags.

EPLAN service

  • Supports the EPLAN services that are based on the IEEE 802.1d MAC bridge.
  • Supports a maximum of 16 VBs. The maximum number of logical ports for each VB is 68.
  • Supports the self-learning of the source MAC address. The capacity of the MAC address table is 16K. The aging time of the MAC address can be set and queried.
  • Supports the configuration of static MAC routes.
  • Supports the query of dynamic MAC addresses.
  • Supports the blacklist that can contain 512 records and also the static MAC address table that can contain 512 records.
NOTE:

EGS4 boards support SVL modes. Ensure that all bridges on a board apply the same learning mode.

EVPLAN service

  • Supports the EVPLAN services that are based on the IEEE 802.1q virtual bridge and IEEE 802.1ad provider bridge.
  • Supports data isolation based on VB+VLAN.
  • Supports the setting of a maximum of 4095 VLAN filtering tables.
NOTE:

EGS4 boards support SVL and IVL modes. Ensure that all bridges on a board apply the same learning mode.

Service specifications

Formats of Ethernet data frames

  • Supports IEEE 802.3.
  • Supports Ethernet II.
  • Supports IEEE 802.1 q/p.

Frame length range

  • Supports the setting of the frame length to a value ranging from 1518 bytes to 9600 bytes.
  • Supports a jumbo frame with a maximum length of 9600 bytes.

Bound bandwidth

16 x VC-4, or 48 x VC-3, or 252 x VC-12

Concatenation granularities

VC-12, VC-3, VC-4, VC-12-Xv (X ≤ 63), VC-3-Xv (X ≤ 24), and VC-4-Xv (X ≤ 8).

Encapsulation formats

  • Supports HDLC, LAPS, GFP-F.

MPLS technology

Not supported

VLAN technology

Supports a total number of 4094 VLANs, which comply with IEEE 802.1q/p.

Maximum uplink bandwidth

2.5 Gbit/s.

VCTRUNK specifications

64

Configuration principles are as follows:

  • Supports a maximum of 16 VC-4s.
  • When a lower-order channel is bound, VC-4 channels numbered 1 to 4 support the binding of VC-3 and VC-12 channels. VC-4 channels numbered 5 to 16 support the binding of VC-3 channels only.

Protection schemes

BPS

Not supported

PPS

Not supported

Distributed link aggregation group (DLAG)

  • Supports static DLAGs.
  • Supports non-load sharing DLAGs.
  • Complies with IEEE 802.3ad and IEEE 802.1ax.

LAG

  • Supports manual link aggregation and static link aggregation.
  • Supports the load sharing mode and non-load sharing mode.
  • Complies with IEEE 802.3ad and IEEE 802.1ax.

LCAS

Dynamically increases or decreases the bandwidth and protects the bandwidth in compliance with ITU-T G.7042.

LPT

Supports P2P LPT and P2MP LPT in compliance with Huawei proprietary protocol.

STP/RSTP

Supports the RSTP, which complies with IEEE 802.1w.

MSTP

Not supported

Synchronization

Physical Clock

Supported

NOTE:

SFP electrical modules do not support physical clock.

IEEE 1588v2

Not supported

Maintenance features

ETH-OAM

  • Supports CC, LB tests, and LT tests in compliance with IEEE 802.1ag and OAM ping in compliance with Huawei proprietary protocol.
  • Supports OAM auto-discovery, remote loopbacks, fault detection, and link performance detection in compliance with IEEE 802.3ah, and selfloop detection in compliance with Huawei proprietary protocol.

Test Frame

Supports test frames in GFP bearer mode.

Response to ping

Supported

Port mirroring

Supports ingress mirroring.

Loopback capability

  • Supports inloops at the PHY layer of the Ethernet port.
  • Supports inloops at the MAC layer of the Ethernet port.
  • Supports outloops at the VC-4 level, VC-3 level and VC-12 level.

RMON

Supports RMON of the Ethernet performance of Ethernet ports and VCTRUNKs.

Warm resets

Supported

Cold resets

Supported

Alarms and performance events

Reports various alarms and performance events, which facilitates the management and maintenance of the equipment.

QoS

Traffic classification

Supports traffic classification based on PORT, PORT+VLAN, PORT+SVLAN, and PORT+VLAN+PRI.

Class of service (CoS)

Supports CoS types including simple, VLAN priority, DSCP, and IP TOS.

Committed access rate (CAR)

Supports the CAR, with the granularity of 64 kbit/s.

Shaping

Supports queue shaping on ports.

Queue scheduling policy

Supports strict priority (SP) and weighted fair queuing (WFQ).

Congestion avoidance

Supports random early detection (RED).

IGMP snooping

Protocol enabling

Supports protocol enabling in compliance with IGMPv1 and IGMPv2.

Port aging time

Supported

Fast leave

Supported

Discarding of unknown broadcast packets

Supported

Static broadcast entry

Not supported

Traffic control

Supports the port-based traffic control function that complies with IEEE 802.3x.

Traffic monitoring

EGS4 boards support port-based and VCTRUNK-based traffic monitoring.

SDH ASON

When working with TNZ5UXCMS, the board supports this function.

2M ASON

When working with TNZ5UXCMS, the board supports this function.

Table 2 EoD functions and features of the EGS4D board

Function and Feature

Description

Basic functions

  • On the EGS4D board, two port channels for connecting to the packet plane and SDH plane are added. One channel connects to an EoD port (internal port of IN1/OUT1) and virtual port 5, and the other channel connects to an EoD port (internal port of IN2/OUT2) and virtual port 6.
  • In the EoD application scenario, the board can transmit a maximum of 2 x GE optical signals. The supported transmission scenarios are as follows:

    SDH service from the cross-connect board <-> EoD port <-> virtual port <-> packet plane (packet board)

    GE optical signal at the IN3/OUT3 and IN4/OUT4 ports of the EGS4D board <-> EoD port <-> virtual port <-> packet plane (packet board)

    Hybrid transmission of the two services

  • The EGS4D board supports both EoD and EoS applications.
  • In the EoD application scenario, virtual ports 5 and 6 provide the packet feature, and the packet attribute must be configured for virtual ports 5 and 6. The EGS4D board does not support packet data processing. Instead, packet data is processed by packet boards and cross-connect boards.
NOTE:

The channels support the EoD function only when the EGS4 board is created as the EGS4D board on the NMS and the IN1/OUT1 and IN2/OUT2 ports are set to the EoD mode.

Virtual port

Working mode

1000M Full-Duplex

NOTE:

In the EoD application scenario, the working mode of the EoD port is 1000M full-duplex.

Flow control at ports

Supported

Comply with IEEE802.3x (Only supports response request).

Ethernet data frame format

IEEE 802.3, Ethernet II, IEEE 802.1q, IEEE 802.1p.

MFL

9600

NOTE:

In the EoD application scenario, the maximum frame length of the EoD port is 9600.

Service bearing medium

Port

E-Line

UNI-UNI service models

Port<->Port

CVLAN<->CVLAN, VLAN translation supported

SVLAN<->SVLAN, VLAN translation supported

E-LAN

Bridge type

IEEE 802.1d, IEEE 802.1q

Bridge learning mode

IVL, SVL

VSI tag type

C-Aware, S-Aware

Protection scheme

Tunnel APS

Not supported.

PW APS

Not supported.

LAG

Not supported.

MC-LAG

Not supported.

LPT

Not supported.

QoS

Diffserv

Supported, compliant with RFC 2474 and RFC 2475.

Traffic classification

Complex traffic classification. The ACL rules are customized based on packet information.

Traffic policing

Committed access rate (CAR), two rate three color marker (trTCM) compliant with RFC 4115.

Congestion management

Class of service (CoS), supporting SP/WFQ scheduling algorithms.

Congestion avoidance

WRED, tail dropping.

Traffic shaping

Queues based on port policies (CS7 to BE) and Egress port

IGMP Snooping V1/V2

Supported

Maintenance

Ethernet service OAM (CFM)

Not supported

Ethernet port OAM (EFM)

Not supported

MPLS-TP OAM

Not supported

RMON

Supported

Port mirroring

The board supports mirroring at only one port.

Loopback

Not supported

Synchronization

Physical clock

Not supported

NOTE:

In the EoD application scenario, the EoD port does not support physical clocks.

IEEE 1588v2

Not supported

Inband DCN

Supported

SDH ASON

When working with TNZ5UXCMS, the board supports this function.

2M ASON

When working with TNZ5UXCMS, the board supports this function.

Reviews

  1. Matthew

    Their tech sales manager Betty is very professional, thank you for your help!

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