キャリア配置 - tmcnet · 2012-08-27 · high reliability due to storm control and loop...
TRANSCRIPT
Apresia18020
Apresia18008
Apresia18005
Apresia16012XL
Apresia16012
Apresia16006
Apresia16003
Apresia8007
Apresia6148G-PSR
Interface
# of Slot 20 8 5 12 12 6 3 7 No
10BASE-T/100BASE-TX No No No No No No No Max.336 48
1000BASE-X Max. 400 (SFP) Max. 160 (SFP) Max. 100 (SFP) Yes (Planned) Max. 120 (SFP) Max. 60 (SFP) Max. 30 (SFP) Max.84 (SFP) 2 (SFP)
10GBASE-R Max. 40 (XEN-PAK)
Max.16 (XEN-PAK)
Max.10 (XEN-PAK) Max. 48 (SFP+) Max. 12 (SFP+) Max.6 (SFP+) Max.3 (SFP+) Max.14 (XEN-
PAK) No
40GBASE-R No No No Max. 12 (QSFP+) No No No No No
Management Port 10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
PerformanceSW Capacity 1.8Tbps 720Gbps 450Gbps 960Gbps 240Gbps 120Gbps 60Gbps 140Gbps 13.6Gbps
# of MAC Address 512k 512k 512k 512K 256k 256k 256k 256k 256k
VLAN
Port Based VLAN Yes Yes Yes Yes Yes Yes Yes Yes Yes
802.1Q TAG VLAN Yes Yes Yes Yes Yes Yes Yes Yes Yes
# of VLAN 32k 32k 32k 32k 4k 4k 4k 4k 4k
Stacked VLAN Yes Yes Yes Yes Yes Yes Yes Yes Yes
Enhanced-PBB (Provider Back-bone Bridges) Yes *1 Yes *1 Yes *1 Yes Yes Yes Yes No No
EoE (Ethernet over Ethernet) Yes Yes Yes Yes Yes Yes Yes Yes Yes
Hardware Access-List
Unit Portpipe Portpipe Portpipe Line Card Portpipe Portpipe Portpipe Block Block
L1 to L4 Control Yes Yes Yes Yes Yes Yes Yes Yes Yes
Protocol Type Control Yes Yes Yes Yes Yes Yes Yes Yes Yes
ToS Field Control Yes Yes Yes Yes Yes Yes Yes Yes Yes
IPv6 SIP DIP Yes Yes Yes Yes Yes Yes Yes Yes Yes
QoS
# of Queue (Priority Class) 8 8 8 8 8 8 8 8 8
802.1P Yes Yes Yes Yes Yes Yes Yes Yes Yes
ToS Priority Control Yes Yes Yes Yes Yes Yes Yes Yes Yes
Strict Priority Control Yes Yes Yes Yes Yes Yes Yes Yes Yes
WRR Priority Control PQMMQ *2 PQMMQ *2 PQMMQ *2 PQMMQ *2 (Planned) PQMMQ *2 (Planned) PQMMQ *2 (Planned) PQMMQ *2 (Planned) WRR WRR
Queue MappingYes
(w/ Access-List) *3
Yes(w/ Access-List)
*3
Yes(w/ Access-List)
*3
Yes(w/ Access-List)
*3
Yes(w/ Access-List)
*3
Yes(w/ Access-List)
*3
Yes(w/ Access-List)
*3
Yes(w/Access-List or IP Address, Mul-ticast, Customer
VLAN)
Yes(w/Access-List or IP Address, Mul-ticast, Customer
VLAN)
BandwidthControl
Rate Limiting Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *5
Yes(Two Rate) *5
Rate Shaping Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis)
Priority Reserved Bandwidth Limiting
Yes(Three Class)
Yes(Three Class)
Yes(Three Class)
Yes (Three Class)
Yes(Three Class)
Yes(Three Class)
Yes(Three Class)
Yes(2 Class)
Yes(2 Class)
CIR Yes Yes Yes Yes Yes Yes Yes Yes Yes
Flooding Limit
Broadcast Yes Yes Yes Yes Yes Yes Yes Yes Yes
Multicast Yes Yes Yes Yes Yes Yes Yes Yes Yes
Unknown Unicast Yes(w/Access-List)
Yes(w/Access-List)
Yes(w/Access-List)
Yes(w/Access-List)
Yes(w/Access-List)
Yes(w/Access-List)
Yes(w/Access-List)
Yes(Some Linecard) No
L2 Redundancy
Link Aggregation Yes Yes Yes Yes Yes Yes Yes Yes Yes
MMRPv2 Yes Yes Yes Yes Yes Yes Yes Yes Yes
FCRP No No No Yes (Planned) Yes (Planned) Yes (Planned) Yes (Planned) No No
VDR Yes Yes Yes Yes (Planned) Yes Yes Yes Yes Yes
Flush FDB Yes Yes Yes Yes Yes Yes Yes Yes Yes
IEEE802.1AB LLDP Yes Yes Yes Yes Yes Yes Yes Yes (XG/G) Yes (Uplink)
Management
Mirroring Yes Yes Yes Yes Yes Yes Yes Yes Yes
SNMPv1 / v2c Yes Yes Yes Yes Yes Yes Yes Yes Yes
TRAP/Syslog Yes Yes Yes Yes Yes Yes Yes Yes Yes
RMON 2 Yes Yes Yes Yes Yes Yes Yes Yes Yes
Console / Telnet Login Yes Yes Yes Yes Yes Yes Yes Yes Yes
CLI HCL CLI HCL CLI HCL CLI HCL CLI HCL CLI HCL CLI HCL CLI HCL CLI HCL CLI
SD Card Slot Yes Yes Yes Yes Yes Yes Yes Yes Yes
Ethernet OAM (CC, LB, LT, DM, & LM) Yes (CC, LB) Yes (CC, LB) Yes (CC, LB) Yes (CC, LB, LT, DM, & LM)
Yes (CC, LB, LT, DM, & LM)
Yes (CC, LB, LT, DM, & LM)
Yes (CC, LB, LT, DM, & LM) No No
Others
VXC (VLAN Cross Connect) Yes Yes Yes Yes Yes Yes Yes Yes No
Loop Free Yes Yes Yes Yes(On Roadmap) Yes Yes Yes Yes Yes
User VLAN Aware Yes Yes Yes Yes Yes Yes Yes Yes Yes
Jumbo Frame Yes Yes Yes Yes Yes Yes Yes Yes Yes
Static IGMP/MLD Snooping No No No No Yes Yes Yes No No
Hardware
Dimensions (W x D x H mm) 482.6 x 621.4 x 884 (20RU)
482.6 x 621.4 x 619 (14RU)
482.6 x 621.9 x 350 (8RU)
432 x 450 x 350 (8RU)
432 x 450 x 350 (8RU)
434 x 450 x 167 (4RU)
434 x 450 x 87 (2RU)
480 x 439.5 x 516 (12RU)
436 x 487.5 x 43.8 (1RU)
Weight 160kg *6 100kg *6 75kg *6 TBD 52kg *6 28kg *6 17kg *6 70 kg *6 8kg max *6
DC Power Supply -57 to -40V -57 to -40V -57 to -40V DC -57 to -40V -57 to -40V -57 to -40V -57 to -40V -57 to -40V -57 to -40V
AC Power Supply No No No No No No No No 100~ 120V/200V~ 240
Consumption Power ≤4000W ≤2000W ≤1200W TBD ≤1200W ≤650W ≤300W ≤900W ≤150W
Redundant PSU Yes Yes Yes Yes Yes Yes Yes Yes Yes
Approval MEF 9/14 Yes Yes Yes Yes (Planned) Yes Yes Yes Yes Yes
www.hitachi-cable.co.jp/en/
Tokyo HeadquartersAkihabara UDX,4-14-1,Sotokanda,Chiyodaku,Tokyo 100-8971,JAPAN Phone:+81-3-6381-0081 Printed in Japan '10-9(ICC)CAT.NO.NE210A
・APRESIA is a registered trademark of Hitachi Cable, Ltd. in Japan.・MMRP is a registered trademark of Hitachi Cable, Ltd. in Japan.・Ethernet is a registered trademark of Fuji Xerox Co., Ltd.・ARB - Arbiter・CCM - Continuity Check Message・CIR - Committed Information Rate・DIP - Dual In line Package・FDB - Forwarding Data Base・GbE - Gigabit Ethernet・MAC - Media Access Control・NGN - Next Generation Network・PSR - Power Supply Redundancy・PSU - Power Supply Unit
*1 License Function *2 PQMMQ (Per Queue Min/Max Queuing) *3 IP Address (SA/DA), Multicast, Customer-VLAN ID etc. *4 Portpipe/ VLAN/ VLAN Group basis *5 Portpipe/Linecard/VLAN Group basis *6 When fully equipped
��������������
��������������������������
����������������
・QoS - Quality of Service・RMON 2 - Remote network MONitoring version 2・SFC - Switch Fabric Card・SIP - Single In line Package・ToS - Type of Service・XG - 10Gb
・Other company names and product names in this catalog that are trademarks or registered trademarks are the property of their respective owners.・The contents of this catalog are subject to change without notice as we improve our product line.・For sales inquiries, please contact us.
����������������
� �� �
������������������ �����������
��������� ���������
����������������������
�������������������������������������������
���������������������������
���������������������������������
Designing the network flexibly regardless of geographical conditions. Network topology can be triangle, square, or ladder type with having different bandwidth for each link in the ring.
Traffic can be Load balanced based on VLAN group to optimize the bandwidth. Traffic for VLAN ID10 can flow through one path (yellow) while traffic for VLAN ID20 can flow through other (pink) path.
Multi point connection for multi rings to avoid single point of failure. Single point connection network can be down by failure at the border switch between 2 ring. Multi point connection helps to recover the network even one border switch goes down.
In the multi ring connection, failure at one ring does not affect to other rings. It minimizes impact on performance.
MMRP
MMRP
MMRP
MMRP
MMRP
MMRP20G 10G
MMRPMMRPMMRPMMRP
VLAN 10VLAN 10
VLAN 20VLAN 20
MMRPMMRP
MMRPMMRP
Down!!Down!!
Recover!!Recover!!
No impact!!No impact!!
Link down!!Link down!!
������������
�
�
�
������������������������������A MAC-in-MAC technology that provides carrier-class L2 tunneling and is a de facto standard in Japan.20-BIT field from EoE header allows VPNs up to 1 Million.Prevents FDB saturation by encapsulating user frame in FDB entries at the EoE edge switch. High reliability due to storm control and loop suppression functions, such as TTL (Time to Live), source address duplication, and loop detection.Supports OAM functions and L2 tools, such as Ping, Link Trace, and MAC Flush.Supported by Apresia18k, 16k, 8k, 6k series.
����������������������������������������Conforms to IEEE 802.1ah standard based on MAC-in-MAC technology of carrier-class L2 tunneling protocol.Inherits features as "Enhanced PBB" functions, such as configurable PBB address, OAM functions and loop suppression technologies, especially TTL (Time to Live).Enables flat and flexible VPN domains with I-SID switching.Smooth migration and flexible interoperability among IEEE 802.1ad Provider Bridge, EoE, and PBB.Supported by Apresia18k, 16k series.
���������� ���� ���� ���� ���� ���� �������� ���� ����
�����������
Core Edge SWEdge SW
En-capsulationEn-capsulationDe-capsulationDe-capsulation
���� ���� ����� ����� ���� ���� ����
�����������
���� ���� �������� ���� ����
Core Edge SWEdge SW En-capsulationEn-capsulationDe-capsulationDe-capsulation
B-VID I-SID
User IdentifierUser Identifier
BackboneVLAN ID
I-SID(24bit)= 16M User Identifier
B-VID(12bit)= 4K Backbone VLANIdentifier
User IdentifierBackboneVLAN ID
����������������� �������������
*1. S-Tag..........Service-Tag*2. S-VID ..........Service VID*3. EID..............Extended ID *LTM (Linktrace Message), LTR (Linktrace Reply)
������������������
�������� ��������������
Core
EoE Header (20B)
CoreCore
EoE PingMessage
EoE PingReply
���������
�������
�����������
���������
����������
����������
����������������������
���������������
������������������ �������������������� �����������������������
��������������������������������������
�����������������
�����������������
�����������������
�����������������
�����������������������������
�����������������������������
EoE LTREoE LTR
EoE LTREoE LTREoE LTMEoE LTM
EoE LTMEoE LTM
A lively topic among service providers is how to integrate their many services into one infrastructure. These various technologies might include VPN, wholesale connectivity, mobile, ISP, IPTV, data center, and cloud computing.
With new services and applications emerging weekly, it is clear that infrastructure layers should be transparent and flexible, and definitely not layer-dependent. The best solution is Layer 2 and Fiber Optic because they connect to services through Ethernet and have benefits such as protocol transparency, high speed, simplicity, scalability, and flexibility.
Hitachi Cable's message with APRESIA Ethernet switches is to unbundle service and infrastructure. The APRESIA series allows the best network infrastructures by adhering to global standards while inheriting extended VPN architecture technologies. These technologies support Ethernet over Ethernet (EoE), Provider Backbone Bridges (PBB), Ethernet ring solutions, and sophisticated loop-free technologies that provide scalability, reliability, flexibility and stability.
������������������������������������������������������
������������������������
�������������
���������������
������������
������������������������
����������������������������������
��������������
��������
��������
��������
��������
����������
����������������
� �� �
������������������ �����������
��������� ���������
����������������������
�������������������������������������������
���������������������������
���������������������������������
Designing the network flexibly regardless of geographical conditions. Network topology can be triangle, square, or ladder type with having different bandwidth for each link in the ring.
Traffic can be Load balanced based on VLAN group to optimize the bandwidth. Traffic for VLAN ID10 can flow through one path (yellow) while traffic for VLAN ID20 can flow through other (pink) path.
Multi point connection for multi rings to avoid single point of failure. Single point connection network can be down by failure at the border switch between 2 ring. Multi point connection helps to recover the network even one border switch goes down.
In the multi ring connection, failure at one ring does not affect to other rings. It minimizes impact on performance.
MMRP
MMRP
MMRP
MMRP
MMRP
MMRP20G 10G
MMRPMMRPMMRPMMRP
VLAN 10VLAN 10
VLAN 20VLAN 20
MMRPMMRP
MMRPMMRP
Down!!Down!!
Recover!!Recover!!
No impact!!No impact!!
Link down!!Link down!!
������������
�
�
�
������������������������������A MAC-in-MAC technology that provides carrier-class L2 tunneling and is a de facto standard in Japan.20-BIT field from EoE header allows VPNs up to 1 Million.Prevents FDB saturation by encapsulating user frame in FDB entries at the EoE edge switch. High reliability due to storm control and loop suppression functions, such as TTL (Time to Live), source address duplication, and loop detection.Supports OAM functions and L2 tools, such as Ping, Link Trace, and MAC Flush.Supported by Apresia18k, 16k, 8k, 6k series.
����������������������������������������Conforms to IEEE 802.1ah standard based on MAC-in-MAC technology of carrier-class L2 tunneling protocol.Inherits features as "Enhanced PBB" functions, such as configurable PBB address, OAM functions and loop suppression technologies, especially TTL (Time to Live).Enables flat and flexible VPN domains with I-SID switching.Smooth migration and flexible interoperability among IEEE 802.1ad Provider Bridge, EoE, and PBB.Supported by Apresia18k, 16k series.
���������� ���� ���� ���� ���� ���� �������� ���� ����
�����������
Core Edge SWEdge SW
En-capsulationEn-capsulationDe-capsulationDe-capsulation
���� ���� ����� ����� ���� ���� ����
�����������
���� ���� �������� ���� ����
Core Edge SWEdge SW En-capsulationEn-capsulationDe-capsulationDe-capsulation
B-VID I-SID
User IdentifierUser Identifier
BackboneVLAN ID
I-SID(24bit)= 16M User Identifier
B-VID(12bit)= 4K Backbone VLANIdentifier
User IdentifierBackboneVLAN ID
����������������� �������������
*1. S-Tag..........Service-Tag*2. S-VID ..........Service VID*3. EID..............Extended ID *LTM (Linktrace Message), LTR (Linktrace Reply)
������������������
�������� ��������������
Core
EoE Header (20B)
CoreCore
EoE PingMessage
EoE PingReply
���������
�������
�����������
���������
����������
����������
����������������������
���������������
������������������ �������������������� �����������������������
��������������������������������������
�����������������
�����������������
�����������������
�����������������
�����������������������������
�����������������������������
EoE LTREoE LTR
EoE LTREoE LTREoE LTMEoE LTM
EoE LTMEoE LTM
A lively topic among service providers is how to integrate their many services into one infrastructure. These various technologies might include VPN, wholesale connectivity, mobile, ISP, IPTV, data center, and cloud computing.
With new services and applications emerging weekly, it is clear that infrastructure layers should be transparent and flexible, and definitely not layer-dependent. The best solution is Layer 2 and Fiber Optic because they connect to services through Ethernet and have benefits such as protocol transparency, high speed, simplicity, scalability, and flexibility.
Hitachi Cable's message with APRESIA Ethernet switches is to unbundle service and infrastructure. The APRESIA series allows the best network infrastructures by adhering to global standards while inheriting extended VPN architecture technologies. These technologies support Ethernet over Ethernet (EoE), Provider Backbone Bridges (PBB), Ethernet ring solutions, and sophisticated loop-free technologies that provide scalability, reliability, flexibility and stability.
������������������������������������������������������
������������������������
�������������
���������������
������������
������������������������
����������������������������������
��������������
��������
��������
��������
��������
����������
����������������
Multi Master Ring Protocol (MMRP) has a proven track record in Japan for providing stable and reliable Layer 2 ring protection. Apresia18k/16k *1/ 8k/ 6k support MMRP.Fast CCM Ring Protocol (FCRP) provides resilient Layer 2 ring protection by processing CCM hello frames/failure detection/FDB Flushes/switchovers on the hardware. This adaptation ensures service providers' networks are highly reliable and stable, especially for networks that anticipate expanding bandwidth to 40Gb/100Gb to support seamless mission-critical and multimedia traffic. Apresia16k supports FCRP.FCRP provides a fail-over of less than 50 msec from failure detection until convergence to an alternate route.Examples of APRESIA Layer 2 ring protection are shown in the following diagrams.
� �� �
Save firmware Save firmwareand configuration and configurationSave firmware Save firmwareand configuration and configuration
����������������������������������������������� �������������������������������
��������������� ��������
������ ������
・Network designs can be flexible and not bound by physical locations. Triangle, square, and ladder topologies are possible with different bandwidths for each link in the ring.
L2 RING
L2 RING
L2 RING
L2 RING
L2 RING
L2 RING20G 10G
L2 RINGL2 RING
AddingAdding
RemovingRemovingFDB(*2) of Port No.1FDB(*2) of Port No.1
L2 RINGL2 RING
L2 RINGL2 RING
L2 RINGL2 RING
������������
����������������������� ���������������������
・To optimize bandwidth, traffic can be load-balanced depending on VLAN group. ・Traffic for VLAN ID 10 flows through the yellow path while traffic for VLAN ID 20 flows through the pink path.
・Multi point connections between multi rings can prevent single point failures. Whereas networks with only single point connections will not recover readily from a failure at a single point, such as the outage of a border switch.
����������������������������
・In a multi ring connection, failure at one ring has no effect on the other rings.
�����������������������
・ Easy expansion with the inhibit-forward function to shorten network down-time for scheduled operations (MMRP only).
VLAN 10VLAN 10
VLAN 20VLAN 20
DownDown
No impactNo impact
Link downLink down
Loop storm protection consists of a number of interworking technologies (shown below) that prevent, suppress, and detect network loops.
*1..........Except for 40G Line Card
Multi-pointof Failure
Multi-pointof Failure
�������������������������
Core
CoreCore
BlockingBlocking
Disabled port and VLANafter the device booted upas default.
Need toenable port and VLAN
4 ���������������������������������������������
CoreTTL=4
TTL=2
Core
CoreCore
TTLExpired
Loop StormLoop Storm TTL=3
TTL=5
TTL=1
5
��������
SendingTrap
SendingTrap
SA(*1) =“A” SA(*1) =“A”
SA(*1) =“A” SA(*1) =“A”
SA(*1) =“A” SA(*1) =“A”
��������������������������
Core
Core
SA(*) =“A”
SA(*) =“A”CoreCore
SA DuplicationDrop!!
FrequentPort Change
SA(*) =“A”SA(*) =“A”
Edge A
*SA..........Source MAC Address *1 SA..........Source MAC Address *2 FDB..........Forwarding Data Base
�����������������
Port1
Port10
�������
����������������
���
FDB(*2) of Port No.10FDB(*2) of Port No.10
�������
����������������
����
6 9
��������
No. Category Technology Description
1
Loop StormPrevention
MMRP/FCRP-Reliable and flexible L2 ring with fast protection-Multi master / Multi ring / Multi point of connection
2 VDR-Dual homing with protocol-agnostic to uplink switches-Traffic distribution per VLAN group
3 Loop-Free-Stops traffic between two uplink ports-Suitable for dual homing applications
4 Port Disable for Startup -Disables specific ports when starting up to prevent unpredictable loops
5
Loop StormSuppression
EoEProtocol Suite
TTL-Time to Live -- a widely available technology from the L3 world -Supported by Hitachi Cable, pioneer vendor of TTL over Ethernet
6SourceAddress (SA)Duplication
-Discards frames with the same EoE SA as the switch's own address
7 Mac Filter-Filters specific frames according to user-configured rules-Configuring address ranges is an option
8 Flooding Control-Configures maximum rate of flooding frames-Independent control to BC/MC/Unknown-UC
9Loop StormDetection
Station Move -Traps frames received with the same SA coming from different ports
10 LLDP Monitoring-Detects unidirectional and remote failures that are not directly connected to the switch and forces the link down
1
2
3
4
5
6
7
8
9
10
����������������
Multi Master Ring Protocol (MMRP) has a proven track record in Japan for providing stable and reliable Layer 2 ring protection. Apresia18k/16k *1/ 8k/ 6k support MMRP.Fast CCM Ring Protocol (FCRP) provides resilient Layer 2 ring protection by processing CCM hello frames/failure detection/FDB Flushes/switchovers on the hardware. This adaptation ensures service providers' networks are highly reliable and stable, especially for networks that anticipate expanding bandwidth to 40Gb/100Gb to support seamless mission-critical and multimedia traffic. Apresia16k supports FCRP.FCRP provides a fail-over of less than 50 msec from failure detection until convergence to an alternate route.Examples of APRESIA Layer 2 ring protection are shown in the following diagrams.
� �� �
Save firmware Save firmwareand configuration and configurationSave firmware Save firmwareand configuration and configuration
����������������������������������������������� �������������������������������
��������������� ��������
������ ������
・Network designs can be flexible and not bound by physical locations. Triangle, square, and ladder topologies are possible with different bandwidths for each link in the ring.
L2 RING
L2 RING
L2 RING
L2 RING
L2 RING
L2 RING20G 10G
L2 RINGL2 RING
AddingAdding
RemovingRemovingFDB(*2) of Port No.1FDB(*2) of Port No.1
L2 RINGL2 RING
L2 RINGL2 RING
L2 RINGL2 RING
������������
����������������������� ���������������������
・To optimize bandwidth, traffic can be load-balanced depending on VLAN group. ・Traffic for VLAN ID 10 flows through the yellow path while traffic for VLAN ID 20 flows through the pink path.
・Multi point connections between multi rings can prevent single point failures. Whereas networks with only single point connections will not recover readily from a failure at a single point, such as the outage of a border switch.
����������������������������
・In a multi ring connection, failure at one ring has no effect on the other rings.
�����������������������
・ Easy expansion with the inhibit-forward function to shorten network down-time for scheduled operations (MMRP only).
VLAN 10VLAN 10
VLAN 20VLAN 20
DownDown
No impactNo impact
Link downLink down
Loop storm protection consists of a number of interworking technologies (shown below) that prevent, suppress, and detect network loops.
*1..........Except for 40G Line Card
Multi-pointof Failure
Multi-pointof Failure
�������������������������
Core
CoreCore
BlockingBlocking
Disabled port and VLANafter the device booted upas default.
Need toenable port and VLAN
4 ���������������������������������������������
CoreTTL=4
TTL=2
Core
CoreCore
TTLExpired
Loop StormLoop Storm TTL=3
TTL=5
TTL=1
5
��������
SendingTrap
SendingTrap
SA(*1) =“A” SA(*1) =“A”
SA(*1) =“A” SA(*1) =“A”
SA(*1) =“A” SA(*1) =“A”
��������������������������
Core
Core
SA(*) =“A”
SA(*) =“A”CoreCore
SA DuplicationDrop!!
FrequentPort Change
SA(*) =“A”SA(*) =“A”
Edge A
*SA..........Source MAC Address *1 SA..........Source MAC Address *2 FDB..........Forwarding Data Base
�����������������
Port1
Port10
�������
����������������
���
FDB(*2) of Port No.10FDB(*2) of Port No.10
�������
����������������
����
6 9
��������
No. Category Technology Description
1
Loop StormPrevention
MMRP/FCRP-Reliable and flexible L2 ring with fast protection-Multi master / Multi ring / Multi point of connection
2 VDR-Dual homing with protocol-agnostic to uplink switches-Traffic distribution per VLAN group
3 Loop-Free-Stops traffic between two uplink ports-Suitable for dual homing applications
4 Port Disable for Startup -Disables specific ports when starting up to prevent unpredictable loops
5
Loop StormSuppression
EoEProtocol Suite
TTL-Time to Live -- a widely available technology from the L3 world -Supported by Hitachi Cable, pioneer vendor of TTL over Ethernet
6SourceAddress (SA)Duplication
-Discards frames with the same EoE SA as the switch's own address
7 Mac Filter-Filters specific frames according to user-configured rules-Configuring address ranges is an option
8 Flooding Control-Configures maximum rate of flooding frames-Independent control to BC/MC/Unknown-UC
9Loop StormDetection
Station Move -Traps frames received with the same SA coming from different ports
10 LLDP Monitoring-Detects unidirectional and remote failures that are not directly connected to the switch and forces the link down
1
2
3
4
5
6
7
8
9
10
�������� ����������������
Apresia6000 series
Description Model
Apresia6148G-PSR Apresia6148G-PSR
AC Power Supply Unit for Apresia6148 PSU-150-AC2
DC Power Supply Unit for Apresia6148 PSU-150-DC48V2
Apresia8000 series
Description Model
Apresia8007 Chassis Apresia8007
Apresia8004 Chassis Apresia8004
Management Module for Apresia8007/8004 *1 A8U-MM1
DC Power Supply Unit for Apresia8007 *3 A8U-DC-PSU
FAN Unit for Apresia8007 A8U-FAN1722
DC Power Supply Unit for Apresia8004 *3 A8U4-DC-PSU
AC Power Supply Unit for Apresia18004 *3 A8U4-AC-PSU
FAN Unit for Apresia8004 A8U4-FAN1722
48 Ports 10BASE-T/100BASE-TX Line Card A8L-FE8148c
10 Ports 1000BASE-X(SFP) Line Card A8L-G8x10c
12 Ports 1000BASE-X(SFP) Line Card A8L-G8x12c
1 Port 10GBASE-R(XENPAK) Line Card A8L-XG8001c
2 Ports 10GBASE-R(XENPAK) Line Card A8L-XG8302c
Blank Card for Line Card Slot*1 A8B-L
Apresia16000 series
Description Model
Apresia16012 Chassis Apresia16012
Apresia16006 Chassis Apresia16006
Apresia16003 Chassis Apresia16003
Management Module for Apresia16012/16006 A16U-MM1
Management Module for Apresia1603 A16U3-MM1
DC Power Supply Unit for Apresia16012 A16U12-DC-PSU
FAN Unit for Apresia16012 A16U-FAN0601
DC Power Supply Unit for Apresia16006 A16U6-DC-PSU
DC Power Supply Unit for Apresia16003 A16U3-DC-PSU
10 Ports 1000BASE-X(SFP)Line Card A16L-G16x10c
1 Port 10GBASE-R(SFP+)Line Card A16L-XG16x01c
Blank Card for Line Card Slot *1 A16B-L
Apresia18000 series
Description Model
Apresia18020 Chassis Apresia18020
Apresia18008 Chassis Apresia18008
Apresia18005 Chassis Apresia18005
Management Module *1 A18-MM1
Arbiter Card A18U-ARB
Switch Fabric Card A18U-SFC1
DC Power Supply Unit for Apresia18020 A18U-DC-PSU
FAN Unit for Apresia18020/18008 A18U-FAN1204
DC Power Supply Unit for Apresia18008 A18U8-DC-PSU
DC Power Supply Unit for Apresia18005 A18U5-DC-PSU
FAN Unit for Apresia18005(Intake Air) A18U5-FAN9214-1
FAN Unit for Apresia18005(Exhaust Air) A18U5-FAN9214-2
20 Ports 1000BASE-X(SFP)Line Card A18L-G18x20c
2 Ports 10GBASE-R(XENPAK)Line Card A18L-XG18x02c
Blank Card for Line Card Slot*2 A18B-L
*1..........The Same Platform of Chassis
*1..........Fully equipment modules required. *2..........ASD is abbreviation for “Apresia SD card”. *3..........Fully Power supply units required for both slots.
� �� �
�������
�������
�����������������
������� �������� �������� ������
�����������������������������
���
���
�������
������������������
���������������������������������Dual homing technology with fast failoverProtocol-agnostic in uplink switchesLoad balancing in two VLAN groupsFrame transmission stop function by CLI (Inhibit-forward)
����������������������������������������
Ethernet OAM (Operations Administration and Maintenance) is a set of functions that monitors networks forfaults and measures the network's performance. Ethernet OAM, based on IEEE and ITU-T Standards, monitors and isolates L2 problems not only for provider networks but also between the provider’s edge and the customer’s edge.
Fault management is a set of functions that includes detection, verification, localization, and notification.Performance management is a set of functions that includes performance parameters measurements. Apresia18k *1 and 16k support Ethernet OAM.*1..........License Function
�����������������������Supported by Apresia16012XL by the same platform as Apresia16012 Chassis
��������������
・P2P L2 connectivity check・Error Frame Detection・Object : Link MEP,MEP
※ LBM (Loopback Message), LBR (Loopback Reply)
LBM LBR
���(����������)・P2P L2 Trace Route・Object : MEP
※ LTM (Linktrace Message),LTR (Linktrace Reply)
���(�����������������)・RTT (Round Trip Time) Measurement・Object : Link MEP,ME
※ DMM (DelayMeasurement Message) DMR (DelayMeasurement Reply)
DMM DMR
���(����������������)
※ LMM (LossMeasurement Message) LMR (LossMeasurement Reply)
Green TrafficBelong to Uplink 1
Orange TrafficBelong to Uplink 2
LAGLAG
LMR
LTM
LTM
LTR LTR
*1..........40G Transceiver name
������・10G×4ports per slot ・10GBASE-LR,ER ・SFP+ Module
������・40G×1port per slot ・40GBASE-LR4 ・QSFP+ *1
LMMLocal Remote
ForwardingOrange Traffic
ForwardingGreen Traffic
uplink2uplink1
Green TrafficBelong to Uplink 1
Orange TrafficBelong to Uplink 2
LAG
ForwardingOrange Traffic
&Green Traffic
uplink2uplink1
Alternate RouteIn case of uplink 1 failure
Alternate RouteIn case of uplink 1 failureNormal Status Failure Status
VDR
※ MEP (Maintenance association End Point) CCM (Continuity Check Message)
���������������������
・P2M Layer 2 Connectivity Check・Supported P2P CCM・Object:MEP
CCM
�����������������
��������������������
VDR
Apresia6148G
SFP Max.× 2
10/100T Max.× 48
Apresia16003
SFP Max.× 30
SFP+ Max.× 3
Apresia16006
SFP Max.× 60
SFP+ Max.× 6
Apresia16012 *1
SFP Max.× 120
SFP+ Max.× 12
Apresia18005
SFP Max.× 100
XENPAK Max.× 10
Apresia18008
SFP Max.× 160
XENPAK Max.× 16
Apresia18020
SFP Max.× 400
XENPAK Max.× 40
Apresia8007
10/100T Max.× 336
SFP Max.× 84
XENPAK Max.× 14
Apresia16012XL *1
SFP Max.× 120
SFP+ Max.× 48
QSFP+ Max.× 12
Apresia18000/16000/8000/6000 series Accessories
Description Model
SD Card (512Mbyte) A8O-SD1
Anti-Static Wrist Band A8O-WS1
�������� ����������������
Apresia6000 series
Description Model
Apresia6148G-PSR Apresia6148G-PSR
AC Power Supply Unit for Apresia6148 PSU-150-AC2
DC Power Supply Unit for Apresia6148 PSU-150-DC48V2
Apresia8000 series
Description Model
Apresia8007 Chassis Apresia8007
Apresia8004 Chassis Apresia8004
Management Module for Apresia8007/8004 *1 A8U-MM1
DC Power Supply Unit for Apresia8007 *3 A8U-DC-PSU
FAN Unit for Apresia8007 A8U-FAN1722
DC Power Supply Unit for Apresia8004 *3 A8U4-DC-PSU
AC Power Supply Unit for Apresia18004 *3 A8U4-AC-PSU
FAN Unit for Apresia8004 A8U4-FAN1722
48 Ports 10BASE-T/100BASE-TX Line Card A8L-FE8148c
10 Ports 1000BASE-X(SFP) Line Card A8L-G8x10c
12 Ports 1000BASE-X(SFP) Line Card A8L-G8x12c
1 Port 10GBASE-R(XENPAK) Line Card A8L-XG8001c
2 Ports 10GBASE-R(XENPAK) Line Card A8L-XG8302c
Blank Card for Line Card Slot*1 A8B-L
Apresia16000 series
Description Model
Apresia16012 Chassis Apresia16012
Apresia16006 Chassis Apresia16006
Apresia16003 Chassis Apresia16003
Management Module for Apresia16012/16006 A16U-MM1
Management Module for Apresia1603 A16U3-MM1
DC Power Supply Unit for Apresia16012 A16U12-DC-PSU
FAN Unit for Apresia16012 A16U-FAN0601
DC Power Supply Unit for Apresia16006 A16U6-DC-PSU
DC Power Supply Unit for Apresia16003 A16U3-DC-PSU
10 Ports 1000BASE-X(SFP)Line Card A16L-G16x10c
1 Port 10GBASE-R(SFP+)Line Card A16L-XG16x01c
Blank Card for Line Card Slot *1 A16B-L
Apresia18000 series
Description Model
Apresia18020 Chassis Apresia18020
Apresia18008 Chassis Apresia18008
Apresia18005 Chassis Apresia18005
Management Module *1 A18-MM1
Arbiter Card A18U-ARB
Switch Fabric Card A18U-SFC1
DC Power Supply Unit for Apresia18020 A18U-DC-PSU
FAN Unit for Apresia18020/18008 A18U-FAN1204
DC Power Supply Unit for Apresia18008 A18U8-DC-PSU
DC Power Supply Unit for Apresia18005 A18U5-DC-PSU
FAN Unit for Apresia18005(Intake Air) A18U5-FAN9214-1
FAN Unit for Apresia18005(Exhaust Air) A18U5-FAN9214-2
20 Ports 1000BASE-X(SFP)Line Card A18L-G18x20c
2 Ports 10GBASE-R(XENPAK)Line Card A18L-XG18x02c
Blank Card for Line Card Slot*2 A18B-L
*1..........The Same Platform of Chassis
*1..........Fully equipment modules required. *2..........ASD is abbreviation for “Apresia SD card”. *3..........Fully Power supply units required for both slots.
� �� �
�������
�������
�����������������
������� �������� �������� ������
�����������������������������
���
���
�������
������������������
���������������������������������Dual homing technology with fast failoverProtocol-agnostic in uplink switchesLoad balancing in two VLAN groupsFrame transmission stop function by CLI (Inhibit-forward)
����������������������������������������
Ethernet OAM (Operations Administration and Maintenance) is a set of functions that monitors networks forfaults and measures the network's performance. Ethernet OAM, based on IEEE and ITU-T Standards, monitors and isolates L2 problems not only for provider networks but also between the provider’s edge and the customer’s edge.
Fault management is a set of functions that includes detection, verification, localization, and notification.Performance management is a set of functions that includes performance parameters measurements. Apresia18k *1 and 16k support Ethernet OAM.*1..........License Function
�����������������������Supported by Apresia16012XL by the same platform as Apresia16012 Chassis
��������������
・P2P L2 connectivity check・Error Frame Detection・Object : Link MEP,MEP
※ LBM (Loopback Message), LBR (Loopback Reply)
LBM LBR
���(����������)・P2P L2 Trace Route・Object : MEP
※ LTM (Linktrace Message),LTR (Linktrace Reply)
���(�����������������)・RTT (Round Trip Time) Measurement・Object : Link MEP,ME
※ DMM (DelayMeasurement Message) DMR (DelayMeasurement Reply)
DMM DMR
���(����������������)
※ LMM (LossMeasurement Message) LMR (LossMeasurement Reply)
Green TrafficBelong to Uplink 1
Orange TrafficBelong to Uplink 2
LAGLAG
LMR
LTM
LTM
LTR LTR
*1..........40G Transceiver name
������・10G×4ports per slot ・10GBASE-LR,ER ・SFP+ Module
������・40G×1port per slot ・40GBASE-LR4 ・QSFP+ *1
LMMLocal Remote
ForwardingOrange Traffic
ForwardingGreen Traffic
uplink2uplink1
Green TrafficBelong to Uplink 1
Orange TrafficBelong to Uplink 2
LAG
ForwardingOrange Traffic
&Green Traffic
uplink2uplink1
Alternate RouteIn case of uplink 1 failure
Alternate RouteIn case of uplink 1 failureNormal Status Failure Status
VDR
※ MEP (Maintenance association End Point) CCM (Continuity Check Message)
���������������������
・P2M Layer 2 Connectivity Check・Supported P2P CCM・Object:MEP
CCM
�����������������
��������������������
VDR
Apresia6148G
SFP Max.× 2
10/100T Max.× 48
Apresia16003
SFP Max.× 30
SFP+ Max.× 3
Apresia16006
SFP Max.× 60
SFP+ Max.× 6
Apresia16012 *1
SFP Max.× 120
SFP+ Max.× 12
Apresia18005
SFP Max.× 100
XENPAK Max.× 10
Apresia18008
SFP Max.× 160
XENPAK Max.× 16
Apresia18020
SFP Max.× 400
XENPAK Max.× 40
Apresia8007
10/100T Max.× 336
SFP Max.× 84
XENPAK Max.× 14
Apresia16012XL *1
SFP Max.× 120
SFP+ Max.× 48
QSFP+ Max.× 12
Apresia18000/16000/8000/6000 series Accessories
Description Model
SD Card (512Mbyte) A8O-SD1
Anti-Static Wrist Band A8O-WS1
Apresia18020
Apresia18008
Apresia18005
Apresia16012XL
Apresia16012
Apresia16006
Apresia16003
Apresia8007
Apresia6148G-PSR
Interface
# of Slot 20 8 5 12 12 6 3 7 No
10BASE-T/100BASE-TX No No No No No No No Max.336 48
1000BASE-X Max. 400 (SFP) Max. 160 (SFP) Max. 100 (SFP) Yes (Planned) Max. 120 (SFP) Max. 60 (SFP) Max. 30 (SFP) Max.84 (SFP) 2 (SFP)
10GBASE-R Max. 40 (XEN-PAK)
Max.16 (XEN-PAK)
Max.10 (XEN-PAK) Max. 48 (SFP+) Max. 12 (SFP+) Max.6 (SFP+) Max.3 (SFP+) Max.14 (XEN-
PAK) No
40GBASE-R No No No Max. 12 (QSFP+) No No No No No
Management Port 10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
10BASE-T/100BASE-TX
PerformanceSW Capacity 1.8Tbps 720Gbps 450Gbps 960Gbps 240Gbps 120Gbps 60Gbps 140Gbps 13.6Gbps
# of MAC Address 512k 512k 512k 512K 256k 256k 256k 256k 256k
VLAN
Port Based VLAN Yes Yes Yes Yes Yes Yes Yes Yes Yes
802.1Q TAG VLAN Yes Yes Yes Yes Yes Yes Yes Yes Yes
# of VLAN 32k 32k 32k 32k 4k 4k 4k 4k 4k
Stacked VLAN Yes Yes Yes Yes Yes Yes Yes Yes Yes
Enhanced-PBB (Provider Back-bone Bridges) Yes *1 Yes *1 Yes *1 Yes Yes Yes Yes No No
EoE (Ethernet over Ethernet) Yes Yes Yes Yes Yes Yes Yes Yes Yes
Hardware Access-List
Unit Portpipe Portpipe Portpipe Line Card Portpipe Portpipe Portpipe Block Block
L1 to L4 Control Yes Yes Yes Yes Yes Yes Yes Yes Yes
Protocol Type Control Yes Yes Yes Yes Yes Yes Yes Yes Yes
ToS Field Control Yes Yes Yes Yes Yes Yes Yes Yes Yes
IPv6 SIP DIP Yes Yes Yes Yes Yes Yes Yes Yes Yes
QoS
# of Queue (Priority Class) 8 8 8 8 8 8 8 8 8
802.1P Yes Yes Yes Yes Yes Yes Yes Yes Yes
ToS Priority Control Yes Yes Yes Yes Yes Yes Yes Yes Yes
Strict Priority Control Yes Yes Yes Yes Yes Yes Yes Yes Yes
WRR Priority Control PQMMQ *2 PQMMQ *2 PQMMQ *2 PQMMQ *2 (Planned) PQMMQ *2 (Planned) PQMMQ *2 (Planned) PQMMQ *2 (Planned) WRR WRR
Queue MappingYes
(w/ Access-List) *3
Yes(w/ Access-List)
*3
Yes(w/ Access-List)
*3
Yes(w/ Access-List)
*3
Yes(w/ Access-List)
*3
Yes(w/ Access-List)
*3
Yes(w/ Access-List)
*3
Yes(w/Access-List or IP Address, Mul-ticast, Customer
VLAN)
Yes(w/Access-List or IP Address, Mul-ticast, Customer
VLAN)
BandwidthControl
Rate Limiting Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *4
Yes(Two Rate) *5
Yes(Two Rate) *5
Rate Shaping Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis) Yes (Port Basis)
Priority Reserved Bandwidth Limiting
Yes(Three Class)
Yes(Three Class)
Yes(Three Class)
Yes (Three Class)
Yes(Three Class)
Yes(Three Class)
Yes(Three Class)
Yes(2 Class)
Yes(2 Class)
CIR Yes Yes Yes Yes Yes Yes Yes Yes Yes
Flooding Limit
Broadcast Yes Yes Yes Yes Yes Yes Yes Yes Yes
Multicast Yes Yes Yes Yes Yes Yes Yes Yes Yes
Unknown Unicast Yes(w/Access-List)
Yes(w/Access-List)
Yes(w/Access-List)
Yes(w/Access-List)
Yes(w/Access-List)
Yes(w/Access-List)
Yes(w/Access-List)
Yes(Some Linecard) No
L2 Redundancy
Link Aggregation Yes Yes Yes Yes Yes Yes Yes Yes Yes
MMRPv2 Yes Yes Yes Yes Yes Yes Yes Yes Yes
FCRP No No No Yes (Planned) Yes (Planned) Yes (Planned) Yes (Planned) No No
VDR Yes Yes Yes Yes (Planned) Yes Yes Yes Yes Yes
Flush FDB Yes Yes Yes Yes Yes Yes Yes Yes Yes
IEEE802.1AB LLDP Yes Yes Yes Yes Yes Yes Yes Yes (XG/G) Yes (Uplink)
Management
Mirroring Yes Yes Yes Yes Yes Yes Yes Yes Yes
SNMPv1 / v2c Yes Yes Yes Yes Yes Yes Yes Yes Yes
TRAP/Syslog Yes Yes Yes Yes Yes Yes Yes Yes Yes
RMON 2 Yes Yes Yes Yes Yes Yes Yes Yes Yes
Console / Telnet Login Yes Yes Yes Yes Yes Yes Yes Yes Yes
CLI HCL CLI HCL CLI HCL CLI HCL CLI HCL CLI HCL CLI HCL CLI HCL CLI HCL CLI
SD Card Slot Yes Yes Yes Yes Yes Yes Yes Yes Yes
Ethernet OAM (CC, LB, LT, DM, & LM) Yes (CC, LB) Yes (CC, LB) Yes (CC, LB) Yes (CC, LB, LT, DM, & LM)
Yes (CC, LB, LT, DM, & LM)
Yes (CC, LB, LT, DM, & LM)
Yes (CC, LB, LT, DM, & LM) No No
Others
VXC (VLAN Cross Connect) Yes Yes Yes Yes Yes Yes Yes Yes No
Loop Free Yes Yes Yes Yes(On Roadmap) Yes Yes Yes Yes Yes
User VLAN Aware Yes Yes Yes Yes Yes Yes Yes Yes Yes
Jumbo Frame Yes Yes Yes Yes Yes Yes Yes Yes Yes
Static IGMP/MLD Snooping No No No No Yes Yes Yes No No
Hardware
Dimensions (W x D x H mm) 482.6 x 621.4 x 884 (20RU)
482.6 x 621.4 x 619 (14RU)
482.6 x 621.9 x 350 (8RU)
432 x 450 x 350 (8RU)
432 x 450 x 350 (8RU)
434 x 450 x 167 (4RU)
434 x 450 x 87 (2RU)
480 x 439.5 x 516 (12RU)
436 x 487.5 x 43.8 (1RU)
Weight 160kg *6 100kg *6 75kg *6 TBD 52kg *6 28kg *6 17kg *6 70 kg *6 8kg max *6
DC Power Supply -57 to -40V -57 to -40V -57 to -40V DC -57 to -40V -57 to -40V -57 to -40V -57 to -40V -57 to -40V -57 to -40V
AC Power Supply No No No No No No No No 100~ 120V/200V~ 240
Consumption Power ≤4000W ≤2000W ≤1200W TBD ≤1200W ≤650W ≤300W ≤900W ≤150W
Redundant PSU Yes Yes Yes Yes Yes Yes Yes Yes Yes
Approval MEF 9/14 Yes Yes Yes Yes (Planned) Yes Yes Yes Yes Yes
www.hitachi-cable.co.jp/en/
Tokyo HeadquartersAkihabara UDX,4-14-1,Sotokanda,Chiyodaku,Tokyo 100-8971,JAPAN Phone:+81-3-6381-0081 Printed in Japan '10-9(ICC)CAT.NO.NE210A
・APRESIA is a registered trademark of Hitachi Cable, Ltd. in Japan.・MMRP is a registered trademark of Hitachi Cable, Ltd. in Japan.・Ethernet is a registered trademark of Fuji Xerox Co., Ltd.・ARB - Arbiter・CCM - Continuity Check Message・CIR - Committed Information Rate・DIP - Dual In line Package・FDB - Forwarding Data Base・GbE - Gigabit Ethernet・MAC - Media Access Control・NGN - Next Generation Network・PSR - Power Supply Redundancy・PSU - Power Supply Unit
*1 License Function *2 PQMMQ (Per Queue Min/Max Queuing) *3 IP Address (SA/DA), Multicast, Customer-VLAN ID etc. *4 Portpipe/ VLAN/ VLAN Group basis *5 Portpipe/Linecard/VLAN Group basis *6 When fully equipped
��������������
��������������������������
����������������
・QoS - Quality of Service・RMON 2 - Remote network MONitoring version 2・SFC - Switch Fabric Card・SIP - Single In line Package・ToS - Type of Service・XG - 10Gb
・Other company names and product names in this catalog that are trademarks or registered trademarks are the property of their respective owners.・The contents of this catalog are subject to change without notice as we improve our product line.・For sales inquiries, please contact us.