Netgear RPS4000v2
Contents
1. NETGEAR ProSAFE Lifetime Hardware Warranty Included Lifetime Technical Support Included Lifetime Next Business Day Hardware Replacement Page 4 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Modern access layer features highlights High Density Layer 2 Layer 3 Layer 4 Chassis Switch Solution M6100 series chassis switch provides extra M6100 series uses latest generation silicon low power 40 nanometer technology Bo ee ea ee 2 eee Jem Up to 144 RJ45 10 100 1000 ports or 120 SEP 100 1000 ports or 72 RJ45 10GBASE T ports or 48 ae P l SFP 1000 10GBASE X ports or a combination L2 L3 and L4 switching features access control list classification filtering IPv4 IPv6 routing IPv6 transi tion services are performed in hardware at interface line rate for voice video and data convergence M6100 series Layer 3 software package provides advanced IPv4 IPv6 fault tolerant routing capabilities for interfaces VLANs subnets and multicast Top of the line switching performance 32K MAC address table 4K concurrent VLANs and 12K Layer 3 route table size for the most demanding enterprise or campus networks Each line card I O blade provides line rate local switching and routing capacity Each slot provides 2 x 40G channels 80G half duplex 160G full duplex access to passive backplane 480 Gbps inter module distributed fabric for up to 12. Page 35 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series RFC 3056 Connection of IPv6 Domains via IPv4 Clouds RFC 5340 OSPF for IPv6 RFC 3315 Dynamic Host Configuration Protocol for IPv6 DHCPv6 RFC 5187 OSPFv3 Graceful Restart RFC 3484 Default address selection for IPv6 RFC 6164 Using 127 Bit IPv6 Prefixes on Inter Router Links RFC 3493 Basic socket interface for IPv6 Data Center RFC 6583 Operational Neighbor Discovery Problems IEEE 802 1 Qaz Draft 2 4 DCBX Data Center Bridging Protocol DCB Capability Exchange Protocol Specification Rev 1 0 DCBX IEEE 802 1 Qau Draft 2 4 QCN Quantized Congestion Notification IEEE 802 1 Qaz Draft 2 4 ETS Enhanced Transmission Selection DCB Capability Exchange Protocol Base Specification Rev 1 06 DCBX FC_BB_5 Rev 2 00 Annex C 3 C 4 3 D3 Section 7 9 FIP Snooping SUPPORTED MIBS Base Package MIBs MIBs can be dowloaded here http www downloads netgear com docs m61 00 enu 230 1 1407 01 index htm ANSI TIA 1057 LLDP EXT MED MIB RFC 2674 Q BRIDGE MIB DIFFSERV DSCP TC Draft no RFC RFC 2677 IANA Address Family Numbers MIB DNS RESOLVER MIB IETF DNS Working Group RFC 2819 RMON MIB DNS SERVER MIB IETF DNS Working Group RFC 2925 DISMAN PING MIB and DISMAN TRACEROUTE MIB GreenEtherne
3. RFC 2365 Administratively scoped boundaries Draft ietf magma igmp proxy O06 txt IGMP MLD based multicast forwarding IGMP MLD proxying RFC 3376 IGMPv3 Draft ietf magma igmpv3 and routing 05 txt IGMPv3 and multicast routing protocol interaction RFC3810 MLDv2 Static RP configuration Core BGP4 RFC 1997 BGP Communities Attribute RFC 4271 A Border Gateway Protocol 4 BGP 4 RFC 2385 Protection of BGP Sessions via the TCP MD5 Signature Option RFC 4486 Subcodes for BGP Cease Notification Message RFC 2545 BGP 4 Multiprotocol Extensions for IPv6 Inter Domain Routing RFC 2918 Route Refresh Capability for BGP 4 RFC 4760 Multiprotocol Extensions for BGP 4 RFC 5492 Capabilities Advertisement with BGP 4 Core IPv6 Routing RFC 1981 Path MTU for IPv6 RFC 3513 Addressing architecture for IPv6 RFC 2373 IPv6 addressing RFC 3542 Advanced sockets API for IPv6 RFC 2460 IPv6 protocol specification RFC 3587 IPv6 global unicast address format RFC 2461 Neighbor discovery RFC 3736 Stateless DHCPv6 RFC 2462 Stateless autoconfiguration RFC 4213 Basic transition mechanisms for IPv6 RFC 2464 IPv6 over Ethernet RFC 4291 Addressing architecture for IPv6 RFC 2711 IPv6 router alert RFC 4443 Internet Control Message Protocol ICMPv6 for the IPv6 Specification
4. stackable solutions with similar port counts value performance ratios are unrivalled Distributed fabric passive backplane NO single point of failure with management and power backup and distributed link aggregation across multiple chassis arrangements e L2 L3 L4 routing as standard NO additional licensing costs or annual maintenance contracts to inflate prices and jeopardise sales Class leading support services as standard All M6100 Chassis series products come with Lifetime Warranty Lifetime Next Business Day and Lifetime Technical online support included at no extra cost Page 15 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Components M6100 3S XCM8903 3 open line card slots 3 Slot 4U Base Chassis 4 power supply slots 8 slots with additional 1U power shelf with ee RPS4000v2 Ordering information Strict passive backplane requirements AU height 6 93 in 17 59 cm and 17 39 in depth 44 16 cm Not orderable as a separate SKU Base chassis comes with M6100 starter kits Warranty Lifetime FRONT B hassi ith FRONT Base chassis with blade O ase chassis without and PSU blank pannels blank panels BACK Base chassis without fan tray XCM8948 I O Blade 48 port 10 100 1000BASE T RJ45 PoE PoE and UPOE available as an option with XCM89P or Ordering information XCM89UP daughter card Worldwide XCM8948 1
5. Protection of BGP Sessions via the TCP MD5 Signature Option RFC 896 Congestion control in IP TCP networks RFC 1027 Using ARP to implement transparent subnet gateways Proxy ARP RFC 2453 RIP v2 RFC 3021 Using 31 Bit Prefixes on Point to Point Links RFC 1256 ICMP router discovery messages RFC 3046 DHCP BOOTP relay RFC 1321 Message digest algorithm RFC 3101 The OSPF Not So Stubby Area NSSA option RFC 1519 CIDR RFC 3768 Virtual Router Redundancy Protocol VRRP RFC 1765 OSPF database overflow RFC 3623 Graceful OSPF Restart RFC 1812 Requirements for IPv4 routers Route redistribution across RIP BGP and OSPF RFC 2082 RIP 2 MD5 authentication RFC 2131 DHCP relay VLAN routing Page 34 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Quality of Service DiffServ RFC 2474 Definition of the differentiated services field DS Field in IPv4 IPv6 headers RFC 2697 A Single Rate Three Color Marker RFC 2475 Anarchitecture for differentiated services RFC 3246 An expedited forwarding PHB Per Hop Behavior RFC 2597 Assured forwarding PHB group Quality of Service Access Control Lists ACLs RFC 3260 New terminology and clarifications for DiffServ Permit deny actions for inbound or outbound IP traffic clas
6. 306 203 hours 35 years XCM8944 blade 837 030 hours 95 6 years 302 649 hours 34 5 years XCM8944F blade 694 849 hours 79 3 years 258 531 hours 29 5 years XCM8924xX blade 418 002 hours 47 7 years 144 699 hours 16 5 years XCM89P daughter card PoE XCM89UP daughter card UPOE 8 253 931 hours 942 2 years 4 943 696 hours 564 3 years 3 905 780 hours 445 9 years 2 430 081 hours 277 4 years APS1000W power supply unit 1 272 908 hours 145 3 years 469 094 hours 53 5 years AFT603 fan tray L2 SERVICES VLANS 450 696 hours 51 4 years 80 820 hours 9 2 years IEEE 802 1Q VLAN Tagging Yes Up to 4 093 VLANs 802 1Q Tagging Protocol Based VLANs Yes IP subnet Yes ARP Yes IPX Yes Subnet based VLANs Yes MAC based VLANs Yes Based on phones OUI bytes internal database or OEVER ie user maintained or protocols SIP H323 and SCCP Private Edge VLAN Yes Private VLAN Yes IEEE 802 1x Yes Guest VLAN Yes RADIUS based VLAN assignment via 1x Yes IP phones and PCs can authenticate on the same port RADIUS based Filter ID assignment via 1x Yes but under different VLAN assignment policies MAC based 1x Yes Unauthenticated VLAN Yes Double VLAN Tagging QoQ Yes Enabling dvlan tunnel makes interface Yes Global ethertype TPID Yes Interface ethertype TPID Yes Customer ID using PVID Yes GARP with GVRP GMRP ete A
7. Each Slot provides 2 x 40G channels 80G half duplex 160G full duplex access to passive backplane Hardware at a Glance FRONT REAR SIZE Model name Form Factor I O Slots PSU Bay Fan Tray External PSU Bay Height Depth Model number M6100 3S Chassis S codiine lt earisio 4 power supply slots 1 fan tray slot Connectors RPS ERS AU height 17 39 in XCM8903 N 1 front to back ae 44 16 cm Passive backplane management and fabric 1 1 redundancy 17 59 cm with hitless failover and non stop forwarding l Supports a maximum of 144 RJ45 10 100 1000 ports or 120 SFP 100 1000 ports 72 RJ45 10GBASE T ports or 48 SFP 1000 10GBASE X ports or a combination LINE CARDS 10 100 100 1000X 100 1000 E Out of band Management Storage Model name Form Factor 1000BASE T Fiber 1 OGBASE T oe can etc h Management Console image config Model number RJ45 ports SFP ports RJ45 ports p pg Ethernet Serial log files XCM8948 O Blade 48 Yes XCM8948 XCM8944 O Blade 40 2 2 independent Yes 1 x RJ45 1 x RJ45 RS232 XCM8944 Ethernet OOB straight 1 x USB XCM8944F O Blade 40 2 2 independent 10 100 1000 through wiring XCM8944F service port 1 x Mini USB 16 shared with XCM8924X O Blade z 24 10GBASE T XCM8924X ACCESSORIES Model name Form Factor Notes Model number Add PoE 802 3at functionality to XCM
8. Multicast VLAN Registration MVR uses a dedicated Multicast VLAN to forward multicast streams and avoid duplication for clients in different VLANs Distance Vector Multicast Routing Protocol DVMRP DVMRP uses a distributed routing algorithm to build per source group multicast trees is a dense mode multicast protocol also called Broadcast and Prune Multicasting protocol DVMRP assumes that all hosts are part of a multicast group until it is informed of multicast group changes It dynamically generates per source group multicast trees using Reverse Path Multicasting Trees are calculated and updated dynamically to track membership of individual groups Multicast routing PIM SM and PIM DM both Multicast static routes allowed in Reverse Path Forwarding RPF selection IPv4 and IPv6 ensure multicast streams can reach mee op iieree eae ee Multicast dynamic routing PIM associated with OSPF including PIM multi hop RP support for routing around damage advanced capabilities Full support of PIM S G Rpt state machine events as described in RFC 4601 Improved Multicast PIM timer accuracy with hardware abstraction layer HAPI polling hit status for multicast entries in real time without caching PoE power management and schedule enablement Power redundancy for higher availability when mission critical convergent installation including hot swap main PSU replacement without interruption Advanced Layer 3
9. 0000S E Warranty Lifetime p ee O A aw XCM8944 I O Blade 40 port 10 100 1000BASE T RJ45 2 port 100 1000 1 OGBASE T RJ45 independent Ordering information 2 port 1000BASE X 10GBASE X SFP independent gt Worldwide XCM8944 100005 PoE PoE and UPOE available as an option with XCM89P or Warranty Lifetime XCM89UP daughter card Page 16 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Components XCM8944F I O Blade 40 port 100BASE X 1000BASE X SFP 2 port 100 1000 1OGBASE T RJ45 independent Ordering information 2 port 1000BASE X 1OGBASE X SFP independent Worldwide XCM8944F 10000S Warranty Lifetime XCM8924X I O Blade 24 port 100 1000 10GBASE T RJ45 16 port 1000BASE X 10GBASE X SFP shared with 16 first Ordering information 10GBASE T ports Worldwide XCM8924X 10000S Warranty Lifetime XCM89P ee Daughter Card Adds PoE 802 3af and PoE 802 3at functionality to XCM8948 or XCM8944 blade Ordering information Worldwide XCM89P 10000S Warranty Lifetime One daughter card per blade Page 17 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Components XCM89UP Daughter Card Adds PoE 802 3af PoE 802 3at and UPOE functionality to XCM8948 or XCM8944 blade Ordering information Worldwide XCM89UP 10000S Warranty Lifetime O
10. 550m 1 804 ft e Fits into XCM2924X SFP interfaces AXM761 10000S 1 unit AXM761P10 10000S pack of 10 units Gigabit SFP AGM731F AGM731F AGM732F 1 000Base SX short range multimode 1000Base SX short range multi 1000Base LX long range single mode LC duplex connector mode LC duplex connector LC duplex connector up to 10km 6 2 miles a Oe OM3 up to 550m 1 804 ft AGM732F 1 unit ACMI STE CE Uni OM4 up to 1 000m 3 280 ft AGM731F 1 unit Fits into XCM8944F SFP interfaces Fits into XCM8944 XCM8944F SFP interfaces Fits into XCM2924X SFP interfaces Fast Ethernet SFP AFM735 AFM735 100Base FX IEEE 802 3 1 00Base FX IEEE 802 3 LC duplex connector LC duplex connector up to 2km 1 24 miles up to 2km 1 24 miles AFM735 10000S 1 unit AFM735 10000S 1 unit Fits into XCM8944F SFP interfaces AGM734 1000Base T Gigabit RJ45 SFP 1 port Gigabit RJ45 for XCM8944F blade SFP ports Supports only 1000Mbps full duplex mode Up to 100m 328 ft with Cat5 RJ45 or better Ordering information Worldwide AGM734 10000S Warranty 5 years Conveniently adds copper connectivity to XCM8944F fiber blade Page 20 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Components Direct Attach Cables for M6100 series Ordering information SFP to SFP Worldwide see table below Warranty 5 years 1 meter 3 3 ft 3 meters
11. 802 3ad 64 LAGs with up to 8 ports per group Number of hardware queues for QoS 7 queues Number of routes IPv4 Unicast 12 288 IPv4 Unicast Routes in IPv4 Routing Default SDM Template SDM System Data Management or switch data IPv4 Multicast 2 048 IPv4 Multicast Routes in Dual IPv4 and IPv6 SDM Template base templates allow for granular system resources IPv6 Unicast 4 096 IPv6 Unicast Routes in Dual IPv4 and IPv6 SDM Template distribution depending on IPv4 or IPv6 applications IPv6 Multicast 512 IPv6 Multicast Routes in Dual IPv4 and IPv6 SDM Template Page 24 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Number of static routes IPv4 512 IPv6 512 Number of IP interfaces port or VLAN 128 Jumbo frame support up to 12K packet size Acoustic noise ANSI S10 12 25 C ambient 77 F M6100 3S Base Chassis 53 dB Fan speed control Heat Dissipation BTU M6100 3S Base Chassis 17 Btu hr XCM8948 blade 205 Btu hr 10 020 Btu hr with XCM89UP output at 2880W XCM8944 blade 239 Btu hr 8 423 Btu hr with XCM89UP output at 2400W XCM8944F blade 512 Btu hr XCM8924X blade 682 Btu hr Mean Time Between Failures MTBF 25 C ambient 77 F 50 C ambient 131 F M6100 3S Base Chassis 3 393 051 hours 387 3 years 791 646 hours 90 4 years XCM8948 blade 862 954 hours 98 5 years
12. 9 8 ft 10 Gigabit DAC AXC761 AXC763 1OGSFP Cu passive 1OGSFP Cu passive SFP connectors on both end SFP connectors on both end AXC761 10000S 1 unit AXC763 10000S 1 unit Fits into XCM8944 XCM8944F SFP interfaces Fits into XCM2924X SFP interfaces Page 21 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Technical Specifications Model Name Description Model number M6100 35S M6100 series 3 Slot Base Chassis XCM8903 XCM8948 I O Blade 48 x 1G RJ45 XCM8948 a XCM8944 I O Blade 40 x 1G RJ45 2 x SFP 2 x 10GBASE T XCM8944 SERAT XCM8944F I O Blade 40 x 1G SFP 2 x SFP 2 x 10GBASE T XCM8944F XCM8924X I O Blade 24 x 10GBASE T 16 x SFP shared XCM8924X XCM89P Daughter Card PoE XCM8944 XCM8948 XCM89P XCM89UP Daughter Card PoE UPOE XCM8944 XCM8948 XCM89UP APS1000W PSU 1 000W AC APS1000W AFT603 Fan Tray with front to back cooling principle AFT603 RPS4000v2 Additional 1U Power Shelf RPS4000v2 PHYSICAL INTERFACES Auto sensing RJ45 Front Auto sensing RJ45 Auto sensing SFP ports 100 1000 Auto sensing SFP ports 10 100 1000BASE T 100 1000BASE X ERAGE 7 1000 1 OGBASE X XCM8948 blade 48 XCM8944 blade 40 2 2 independent XCM8944F blade 40 2 2 independent XCM8924X blade 24 16 shared Front Management Cons
13. C15 100NES version UK power cord AC plug gt C15 100NES version Euro schuko power cord AC plug gt C15 100AJS version Australian power cord AC plug gt C15 100AJS version Japanese power cord AC plug gt C15 AFT603 Fan Tray AFT603 Fan Tray RPS4000v2 Additional 1U Power Shelf RPS4000v2 External RPS EPS 4 Slot PSU Bay 200NES version North American power cord 200NES version UK power cord 200NES version Euro schuko power cord 200AJS version Australian power cord 200AJS version Japanese power cord Installation Guide Resource CD technical documentation manuals OPTIONAL MODULES AND ACCESSORIES M6100 3S Base Chassis XCM8903SK XCM8948 XCM8944 XCM8944F XCM8924X XCM89P XCM89UP AFT603 APS1000W RPS4000v2 Ordering SKU XCM8903SK 10000S XCM8948 10000S M6100 44G3 POE Starter Kit Bundle I O Blade 48 x 1G RJ45 I O Blade 40 x 1G RJ45 2 x SFP 2 x 1OGBASE T I O Blade 40 x 1G SFP 2 x SFP 2 x 1OGBASE T I O Blade 24 x 10GBASE T 16 x SFP shared Daughter Card PoE XCM8944 XCM8948 Daughter Card PoE UPOE XCM8944 XCM8948 PSU 1 000W AC Fan Tray with front to back cooling principle Additional 1U Power Shelf XCM8944 10000S XCM8944F 10000S XCM8924X 10000S XCM89P 10000S XCM89UP 10000S AFT603 10000S APS1000W 100NES AJS RPS4000 200NES AJS XCM8948 I O Blade XCM89P XCM89UP Daughter Card PoE XCM8944 XCM8948 Daughter Card PoE UPOE XCM8944 XCM
14. Inbound Outbound Supports Masking Inbound Outbound MAC Rule Match Fields COS Inbound Outbound Destination MAC Inbound Outbound Destination MAC Mask Inbound Outbound Ethertype Inbound Outbound Source MAC Inbound Outbound Source MAC Mask Inbound Outbound VLAN ID Inbound Outbound Rules attributes Inbound Outbound Assign Queue Inbound Outbound Logging deny rules Inbound Outbound Mirror to supported interface types only Inbound Outbound Redirect to supported interface types only Inbound Outbound Rate Limiting permit rules Yes Interface Inbound direction Yes Outbound direction Yes Supports LAG interfaces Yes Supports Control plane interface Yes Multiple ACLs per interface dir Yes Mixed type ACLs per interface dir Yes Mixed L2 IPv4 ACLs per interface inbound Yes Mixed IPv4 IPv6 ACLs per interface inbound Yes Mixed IPv4 IPv6 ACLs per interface outbound Yes QOS DIFFSERV FEATURE SUPPORT DiffServ Supported Yes Class Type All Yes Class Match Criteria COS Inbound Outbound COS2 Secondary COS Inbound Destination IP for Mask support see below Inbound Outbound Destination IPv6 IP Inbound Outbound Destination L4 Port Inbound Outbound Destination MAC for Mask support see below Inbound Outbound Ethertype Inbound Outbound Every Packet Inbound Outbound IP DSCP Inbound Outbound IP Precedence Inbound Outbound IP TOS for Mask support see below Inbound Outbound Protocol Inbound Outbound Reference Class Inbound Outbound Source IP fo
15. Secondary Device Disable VPC on Secondary Device 25 sec 28 sec 15 sec 18 sec 25 sec 28 sec Standard LAG timings apply Standard LAG timings apply Standard LAG timings apply Traffic Impact Link failure scenarios Peer Link down typical max All member ports in a given VPC going down on Primary All member ports in a given VPC going down on Secondary M6100 SERIES PLATFORM CONSTANTS 7 sec 10 sec 12 sec 302 sec 12 sec 302 sec Maximum number of remote Telnet connections 5 Maximum number of remote SSH connections 5 Number of MAC Addresses 32K Page 39 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Number of VLANs 4K VLAN ID Range 1 4093 Number of 802 1p Traffic Classes 7 classes IEEE 802 1x Number of 1x clients per port 48 LLDP Organizationally Defined Large TLV buffers LLDP Organizationally Defined Small TLV buffers Number of LAGs 64 LAGs with up to 8 ports per group Maximum multiple spanning tree instances 31 MAC based VLANS Yes Number supported 256 Number of network buffers 246 Number of log messages buffered 200 Static filter entries Unicast MAC and source port 20 Multicast MAC and source port 20 Multicast MAC and destination port only 1 024 Subnet based VLANs Yes Number supported 128 Protocol Based VLANs Yes Max number of groups 128 Max protocols 16 Maximum Multicast MAC Addres
16. Telnet server Auto Image Upgrade Core Switching IEEE 802 1AB Link level discovery protocol IEEE 802 3ac VLAN tagging IEEE 802 1D Spanning tree IEEE 802 3ad Link aggregation IEEE 802 1p Ethernet priority with user provisioning and mapping IEEE 802 3ae 10 GbE IEEE 802 1Q Virtual LANs w port based VLANs IEEE 802 3af Power over Ethernet IEEE 802 1S Multiple spanning tree compatibility IEEE 802 1v Protocol based VLANs IEEE 802 3at Power over Ethernet Plus IEEE 802 3x Flow control Page 33 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series IEEE 802 1W Rapid spanning tree ANSI TIA 1057 LLDP MED IEEE 802 1AB LLDP GARP Generic Attribute Registration Protocol clause 12 802 1D 2004 IEEE 802 1X Port based authentication GMRP Dynamic L2 multicast registration clause 10 802 1D 2004 IEEE 802 3 10Base T GVRP Dynamic VLAN registration clause 11 2 802 1Q 2003 IEEE 802 3u 100Base T RFC 4541 IGMP snooping and MLD snooping IEEE 802 3ab 1000Base T RFC 5171 UniDirectional Link Detection UDLD Protocol Additional Layer 2 Functionality Broadcast storm recovery IGMP and MLD snooping querier Double VLAN VMAN tagging DHCP Snooping Port MAC locking MAC based VLANs Dynamic ARP inspect
17. a full mesh of iBGP peering sessions The administrator can configure an internal BGP peer to be a route reflector client Alternatively the administrator can configure a peer template to make any inheriting peers route reflector clients The client status of a peer can be configured independently for IPv4 and IPv6 a cluster may have multiple route reflectors A cluster may have multiple route reflectors The Policy Based Routing feature PBR overrides It provides freedom over packet routing forwarding instead of leaving the control to standard routing routing decision taken by the router and makes the protocols based on L3 packet to follow different actions based on a policy For instance some organizations would like to dictate paths instead of following the paths shown by routing protocols Network Managers Administrators can set up policies such as My network will not carry traffic from the Engineering department Traffic originating within my network with the following characteristics will take path A while other traffic will take path B When load sharing needs to be done for the incoming traffic across multiple paths based on packet entities in the incoming traffic Enterprise security Traffic control MAC Filter and Port Security help restrict the traffic allowed into and out of specified ports or interfaces in the system in order to increase overall security and block MAC address flooding issues DHC
18. ee ie PFC VENES SSH Time based Policy based BPDU STRG GMRP MLAG Captive Portal static routes Proxy ARP Prod ee ACME Control routing PBR Root Guard across DHCP Snoop PIM SM Fens MSs iON SNMP MIBs Single Rate Packet Qing two neoPing Stateful ce Selection RSPAN Policing Flooding EAE MEY maa Private chassis P Source Guard DHCPv6 5 ETS 802 3az Server 6 to 4 FCoE FIP VLANs switches tunnels Snooping CLI only Performance at a Glance TABLE SIZE Routing MAC ARP Application Multicast IP Multicast Model Name Pa an bile Switching Throughput Pe ance NDP VLANs Route IGMP Group Forwarding sFlow kaa P P Capacity y y DHCP Scaling Membership Entries Each Slot Dual l i i 1G 10G Blades 32K MAC provides 2 x 1 4 Tbps 357 Mpps Supervisory 32Mb 72Mb BK ARP NDP Static 512 32 40G access to 480 Gbps Modules Backer Buf samplers Intra Module Inter ACKE uter ARP 1 2kpps RIP 51 2 the backplane Inter CPU 800 Mh Modul Module Fabric and Z 2K IPv4 1 5K IPv4 52 M6100 3S OERS Each Line 1GB RAM 4K VLANs OSPF XCM8903 Card provides 1 071 Mpps Mana emeng 64MB Flash 2K IPv6 512 IPv6 pollers half duplex Distributed elnettet Nonstop a DHCP 4K and BGP 160G Fabric Forwarding Latency es 12 000 8 capacity Module j 3 7us 10G RJ45 routes receivers full duplex Failover in 256 pools per slot NSF 1 5us 10G SFP Each Line Card provides line rate switching and routing capacity
19. enabled M6100 automatically detects if a peer is operating with either of the two DCBX versions the CEE DCBX and the IEEE standard DCBX by default DCBX protocol supports the propagation of received configuration information for the following features Enhanced Transmission Selection ETS Priority based Flow Control PFC Application Priorities Enhanced Transmission Selection ETS provides an operational model for priority processing and band width allocation for the switch in a DCB environment Using priority based processing and bandwidth allocations different Traffic Class Groups TCGs within different types of traffic such as LAN SAN and Management can be configured to provide bandwidth allocation or best effort transmit characteristics CoS information is exchanged with peer DCBX devices using ETS TLVs As part of the transmitted ETS TLVs by default DCBX advertises the following parameters on per port basis Mapping between ingress ports 802 1p priority to Traffic Class Group TCG Bandwidth percentage weight percentage of each Traffic Class Group Scheduling algorithm for each Traffic Class Group ETS TLVs are accepted from auto upstream devices and propagated to auto downstream devices ETS may be configured on a port in manual mode and M6100 switch may become the source for ETS configuration in the network The FCoE Initialization Protocol FIP is used to perform the func
20. interface CLI functional NETGEAR web interface GUI SNMP sFlow and RSPAN Single pane of glass NMS300 management platform with centralized firmware updates and mass configuration support Industry leading warranty NETGEAR M6100 series is covered under NETGEAR ProSafe Lifetime Hardware Warranty 90 days of Technical Support via phone and email Lifetime Technical Support through online chat and Lifetime Next Business Day hardware replacement a a oy Hardware Next Tech Warranty ey Support NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Software at a Glance LAYER 3 PACKAGE IPv4 IPv6 Ipvasipve ipv4 ipve gt Panning Trunking IPv4 IPv6 IPv4 IPv6 IPv4 IPv6 Model a Tree mee Datacenter Model Management ACL and QoS Multicast Policing and VLANs Port Authentication Static Dynamic i Name ae Green i Features Number DiffServ Filtering Convergence Channel Security Routing Routing Ethernet NI IPv4 RIP DCBX STP MTP aiae Distrib Port Subnet VRRP 802 1 Qaz Out of band Ingress egress IGMPv3 Auto VolP RSTP Dynamic utedLAG Successive 1 VLAN routing Priority Flow Web GUI en MLDv2 Voice MAC across all Tiering DHCP Relay IPv4 IPv6 Control E P MADAN e panic Auto iSCSl PV R STP GVRP IZO slots DOT1 X MAB
21. on both sides of the link in order to detect an unidirectional link UDLD protocol operates by exchanging packets containing information about neighboring devices The purpose is to detect and avoid unidirectional link forwarding anomalies in a Layer 2 communication channel Both normal mode and aggressive mode are supported for perfect compatibility with other vendors implementations including port D Disable triggering cases in both modes Datacenter Features CLI only The Priority Flow Control PFC is standardized by the IEEE 802 1 Qbb specification and enables flow control per traffic class on IEEE 802 full duplex links The Data Center Bridging Exchange Protocol DCBX is used by DCB devices to exchange configuration information with directly connected peers By pausing congested priorities independently highly loss sensitive protocols can share the same link with traffic that has different loss tolerances The priorities are differentiated by the priority fleld of the 802 1Q VLAN header PFC uses a new control packet defined in 802 1 Qbb and therefore disables 802 3x standard flow control on PFC configured interfaces The protocol is also used to detect misconfiguration of the peer DCB devices and optionally for configura tion of peer DCB devices DCBX is deployed in support of lossless operation for FCoE or ISCSI traffic when all network elements in FCoE topologies are DCBX
22. per port modular flexible implementation Ultra low latency and scalable table size with 32K MAC 8K ARP NDP AK VLANs 12K routes NETGEAR M6100 series PoE features Passive backplane distributed redundant fabric and redundant management provide hitless nonstop forwarding failover protection for always on availability Redundant N 1 power protection contributes to business continuity management Distributed Link Aggregation across all I O blades allows for multi resiliency and advanced load balancing capabilities Multi Chassis Link Aggregation MLAG between two M6100 switches overcomes limitations of Spanning Tree increasing bandwidth while preserving redundancy Per VLAN Spanning Tree and Per VLAN Rapid Spanning Tree PVSTP PVRSTP offer interoperability with PVST infrastructures NETGEAR M6100 series management features Any Gigabit copper blade can receive PoE or UPOE daughter cards for easy upgrade downgrade and best investment protection Up to 3 000W PoE budget is provided by internal power supplies when 6 000W are available with additional 1U power shelf All set for rapid proliferation of PoE PoE devices such as IP telephony endpoints 802 11n 802 11ac access points and IP security cameras Future proof GOW UPOE power delivered to next gen VDI clients or physical security devices UPOE is backward compatible with PoE PoE NETGEAR M6100 series software features Advanced classif
23. support contracts PMP3134 10000S OnSite NBD Replacement 3 year CAT 4 PMBO0334 10000S OnCall 24x7 3 year CAT 4 PMBO354 10000S OnCall 24x7 5 year CAT 4 Page 45 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series ORDERING INFORMATION M6100 44G3 POE Starter Kit Bundle Worldwide XCM8903SK 10000S XCM8948 I O Blade Worldwide XCM8948 10000S XCM8944 I O Blade Worldwide XCM8944 10000S XCM8944F I O Blade Worldwide XCM8944F 10000S XCM8924xX I O Blade Worldwide XCM8924X 10000S XCM89P PoE Daughter Card Worldwide XCM89P 10000S XCM89UP UPOE Daughter Card XCM89UP 10000S Worldwide AAPS1000W Power Supply unit Americas Europe APS1000W 100NES Asia Pacific APS1000W 100AJS AFT603 Fan Tray Worldwide AFT603 10000S RPS4000v2 Additional 1U Power Shelf Americas Europe RPS4000 200NES Asia Pacific RPS4000 200AJS This product comes with a limited warranty that is valid only if purchased from a NETGEAR authorized reseller and modifications to product may void the warranty covers hardware fans and internal power supplies not software or external power supplies See http www netgear com about warranty for details Lifetime technical support includes basic phone support for 90 days from purchase date and lifetime online chat support when purchased from a NETGEAR authorized reseller NETGEAR the NETGEAR
24. 3us XCM8944F 100Mbps Fiber 5 66us 5 7us 5 77us 5 7 Wis 5 6 1s XCM8924X 100Mbps Copper 8 523us 8 625us 8 65us 8 629us 8 594us XCM8948 1Gbps Copper 3 395us 4 549us 4 857us 4 499us 4 552us XCM8944 1Gbps Copper 3 411us 4 526us 4 82us 4 485us 4 557us XCM8944F 1Gbps Copper 2 708us 2 814us 2 83 8us 2 77 6uUS 2 806us XCM8924X 1 Gbps Copper 2 SOLS 2 573Us 2 507 5 2 067 2 545us XCM8944 1Gbps Fiber SFP 2 368us 2 474us 2 538us 2 466us 2 436s XCM8944F 1Gbps Fiber SFP 3 061uUs 4 163us 4 459us 4 119us 4 195us XCM8924X 1 Gbps Fiber SFP 2 682uUs 2 691uUs 2 7usS 2 686us 2 656us XCM8944 10Gbps Copper 10GBASE T 3 87us 3 99us 4 042us 3 966us 3 97us XCM8944F 10Gbps Copper 10GBASE T 3 92us 4 04us 4 062us 4 01 6us 4 04us XCM8924X 10Gbps Copper 10GBASE T 3 34us 3 34us 3 362us 3 33 6us 3 33us XCM8944 10Gbps Fiber SFP 1 58us 1 32 5 is 0 987us 0 491 us 0 48us XCM8944F 10Gbps Fiber SFP 1 63us 1 55 5s 1 412us 1 13 6us 1 14us XCM8924X 10Gbps Fiber SFP 1 452us 127 Vs 1 061us 0 842us O 8us Green Ethernet Energy Efficient Ethernet EEE IEEE 802 3az Energy Efficient Ethernet Task Force compliance Other Metrics Forwarding mode Store and forward Deactivated by default Addressing 48 bit MAC address Address database size 32 000 MAC addresses Number of VLANs 4 096 VLANs 802 1Q simultaneously Number of multicast groups filtered IGMP 4K total 2 048 IPv4 and 2 048 IPv6 Number of Link Aggregation Groups LAGs
25. 4 Tbps total routing switching capacity Up to 1 071 Mops intra blade throughput and 357 Mpps inter blade throughput 80 PLUS certified power supplies for energy high efficiency Increased packet buffering with up to 32 Mb Gigabit blades and 72 Mb 10 Gigabit blades for most intensive applications Low latency at all network speeds including 10 Gigabit copper and fiber interfaces Jumbo frames support of up to 12Kb accelerating storage performance for backup and cloud applications iSCSI Flow Acceleration and Automatic Protection Detecting the establishment and termination of iSCSI sessions and connections by snooping packets used QoS for virtualization and server room networks in the iSCSI protocol containing iSCSI initiators and iSCSI targets ee ee J J Maintaining a database of currently active iSCSI sessions and connections to store data including classifier rules for desired QoS treatment Installing and removing classifier rule sets as needed for the iSCSI session traffic Monitoring activity in the iSCSI sessions to allow for aging out session entries if the session termination packets are not received Avoiding session interruptions during times of congestion that would otherwise cause iSCSI packets to be dropped Tier 1 availability M6100 series is designed upon Distributed Fabric Distributed fabric removes the need for a dedicated supervisory module yet simplifying inventory innovative c
26. 540 W XCM8944F 150W 4x PSU APS1000W 2 240 W 1 680 W 3 080 W 2 310 W XCM8924X 200W 5 x PSU APS1000W 2 800 W 2 240 W 3 850 W 3 080 W Use M6100 configurators 6 x PSU APS1000W 3 360 W 2 800 W 4 620 W 3 850 W eee j 7 x PSU APS1000W 3 920 W 3 360 W 5 390 W 4 620 W 8 x PSU APS1000W 4 480 W 3 920 W 6 160 W 5 390 W Features Support Blades equipped with XCM89P daughter card Blades equipped with XCM89UP daughter card IEEE 802 3af up to 15 4W per port Yes Yes IEEE 802 3at up to 30W per port Yes Yes IEEE 802 3at Layer 2 LLDP method Yes Yes IEEE 802 3at 2 event classification Yes Yes UPOE interoperability with LLDP 802 3 fetid l Yes organizationally specific TLV UPOE interoperability with forced 4 pair y es static method PoE timer schedule week days hours Yes Yes PROCESSOR MEMORY Processor CPU all blades Integrated 5000 DMIPS Dual Core CPU in switching silicon System memory RAM all blades 1 GB Code storage flash all blades 64 MB Dual firmware image dual configuration file Packet Buffer Memory XCM8948 XCM8944 XCM8944F blades 32 Mb Dynamically shared across only used ports XCM8924X blade 72 Mb M6100 3S CHASSIS Backplane Passive Backplane with redundant fabric and redundant management Fabric 480Gbps Distributed Fabric I O Blades are equipped with dedicated hardware and software distributed fabric Resiliency Control Plane Management P
27. 8948 XCM89P 10000S XCM89UP 10000S Page 44 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series XCM8944 I O Blade XCM89P XCM89UP AGM731F AGM732F AXC761 AXC763 AXM761 AXM761 Pack of 10 units AXM762 AXM762 Pack of 10 units AXM763 Daughter Card PoE XCM8944 XCM8948 Daughter Card PoE UPOE XCM8944 XCM8948 1000Base SX SFP GBIC Multimode 1000Base LX SFP GBIC Single mode 1OGSFP Cu passive SFP to SFP Direct Attach Cable 1m 1OGSFP Cu passive SFP to SFP Direct Attach Cable 3m 10GBase SR SFP GBIC OM3 0M4 Multimode 10GBase SR SFP GBIC OM3 0OM4 Multimode 10GBase LR SFP GBIC Single mode 1O0GBase LR SFP GBIC Single mode 10GBase LRM SFP GBIC Long Reach Multimode for OM1 OM2 also compatible with OM3 OM4 XCM89P 10000S XCM89UP 10000S AGM731F AGM732F AXC761 10000S AXC763 10000S AXM761 10000S AXM761P10 10000S AXM762 10000S AXM762P10 10000S AXM763 10000S XCM8944F I O Blade AFM735 AGM731F AGM732F AXC761 AXC763 AXM761 AXM761 Pack of 10 units AXM762 AXM762 Pack of 10 units AXM763 100Base FX SFP GBIC Multimode 1000Base SX SFP GBIC Multimode 1000Base LX SFP GBIC Single mode 1OGSFP Cu passive SFP to SFP Direct Attach Cable 1m 10GSFP Cu passive SFP to SFP Direct Attach Cable 3m 10GBase SR SFP GBIC OM3 0M4 Multimode 10GBase SR SFP GBIC OM3 0M4 Multimode 10GBase LR SFP GBIC Single mode 10GBa
28. 8948 and XCM8944 blades Aoa EUJr aa 1 daughter card per blade required up to 30W per 1G RJ45 port backward compatible with PoE NEMSE Add UPOE functionality to XCM8948 and XCM8944 blades se Palin Cal 1 daughter card per blade required up to GOW per 1G RJ45 port backward compatible with PoE PoE Re APS1000W Power Supply PSU 1 000W AC up to four PSUs in M6100 3S chassis up to four more PSUs in RPS4000v2 external power supply bay APS1000W AFT603 Fan Tray Fan Tray for M6100 3S chassis front to back cooling principle one fan tray per chassis required AFT603 RPS4000v2 External PSU Bay Additional 1U power shelf RPS EPS unit with four open power supply slots RPS4000v2 Page 2 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Hardware at a Glance POWER OVER ETHERNET 110V AC in 220V 230V 240V AC in 1 x XCM8944 1 x XCM8944 1 x XCM8944 1 x XCM8944 Examples of Neelam 1 x XCM8948 2 x XCM8948 te eee 1 x XCM8948 2 x XCM8948 configuration Tae uneer card 2 x daughter cards 3 x daughter cards Upisa daa 2 x daughter cards 3 x daughter cards a GONE XCM89P or XCM89UP XCM89P or XCMB89UP til aa dad XCM89P or XCMB9UP XCM89P or XCM89UP 40 88 136 40 oa ae Watts PoE Budget ports PoE Budget ports PoE Budget ports PoE Budget ports PoE Budget ports PoE Budget pls N N 1 PoE or N N 1 PoE or N Z N 1 PoE or N N 1 PoE
29. Dv2 Snooping Support Yes Expedited Leave function Yes Static L2 Multicast Filtering Yes IGMP Snooping Enable IGMP Snooping per VLAN Yes Snooping Querier Yes MGMD Snooping Control Packet Flooding Yes Flooding to mRouter Ports Yes Remove Flood All Unregistered Option Yes Multicast VLAN registration MVR Yes L3 SERVICES MULTICAST ROUTING IGMP Proxy Yes MLD Proxy Yes Page 26 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Multicast streams routing between subnets VLANs Yes Multicast static routes IPv4 IPv6 Yes DVMRP Distance Vector Multicast Routing Protocol Yes Neighbor discovery Yes PIM DM Multicast Routing dense mode Yes PIM DM IPv6 Yes PIM SM Multicast Routing sparse mode Yes PIM SM IPv6 Yes PIM multi hop RP support Yes PIM Timer Accuracy Yes PIM SM Unhandled Events Yes IPMC replication hardware support Yes 3 SERVICES DHCP DHCP IPv4 DHCP IPv6 Client Yes DHCP IPv4 DHCP IPv6 Server Stateless Stateful Yes DHCP Snooping IPv4 IPv6 Yes BootP Relay IPv4 IPv6 Yes DHCP Relay IPv4 IPv6 Yes DHCP Relay Option 82 circuit id and remote id for VLANs Yes Multiple Helper IPs Yes Auto Install DHCP options 66 67 150 and 55 125 Yes L3 SERVICES ROUTING Static Routing ECMP Static Routing IPv4 IPv6 Multiple next hops to a given destination Yes Load s
30. HB Support EF Yes AF4x Yes AF3x Yes AF2x Yes AF1x Yes CS Yes Statistics Policy Instance Offered packets Discarded packets QOS COS FEATURE SUPPORT COS Support Yes Supports LAG interfaces Yes COS Mapping Config Configurable per interface IP DSCP Mapping Yes Yes Page 32 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series COS Queue Config Queue Parms configurable per interface Drop Parms configurable per interface Interface Traffic Shaping for whole egress interface Minimum Bandwidth Weighted Deficit Round Robin WDRR Support Maximum Queue Weight WRED Support Yes Yes Yes Yes Yes 127 Yes FUNCTIONAL SUMMARY IETF RFC STANDARDS AND IEEE NETWORK PROTOCOLS Core Management RFC 854 Telnet RFC 855 Telnet option specifications RFC 3414 User Based Security Model RFC 3415 View based Access Control Model RFC 1155 SMI v1 RFC 3416 Version 2 of SNMP Protocol Operations RFC 1157 SNMP RFC 3417 Transport Mappings RFC 1212 Concise MIB definitions RFC 3418 Management Information Base MIB for the Simple Network Management Protocol SNMP RFC 1867 HTML 2 0 forms with file upload extensions Configurable Management VLAN RFC 1901 Community based SNMP v2 RFC 1908 Coexistence between SNMP v1 and SNMP v2 RFC 2068 HTTP 1 1 p
31. Height 0 65 inches 1 66 cm Depth 5 05 inches 12 82 cm Width 15 87 inches 40 3 cm Height 4 94 inches 12 56 cm Depth 3 35 inches 8 5 cm Width 3 40 inches 8 64 cm Height 1 55 inches 3 93 cm Depth 8 17 inches 20 75 cm Weight M6100 3S Base Chassis empty M6100 3S Chassis fully loaded XCM8948 I O Blade XCM8944 I O Blade XCM8944F I O Blade XCM8924X I O Blade XCM89P PoE Daughter Card XCM89UP UPOE Daughter Card AFT603 Fan Tray APS1000W Power Supply unit 27 34 lb 12 4 kg 69 67 Ibs 31 6 kg 7 12 Ib 3 23 kg 7 41 Ib 3 36 kg 7 45 Ib 3 38 kg 9 57 Ib 4 34 kg 0 49 b 0 22 kg 0 53 lb 0 24 kg 3 92 Ib 1 78 kg 2 27 Ib 1 03 kg Worst case example with 3 x XCM8924X and 4 x APS1000W POWER CONSUMPTION Worst case all ports used line rate traffic M6100 3S Chassis XCM8948 I O Blade without PoE daughter card XCM8948 I O Blade with XCM89UP output at 2 880W XCM8944 I O Blade without PoE daughter card XCM8944 I O Blade without XCM89UP output at 2 400W XCM8944F I O Blade XCM8924X I O Blade 5W max GOW max 2 935W max 7OW max 2 496W max 150W max 200W max Use M6100 Expert configurator www netgear com m61 00 under Resources tab Page 42 of 46 Data Sheet NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches ENVIRONMENTAL SPECIFICATIONS Operating Temperature 32 to 122 F 0 to 50 C Humidity 90 maximum relative humi
32. LSA Pacing feature improves the efficiency of LSA transmit pacing limits the rate of LS Update packets that OSPF can send LSA flooding reducing or eliminating the packet drops caused by bursts in OSPF control packets With LSA refresh groups OSPF efficiently bundles LSAs into LS Update packets when periodically refreshing self originated LSAs OSPF Flood Blocking feature allows to disable LSA In that case OSPF does not advertise any LSAs with area or AS scope in its database description packets flooding on an interface with area or AS domain sent to neighbors wide scope OSPF Transit Only Network Hiding is supported based Transit only networks are usually configured with routable IP addresses which are advertised in LSAs but on RFC 6860 with transit only network defined as a are not needed for data traffic network connecting only routers J ONY If router to router subnets are advertised remote attacks can be launched against routers by sending packets to these transit only networks Hiding transit only networks speeds up network convergence and reduces vulnerability to remote attacks Hiding implies that the prefixes are not installed in the routing tables on OSPFv2 and OSPFv3 routers IP Multinetting allows to configure more than one IP address on a network interface other vendors may call it IP Aliasing or Secondary Addressing ICMP Throttling feature adds configuration options for ICMP Redir
33. Logo and ProSAFE are trademarks of NETGEAR Inc in the United States and or other countries Other brand names mentioned herein are for identification purposes only and may be trademarks of their respective holder s Information is subject to change without notice 2015 NETGEAR Inc All rights reserved NETGEAR Inc 350 E Plumeria Drive San Jose CA 95134 1911 USA 1 888 NETGEAR 638 4327 E mail info NETGEAR com www NETGEAR com DS M6100 1 Page 46 of 46
34. NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet Highlights M6100 series The NETGEAR LAN Access and Aggregation Chassis M6100 series delivers L2 L3 L4 and IPv4 IPv6 rich services for enterprise edge and SMB core deployments as well as 1G 10G mixed infrastructures in server rooms Innovative distributed fabric provides non stop forwarding resiliency and world class availability including passive backplane hitless failover redundant fabric and redundant management without having to pay the exorbitant acquisition and maintenance costs associated by other networking vendors in this class NETGEAR Lan Access and Aggregation Chassis Switch solutions combine the latest advances in hardware and software engineering for higher flexibility lower complexity and stronger investment protection at a high value price point Word class availability Dependable continuity of operations with non stop switching non stop routing and hitless failover supported for both fabric and management N 1 redundancy for power supplies and loop free disruption free multi chassis link aggregation MLAG High speed performance 1 4 Tbps total routing switching capacity and up to 1 071 Mpps intra blade throughput 480 Gbps distributed fabric inter module with each slot providing 2 x 40G access to the passive backplane 80G half duplex 160G full duplex Extra high density e Only 4U height 7 in
35. P Snooping monitors DHCP traffic between DHCP clients and DHCP servers to filter harmful DHCP message and builds a bindings database of MAC address IP address VLAN ID port tuples that are considered authorized in order to prevent DHCP server spoofing attacks IP source guard and Dynamic ARP Inspection use the DHCP snooping bindings database per port and per VLAN to drop incoming packets that do not match any bind ing and to enforce source IP MAC addresses for malicious users traffic elimination Time based Layer 2 Layer 3 v4 Layer 3 v6 Layer 4 Access Control Lists ACLs can be binded to ports Layer 2 interfaces VLANs and LAGs Link Aggregation Groups or Port channel for fast unauthorized data prevention and right granularity For in band switch management management ACLs on CPU interface Control Plane ACLs are used to define the IP MAC or protocol through which management access is allowed for increased HTTP HTTPS or Telnet SSH management security Out of band management is available via dedicated service port 1G RJ45 OOB when in band management can be prohibited via management ACLs Bridge protocol data unit BPDU Guard allows the network administrator to enforce the Spanning Tree STP domain borders and keep the active topology consistent and predictable unauthorized devices or switches behind the edge ports that have BPDU enabled will not be able to influence the overall STP by creating loops Spanning
36. P and MLD RFC 5240 BSR Protocol MIB FASTPATH Enterprise MIBs supporting multicast features BGP Package MIB RFC 1GP 4 MIB FASTPATH BGP MIB Private MIB for FASTPATH Border Gateway Protocol Flex package Data Center Package MIBs IEEE8021 CN MIB Congestion Management MIB IEEE8021 TC MIB Textual conventions MIB for IEEE 802 1 FASTPATH FIPSNOOPING MIB FIP Snooping management MIB MANAGEMENT Password management Yes Configurable Management VLAN Yes Out of band Management yer In band management can be shut down using Man agement ACLs when separate management network Auto Install BOOTP and DHCP options 66 67 150 and 55 125 Yes Scalable deployment process firmware config Admin access control via Radius and TACACS Yes Policies Enable Industry standard CLI IS CLI Yes Command Line interface Page 37 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series CLI commands logged to a Syslog server Yes Web based graphical user interface GUI Yes Fully functional GUI exceptions are noted below Features without Web GUI support PV R STP CLI only Authorization List CLI only Control Plane ACL CLI only DCBX CLI only Priority Flow Control CLI only ETS CLI only FIP Snooping CLI only UDLD CLI only Policy Based Routing CLI only LLPF CLI only BGP CLI only
37. QoS Policy for Single Rate CLI only DHCPv6 Snooping CLI only IPv6 DHCP Relay CLI only eMail Alerting CLI only MMRP CLI only Telnet Yes IPv6 management Yes Dual Software firmware image Yes Allows non disruptive firmware upgrade process Dual Configuration file Yes Text based CLI commands configuration file IS CLI Scripting Yes Port descriptions Yes SNTP client over UDP port 123 Yes Provides synchronized network timestamp either in broadcast or unicast mode XMODEM Yes SNMP v1 v2 Yes SNMP v3 with multiple IP addresses Yes RMON 1 2 3 9 Yes Max History entries 3 number of ports in the chassis LAG 10 Max buckets per History entry 10 Max Alarm entries 3 number of ports in the chassis LAG 10 Max Event entries 3 number of ports in the chassis LAG 10 Max Log entries per Event entry 10 Port Mirroring Yes Number of monitor sessions 1 multiple sessions are configurable Tx Rx Yes Many to One Port Mirroring Yes LAG supported as source ports Yes Max source ports in a session Total switch port count Remote Port Mirroring RSPAN Yes When a particular session is enabled any traffic entering or leaving the source ports of that session is copied mirrored onto a Remote Switched Port Analyzer RSPAN VLAN Flow based mirroring Yes Cable Test utility Yes CLI Web GUI Outbound Telnet Yes SSH v1 v2 Secure Shell SSH Session Configuration Yes SSL HTTPS and TLS v1 0 for web based access Yes File transfer
38. T Ra ae a ia N Fiber 10GBase LR single mode Fiber 10GBase SR multimode M64 Fiber 10GBase LRM multimode T CA Senes Copper 10GBase T RJ45 Cat6a METGEAR Copper Gigabit RJ45 Cat5 p e Oerein alem E Ap ap np mp e qe x z if Copper Gigabit PoE RJ45 Cat5 pL aa e o CESSANS ee Lr tt De sincere fal a i M6100 Series METGEAR ee eee paa S e seein wesley CORE LAYER TSC M7300 Series Servers Storage BACKBONE BUILDING 1 of i YER GGREGATIONIACCES LS ese COLLAPSED ae BACKBONE BUILDING 2 a LAYER M7100 Series AGGREGATION A M6100 Series enn METGEAR io NETGEAR a fll S ry meitiit it ttiai tt Bo if o OF BACKBONE BUILDING 3 z e aE GGREGATION ee i Ome E rs M61 00 Series e e tA S B A A A e A g METGEAR a le ff Mf ma OOO BESSA A SEE le WIRING CLOSET BUILDING 2 a E a E a E 7 rimum ar aa 7 1 Chassis Standards Redefined S D4 AF ccESS LAYER The new ProSAFE M6100 Chassis series is set to shake up how kL V SMBs deploy high performance highly resilient fully redundant ee F and future proof switched networks from the Core to the Edge WIRING CLOSET BUILDING 3 without hurting or exhausting IT budgets Page 14 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Get started today with NETGEAR M6100 series Offering the
39. Tree Root Guard STRG enforces the Layer 2 network topology by preventing rogue root bridges potential issues when for instance unauthorized or unexpected new equipment in the network may accidentally become a root bridge for a given VLAN Dynamic 802 1x VLAN assignment mode including Up to 48 clients 802 1x per port are supported including the authentication of the users domain in Dynamic VLAN creation mode and Guest VLAN order to facilitate convergent deployment For instance when IP phones connect PCs on their bridge IP Unauthenticated VLAN are supported for phones and PCs can authenticate on the same switch port but under different VLAN assignment policies rigorous user Voice VLAN versus other Production VLANs Page 11 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series 802 1x MAC Address Authentication Bypass MAB A list of authorized MAC addresses of client NICs is maintained on the RADIUS server for is a Supplemental authentication mechanism that lets MAB purpose non 802 1x devices bypass the traditional 802 1x process altogether letting them authenticate to the network using their client MAC address as an identifier MAB initiates after unsuccesful dot1x authentication process configurable time out when clients don t respond to any of EAPOL packets MAB can be configured on a per port basis on the switch When 802 1X unaware clients try
40. ad balancing between I O blades From a system perspective a LAG Link Aggregation Group is treated as a physical port by M6100 Chassis switch for even more simplicity Multi Chasssis Link Aggregation MLAG offers Link Servers and other network partner devices are oblivious to the fact that they are pairing with two M6100 Aggregation benefits across two M6100 Chassis Chassis switches to form a LAG cee alee Soke noc Instead the two M6100 Chassis switches appear as a single device to the partner All links can carry data traffic and in case of link or device failures the traffic can continue to flow with minimal disruption Rapid Spanning Tree RSTP and Multiple Spanning Tree MSTP allow for rapid transitionning of the ports to the Forwarding state and the suppression of Topology Change Notification NETGEAR PVSTP implementation CLI only follows Including industry standard PVST interoperability a sane oS na O e acl PVSTP is similar to the MSTP protocol as defined by IEEE 802 1s the main difference being PVSTP runs strict interoperability one Instance per VLAN In other words each configured VLAN runs an independent instance of PVSTP Each PVRSTP instance elects a root bridge independent of the other Hence there are as many Root Bridges in the region as there are VLANs configured Per VLAN RSTP has in built support for FastUplink and FastBackbone IP address conflict detection perfor
41. arch MIB definitions RFC 1213 MIB Il RFC 2011 SNMPv2 Management Information Base ANSI TIA 1057 LLDP MED MIB RFC 2213 Integrated Services MIB FASTPATH Enterprise MIBs supporting switching features RFC 2233 IF MIB FASTPATH MMRP MIB MMRP private MIB for IEEE 802 1Q devices RFC 2233 The Interfaces Group MIB using SMI v2 FASTPATH MSRP MIB MSRP private MIB for IEEE 802 1Q devices RFC 2674 VLAN and Ethernet Priority MIB P Bridge MIB FASTPATH MVRP MIB MVRP private MIB for IEEE 802 1Q devices RFC 2737 Entity MIB Version 2 IANAifType MIB IANAifType Textual Convention RFC 2819 RMON Groups 1 2 3 amp 9 Page 36 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series IEEE 802 1AB LLDP MIB RFC 2863 Interfaces Group MIB IEEE 802 3AD MIB IEEE8021 AD MIB RFC 3291 INET Address MIB IEEE Draft P802 1AS D7 0 IEEE8021 AS MIB RFC 3291 Textual Conventions for Internet Network Addresses IEEE LAG MIB Link Aggregation module for managing IEEE 802 3ad LLDP EXT DOT3 MIB part of IEEE Std 802 1AB RFC 3621 Power Ethernet MIB RFC 3635 Etherlike MIB LLDP MIB part of IEEE Std 802 1AB RFC 3636 IEEE 802 3 Medium Attachment Units MAUs MIB Private MIB for 802 1 Qat 802 1 Qav Configuration RFC 4022 Management Informatio
42. ation Chassis Switches Data Sheet M6100 series UPOE Universal Power over Ethernet provides up to UPOE LLDP TLV an 802 3 organizationally specific TLV is fully supported for compatibility with UPOE GOW per port using 4 pairs while offering backward next generation PD devices compatilibity with 802 3af and 802 3at Additionally a forced 4 pair high power static method is supported in CLI or Web GUI to enable the forced 4 pair configuration Large 10 Gigabit choice for uplinks with SFP ports for fiber or short low latency copper DAC cables 10GBase T ports for legacy Cat6 RJ45 short connections up to 50m and Cat6A Cat7 connections up to 100m Automatic MDIX and Auto negotiation on all ports select the right transmission modes half or full duplex as well as data transmission for crossover or straight through cables dynamically for the admin IPv6 full support with IPv6 host dual stack IPv4 and IPv6 multicasting MLD for IPv6 filtering and PIM SM PIM DM for IPv6 routing ACLs and QoS static routing and dynamic routing OSPFv3 as well as Configured 6to4 and Automatic 6to4 tunneling for IPv6 traffic encapsulation into IPv4 packets Ease of management and granular control Distributed fabric technology simplifies network operations bringing simplicity for maintenance upgrades and spare inventory management When inserted in Slot 1 any I O blade will handle the supervisory role When inserted i
43. ches 17 59cm and 17 39 inches depth 44 16cm Supports 144 RJ45 10 100 1000 ports or 120 SFP 100 1000 ports or 72 RJ45 10GBASE T ports or 48 SFP 1000 10GBASE X ports or a combination Higher flexibility Distributed fabric removes the need for a dedicated supervisory module yet provides passive backplane redundant fabric and redundant management Any I O blade spares hardware and software distributed fabric on board facilitating campus management maintenance and upgrades Lower complexity Entire feature set including datacenter DCBX PFC ETS FIP Snooping and advanced IPv6 L3 routing OSPF PBR BGP is available without a license Innovative slot 1 supervisory and slot 2 backup supervisory design simplifies the entire chassis installation and ongoing maintenance tasks Modern access layer features highlights Page 2 3 Models at a glance Page 4 Product brief Page a i Page 14 15 Target application Page 16 21 Components and modules Page 22 46 Technical specifications and ordering information Page 1 of 46 Investment protection Multi role versatile platform engineered for cost effective Gigabit edge flexible Gigabit 10 Gigabit distribution and scalable 10 Gigabit core applications Any Gigabit copper blade can be upgraded with PoE 30W or UPOE 60W daughter card and downgraded later if the application has changed Industry standard management Industry standard command line
44. densest Gigabit and 10G port solution in a 4U footprint the M6100 is a fully distributed fabric passive backplane solution with full management and power redundancy as standard UPOE capability extends its potential and delivers true investment protection to leverage today and tomorrow s evolving powered devices An ideal platform for virtualized convergence and surveillance environment Designed for use at the center of a small to mid sized organization or as an aggregated or access solution in a larger campus or mid sized enterprise branch network the application scenarios for the M6100 are both wide and diverse For those who require a resilient Gigabit connectivity option to the desktop or 10G for virtualized server and storage needs through to large IP camera surveillance environments the M6100 provides the markets fastest backplane speeds with hitless failover to deliver enterprise grade service levels excellence for SMBs All the hallmarks of a chassis with associated benefits but at fixed stackable price points Integrated supervisor blades NO need for separate or spare supervisor blades Slot 1 is the primary supervisor with slot 2 the default back up supervisor PoE PoE UPOE flexibility NO separate PoE blades required Simply add PoE daughter cards to any Gigabit blade to introduce PoE as and when required 480Gbps inter module backplane performance NO performance compromise With up to 10 x performance of fixed
45. dity non condensing Altitude 10 000 ft 3 000 m maximum Storage Temperature 4 to 158 F 20 to 70 C Humidity 95 maximum relative humidity non condensing Altitude 10 000 ft 3 000 m maximum ELECTROMAGNETIC EMISSIONS AND IMMUNITY Certifications CE mark commercial FCC Part 15 Class A VCCI Class A Class AEN 55022 CISPR 22 Class A Class A C Tick EN 50082 1 EN 55024 SAFETY Certifications CE mark commercial CSA certified CSA 22 2 950 UL listed UL 1950 cUL IEC 950 EN 60950 PACKAGE CONTENT M6100 44G3 POE Starter Kit XCM8903SK 10000S M6100 3S Base Chassis M6100 3S Chassis Switch XCM8903 2 post rack mount kit shipping on a pallet 1 pair of 4 post sliding rails unica 2 blank panels for empty I O slots newidia packaging 3 power supply panels for empty PSU slots Installation guide Resource CD technical documentation manuals C14 to C15 power cord for PDUs and UPS Australian power cord AC plug gt C15 Japanese power cord AC plug gt C15 APS1000W Power Supply unit APS1000W PSU North American power cord AC plug gt C15 UK power cord AC plug gt C15 Euro schuko power cord AC plug gt C15 AFT603 Fan Tray AFT603 Fan Tray XCM8944 I O Blade XCM8944 Blade 40x1G 4x10G RJ45 straight through wiring serial console cable to DBO Mini USB console cable Installation guide Resource CD technical documentation manual
46. dresses for client packets arriving on different interfaces on the relay agent server addresses for client packets arriving on different interfaces on the relay agent Virtual Router Redundancy Protocol VRRP provides VRRP is based on the concept of having more than one router recognize the same router IP address backup for any statically allocated next hop router ae T address going down based on RFC 3768 IPv4 VRRP increases the availability of the default path without requiring configuration of dynamic routing or router discovery protocols on end stations Multiple virtual routers can be defined on any single router interface One of the routers is elected the master router and handles all traffic sent to the specified virtual router IP address When the master router fails one of the backup routers is elected in its place and starts handling traffic sent to the address As an enhancement to RFC 3768 VRRP Interface In that case VRRP master responds to both fragmented and unfragmented ICMP echo requests packets can be configured as pingable to help troubleshoot destined to VRRP address es PE RRE VRRP master responds with VRRP address as the source IPv4 address and VRMAC as the source MAC address A virtual router in backup state discards these ICMP echo requests VRRP Route Interface Tracking feature extends the Allows tracking of specific route interface IP states within the router that can alte
47. e Reflection Yes Private AS Numbers Removal Yes IP Helper Yes Max IP Helper entries 512 IP Event Dampening IPv4 IPv6 Proxy ARP IPv4 IPv6 ICMP IPv4 IPv6 ICMP redirect detection in hardware Yes Policy Based Routing PBR IPv4 IPv6 Based on the size of the packet Yes Based on the Protocol of the payload Protocol ID field Yes Based on Source MAC address Yes Based on Source or Destination IP address Yes Based on VLAN tag Yes Based on Priority 802 1P priority Yes NETWORK MONITORING AND DISCOVERY SERVICES ISDP Industry Standard Discovery Protocol Yes inter operates with devices running CDP 802 1ab LLDP Yes 802 1ab LLDP MED Yes SNMP V1 V2 V3 RMON 1 2 3 9 Yes sFlow Yes SECURITY Network Storm Protection DoS Broadcast Unicast Multicast DoS Protection Yes Denial of Service Protection control plane Yes Switch CPU protection Denial of Service Protection data plane Yes Switch Traffic protection Page 28 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series DoS Attacks Protection SIPDIP UDPPORT L4PORT SYNACK SMACDMAC TCPFLAGSEQ ICMP FIRSTFRAG TCPOFFSET ICMPV4 TCPFRAG TCPSYN ICMPV6 TCPFLAG TCPSYNEFIN ICMPFRAG TCPPORT TCPFINURGPSH PINGFLOOD Applied to IPv4 and IPv6 multicast packets with CPU Rate Limiting Yes unknown L3 addresses when IP routing multicast enabled ICMP throttlin
48. ects can be used by a malicious sender to perform man in the middle attacks or divert pack the transmission of various types of ICMP messages ets to a malicious monitor or to cause Denial of Service DoS by blackholing the packets ICMP Echo Requests and other messages can be used to probe for vulnerable hosts or routers Rate limiting ICMP error messages protects the local router and the network from sending a large number of messages that take CPU and bandwidth Page 10 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Border Gateway Protocol version 4 BGP4 is BGP is an inter Autonomous System AS routing protocol as described in RFC 4271 section 3 supported for typical routed data center topologies Mane IPv4 and IPv6 up to max L3 route table size The primary function of a BGP speaking system is to exchange network reachability information with other 12K routes BGP systems This network reachability information includes information on the list of Autonomous Systems ASes that reachability information traverses BGP Route Reflection feature as described in RFC Under conventional BGP rules a router can only send an internal peer routes learned from an external peer 4456 allows to a router to reflect a route received or routes locally originated from an internal peer to another internal peer te P P Route reflection eliminates the need to configure
49. g yes Restrict ICMP PING traffic for ICMP based DoS attacks Management Management ACL MACAL Yes Protects management CPU access through the LAN Max Rules 64 Out of band Management ties In band management can be shut down entirely when out of band management network Radius accounting Yes RFC 2565 and RFC 2866 TACACS Yes naidoo Deen Yes Software image files and Configuration files with digital signatures Network Traffic Access Control Lists ACLs L2 L3 L4 MAC IPv4 IPv6 TCP UDP Time based ACLs Yes Protocol based ACLs Yes ACL over VLANs Yes Dynamic ACLs Yes IEEE 802 1x Radius Port Access Authentication Yes p 9 An cliois mez 9 poe portan supported including the authentication of the users domain S Supplemental authentication mechanism for non 802 1x MAC Address Authentication Bypass MAB Yes 802 1x devices based on their MAC address only Network Authentication Successive Tiering Yes Pane tae tual ler sca cena Ue cation methods based on configured time outs Port Security Yes IP Source Guard Yes IPv4 IPv6 DHCP Snooping Yes Dynamic ARP Inspection Yes MAC Filtering Yes Port MAC Locking Yes A protected port doesn t forward any traffic unicast Private Edge VLAN Yes multicast or broadcast to any other protected port same switch Scales Private Edge VLANs by providing Layer 2 Private VLANs Yes isolation between ports across switches in same Layer 2 network DATACENTER FEATURES Priority Flow C
50. haring Redundancy Yes Default routes Yes Static Reject routes Yes Port Based Routing Yes VLAN Routing Yes 802 3ad LAG for router ports Yes VRRP IPv4 Pingable VRRP interface Yes VRRP Route Interface Tracking Yes Loopback Interfaces Yes Tunnel interfaces IPv4 IPv6 Configured 6to4 tunnels Yes Automatic 6to4 tunnels Yes 6to4 Border Router Yes RIP IPv4 RIPv1 RIPv2 Yes Enables the exchange of routing information among Route ese FHDEEIan i different routing protocols operating within a router Page 27 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series OSPF IPv4 IPv6 OSPFv2 RFC 2328 including older RFC 1583 support Yes OSPFv3 Yes OSPF Not So Stubby Area NSSA Option Yes Forwarding of OSPF Opaque LSAs Yes Passive interface feature Yes Static Area Range Costs feature Yes OSPF Equal Cost Multipath ECMP Yes Dynamically learned ECMP routes Yes Statically learned ECMP routes Yes OSPF Max Metric feature Yes Automatic Exiting of Stub Router Mode feature Yes Static Area Range Costs feature Yes OSPF LCA Pacing feature Yes OSPF Flood Blocking feature Yes OSPF Transit Only Network Hiding Yes IP Multinetting Yes ICMP throttling Yes Router Discovery Protocol Yes DNS Client IPv4 IPv6 Border Gateway Protocol version 4 BGP IPv4 IPv6 CLI only Support of typical routed cata center topologies Yes BGP Rout
51. ier based time based hardware implementation for L2 MAC L3 IP and L4 UDP TCP transport ports security and prioritization Voice VLAN with SIP H323 and SCCP protocols detection and LLDP MED IP phones automatic QoS and VLAN configuration Efficient authentication tiering with successive DOT1X MAB and Captive Portal methods for streamlined BYOD Best in class IPv4 IPv6 static and dynamic routing including Proxy ARP OSPF BGP Policy based routing and automatic 6 to 4 tunneling Enhanced IPv4 IPv6 multicast forwarding with IGMPv3 MLDv2 Querier and Control Packet Flooding protection DHCP BootP innovative auto installation including firmware and configuration file upload automation Industry standard SNMP RMON MIB LLDP AAA sFlow and RSPAN remote mirroring implementation Selectable service port for out of band Ethernet management OOB Selectable standard RS232 straight through serial RJ45 and Mini USB ports for local management console Standard USB port for local storage logs configuration or image files Dual firmware image and configuration file for updates with minimum service interruption Industry standard command line interface CLI for IT admins used to other vendors commands Fully functional Web console GUI for IT admins who prefer an easy to use graphical interface Single pane of glass NMS300 management platform with mass configuration support NETGEAR M6100 series warranty and support
52. ion IP source guard Independent VLAN Learning IVL support IP subnet based VLANs IPv6 classification APIs Voice VLANs Jumbo Ethernet frames Protected ports Port mirroring IGMP snooping Static MAC filtering Green Ethernet power savings mode System Facilities Event and error logging facility RFC 2030 Simple Network Time Protocol SNTP V4 for IPv4 IPv6 and OSI Runtime and configuration download capability RFC 2131 DHCP Client Server PING utility RFC 2132 DHCP options and BOOTP vendor extensions XMODEM RFC 2865 RADIUS client RFC 768 UDP RFC 2866 RADIUS accounting RFC 783 TFTP RFC 2868 RADIUS attributes for tunnel protocol support RFC 791 1P RFC 2869 RADIUS extensions RFC 792 ICMP RFC 28869bis RADIUS support for Extensible Authentication Protocol EAP RFC 793 TCP RFC 3164 The BSD syslog protocol RFC 826 ARP RFC 3580 802 1X RADIUS usage guidelines RFC 951 BOOTP Power Source Equipment PSE IEEE 802 af Powered Ethernet DTE Power via MDI standard RFC 1321 Message digest algorithm RFC 1534 Interoperability between BOOTP and DHCP IEEE Draft P802 1AS D6 7 IEEE 802 1AS Time Synchronization Protocol Core Routing RFC 826 Ethernet ARP RFC 2328 OSPFv2 RFC 894 Transmission of IP datagrams over Ethernet networks RFC 2385
53. lane Non Stop Forwarding NSF and Hitless Failover Supervisory Modules Any I O blade can handle the Supervisory Module and the Backup Supervisory Module roles Supervisory Slot Slot 1 Backup Supervisory Slot secondary Slot 2 continuous stand by within the distributed fabric Failover Supervisory gt Backup Supervisory Hitless automatic failover Page 23 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Fail back Hitless fail back after CLI or GUI trigerring command PERFORMANCE SUMMARY Switching fabric M6100 35S chassis 480 Gbps Each slot provides 2 x 40G channels 80G half duplex 160G full duplex access to passive Type Distributed fabric backplane Switching Routing capacity M6100 3S Chassis 1 4 Tbps Each Line Card provides local line rate capacity Throughput M6100 3S Chassis intra blade 1 071 Mpps M6100 3S Chassis inter blade 357 Mpps Latency 64 byte frames 512 byte frames 1024 byte frames 1518 byte frames 12288 byte frames XCM8948 10Mbps Copper 46 235us 47 44us 47 374us 47 341us 46 904us XCM8944 10Mbps Copper 46 433us A7 513us A7 545us 47 481 A7 A43us XCM8948 100Mbps Copper 7 209us 8 365us 8 328us 8 317us 8 318us XCM8944 100Mbps Copper 7 22US 8 339us 8 321us 8 287us 8 27
54. maximum admin efficiency traceroute to discover the routes that packets actually take when traveling on a hop by hop basis and with a synchronous response when initiated from the CLI clear dynamically learned MAC addresses counters IGMP snooping table entries from the Multicast forwarding database etc All major centralized software distribution platforms are supported for central software upgrades and configuration files management HTTP TFTP including in highly secured versions HTTPS SFTP SCP Simple Network Time Protocol SNTP can be used to synchronize network resources and for adaptation of NTP and can provide synchronized network timestamp either in broadcast or unicast mode SNTP client implemented over UDP port 123 Embedded RMON 4 groups and sFlow agents permit external network traffic analysis Page 7 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Engineered for convergence Audio Voice over IP and Video multicasting comprehensive switching filtering routing and prioritization Auto VoIP Voice VLAN and LLDP MED support for IP phones QoS and VLAN configuration IGMP Snooping and Proxy for IPv4 MLD Snooping and Proxy for IPv6 and Querier mode facilitate fast receivers joins and leaves for multicast streams and ensure multicast traffic only reaches interested receivers everywhere in a Layer 2 or a Layer 3 network
55. maximum number of IPv6 unicast forwarding table entries ECMP Next Hops the maximum number of next hops that can be installed in the IPv4 and IPv6 unicast forwarding tables IPv4 Multicast Routes the maximum number of Pv4 multicast forwarding table entries IPv6 Multicast Routes the maximum number of IPv6 multicast forwarding table entries Loopback interfaces management for routing protocols administration Private VLANs and local Proxy ARP help reduce broadcast with added security Management VLAN ID is user selectable for best convenience Industry standard VLAN management in the command line interface CLI for all common operations such as VLAN creation VLAN names VLAN make static for dy namically created VLAN by GRVP registration VLAN trunking VLAN participation as well as VLAN ID PVID and VLAN tagging for one interface a group of interfaces or all interfaces at once System defaults automatically set per port broadcast multicast and unicast storm control for typical robust protection against DoS attacks and faulty clients which can with BYOD often create network and performance issues IP Telephony administration is simplified with consistent Voice VLAN capabilities per the industry standards and automatic functions associated Comprehensive set of system utilities and Clear commands help troubleshoot connectivity issues and restore various configurations to their factory defaults for
56. med by embedded DHCP servers prevents accidental IP address duplicates from perturbing the overall network stability IP Event Dampening reduces the effect of interface flaps on routing protocols the routing protocols temporarily disable their processing on the unstable interface until the interface becomes stable thereby greatly increasing the overall stability of the network Ease of deployment Automatic configuration with DHCP and BootP Auto Install eases large deployments with a scalable configuration files management capability mapping IP addresses and host names and providing individual configuration files to multiple switches as soon as they are initialized on the network Both the Chassis Switch Serial Number and primary MAC address are reported by a simple show hardware command in CLI facilitating discovery and remote configuration operations M6100 DHCP L2 Relay agents eliminate the need to DHCP Relay agents process DHCP messages and generate new DHCP messages have a DHCP server on each physical network a Supports DHCP Relay Option 82 circuit id and remote id for VLANs DHCP Relay agents are typically IP routing aware devices and can be referred to as Layer 3 relay agent Automatic Voice over IP prioritization with Auto VoIP simplifies most complex multi vendor IP telephones deployments either based on protocols SIP H323 and SCCP or on OUI bytes default database and user based OUls in the
57. n Base for the Transmission Control Protocol TCP RFC 1493 Bridge MIB RFC 4113 Management Information Base for the User Datagram Protocol UDP RFC 1643 Definitions of managed objects for the Ethernet like interface types RFC 4444 IS IS MIB Routing Package MIBs FASTPATH Enterprise MIBs supporting routing features RFC 2096 IP Forwarding Table MIB IANA Address Family Numbers MIB RFC 2668 IEEE 802 3 Medium Attachment Units MAUs MIB RFC 1724 RIP v2 MIB Extension RFC 1850 OSPF MIB RFC 2787 VRRP MIB IPv6 Management MIBs RFC 3419 TRANSPORT ADDRESS MIB IPv6 ICMP MIB draft IPv6 MIB draft IPv6 Routing MIBs RFC 2465 IPv6 MIB QoS Package MIB RFC 2465 IPv6 MIB RFC 3289 DIFFSERV MIB amp DIFFSERV DCSP TC MIBs Private MIBs for full configuration of DiffServ ACL and CoS functionality Security MIB RFC 2618 RADIUS Authentication Client MIB IEEE8021 PAE MIB The Port Access Entity module for managing IEEE 802 1X RFC 2620 RADIUS Accounting MIB IEEE 802 1X MIB IEEE 8021 PAE MIB 2004 Revision Multicast Package MIBs RFC 2932 IPv4 Multicast Routing MIB for DVMRPv4 and PIMDMv4 draft ietf idmr dvmrp mib 11 txt DVMRP MIB RFC 5060 PIM SM and PIM DM MIB for IPv4 and IPv6 draft ietf magma mgmd mib 05 txt Multicast Group Membership Discovery MIB both IGM
58. n Slot 2 any I O blade will handle the back up supervisory role Dual firmware image and dual configuration file for transparent firmware updates configuration changes with minimum service interruption Flexible Port Channel LAG 802 3ad 802 1AX implementation for maximum compatibility fault tolerance and load sharing with any type of Ethernet channeling from other vendors switch server or storage devices conforming to IEEE 802 3ad including static selectable hashing algorithms or to IEEE 802 1AX with dynamic LAGs or port channel highly tunable LACP Link Aggregation Control Protocol Unidirectional Link Detection Protocol UDLD and Aggressive UDLD detect and avoid unidirectional links automatically in order to prevent forwarding anomalies in a Layer 2 communication channel in which a bi directional link stops passing traffic in one direction Port names feature allows for descriptive names on all interfaces and better clarity in real word admin daily tasks SDM System Data Management or switch ARP Entries the maximum number of entries in the IPv4 Address Resolution Protocol ARP cache for database templates allow for granular system routing interfaces resources distribution depending on IPv4 or IPv6 applications Pv4 Unicast Routes the maximum number of IPv4 unicast forwarding table entries IPv6 NDP Entries the maximum number of IPv6 Neighbor Discovery Protocol NDP cache entries IPv6 Unicast Routes the
59. nd Direction 1 023 Maximum ACL Rules per Interface and Direction IPv6 893 ingress 509 egress Maximum ACL Rules system wide 16K Maximum ACL Logging Rules system wide 128 Page 41 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches M6100 series COS Device Characteristics Configurable Queues per Port 7 queues Configurable Drop Precedence Levels 3 DiffServ Device Limits Number of Queues 7 Requires TLV to contain all policy instances combined Yes Max Rules per Class 13 Max Instances per Policy 28 Max Attributes per Instance 3 Max Service Interfaces 208 Max Table Entries Class Table 32 Class Rule Table 416 Policy Table 64 Policy Instance Table 1 792 Policy Attribute Table 5 376 Max Nested Class Chain Rule Count 26 AutoVolP number of voice calls 144 iSCSI Flow Acceleration Max Monitored TCP Ports IP Addresses 16 Max Sessions 192 Max Connections 192 LEDS Per port Speed Link Activity Per I O blade Supervisor Status Power Supply APS1000W Status M6100 Base Chassis Rear Power PHYSICAL SPECIFICATIONS Dimensions M6100 3S Base Chassis I O Blades all models PoE Daughter Cards all models AFT603 Fan Tray APS1000W Power Supply unit Width 17 01 inches 43 2 cm Height 4U 6 93 inches 17 59 cm Depth 17 39 inches 44 16 cm Width 16 87 inches 42 86 cm Height 1 59 inches 4 05 cm Depth 12 74 inches 32 35 cm Width 13 12 inches 33 32 cm
60. ne daughter card per blade APS1000W Power Supply Unit C15 connector Capacity 110V 240V AC power input Up to 640W output power at 110V AC Up to 910W output power at 220V AC Ordering information Americas Europe APS1OOOW 10QONES Asia Pacific APS1OOOW 100AJS C15 connector Warranty 5 years AFT603 Fan Tray Front to back cooling principle Ordering information Worldwide AFT603 10000S Warranty 5 years 8 EJ a z A wit 58 Tatal NAD 3 25 2 gt va 8 Page 18 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Components RPS4000v2 EPS mode provide 4 additional PSU slots to M6100 3S chassis M6100 3S power management system can use the four additional APS1 OOOW PSUs transparently Additional 1U Power Shelf Ordering information Americas Europe RPS4000 200NES Asia Pacific RPS4000 200AJS Warranty 5 years Front view e RPS4000 is 1RU unit with four 4 empty slots Power modules APS1000W are sold separately APS1000W requirement depends on RPS EPS PoE application Rear view Sc Se eae URR Ga e 0 2 gt 4 6 94k max 24 Sree H Four 4 embedded RPS connectors Switch selectors for RPS EPS power modes Switch selectors for power modules two by two bridging Included Four 4 RPS cables 60cm each 2 ft Rack moun
61. o a 6to4 domain Support of Routing Information Protocol RIPv2 Each route is characterized by the number of gateways or hops a packet must traverse to reach its as a distance vector protocol specified in RFC 2453 intended destination for IPv4 AAS ee Categorized as an interior gateway protocol RIP operates within the scope of an autonomous system Route Redistribution feature enables the exchange of Configurable when different routing protocols use different ways of expressing the distance to a destination routing information among different routing protocols or different metrics and formats all operating within a router l o P g For instance when OSPF redistributes a route from RIP and needs to know how to set each of the route s path attributes Page 9 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Open Shortest Path First OSPF link state protocol For IPv4 networks OSPF version 2 is supported in accordance with RFC 2328 including compatibility for IPv4 and IPv6 mode for the RFC 1583 older specification For IPv6 networks OSPF version 3 is fully supported OSPF can operate within a hierarchy the largest entity within the hierarchy is the autonomous system AS An AS is a collection of networks under a common administration sharing a common routing strategy routing domain An AS can be divided into a number of areas or groups of c
62. ole ports Service port Out of band Ethernet Storage port All blades a e 1 x RJ45 10 100 1000BASE T 1 x USB Front Line Cards Slots I O Slots M6100 3S Base Chassis 3 Front PSUs Standalone With additional 1U power shelf RPS4000v2 M6100 3S Base Chassis 4 x PSU slots 8 x PSU slots Back Fans EPS Connectors MGIOO e gt ese Classis fan es a Fan Tray SER Total Port Count Gigabit 10 Gigabit XCM8948 blade 48 ports total XCM8944 blade AO ports total 4 ports total XCM8944F blade AO ports total 4 ports total XCM8924X blade 24 ports total Page 22 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series POWER OVER ETHERNET PSE Capacity PoE ports UPOE ports Max PoE budget XCM8948 blade equipped with XCM89P 48 7 1 440 W daughter card XCM8948 blade equipped with XCM89UP Use M6100 configurators 48 2 880W daughter card www netgear com m6100 under Resources tab XCM8944 blade equipped with XCM89P 40 g 1 200 W daughter card XCM8944 blade equipped with XCM89UP 40 2 400 W daughter card PoE Budget is remaining difference between Power Supplies delivered PSU delivered Wattage 110V PSU deliveredWattage 2 20V Blades Wattage and Blades consumption N N 1 N N 1 Om UNIREn 1 x PSU APS1000W 640 W 910 W XCM8948 60W 2 x PSU APS1000W 1 120 W 640 W 1 540 W 910 W XCM8944 7OW 3 x PSU APS1000W 1 680 W 1 120 W 2 310 W 1
63. oncept providing passive backplane management maintenance and upgrades redundant fabric and redundant management Equipped with high end hardware and software distributed fabric on board any I O blade can efficiently handle supervisory role in slot 1 When inserted in slot 2 any I O blade can handle back up supervisory role for both management and fabric active passive stand by mode In case of a failure for the supervisory blade in slot 1 removal the back up supervisor in slot 2 is instantly taking over as the new supervisor Instant failover from slot 1 to slot 2 is hitless for non stop forwarding world class resiliency and availability Back to normal production conditions hitless failback requires a command in CLI movemanagement lt 2 gt lt 1 gt or in GUI for more control Any M6100 I O blades support hot plug and hot swap and can be inserted in any slot of M6100 base chassis switch M6100 3S base chassis features a passive backplane for exceptional availability and 387 years MTBF when at 25 C ambient 90 years at 50 C ambient Page 5 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Distributed Link Aggregation also called Port Servers and other network devices benefit from greater bandwidth capacity with active active teaming Channeling or Port Trunking offers powerful network LACP link aggregation control protocol redundancy and lo
64. ontiguous networks and attached hosts Two different types of OSPF routing occur as a result of area partitioning Intra area and Inter area Intra area routing occurs if a source and destination are in the same area Inter area routing occurs when a source and destination are in different areas An OSPF backbone distributes information between areas Advanced OSPF implementation for large OSPF NSSA feature supports RFC 3101 The OSPF Not So Stubby Area NSSA Option routing domains Forwarding of OSPF Opaque LSAs is enabled by default Passive interface feature can disable sending OSPF routing updates on an interface Static Area Range Costs feature allows to configure a fixed OSPF cost that is always advertised when an area range Is active OSPF Equal Cost Multipath ECMP feature allows to forward traffic through multiple paths taking advantage of more bandwidth ECMP routes can be learned dynamically or configured statically with multiple static routes to same destination but with different next hops OSPF Max Metric feature allows to to override the metric in summary type 3 and type 4 LSAs while in stub router mode Automatic Exiting of Stub Router Mode feature allows to exit stub router mode reoriginating the router LSA with proper metric values on transit links Static Area Range Costs feature allows to configure a fixed OSPF cost that is always advertised when an area range is active OSPF
65. ontrol PFC Standardized by IEEE 802 1Qbb Yes CLI only Enables Flow Control per traffic class on IEEE 802 full duplex links Data Center Bridging Exchange Protocol DCBX Yes CLI only Support of lossless operation for FCoE or ISCSI traffic when all network elements are DCBX enabled Enhanced Transmission Selection ETS Yes CLI only Priority based processing and bandwidth allocations different Traffic Class Groups TCGs for LAN SAN Page 29 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series FCoE Initialization Protocol FIP Yes CLI only Used ae perform the functions of FC_BB_E device discovery initialization and maintenance FIP Snooping Yes CLI only Frame inspection by FIP Snooping Bridges to monitor Auto configuration of Ethernet ACLs for FIP frames Yes FIP frames and apply policies based upon L2 header Emulation of FC point to point links within DCB network Yes Enhanced FCoE security preventing FCoE MAC spoofing Yes Intended for use at the edge or the interior of the DCB Ethernet switched network FIP Snooping Bridge Solution Yes CLI only Interior Port Role directly connected to ENode Perimeter Port Role directly connected to ENode ie FCF Facing Port Role receiving traffic from FCFs to ENodes Tes QUALITY OF SERVICE QOS SUMMARY Access Lists L2 MAC L3 IP and L4 Port ACLs Yes Ingress Yes Eg
66. or N Z N 1 PoE or N N 1 a UPOE UPOE UPOE UPOE UPOE UPOE 8 8W 5 2W roA i 570W ia 510W 450W 840W ine 780W per 720W per 1 x PSU per port per port per port per port port port 16W 9 9W ee ait 1050w 570w 202 ggowsiow 112W g30wyasow 68W 147ows40ow 2 7 1410w 780w per 1350W 720W per 2 x PSU per port per port per port per port port port 24 7W 15 5W S L 1610w 1050w 492W a550wy990w 17 1490w930w 109W 2240wy1470w 2 2180w 1410w per 2120w 1350w per 3 x PSU per port per port per port per port port port 33 5W 21 2W 4Uheight 217owy610w 542W 2110w71550w 239W 2050w1490w TP 3010wy2240w 2950w 2180w per 2890w 2120W per 4 x PSU per port per port port per port port port i 42 2W 26 9W oUheight 2730w 2170w OW 2670w2110w 303W 2610w 2050w 191W 3780w3010w 3720w 2950w per 3660w 2890w per ax PSU per port per port per port per port port port 51W 32 5W sU height 3200w2730w SOW 3230wy2670w 2 31 70w2610w 233W assows7eow 4490w 3720w per 4430w 3660w per 6 x PSU per port per port per port per port port port 59 7W 38 2W pUheight sgsqwy3290w 3790wy3230w 3 PE 3730wy3170w 274 sa20wassow so6owaagow per 5200W 4430W per 7 lt P SU per port port per port per port port port 6OW 43 8W SUheignt aaiow3esow SOW 4350w 3790w 494 4290w 3730w 315W 6ooow s320w SOW 6o30w 5260w
67. ors per interface 100 Tunnels Number of configured v6 over v4 tunnels 8 Number of automatic 6to4 tunnels 1 Number of 6to4 next hops 16 DHCP Server Max number of pools 256 Total max leases 4K DNS Client Concurrent requests 16 Name server entries 8 Seach list entries 6 Static host entries 64 Cache entries 128 Domain search list entries 32 DHCPv6 Server Max number of pools 256 DNS domain names within a pool 5 DNS server addresses within a pool 8 Delegated prefix definitions within a pool 10 Number of Host Entries ARP NDP IPv4 only SDM build 8 192 SDM IPv4 IPv6 SDM build v4 v6 6 144 2 560 System Data Management or switch database Static v4 ARP Entries 128 Number of ECMP Next Hops per Route 16 Total ECMP nexthops in Hardware 4096 IGMPv3 MLDv2 Snooping Limits IGMPv3 MLDv2 HW entries when IP Multicast present 512 IGMPv3 MLDv2 HW entries when Routing w o IP 2 048 Multicast 4 096 IGMPv3 MLDv2 HW entries when Switching only IP Multicast Number of IPv4 IPv6 Multicast Forwarding Entries IGMP Group Memberships per system 1 536 IPv4 and 512 IPv6 2K IPv4 and 2K IPv6 DV MRP Neighbors 256 PIM DM Neighbors 256 PIM SM Neighbors 256 PIM SM Static RP Entries 5 PIM SM Candidate RP Group Range Entries 20 PIM SM SSM Range Entries 5 IGMP Sources processed per group per message 73 ACL Limits Maximum Number of ACLs any type 100 Maximum Number Configurable Rules per List 1 023 Maximum ACL Rules per Interface a
68. passive backplane management and fabric nonstop forwarding redundancy the M6100 series delivers world class resiliency and scalability Ultimately operating software and system management features take the complexity out of delivering L2 L3 L4 rich services for enterprise edge and SMB core deployments NETGEAR M6100 series key features M6100 series High performance IPv4 IPv6 multicast routing with PIM timer accuracy and unhandled PIM S G rpt state machine events transitioning Advanced IPv4 IPv6 security implementation including malicious code detection DHCP Snooping IP Source Guard protection and DoS attacks mitigation Innovative multi vendor Auto iSCSI capabilities for easier virtualization optimization Datacenter ready features include DCBX 802 1 Qaz Priority Flow Control PFC Enhanced Transmission Selection ETS and FCoE FIP Snooping NETGEAR M6100 series resiliency and availability features Proficient access layer in campus LAN networks and competent distribution or core layer for midsize organizations networks Advanced Layer 2 Layer 3 and Layer 4 feature set no license required including PBR BGP DCBX PFC ETS and FCoE FIP Innovative distributed fabric with nonstop forwarding and hitless failover redundancy between supervisory I O modules Up to 144 Gigabit ports or 72 10 Gigabit ports or a combination of both in dense form factor models PoE 30 watts per port and UPOE 60 watts
69. per 5970w 5200w per 8 x PSU per port per port per port per port port port Visit www netgear com m6100 and download M6100 basic configurator or M6100 expert configurator files under Resources tab for tailored design and error free SKU list Starter Kit M6100 44G3 POE is M6100 series chassis Starter Kit 1 empty chassis M6100 3S XCM8903 1 blade 40x1G 4x10G XCM8944 1 PoE daughter card XCM89P 1 power supply unit APS1OOOW 1 fan tray front to back AFT603 2 blank panels for open blade slots 3 power supply panels for empty PSU slots e Rack mount kit for 2 post racks and wiring cabinets Complimentary handles for rack mount kit Complimentary sliding rails kit for 4 post racks and wiring cabinets Ordering SKU number worldwide For illustration only Starter Kit is not pre assembled XCM8903SK 10000S Starter kit components ship in their individual packaging Shipping master carton arrives on a pallet Page 3 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet Product Brief The M6100 switch series consists of Gigabit access layer and 10 Gigabit distribution layer switches in the NETGEAR modular chassis switch product line The M6100 switch series offers high quality high density chassis alternative to stackable switches in campus LAN and midsize organizations demanding networks With more than 1 4 Tbps switching and routing capacity
70. phone source MAC address providing the best class of service to VoIP streams both data and signaling over other ordinary traffic by classifying traffic and enabling correct egress queue configuration An associated Voice VLAN can be easily configured with Auto VoIP for further traffic isolation When deployed IP phones are LLDP MED compliant the Voice VLAN will use LLDP MED to pass on the VLAN ID 802 1P priority and DSCP values to the IP phones accelerating convergent deployments Versatile connectivity Up to 6 000 Watts PoE budget depending on number M6100 configurators are available at www netgear com m6100 under the Resources tab of power supplies and I O blades combination XCM8948 48 x 1G RJ45 and XCM8944 40 x 1G RJ45 2 x 1O0GBASE T 2 x SFP can be equipped with a PoE daughter card for PoE 30W or UPOE 60W These I O blades can be upgraded with PoE at any XCM89P daughter card supports PoE 802 3af and PoE 802 3at ee downgraded if the XCM89UP daughter card supports PoE 802 3af PoE 802 3at and UPOE pp g Universal Power over Ethernet IEEE 802 3at Power over Ethernet Plus PoE IEEE 802 3at Layer 2 LLDP method and 802 3at PoE 2 event classification method fully supported for provides up to 30W power per port using 2 pairs compatibility with most PoE PD devices while offering backward compatilibity with 802 3af Page 6 of 46 NETGEAR ProSAFE LAN Access and Aggreg
71. r Mask support see below Inbound Outbound Source IPv6 IP Inbound Outbound L3 IPv6 Flow Label Inbound Source L4 Port Inbound Outbound Source MAC for Mask support see below Inbound Outbound VLAN ID Source VID Inbound Outbound VLAN ID2 Secondary VLAN Source VID Inbound Outbound Supports Masking Inbound Outbound Page 31 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Policy Out Class Unrestricted Yes Policy Attributes Inbound Assign Queue Yes Drop Yes Mark COS Yes Mark COS AS COS2 Yes Mark COS2 Secondary COS Yes Mark IP DSCP Yes Mark IP Precedence Yes Mirror to supported interface types only Yes Police Simple Yes Police Single Rate Yes Police Two Rate Yes Police Color Aware Mode Yes Redirect to supported interface types only Yes Policy Attributes Outbound Yes Drop Yes Mark COS Yes Mark IP DSCP Yes Mark IP Precedence Yes Mirror to supported interface types only Yes Police Simple Yes Police Single Rate Yes Police Two Rate Yes Police Color Aware Mode Yes Redirect to supported interface types only Yes Service Interface Inbound Slot Port configurable Yes Inbound All Ports configurable Yes Outbound Slot Port configurable Yes Outbound All Ports configurable Yes Supports LAG interfaces Yes Mixed L2 IPv4 match criteria inbound Yes Mixed Pv4 IPv6 match criteria inbound Yes Mixed IPv4 IPv6 match criteria outbound Yes P
72. r the priority level of a capability of the Virtual Router Redundancy Protocol virtual router for a VRRP group VRRP It ensures the best VRRP router is master for the group Router Discovery Protocol is an extension to ICMP Based on RFC 1256 for IPv4 and enables hosts to dynamically discover the IP address of routers on local IP subnets Routers periodically send router discovery messages to announce their presence to locally attached hosts The router discovery message advertises one or more IP addresses on the router that hosts can use as their default gateway Hosts can send a router solicitation message asking any router that receives the message to immediately send a router advertisement Router discovery eliminates the need to manually configure a default gateway on each host It enables hosts to switch to a different default gateway if one goes down Loopback interfaces are available as dynamic stable IP addresses for other devices on the network and for routing protocols Tunnel interfaces are available for IPv4 and IPv6 Each router interface port or VLAN interface can have multiple associated tunnel interfaces Support for Configured 6to4 RFC 4213 and Automatic 6to4 tunneling RFC 3056 for IPv6 traffic encapsulation into IPv4 packets 6to4 tunnels are automatically formed for IPv4 tunnels carrying IPv6 traffic M6100 can act as a 6to4 border router that connects a 6to4 site t
73. ress Yes 802 3ad LAG for ACL assignment Yes Binding ACLs to VLANs Yes ACL Logging Yes Support for IPv6 fields Yes DiffServ QoS Yes Edge Node applicability Yes Interior Node applicability Yes 802 3ad LAG for service interface Yes Support for IPv6 fields Yes Ingress Egress Yes IEEE 802 1p COS Yes 802 3ad LAG for COS configuration Yes WRED Weighted Deficit Round Robin Yes Strict Priority queue technology Yes Single Rate Policing Yes CLI only Committed Information Rate Yes Committed Burst Size Yes Excessive Burst Size Yes DiffServ feature applied to class maps Yes Auto VolP Yes based on protocols SIP H323 and SCCP or on OUI bytes default database and user based OUls in the phone source MAC address iSCSI Flow Acceleration Yes Dot1p Marking Yes IP DSCP Marking Yes QOS ACL FEATURE SUPPORT ACL Support general includes IP ACLs Yes MAC ACL Support Yes IP Rule Match Fields Destination IP Inbound Outbound Destination IPv6 IP Inbound Outbound Destination L4 Port Inbound Outbound Every Packet Inbound Outbound IP DSCP Inbound Outbound IP Precedence Inbound Outbound IP TOS Inbound Outbound Page 30 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Protocol Inbound Outbound Source IP for Mask support see below Inbound Outbound Source IPv6 IP Inbound Outbound L3 IPv6 Flow Label Inbound Source L4 Port Inbound Outbound TCP Flag
74. rotocol as updated by draft ietf http v11 spec rev 03 RFC 2271 SNMP framework MIB SSL 3 0 and TLS 1 0 RFC 2246 The TLS protocol version 1 0 RFC 2346 AES cipher suites for Transport layer security RFC 2818 HTTP over TLS RFC 2295 Transparent content negotiation RFC 2296 Remote variant selection RSVA 1 0 state management cookies draft ietf http state mgmt 05 RFC 2576 Coexistence between SNMP v1 v2 and v3 RFC 2578 SMI v2 RFC 2579 Textual conventions for SMI v2 RFC 2580 Conformance statements for SMI v2 RFC 3410 Introduction and Applicability Statements for Internet Standard Management Framework SSH 1 5 and 2 0 RFC 4253 SSH transport layer protocol RFC 4252 SSH authentication protocol RFC 4254 SSH connection protocol RFC 4251 SSH protocol architecture RFC 4716 SECSH public key file format RFC 4419 Diffie Hellman group exchange for the SSH transport layer protocol RFC 3411 An Architecture for Describing SNMP Management Frameworks HTML 4 0 specification December 1997 RFC 3412 Message Processing amp Dispatching RFC 3413 SNMP Applications Java Script 1 3 Advanced Management Industry standard CLI with the following features Scripting capability Command completion Context sensitive help Optional user password encryption Multisession
75. routing package Static Routes ECMP Static Routes for IPv4 and IPv6 Static and default routes are configurable with next IP address hops to any given destination 512 static routes are configurable for IPv4 when 512 other static routes are configurable for IPv6 Permitting additional routes creates several options for the network administrator The admin can configure multiple next hops to a given destination intending for the router to load share across the next hops The admin distinguishes static routes by specifying a route preference value a lower preference value is a more preferred static route Aless preferred static route is used if the more preferred static route is unusable down link or next hop cannot be resolved to a MAC address Preference option allows admin to control the preference of individual static routes relative to routes learned from other sources such as OSPF since a static route will be preferred over a dynamic route when routes from different sources have the same preference Advanced Static Routing functions for administrative Static Reject Routes are configurable to control the traffic destined to a particular network so that it is not traffic control forwarded through the router Such traffic is discarded and the ICMP destination unreachable message is sent back to the source Static reject routes can be typically used to prevent routing loops Default route
76. runks provide Layer 2 isolation between ports that share the same broadcast domain allowing a VLAN broadcast domain to be partitioned into smaller point to multipoint subdomains accross switches in the Another Private VLANs typical application are carrier class deployments when users shouldn t see snoop same Layer 2 network or attack other users traffic They remove the need for more complex port based VLANs with respective IP interface subnets and associated L3 routing Secure Shell SSH and SNMPv3 with or without MD5 or SHA authentication ensure SNMP and Telnet sessions are secured TACACS and RADIUS enhanced administrator management provides strict Login and Enable authentication enforcement for the switch configuration based on latest industry standards exec authorization using TACACS or RADIUS command authorization using TACACS and RADIUS Server user exec accounting for HTTP and HTTPS using TACACS or RADIUS and authentication based on user domain in addition to user ID and password Superior quality of service Advanced classifier based hardware implementation for Layer 2 MAC Layer 3 IP and Layer 4 UDP TCP transport ports prioritization 7 queues for priorities and various QoS policies based on 802 1p CoS and DiffServ can be applied to interfaces and VLANs Advanced rate limiting down to 1 Kbps granularity and mininum quaranteed bandwidth can be associated with time based ACLs for be
77. s XCM89P PoE Daughter Card XCM89P PoE Daughter Card Installation guide I O Blades XCM8948 I O Blade XCM8948 Blade 48x1G RJ45 straight through wiring serial console cable to DB9 Mini USB console cable Installation guide Resource CD technical documentation manuals Page 43 of 46 Data Sheet M6100 series The Starter Kit Bundle consists of a Master Carton all components inside the Master Carton ship in their NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series XCM8944 I O Blade XCM8944 Blade 40x1G 4x10G RJ45 straight through wiring serial console cable to DBO Mini USB console cable Installation guide Resource CD technical documentation manuals XCM8944F I O Blade XCM8944F Blade 40xSFP 4x10G RJ45 straight through wiring serial console cable to DB9 Mini USB console cable Installation guide Resource CD technical documentation manuals XCM8924X I O Blade XCM8924X Blade 24x10G RJ45 straight through wiring serial console cable to DB9 Mini USB console cable Installation guide Resource CD technical documentation manuals Accessories XCM89P PoE Daughter Card XCM89P PoE Daughter Card Installation guide XCM89UP UPOE Daughter Card APS1000W Power Supply unit XCM89UP UPOE Daughter Card Installation guide APS1000W PSU 100NES version North American power cord AC plug gt
78. s uploads downloads TFTP MT TP Page 38 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Secured protocols for file transfers SCP SFIP HITPS HTTP Max Sessions i SSL HTTPS Max Sessions 16 HTTP Download firmware Yes Email Alerting Yes CLI only Syslog RFC 3164 Yes Persistent log supported Yes USER ADMIN MANAGEMENT User ID configuration Yes Max number of configured users 6 Support multiple READWRITE Users Yes Max number of IAS users internal user database 100 Authentication login lists Yes Authentication Enable lists Yes Authentication HTTP lists Yes Authentication HTTPS lists Yes Authentication Dot1x lists Yes Accounting Exec lists Yes Accounting Commands lists Yes Login History 50 M6100 SERIES AVAILABLILITY MEASUREMENTS LAG LACP Convergence Time typical max 1 sec 2 sec LACP Timeout 90 sec RSIR Convergence Time typical max 4 sec 6 sec MLAG VPC IKey Parameters Role election duration typical max 14 sec 16 sec Keepalive Timeout 5 sec Configurable range is 5 12 sec Link Flap duration during Role Change typical max 5 sec 5 sec Link Down upon reset typical max 16 sec 20 sec Traffic Impact Device failure scenarios Reset Primary Device typical max Power Off Primary Device typical max Disable VPC on Primary Device typical max Reset Secondary Device Power Off
79. s are configurable as a preference option In order to facilitate VLAN creation and VLAN routing Create a VLAN and generate a unique name for VLAN using Web GUI a VLAN Routing Wizard offers the following automated capabilities Add selected ports to the newly created VLAN and remove selected ports from the default VLAN Create a LAG add selected ports to a LAG then add this LAG to the newly created VLAN Enable tagging on selected ports if the port is in another VLAN Disable tagging if a selected port does not exist in another VLAN Exclude ports that are not selected from the VLAN Enable routing on the VLAN using the IP address and subnet mask entered as logical routing interface Page 8 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series DHCP Relay Agents relay DHCP requests from any The agent relays requests from a subnet without a DHCP server to a server or next hop agent on routed interface including VLANs when DHCP server another subnet doesn t reside on the same IP network or subnet Unlike a router which switches IP packets transparently a DHCP relay agent processes DHCP messages and generates new DHCP messages Supports DHCP Relay Option 82 circuit id and remote id for VLANs Multiple Helper IPs feature allows to configure a DHCP relay agent with multiple DHCP server addresses per routing interface and to use different server ad
80. se LR SFP GBIC Single mode 10GBase LRM SFP GBIC Long Reach Multimode for OM1 OM2 also compatible with OM3 OM4 AFM735 10000S AGM731F AGM732F AXC761 10000S AXC763 10000S AXM761 10000S AXM761P10 10000S AXM762 10000S AXM762P10 10000S AXM763 10000S XCM8924X I O Blade 1000Base SX SFP GBIC Multimode AGM731F AGM731F AGM732F 1000Base LX SFP GBIC Single mode AGM732F AGM734 1000Base T RJ45 SFP GBIC AGM734 10000S AXC761 1OGSFP Cu passive SFP to SFP Direct Attach Cable 1m AXC761 10000S AXC763 1OGSFP Cu passive SFP to SFP Direct Attach Cable 3m AXC763 100005 AXM761 10GBase SR SFP GBIC OM3 0M4 Multimode AXM761 10000S AXM7611 Pack of 10 units POOP ee ea er tae oee AXM761P10 10000S AXM762 10GBase LR SFP GBIC Single mode AXM762 10000S AXM762 Pack of 10 units oe ages ates pa sjuttimode for om4 XM762P10 10000s RAMT03 ices BE a _ nana ONS WARRANTY AND SUPPORT ProSafe Lifetime Hardware Warranty Included lifetime 90 days of Technical Support via phone and email Lifetime Technical Support through online chat Included 90 days after purchase Included lifetime Lifetime Next Business Day hardware replacement Included lifetime PROSUPPORT SERVICE PACKS Installation contracts PSBO304 10000S Remote Installation Setup and Configuration Service Contract PSP1104 10000S Onsite Installation Setup and Configuration Service Contract Supplemental
81. ses entries 2K Jumbo Frame Support Yes Max Size Supported 12k Number of IP Source Guard stations 250 Number of DHCP snooping bindings 32K Number of DHCPv6 snooping bindings 32K Number of DHCP snooping static entries 1024 LLDP MED number of remote nodes 2 x Total switch port count LLDP Remote Management address buffers 100 LLDP Unknown TLV address buffers 100 12 x Total switch port count 100 Total switch port count Port MAC Locking Dynamic addresses per port Static addresses per port Yes 4096 48 sFlow Number of samplers Number of pollers Total switch port count Total switch port count Number of receivers 8 Radius Max Authentication servers 32 Max Accounting servers 32 Number of Routes v4 v6 IPv4 only SDM build 12 288 SDM IPv4 IPv6 SDM build System Data Management or switch database IPv4 routes 8 160 IPv6 routes 4 096 RIP application route scaling 512 OSPF application route scaling 12 000 BGP application route scaling 12 000 BGP application peer scaling 128 Number of routing interfaces including port vlan 128 Page 40 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet Mo100 series Number of static routes v4 v6 512 512 Routing Heap size IPv4 only SDM build 26M SDM IPv4 IPv6 SDM build 32M System Data Management or switch database OSPF OSPFv2 max neighbors 400 OSPFv3 max neighbors 400 OSPFv3 max neighb
82. sification based on Type of service ToS or differentiated services DS DSCP field Source IP address Destination IP address TCP UDP source port TCP UDP destination port Pv6 flow label P protocol number Quality of Service Access Control Lists ACLs Permit deny actions for inbound or outbound Layer 2 traffic classification based on Source MAC address Destination MAC address EtherType VLAN identifier value or range outer and or inner VLAN tag 802 1p user priority outer and or inner VLAN tag Optional rule attributes Assign matching traffic flow to a specific queue Redirect or mirror flow based mirroring matching traffic flow to a specific port Generate trap log entries containing rule hit counts Direct user configuration of the following IP DSCP to traffic class mapping P precedence to traffic class mapping Interface trust mode 802 1p IP Precedence IP DSCP or untrusted Interface traffic shaping rate Minimum and maximum bandwidth per queue Strict priority versus weighted WRR WDRR WFQ scheduling per queue Tail drop versus Weighted Random Early Detection WRED queue depth management Auto VoIP Core Multicast RFC 1112 Host extensions for IP multicasting RFC3973 PIM DM RFC 2236 IGMP v2 RFC4601 PIM SM RFC 2710 MLDv1 Draft ietf idmr dvmrp v3 10 DVMRP
83. st granularity Single Rate Policing feature enables support for Single Committed Information Rate average allowable rate for the class Rate Policer as defined by RFC 2697 Committed Burst Size maximum amount of contiguous packets for the class Excessive Burst Size additional burst size for the class with credits refill at a slower rate than committed burst size DiffServ feature applied to class maps Automatic Voice over IP prioritization with protocol based SIP H323 and SCCP or OUl based Auto VoIP up to 144 simultaneous voice calls iSCSI Flow Acceleration and automatic protection QoS with Auto iSCS Flow Control 802 3x Flow Control implementation per IEEE 802 3 Asymmetric flow control allows the switch to respond to received PAUSE frames but the ports cannot Annex 31 B specifications with Symmetric flow generate PAUSE frames control Asymmetric flow control or No flow control Symmetric flow control allows the switch to both respond to and generate MAC control PAUSE frames Allows traffic from one device to be throttled for a A device that wishes to inhibit transmission of data frames from another device on the LAN transmits a specified period of time PAUSE frame Page 12 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series UDLD Support UDLD implementation detects unidirectional links physical ports UDLD must be enabled
84. t Private MIB RFC 3273 RMON MIB for High Capacity Networks IANA ADDRESS FAMILY NUMBERS MIB IANA 3 2002 RFC 3411 SNMP Management Frameworks MIB IEEE 802 1AB 2004 LLDP MIB IEEE 802 1AB 2005 LLDP EXT DOT3 MIB RFC 3411 SNMP FRAMEWORK MIB RFC 3412 SNMP MPD MIB POWER ETHERNET MIB Draft no RFC RFC 3413 SNMP NOTIFICATION MIB RFC 1155 SMI MIB RFC 3413 SNMP PROXY MIB initial revision published as RFC 2273 RFC 1450 SNMPV2 MIB RFC 3413 SNMP TARGET MIB initial revision published as RFC 2273 RFC 2273 SNMP Notification MIB SNMP Target MIB RFC 3414 User based Security Model for SNMPv3 MIB RFC 2392 IANA RTPROTO MIB RFC 3415 View based Access Control Model for SNMP MIB RFC 2572 SNMP Message Processing and Dispatching MIB RFC 3417 SNMPV2 TM RFC 2574 User based Security Model for SNMPv3 MIB RFC 3418 SNMPv2 MIB RFC 2575 View based Access Control Model for SNMP MIB RFC 3434 RMON MIB Extensions for High Capacity Alarms RFC 2576 SNMP Community MIB RFC 3584 SNMP Community MIB RFC 2578 SNMPV2 SMI RFC 3621 POWER ETHERNET MIB RFC 2579 SNMPV2 TC SNMP RESEARCH MIB SNMP research MIB definitions RFC 2580 SNMPV2 CONF SR AGENT INFO MIB SNMP research MIB definitions RFC 2613 SMON MIB Switching Package MIBs USM TARGET TAG MIB SNMP rese
85. t kit Power cord M6100 44G3 POE XCM8903SK Starter Kit Ordering information Starter kit components ship in their individual packaging ide XCM K 1 Eee bee M6100 3S Base chassis XCM8903 2 blank panels for open blade slots 1 blade 40x1G 4x10G XCM8944 3 blank panels for empty PSU slots 1 PoE daughter card XCM89P Handles for rack mount kit 1 power supply unit APS1000W Rack mount kit for 2 post racks 1 fan tray front to back AFT603 Sliding rails kit for 4 post racks ata Ze ete aes roe nw sekk Page 19 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Components GBIC SFP and SFP Optics for M6100 series Ordering information Multimode Fiber MMF Single mode Fiber SMF Worldwide see table below OM1 or OM2 OM3 or OM4 ONTE Warranty 5 years 62 5 125um 50 125um P 10 Gigabit SFP AXM763 AXM763 AXM762 10GBase LRM long reach 10GBase LRM long reach 10GBase LR long reach single mode multimode multimode LC duplex connector 802 3aq LC duplex connector 802 3aq LC duplex connector upto Oke mies up to 220m 722 ft up to 260m 853 ft AXM762 10000S 1 unit AXM763 10000S 1 unit AXM763 10000S 1 unit AXM762P10 10000S pack of 10 units AXM761 10GBase SR short reach multimode LC duplex connector Fits intoXCM8944 XCM8944F OM3 up to 300m 984 ft SFP interfaces i ale OM4 up to
86. tions of FC_BB_E device discovery initialization and maintenance FIP uses a separate EtherType from FCoE to enable the distinction of discovery initialization and maintenance traffic from other FCoE traffic FIP frames are standard Ethernet size 1518 Byte 802 1q frame whereas FCoE frames are a maximum of 2240 bytes The FIP snooping capability is a frame inspection method used by FIP Snooping Bridges to monitor FIP frames and apply policies based upon the L2 header information in those frames following the recommendations in Annex C of FC_BB_5 Rev 2 00 and supporting these features Auto configuration of Ethernet ACLs based on information in the Ethernet headers of FIP frames Emulation of FC point to point links within the DCB Ethernet network Enhanced FCoE security robustness by preventing FCoE MAC spoofing The FIP Snooping Bridge solution in M6100 supports the interior port role the perimeter port role and the FCF facing port role and is intended for use at the edge or the interior of the switched network Perimeter or Edge port connected directly to ENode FCF facing port that receives traffic from FCFs targeted to the Enodes Page 13 of 46 NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Target Application ai aa i a aR TR ek Oe a R
87. to connect the switch sends the MAC address of each client to the authentication server The RADIUS server checks the MAC address of the client NIC against the list of authorized addresses The RADIUS server returns the access policy and VLAN assignment to the switch for each client With Successive Tiering the Authentication Manager By default configuration authentication methods are tried in this order Dot1x then MAB then Captive allows for authentication methods per port for a Portal web authentication Uo Un le AOA Seek COn Naw Same ONe With BYOD such Tiered Authentication is powerful and simple to implement with strict policies For instance when a client is connecting M6100 tries to authencate the user client using the three methods above the one after the other The admin can restrict the configuration such that no other method is allowed to follow the captive portal method for instance Double VLANs DVLAN QinQ pass traffic from one customer domain to another through the metro core in a multi tenancy environment customer VLAN IDs are preserved and a service provider VLAN ID is added to the traffic so the traffic can pass the metro core in a simple secure manner Private VLANs with Primary VLAN Isolated VLAN Private VLANs are useful in DMZ when servers are not supposed to communicate with each other but Community VLAN Promiscuous port Host port need to communicate with a router T
88. utomatic registration for membership Page 25 of 46 in VLANs or in multicast groups NETGEAR ProSAFE LAN Access and Aggregation Chassis Switches Data Sheet M6100 series Multiple Registration Protocol MRP Yes Can replace GARP functionality Multicast VLAN Registration Protocol MVRP Yes Can replace GVRP functionality MVR Multicast VLAN registration Yes L2 SERVICES AVAILABILITY IEEE 802 3ad LAGs Yes aa Up to 64 LAGs and up to 8 physical ports per LAG Static LAGs Yes Local Preference per LAG Yes LAG Hashing Yes LAG Member Port Flaps Tracking Yes PRG keel TE ET ee Known sal a dan of local blade Multi Chassis Link Aggregation MLAG Yes Supported on Supervisory blade only Storm Control Yes ee ee m oa is Asymmetric and Symmetric Flow Control UDLD Support Unidirectional Link Detection Yes Normal Mode Yes Aggressive Mode Yes IEEE 802 1D Spanning Tree Protocol Yes IEEE 802 1w Rapid Spanning Tree Yes IEEE 802 15 Multiple Spanning Tree Yes Per VLAN STP PVSTP with FastUplink and FastBackbone Yes CLI only PVST interoperability Per VLAN Rapid STP PVRSTP Yes CLI only RPVST interoperability STP Loop Guard Yes STP Root Guard Yes BPDU Guard Yes STP BPDU Filtering Yes STP BPDU Flooding Yes L2 SERVICES MULTICAST FILTERING IGMPv2 Snooping Support Yes IGMPv3 Snooping Support Yes MLDv1 Snooping Support Yes ML
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