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            H3C SR6600 Router Series

            H3C SR6600 multi-core router series is a set of core routers provided by H3C for carrier, governments, power, finance, education, and enterprise customers. It is the first router series that uses the multi-core multi-threading architecture. Its brand-new hardware platform and service-oriented design meet the diversified requirements of users for future expansion, suiting the IT construction status quo and development trend.

            The series uses a distributed architecture for processing all services. All services are provided by the FIP modules. No extra service modules are required. The H3C Apollo core chipset integrates routing and service processing to ensure high performance service forwarding. The SR6600 uses Comware V7 network operating system that allows for multiple CPUs, distributed computing, modular design, high available architecture, virtualization, and openness.

            The SR6600 series has two models: SR6604 and SR6608.

            Learn more Show less
            SR6604
            SR6604
            SR6608
            SR6608
            • Features
            • Specification
            • Ordering Information
            • Resources
            • Software

            Features

            First multi-core high-end router in the industry

            The series is the first router series that uses the multi-core multi-threading architecture. This architecture greatly improves performance, agility, and programmability and brings ease of use, enabling the series to provide flexible L4 to L7 features. Hardware acceleration speeds up processing of security services and services at the link layer, allowing processors to focus on critical L4 to L7 services.

            With all the features, the series can respond well to new services in the future and perfectly adapt itself to network development.

            New generation network operating system

            * Multiple cores, symmetrical multi-processing (SMP), Comware V7 platform, and independent processing allow for dynamic loading and independent upgrade. Sophisticated management ensures system availability and performance.

            * Comware V7 platform ensures the performance for key services in real time by reserving dedicated CPU sets for key services. Priority scheduling ensures that the key services that require real-time processing are processed even when the CPU is highly loaded.

            * Comware V7 supports distributed computing. Global protocols such as MPLS and BGP can be distributed to CPUs on different MPUs. Distributed computing ensures high system performance.

            Fully distributed processing architecture

            Separation of routing engine, service engine, and forwarding engine, and separation of the control plane and service plane ensure that services are not interrupted during active and standby MPU switchover. NAT, IPSec, and NetStream services are processed independently by the separate engines, which improves system processing performance and ensures high availability.

            WAN IRF2

            Intelligent Resilient Framework 2 (IRF2) virtualizes two SR6600 routers into one device. IRF2 virtualization reduces network maintenance costs, simplifies network configuration, and improves link bandwidth and device utilization.

            Link aggregation on distributed devices provides load balancing and backup for multiple uplinks. Aggregation links support various services, such as QoS, NetStream analysis, NAT, and data encryption.

            Patented stateful failover technology enables real-time backup and uninterrupted Layer 3 forwarding on the control plane and data plane. Stateful failover increases reliability and performance of the virtual architecture, reduces single point of failure, and prevents service interruption.

            High port density and enhanced aggregation capability

            With the RPE-X3 architecture and four-slot service modules, the series can support a maximum of 16 high-speed MIC-X interface modules and provide the best WAN port aggregation capability among routers of the same kind.

            Industry-leading encryption performance

            All the service modules of the series are encrypted by the built-in hardware to achieve high-performance IPSec encryption. This ensures secure transmission of traffic in WANs and the internal network without increasing the cost.

            Outstanding routing capability

            The series provides large capacity for routing entries, various routing policies, and advanced policy routing. Outstanding routing performance ensures flexible control and scheduling, meeting various service requirements for carriers and enterprises. The SR6600 supports IPv4 and IPv6 static and dynamic routing protocols, such as RIP/RIPng, OSPF/OSPFv3, IS-IS/IS-ISv6, and BGP/BGP4+.

            Abundant VPN features

            The series supports L2TP, IPsec, GRE, and independent encryption core to enhance encryption performance and increase tunnel capacity to meet encryption gateway requirements. These features enhance transmission security without increasing costs.

            Traditional VPN is less flexible because an access device cannot obtain the public IP address of the peer end during the registration. Traditional VPN is hard to maintain because it requires N2 connections for a full meshed network. The series provides the Auto Discovery Virtual Private Network (ADVPN) solution. ADVPN allows the access routers that use dynamic IP addresses to build VPNs between branches. ADVPN increases network flexibility and simplifies maintenance operation. ADVPN also supports features such as NAT traversal, security authentication, IPsec encryption, and multi-VPN domains.

            To remove complexities caused by the exponential increase of IKE SAs and IPSec SAs, the series uses the GDVPN solution that offers a group-based IPSec model. GDVPN encapsulates a new IP header that is the same as the original IP header for packets without changing the original IP header, retaining the original routing structure and enhancing QoS performance. GDVPN uses tunnel-less connections and performs one-time encryption on each multicast packet instead of sending an encryption packet to each peer, which improves multicast efficiency.

            The SR6600 supports MPLS features such as L2VPN, L3VPN, and MPLS TE, and can cooperate with other router models to provide various high-performance and secure MPLS VPN solutions.

            All-around network security protection

            The series ensures service security by using FIP modules. FIP modules cooperate with the RSE-X3 MPU and Comware V7 software to take over all the services on traditional service modules, which reduces costs and simplifies management.

            The routers provide the following built-in security features:

            * Firewall features—Packet filtering firewall, status firewall, attack packet filtering, and log filtering. ACL accelerating algorithm minimizes the ACL filtering impact on firewall performance.

            * Built-in anti-attack features:

            * Anti-single packet attacks—Protects the networks against single packet attacks, such as the Fraggle, ICMP redirect, ICMP unreachable, LAND, large ICMP, route record, smurf, source route, TCP flag, Tracert, and WinNuke.

            * Anti-scanning attacks—Prevents attackers from scanning the host IP addresses and ports to avoid topology and service detecting.

            * Anti-flooding attacks—Prevents SYN flood, ICMP flood, and UDP flood.

            * Blacklist features—Filters attacking packets based on source IP addresses. Filters out the attacking packets sent from specific source IP addresses.

            * User tracking—Monitors user behaviors based on the logs and the IMC UBAS solution.

            Smart bandwidth management

            In primary/backup networks, smart bandwidth management routes traffic to the backup network based on the policies when traffic load on the primary network is heavy.

            Smart bandwidth management provides the following features:

            * Unequal cost multiple path (UCMP)—Manages bandwidth usage based on weight. Traffic is directed to paths based on the bandwidth of the path.

            * Bandwidth reservation and resource sharing—Bandwidth is reserved for services. Remaining bandwidth is used for traffic burst after the reserved bandwidth is used up.

            * Hierarchical CAR—Allows for bandwidth reallocation, improving bandwidth utilization.

            Carrier-class availability

            The series uses distributed architecture and provides redundancy for MPUs, switching fabric modules, power modules and hot-swapping for MPUs, services cards, and power modules. The control plane and service plane are separated. Faulty hardware is automatically isolated.

            The series provides various high availability software features listed in the following table.

            Specification

            Hardware specifications

            Item

            SR6604

            SR6608

            Chassis

            Integrated chassis, which can be installed in a 19-inch rack. Distributed service architecture.

            Integrated chassis, which can be installed in a 19-inch rack. Distributed service architecture.

            MPU slots

            2 (1+1 redundancy)

            2 (1+1 redundancy)

            Service module slots

            2

            4

            Maximum interface module slots on service modules

            8

            16

            Forwarding Performance IMIX Mbps

            80 Gbps

            160 Gbps

            Forwarding capacity

            30 Mpps

            60 Mpps

            Power module

            1+1 redundancy

            Smart power management

            1+1 redundancy

            Smart power management

            Rated AC power

            100 to 240 VAC @ 50 Hz/60 Hz

            100 to 240 VAC @ 50 Hz/60 Hz

            Rated DC power

            –48 to –60 VDC

            –48 to –60 VDC

            Operating altitude

            –60 to +5000 m (–196.85 to +16404.20 ft)

            –60 to +5000 m (–196.85 to +16404.20 ft)

            EMC

            FCC Part 15 (CFR 47) CLASS A

            ICES-003 CLASS A

            VCCI CISPR32 CLASS A

            CISPR 32 CLASS A

            EN 55032 CLASS A

            AS/NZS CISPR32 CLASS A

            CISPR 24

            EN 55024

            EN 61000-3-2

            EN 61000-3-3

            EN 61000-6-1

            ETSI EN 300 386

            EN 301 489-1

            EN 301 489-17

            FCC Part 15 (CFR 47) CLASS A

            ICES-003 CLASS A

            VCCI CISPR32 CLASS A

            CISPR 32 CLASS A

            EN 55032 CLASS A

            AS/NZS CISPR32 CLASS A

            CISPR 24

            EN 55024

            EN 61000-3-2

            EN 61000-3-3

            EN 61000-6-1

            ETSI EN 300 386

            EN 301 489-1

            EN 301 489-17

            Security

            UL 60950-1

            CAN/CSA C22.2 No 60950-1

            IEC 60950-1

            EN 60950-1/A11

            AS/NZS 60950

            EN 60825-1

            EN 60825-2

            FDA 21 CFR Subchapter J

            GB 4943

            UL 60950-1

            CAN/CSA C22.2 No 60950-1

            IEC 60950-1

            EN 60950-1/A11

            AS/NZS 60950

            EN 60825-1

            EN 60825-2

            FDA 21 CFR Subchapter J

            GB 4943

            Software specifications

            Item

            SR6608

            Layer 2 Protocol

            ARP: Dynamic ARP, static ARP, proxy ARP, and gratuitous ARP

            Ethernet and sub interface VLAN

            PPPoE server

            QinQ termination

            VLAN

            Port mirroring

            IP service

            TCP, UDP, IP option, and IP unnumber

            Policy routing

            Layer 3 Ethernet interface binding

            IP routing

            Static routing

            RIPv1, RIPv2, OSPFv2, BGP, IS-IS, EIGRP

            Recursive route

            ECMP

            UCMP

            BGP GTSM

            ISIS MTR

            IPv4 multicast

            IGMPv1/v2/v3

            PIM-DM, PIM-SM, PIM-SSM

            MSDP

            MBGP

            Static multicast routing

            Multicast host tracking

            IP application

            DHCP server, DHCP relay, and DHCP client

            DNS client

            NTP server and client

            Telnet server and client

            TFTP server and client

            FTP server and client

            UDP helper

            IPv6

            Basic functions: IPv6 ND, IPv6 PMTU, dual stack forwarding, IPv6 ACL, and DHCPv6 server/proxy

            IPv6 tunnel technologies, IPv6 manual tunnels, IPv6-over-IPv4, GRE tunnels, automatic IPv4-compatible IPv6 tunnels, 6to4 tunnels, ISATAP tunnels, and 6PE

            6VPE (IPv6 MPLS L3VPN)

            NATPT

            Static routing

            Dynamic routing protocols: RIPng, OSPFv3, IS-ISv6, and BGP4+

            IPv6 multicast protocols: MLDv1/v2, PIM6-DM, PIM6-SM, and PIM6-SSM

            QoS

            Flow classification based on port, MAC address, IP address, IP priority, DSCP priority, TCP/UDP, and protocol type

            Traffic management: CAR rate limiting and configurable granularity

            Rate limiting based on the source and destination addresses (supporting network segment limiting)

            GTS traffic shaping

            Priority marking/remarking

            Queue scheduling mechanisms: FIFO, PQ, CQ, WFQ and RTPQ, and CBWFQ

            Congestion avoidance: Tail-Drop and WRED

            LR rate limiting

            MPLS QoS

            IPv6 QoS

            QoS policy propagation on BGP (QPPB)

            Security

            Time-based access control

            Packet filtering firewall

            ASPF state firewall

            Local TCP anti-attack

            Control plane rate limiting

            URPF

            Web filtering

            Hierarchical user management and password protection

            AAA

            RADIUS

            TACACS+

            Portal authentication (EAD association and portal fail-permit)

            PKI certificate

            SSH 1.5/2.0

            RSA

            IPsec, IPsec multi-instance, and IKE

            BGP/BGP4+ (supporting GTSM)

            Password control

            Attack detection and defense

            IP service features

            NAT, NAT multi-instance, VPN NAT, and NAT logs

            Session limiting

            GRE tunnel (one-to-many application)

            IPsec tunnel

            L2TP tunnel

            NetStreamv5/v8/v9 format and IPv4/IPv6/MPLS packet statistics

            ADVPN

            GDVPN

            EVI

            SDN

            MPLS

            L3VPN: Multi-AS MPLS (Option1/Option2/Option3), hierarchical MPLS VPN, hierarchical PE (HoPE), dual-homing CE, MCE, and multi-role host

            L2VPN: VPLS, Martini, Kompella, CCC, and SVC

            VPLS/H-VPLS

            MPLS TE and RSVP TE

            Multicast VPNs, NG-MVPN

            SDN

            BGP-LS

            Segment-routing

            VXLAN

            EVPN

            Availability

            Redundancy backup for critical components including MPUs and power modules

            VRRP/VRRPv3

            FRR

            IGP fast convergence

            BFD

            ISSU

            IRF2

            GR

            NSR

            NSF

            EAA

            Ethernet OAM

            Software hot fixes

            Hot swapping for MPUs, line cards, interface modules, power modules, and fan trays

            Management and maintenance

            Command line configuration

            Configuration through the console port

            Remote configuration and maintenance through Telnet

            SNMPv1/v2/v3

            Web-based configuration and management

            RMON, supporting 1, 2, 3, or 9 MIB groups

            System logs

            Alarm classification

            Ping and Tracert

            NQA (supporting association with VRRP, policy routing, and static routing)

            Fan status detection, maintenance, and notifications

            Power module status detection, maintenance, and notification

            CF card status detection and maintenance

            Ambient temperature detection and notification

            File system

            FAT format

            CF card

            USB (connecting external storage device)

            Loading and upgrading

            Xmodem

            FTP and TFTP

            Ordering Information

            Item

            Description

            Remarks

            Chassis

            H3C SR6604 router

            H3C SR6608 router

            Power module

            H3C PSR650A DC power module, 650W

            H3C PSR650D AC power module, 650W

            MPU

            MPU RPE-X3 (2G DDR3, 1CON&AUX, 1GE Mgt, 1MiniUSBCON, 1USB)

            Carrier

            SR6600 Chassis Accessories(for RPE-X3)

            Switching fabric module

            H3C SR6600 switching fabric module

            Service module

            RT-FIP-380 multi-service FIP module

            MIC-X interface module

            4-port GE optical + 4-port GE copper interface module (SFP, LC, RJ45)(MIC-X)

            8-port GE optical interface module (SFP, LC)(MIC-X)

            8-port GE copper interface module (RJ-45)(MIC-X)

            10-port GE optical interface module (SFP, LC)(MIC-X)

            4-port GE optical interface module (SFP+, LC)(MIC-X)

            2-port 10GE optical interface module (SFP+, LC)(MIC-X)

            4-port 10GE optical interface module (SFP+, LC)(supports LAN/WAN mode)(MIC-X)

            Resources

            Software

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