| Model |
SX350X-24-K9-EU |
| Performance |
| Switching capacity and forwarding rate |
Capacity in Mpps (64-byte packets): 357.12 |
| Switching capacity (Gbps): 480 |
| Layer 2 switching |
| Spanning Tree Protocol |
Standard 802.1d spanning tree support
Fast convergence using 802.1w (Rapid Spanning Tree Protocol [RSTP]), enabled by default
Multiple spanning tree instances using 802.1s (MSTP); 8 instances are supported
Per-VLAN Spanning Tree Plus (PVST+); 126 instances are supported
Rapid PVST+ (RPVST+); 126 instances are supported |
| Port grouping and link aggregation |
Support for IEEE 802.3ad Link Aggregation Control Protocol (LACP)
- Up to 8 groups
- Up to 8 ports per group with 16 candidate ports for each (dynamic) 802.3ad LAG |
| VLAN |
Support for up to 4094 active VLANs simultaneously; port-based and 802.1Q tag-based VLANs; MAC-based VLAN Management VLAN
Private VLAN with promiscuous, isolated, and community port
Guest VLAN, unauthenticated VLAN, protocol-based VLAN, IP subnet-based VLAN, CPE VLAN
Dynamic VLAN assignment using RADIUS server along with 802.1X client authentication |
| Voice VLAN |
Voice traffic is automatically assigned to a voice-specific VLAN and treated with appropriate levels of QoS. Auto voice capabilities deliver networkwide zero-touch deployment of voice endpoints and call control devices |
| Multicast TV VLAN |
Multicast TV VLAN allows the single multicast VLAN to be shared in the network while subscribers remain in separate VLANs. This feature is also known as Multicast VLAN Registration (MVR) |
| VLAN translation |
Support for VLAN One-to-One Mapping. In VLAN One-to-One Mapping, on an edge interface, Customer VLANs (C-VLANs) are mapped to service provider VLANs (S-VLANs) and the original C-VLAN tags are replaced by the specified S-VLAN |
| Q-in-Q |
VLANs transparently cross over a service provider network while isolating traffic among customers |
| Selective Q-in-Q |
Selective Q-in-Q is an enhancement to the basic Q-in-Q feature and provides, per edge interface, multiple mappings of different C-VLANs to separate S-VLANs
Selective Q-in-Q also allows configuration of the EtherType (TPID) of the S-VLAN tag
Layer 2 protocol tunneling over Q-in-Q is also supported |
| GVRP/GARP |
Generic VLAN Registration Protocol (GVRP) and Generic Attribute Registration Protocol (GARP) enable automatic propagation and configuration of VLANs in a bridged domain |
| UDLD |
Unidirectional Link Detection (UDLD) monitors physical connections to detect unidirectional links caused by incorrect wiring or port faults to prevent forwarding loops and blackholing of traffic in switched networks |
| DHCP relay at Layer 2 |
Relay of DHCP traffic to a DHCP server in a different VLAN. Works with DHCP option 82 |
| IGMP (versions 1, 2, and 3) snooping |
Internet Group Management Protocol (IGMP) limits bandwidth-intensive multicast traffic to only the requesters; it supports 4000 multicast groups (source-specific multicasting is also supported) |
| IGMP querier |
Used to support a Layer 2 multicast domain of snooping switches in the absence of a multicast router |
| HOL blocking |
Head-Of-Line (HOL) blocking |
| Layer 3 |
| IPv4 routing |
Wirespeed routing of IPv4 packets
Up to 990 static routes and up to 128 IP interfaces |
| Wirespeed IPv6 static routing |
Up to 245 static routes and up to 106 IPv6 interfaces |
| Layer 3 interface |
Configuration of Layer 3 interface on physical port, LAG, VLAN interface, or loopback interface |
| CIDR |
Support for Classless Interdomain Routing (CIDR) |
| DHCP server |
Switch functions as an IPv4 DHCP server serving IP addresses for multiple DHCP pools and scopes
Support for DHCP options |
| DHCP relay at Layer 3 |
Relay of DHCP traffic across IP domains |
| User Datagram Protocol (UDP) relay |
Relay of broadcast information across Layer 3 domains for application discovery or relaying of BOOTP/DHCP packets |
| Stacking |
| Hardware stack |
Up to four units in a stack. Up to 208 ports managed as a single system with hardware failover |
| High availability |
Fast stack failover delivers minimal traffic loss. Supports link aggregation across multiple units in a stack |
| Plug-and-play stacking configuration and management |
Master and backup for resilient stack control
Auto-numbering
Hot swap of units in stack
Ring and chain stacking options, auto-stacking port speed, flexible stacking port options |
| High-speed stack interconnects |
Cost-effective high-speed 10G fiber and copper interfaces. Support LAG as stacking interconnects for even higher bandwidth |
| Hybrid stack |
A mix of SG350X, SG350XG, and SX350X switches in the same stack (Gigabit and 10 Gigabit Ethernet) |
| Security |
| SSH |
Secure Shell (SSH) is a secure replacement for Telnet traffic. Secure Copy (SCP) also uses SSH. SSH versions 1 and 2 are supported |
| SSL |
Secure Sockets Layer (SSL) encrypts all HTTPS traffic, allowing secure access to the browser-based management GUI in the switch |
| IEEE 802.1X (authenticator role) |
RADIUS authentication and accounting, MD5 hash, guest VLAN, unauthenticated VLAN, single- and multiple-host mode, and single and multiple sessions
Supports time-based 802.1X dynamic VLAN assignment |
| IEEE 802.1X supplicant |
A switch can be configured to act as a supplicant to another switch. This enables extended secure access in areas outside the wiring closet (such as conference rooms) |
| Web-based authentication |
Web-based authentication provides Network Admission Control (NAC) through a web browser to any host devices and operating systems |
| Quality of service |
| Priority levels |
8 hardware queues |
| Scheduling |
Strict priority and Weighted Round-Robin (WRR) |
| Class of service |
Port based; 802.1p VLAN priority based; IPv4/v6 IP precedence, Type of Service (ToS), and DSCP based; DiffServ; classification and remarking ACLs, trusted QoS
Queue assignment based on Differentiated Services Code Point (DSCP) and class of service (802.1p/CoS) |
| Rate limiting |
Ingress policer; egress shaping and ingress rate control; per VLAN, per port, and flow based; Two-Rate Three-Color (2R3C) policing |
| Congestion avoidance |
A TCP congestion avoidance algorithm is required to minimize and prevent global TCP loss synchronization |
| iSCSI traffic optimization |
A mechanism for giving priority to SCSI over IP (iSCSI) traffic over other types of traffic |
| Power consumption (worst case) |
| Green power (mode) |
EEE, Energy Detect, Short Reach |
| System power consumption |
110V=124.1W
220V=124.5W |
| Heat dissipation (BTU/hr) |
424.8 |
| General |
| Total system ports |
20 x 10G copper + 4 x combo 10G copper/SFP+
+ 1 x 1GE OOB management |
| Network ports |
20 x 10G |
| Uplink ports |
4 x 10G copper/SFP+ combo |
| Console port |
Cisco standard RJ-45 console port |
| OOB management port |
Dedicated Gigabit Ethernet management port for Out-Of-Band (OOB) management on SG350XG and SX350X models |
| USB slot |
USB Type A slot on the front panel of the switch for easy file and image management |
| Buttons |
Reset button |
| Cabling type |
UTP Category 5 or better; fiber options (Single-Mode Fiber [SMF] and Multimode Fiber [MMF]); coaxial SFP+ |
| LEDs |
System, master, stack ID, link/speed per port |
| Flash |
256 MB |
| CPU |
1.3-GHz and 800-MHz (dual-core) ARM |
| CPU memory |
512 MB |
| Packet buffer |
3 MB |
| Environmental |
| Unit dimensions (W x H x D) |
440 x 44 x 350 mm |
| Unit weight |
5.1 kg |
| Power |
100 to 240V 47 to 63 Hz, internal, universal |
| Certification |
UL (UL 60950), CSA (CSA 22.2), CE mark, FCC Part 15 (CFR 47) Class A |
| Operating temperature |
0° to 50°C |
| Storage temperature |
-20° to 70°C |
| Operating humidity |
10% to 90%, relative, noncondensing |
| Storage humidity |
10% to 90%, relative, noncondensing |
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