DGS-6608Projektideks
8-slot chassis
Kirjeldus
The D-Link’s DGS-6600 series chassis-based switches are intelligent and high-performance multi-layer LAN devices designed for Enterprise local area networks (LAN), campus and metropolitan area networks (MAN). They are ideal for deployment in environments that require uninterrupted running of network applications and a high level of performance, security and control.
Featuring a flexible modular architecture and industry standard compliance, these switches provide scalable expansion and a high level of investment protection for businesses to deploy Gigabit and 10-Gigabit packet switching and routing for office networking and Ethernet-based Internet services to homes.
The DGS-6600 series is equipped with high-speed switch fabric, and advanced software functions, including complete IPv6 support. These switches provide the performance, high availability and future proof architecture suitable for applications of not just today, but those of the future.
High Availability
DGS-6608 provides 2 slots for control modules. Each control module is equipped with its own switch fabric and management agent, and cab be used for redundant backup and sharing of network load and management tasks. The DGS-6604/8 provides up to 4/8 redundant load-sharing power supplies and a hot swappable fan module to create a very highly available chassis-based device suitable for mission-critical network applications.
The DGS-6600 series offers end-to-end connectivity and granular application control with two chassis supporting a wide range of port modules
DGS-6608
• 8-slot chassis
• 2 slots for dual control modules
• 6 slots for user-selectable port modules
• Up to 8 slots for 5+3 redundant power supplies
• Replaceable fan tray and modular dust filter
• 1.152Tbps backplane capacity
Flexible Modular Design
The DGS-6600 series is available in two models:
The DGS-6604 4-slot chassis with 4 open slots and the other three slots can be fitted with user-selectable port modules. In addition to these open slots, there are four slots for redundant backup power supplies, and one slot for a replaceable fan module.
The DGS-6608 8-slot chassis with 8 open slots. Two open slots of DGS-6608 are reserved for redundant backup control modules and the other open slots can be fitted with user-selectable port modules. In addition to these open slots, there are eight slots for redundant backup power supplies, and one slot for a replaceable fan module.
This modular architecture allows modules to be gradually added to meet network growth, and modules to be easily swapped anytime to fit network requirement changes.
Deployable as Aggregation Switch
Using a common set of modules for 10/100/1000BASE-T ports, PoE support, SFP and 10-Gigabit uplinks, IT personnel can fit a DGS-6600 series switch with different port types and deploy it either as a core switch or an aggregation (i.e. distribution) switch which can provide high port density connections to workstations in an office environment, or to a subscriber’s CPE in a densely populated Ethernet metro area network.
High Performance
To make use of this high-performance hardware, the DGS-6600 series utilize a distribution switching method which has each line card (the port module that directly connects to the network nodes) intelligently determine the switch path for each data packet. The switches synchronize the switching and routing information between the control cards and the line cards to map out the fastest data transfer path. With each line card capable of performing L2/3/4 on-board packet switching without reliance on the control cards, the DGS-6600 series switches can deliver very fast packet forwarding at almost zero-wait speed.
High Port Densities
Port densities can reach 144 Gigabit or 48 10-Gigabit ports per 4-slot chassis, or 288 Gigabit or 96 10-Gigabit ports per 8-slot chassis. All port modules are hot swappable, and can be used in either chassis type without the need to change hardware or software settings. By providing up to 96 10GE ports with each port running at non-blocking rates, it can help enterprises migrate to a 10G backbone.
Application Convergence
The DGS-6600 series combines high-speed hardware with software functions like prioritized traffic QoS and multicast routing to deliver performance suitable for real-time applications such as Internet telephony, streaming multimedia, and TV. In addition, these switches offer Power over Ethernet (PoE) solutions to provide both electrical power and network connectivity to PoE-capable devices such as IP phones and wireless AP, and are ideal for large-scale enterprise edge deployment. An example of this application convergence would be VoIP for mobile users via wireless access points connected through DGS-6600 series switches.
Complete IPv6 Support
The DGS-6600 series provides complete support for IPv6 to accommodate the potential huge increase in number of users and geographical needs of the expanding Internet. It addresses the requirements of emerging applications such as Internet-enabled wireless devices, home and industrial appliances, Internet-connected transportation, integrated telephony services, sensor networks, distributed computing, and gaming. The use of globally unique IPv6 addresses simplifies the mechanisms used for reachability and end-to-end security for network devices that are crucial to the applications and services that are driving the demand for IP addresses.
Enterprise-Wide Security
The DGS-6600 series provides not only network access security but also protection against virus and worm attacks. Access security is provided through comprehensive policy-based ACL, port security, and IP-MAC-Port binding features. Attacks hidden behind control protocols are thwarted to prevent the switch’s CPU from being overwhelmed with unnecessary tasks which can cause degradation to a network’s performance. The DGS-6600 series extends security to network management via such functions as SSH v2 and SNMP v3 with authentication and encryption of management traffic.
MPLS Functions
The DGS-6600 series supports advanced Multiprotocol Label Switching (MPLS) functions that enabling service providers to build next-generation intelligent networks and deliver a wide variety of advanced, value-added services over a single infrastructure. DGS-6600 MPLS function allow service providers to provide point-to-point VPN service, VPWS (VLL) and point-to-multi-point VPN service, VPLS services to enterprise customers. This solution can be integrated seamlessly over any existing infrastructure, such as IP, Frame Relay, ATM, or Ethernet. Subscribers with differing access links can be aggregated on an MPLS edge without changing their current environments, as MPLS is independent of access technologies.
Traffic Management for Triple Play
The DGS-6600 Series implements a rich set of multilayer QoS/CoS features including flow-based bandwidth control and broadcast/multicast storm control to ensure that critical network services such as VoIP, video conferencing, IPTV, and IP surveillance are served with high priority. Bandwidth control guarantees bandwidth of these services when the network is busy. With L2 Multicast support, the DGS-6600 series is capable of handling growing IPTV applications.
D-Link Green Technology
D-Link is striving to take the lead in developing innovative and power-saving technology that does not sacrifice operational performance or functionality. The DGS-6600 series incorporates D-Link Green Technology, which includes a power saving mode, Smart Fan, and Time-based PoE. The power saving feature automatically powers down ports that have no link or link partner. The Smart Fan feature allows for the built-in fans to automatically turn on only if a specified temperature is exceeded, providing continuous, reliable and eco-friendly operation of the switch. Time-based PoE is able to turn PoE on/off per port by a pre-defined time profile to reduce PoE power consumption.
Põhiomadused
Chassis
• Chassis Slots: 8
• Fixed Slots (for Control Modules): 2
• Open Slots (for Port Modules): 6
• Max. Switching Capacity: 1.152Tbps
• Max. Packet Forwarding Rate: 857.14Mpps
Maximum Port Density
• 10/100/1000Base-T Ports: 288
• 10/100/1000Base-T Ports with PoE: 288
• Gigabit SFP Slots: 288
• 10-Gigabit SFP+ Slots: 96
Software Features
L2 Features
• MAC Address Table
- 32K per I/O module
• Flow Control
- 802.3x Flow Control
- HOL Blocking Prevention
• Jumbo Frame up to 9,732 bytes
• IGMP Snooping
- IGMP v1/v2/v3 Snooping
- Support 2K groups
- IGMP Proxy2
- Host-based IGMP Snooping Fast Leave
• 802.3ad Link Aggregation
- Compliant with 802.1AX and 802.3ad
- Max. 128 groups per device, 8 ports per group
- Support cross-module trunk
• Port Mirroring
- Support 3 mirroring groups
- One-to-one, Many-to-one
- Tx/Rx/Both
- Flow-based and RSPAN
• RERP (Rapid Ether Ring Protection)
• MLD Snooping
- MLD v1/v2 Snooping
- Support 2K groups
- Host-based MLD snooping Fast Leave
• Loopback Detection
• L2 Protocol Tunneling2
VLAN
• VLAN Group
- Max. 4K VLAN
• GVRP
- Max. 256 dynamic VLANs
• 802.1Q Tagged VLAN
• Port-based VLAN
• 802.1v Protocol VLAN
• Double VLAN (Q-in-Q)
- Port-based Q-in-Q
- Selective Q-in-Q
• VLAN Translation
• MAC-based VLAN
• Subnet-based VLAN
• VLAN Trunking
• Super VLAN
L3 Features
• Max. 4K IP Interfaces
• ARP Proxy
• VRRP
• IPv6 Tunneling
- Manual
- ISATAP
- 6to4
• IPv6 Neighbor Discovery (ND)
• IPv6 Phase 2 Ready
• Gratuitous ARP2
• Loopback interface
L3 Routing
• 12K hardware routing engines shared by IPv4/IPv6
• 8K hardware L3 forwarding entries shared by IPv4/IPv6
• 256 static routing entries for IPv4/IPv6
- Support for ECMP
- Support for WCMP2
• Policy-Based Routing
• RIP v1/v2/ng
• OSPF
- OSPF v2/v3
- OSPF Passive Interface
- Stub/NSSA Area
- OSPF Equal Cost Route
• BGP4
• BGP+2
L3 Multicasting
• 1K hardware multicast groups
• PIM-DM
• PIM-DM v62
• PIM-SM
• PIM-SM v62
• PIM Sparse-Dense Mode2
• DVMRP v3
QoS
• IEEE 802.1p CoS
• 8 hardware Queues per Port
• Queue Handling
- Strict Priority
- Weighted Round Robin (WRR)
- Strict + WRR
- Strict + DRR
-WDRR
• Congestion Control
- RED
• CoS Based on:
- Switch Port
- VLAN ID
- 802.1p Priority Queues
- MAC Address
- IPv4/v6 Address
- DSCP
- Protocol Type
- IPv6 Traffic Class
- IPv6 Flow Label
- TCP/UDP Port
- User-defined Packet Content2
• Support Following Actions for Flows
- Remark 802.1p Priority Tag
- Remark TOS/DSCP Tag
- Bandwidth Control
- Committed Information Rate(CIR), min. granularity 64 Kbps
• Bandwidth Control
- Port-based (Ingress/Egress, Min. Granularity 64Kbps)
• Time-based QoS
• Three Color Marker
- trTCM
- srTCM
ACL
• Ingress ACL
• Egress ACL2
• ACL Based on
- 802.1p Priority
- VLAN ID
- MAC Address
- Ether Type
- LLC
- IPv4/v6 Address
- DSCP
- Protocol Type
- TCP/UDP Port Number
- IPv6 Traffic Class
- IPv6 Flow Label
Security
• SSH v2
• Port Security up to 16 MAC addresses per port
• Broadcast/Multicast/Unicast Storm Control
• IP-MAC-Port Binding
• DoS Attack Prevention
• ARP Spoofing Prevention2
• D-Link Safeguard Engine
MPLS
• LDP
• VPWS (VLL)
• VPLS
• MPLS/BGP L3 VPN2
AAA
• 802.1X
- Port-based Access Control
- MAC-based Access Control
- Dynamic VLAN Assignment
• RADIUS Authentication for Switch Access
• Guest VLAN
• Web-based Access Control (WAC)2:
- Port-based Access Control
- Host-based Access Control
- Dynamic VLAN Assignment
• MAC-based Access Control (MAC)2:
- Port-based Access Control
- Host-based Access Control
- Dynamic VLAN Assignment
• TACACS+
Management
• Web-based GUI
• Command Line Interface (CLI)
• Telnet Server(Support IPv4/v6)
• Telnet Client
• TFTP Client
• SNMP v1/v2c/v3
SNMP over IPv6
• SNMP Traps
• System Log
• RMON v1
Support 1,2,3,9 Groups
• Flash File System
• Multiple Images
• Multiple Configurations
• Debug command
• Up to 15 levels user account privilege
• Trusted Host
• Password Recovery
• Microsoft® NLB Support2
• DHCP Client
• DHCP Relay
- Option 82
• DHCP Server
• SNTP
• Ping (Support IPv4/IPv6)
• Traceroute (Support IPv4/IPv6)
D-Link Green
• Power saving by Link Status
• Power saving by Time-based PoE
MIB/IETF Standard
• DLINK-MSTP MIB
• DLINK-TC MIB
• draft-ietf-idmr-dvmrp MIB-11, DVMRP-STD MIB
• IEEE Std 802.1X,IEEE8021-PAE MIB
• IEEE Std 802.3ad,IEEE8023-LAG MIB
• RFC791 IP MIB
• RFC792 ICMPv4 MIB
• RFC793 TCP MIB
• RFC826 ARP MIB
• RFC1212 Concise MIB Definitions
• RFC1213 MIBII
• RFC1215 MIB Traps Conversion
• RFC1338, RFC1519 CIDR MIB
• RFC1724 RIPv2 MIB
• RFC1886 DNS IPv6 MIB
• RFC1981 MTU Discovery IPv6 MIB
• RFC2460 IPv6 MIB
• RFC2461, RFC4861 ND IPv6 MIB
• RFC2462, RFC4862 IPv6 Auto-configuration
• RFC2463, RFC4443 ICMPv6 MIB
• RFC2464 IPv6 over Ethernet MIB
• RFC2474, RFC3168, RFC2571 SNMP Framework MIB
• RFC2572 SNMP Message Processing Dispatching MIB
• RFC2573 SNMP Applications MIB
• RFC2574 User-based Security Model for SNMPv3 MIB
• RFC3260 DS Field Definition MIB
• RFC2716, RFC3748 EAP MIB
• RFC2737 Entity MIB
• RFC2787 VRRP MIB
• RFC2819 RMON MIB
• RFC2863 IF MIB
• RFC2893, RFC4213 IPv4/v6 Dual Stack Function MIB
• RFC2934 PIM MIB for IPv4
• RFC3411 SNMP-FRAMEWORK MIB
• RFC3412 SNMP-MPD MIB
• RFC3413 SNMP-TARGET MIB
• RFC3413 SNMP-NOTIFICATION MIB
• RFC3414 SNMP-USER-BASED-SM MIB
• RFC3415 SNMP-VIEW-BASED-ACM MIB
• RFC3418 SNMPv2 MIB
• RFC3513, RFC4291 IPv6 Addressing Architecture MIB
• RFC3584 SNMP-COMMUNITY MIB
• RFC3635 EtherLike MIB
• RFC4133 ENTITY MIB
• RFC4188 BRIDGE MIB
• RFC4273 BGP4 MIB
• RFC4292 IP-FORWARD MIB
• RFC4293 IP MIB
• RFC4363 P-BRIDGE MIB
• RFC4363 Q-BRIDGE MIB
• RFC4560 DISMAN-PING MIB
• RFC4560 DISMAN-TRACEROUTE MIB
• RFC4750 OSPF MIB
• RFC5060 PIM-STD MIB
• RFC5132 IPMCAST MIB
• RFC5240 PIM-BSR MIB
• RFC5519 MGMD-STD MIB
Sertifikaadid
Sidustooted
DGS-6608 8-slot chassis