- Product Details
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Quick Details
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Brand Name:
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H
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Use:
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Campus network,Data center core/aggregation node
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Product name:
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Core/Convergence switch
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Switch Capacity:
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352 Gbit/s
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Forwarding Performance:
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5760/38400 Mpps
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Slots:
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2 SRU slots & 2 LPU slots & 1 Fan Slots
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Warranty:
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1 Year / 12 Months
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Dimensions ((H x W x D):
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219.5mm*442mm*504.5mm
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Weight (empty/fully loaded):
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22 kg/38 kg
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Function:
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QoS,VXLAN,ARP,VLAN,M-LAG
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Certificate:
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CCC
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Maximum power supply:
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800 W
Quick Details
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Type:
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Enterprise Switch
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Model Number:
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S8700-4
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Place of Origin:
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Beijing, China
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Brand Name:
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H
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Use:
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Campus network,Data center core/aggregation node
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Product name:
-
Core/Convergence switch
-
Switch Capacity:
-
352 Gbit/s
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Forwarding Performance:
-
5760/38400 Mpps
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Slots:
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2 SRU slots & 2 LPU slots & 1 Fan Slots
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Warranty:
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1 Year / 12 Months
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Dimensions ((H x W x D):
-
219.5mm*442mm*504.5mm
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Weight (empty/fully loaded):
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22 kg/38 kg
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Function:
-
QoS,VXLAN,ARP,VLAN,M-LAG
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Certificate:
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CCC
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Maximum power supply:
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800 W
Product Description
China wholesale price S8700-4 network switch poe 10 port S8700 Series network switches S8700-4
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S8700-4
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⚫ Two SRUs work in active/standby mode for 1:1 hot standby. By default, the SRU with a smaller slot ID is the active SRU, and the SRU with a larger slot ID is the standby SRU.
The SRU can provide service ports ⚫ 2 slots for SRU (Switch Routing Unit), 2 slots for LPU (Line Processing Unit) ⚫ Port density per chassis: 144 x FE, 144 x GE, 64 x 10 GE ⚫ Switching capacity: 352 Gbit/s |
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Item
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CloudEngine S8700-4
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CloudEngine S8700-6
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CloudEngine S8700-10
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Dimensions without
packaging (H x W x D) [mm(in.)] |
219.5mm*442mm*504.5mm (8.64 in. x 17.40 in. x 19.86 in.)
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352.8mm*442mm*515.5mm (13.89 in. x 17.40 in. x 20.30 in.)
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575mm*442 mm*515.5mm (22.64 in. x 17.40 in. x 20.30 in.)
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Chassis height [U]
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5 U
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8 U
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13 U
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Weight without packaging (base configuration)[kg(lb)]
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22kg (48.50lb)
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27.04 kg (59.62 lb)
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39.84 kg (87.85 lb)
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Weight without packaging (full configuration) [kg(lb)]
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38kg (83.78)
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64.24 kg (141.65 lb)
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97.35 kg (214.66 lb)
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Switching capacity
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352Gbps
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2.4Tbps
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3.2Tbps
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Main Control Board Slots
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2
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2
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2
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Service Card Slots
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2
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4
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8
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Fan Slots
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1
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2
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2
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System Power Supplies
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6
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6
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6
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Redundant MPUs
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The control unit and switching unit work in hot standby (1:1) mode.
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The control unit and switching unit work in hot standby (1:1) mode.
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The control unit and switching unit work in hot standby (1:1) mode.
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Redundant power supply
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⚫ Dual-power input: The N+0 and N+1 modes are supported. The N+1 mode is recommended.
⚫ Single-power input: The N+0, N+1, and N+N modes are supported. The N+1 mode is recommended. |
⚫ Dual-power input: The
N+0 and N+1 modes are supported. The N+1 mode is recommended. ⚫ Single-power input: The N+0, N+1, and N+N modes are supported. The N+1 mode is recommended. |
⚫ Dual-power input: The N+0
and N+1 modes are supported. The N+1 mode is recommended. ⚫ Single-power input: The N+0, N+1, and N+N modes are supported. The N+1 mode is recommended. |
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Redundant fans
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The fan module can tolerate the failure of a single fan. When a single fan in the fan module is faulty, the system can work properly for a short period of time. However, you are advised to replace the faulty fan module immediately.
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Fan modules work in hot standby mode. The system can operate properly for a short time after a single fan module fails. You are advised to replace the faulty fan module immediately.
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Fan modules work in hot
standby mode. The system can operate properly for a short time after a single fan module fails. You are advised to replace the faulty fan module immediately. |
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Rated input voltage [V]
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⚫ DC input: –48 V DC/–60 V DC/48 V DC
⚫ AC input: 110 V AC/220 V AC, 50/60 Hz ⚫ High-voltage DC input: 240 V DC |
⚫ DC input: –48 V DC/–60
V DC/48 V DC ⚫ AC input: 110 V AC/220 V AC, 50/60 Hz ⚫ High-voltage DC input: 240 V DC |
⚫ DC input: –48 V DC/–60 V
DC/48 V DC ⚫ AC input: 110 V AC/220 V AC, 50/60 Hz ⚫ High-voltage DC input: 240 V DC |
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Input voltage range [V]
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⚫ DC input: -38.4 V DC to - 72 V DC
⚫ AC input: 90–290 V AC; 45–65 Hz ⚫ High-voltage DC input: 190 V DC to 290 V DC |
⚫ DC input: -38.4 V DC to -
72 V DC ⚫ AC input: 90–290 V AC; 45–65 Hz ⚫ High-voltage DC input: 190 V DC to 290 V DC |
⚫ DC input: -38.4 V DC to -
72 V DC ⚫ AC input: 90–290 V AC; 45–65 Hz ⚫ High-voltage DC input: 190 V DC to 290 V DC |
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Maximum power
consumption [W] |
638 W (full configuration, without PoE)
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1560 W (full configuration, without PoE)
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2914 W (full configuration, without PoE)
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Maximum power output
capability (including the system power output and PoE power output) [W] |
⚫ Configured with six 1000 W AC power modules: 6000 W
⚫ Configured with six 600 W DC power modules: 3600W ⚫ Configured with six 1000 W DC power modules: 1000 W
⚫ Intermixing of N 1000 W power modules and M 600 W DC power modules: (N+M) x 600 W
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⚫ Configured with six 2500 W/3000 W AC&240 V DC power modules: 15000 W (220 V AC input or 240 V DC input; the output power of a single power module is 2500 W)
⚫ Configured with six 2200 W DC power modules: 13200 W ⚫ Intermixing of N 2500 W/3000 W AC&240 V DC power modules and M 2200 W DC power modules: (N+M) x 2200 W
NOTE
In V600R021C10 and later versions, the 3000 W output capability of the AC power module (2500 W/3000 W AC&240 V DC power module) can be enabled using a command.
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⚫ Configured with six 2500 W/3000 W AC&240 V DC power modules: 15000 W (220 V AC input or 240 V DC input; the output power of a single power module is 2500 W)
⚫ Configured with six 2200 W DC power modules: 13200 W ⚫ Intermixing of N 2500 W/3000 W AC&240 V DC power modules and M 2200 W DC power modules: (N+M) x 2200 W
NOTE
In V600R021C10 and later versions, the 3000 W output
capability of the AC power module (2500 W/3000 W AC&240 V DC power module) can be enabled using a command. |
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Long-term operating
temperature [°C(°F)] |
-5°C to 45°C (23°F to 113°F) at an altitude of -60 m to 1800 m (-197 ft. to 5906 ft.)
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-5°C to 45°C (23°F to 113°F) at an altitude of -60 m to 1800 m (-197 ft. to 5906 ft.)
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-5°C to 45°C (23°F to 113°F) at an altitude of -60 m to 1800 m (-197 ft. to 5906 ft.)
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Short-term operating
temperature [°C(°F)] |
55°C (131°F) at an altitude of -60 m to 1800 m (-197 ft. to 5906 ft.)
NOTE 1.Under the short-term operating temperature, the system supports only optical modules with less than or equal to 10 km transmission distances. |
55°C (131°F) at an altitude of -60 m to 1800 m (-197 ft. to 5906 ft.)
NOTE 1.When the PAC3KS54-DF (2500 W/3000 W AC&240 V DC power module) is used, the device can work at 55°C (131°F) for a short period only when the system works in the N+1 power supply mode (the output power of a single power module is less than 2100 W). 2.Under the short-term operating temperature, the system supports only optical modules with less than or equal to 10 km transmission distances. |
55°C (131°F) at an altitude of -
60 m to 1800 m (-197 ft. to 5906 ft.) NOTE 1.When the PAC3KS54-DF (2500 W/3000 W AC&240 V DC power module) is used, the device can work at 55°C (131°F) for a short period only when the system works in the N+1 power supply mode (the output power of a single power module is less than 2100 W). 2.Under the short-term operating temperature, the system supports only optical modules with less than or equal to 10 km transmission distances. |
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Relative humidity
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5% to 95% (non-condensing)
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Heat dissipation mode
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Air intake from the front and exhaust from the rear; Air extraction and heat dissipation, intelligent speed adjustment
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Product Paramenters
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Category
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Service Features
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User management
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Unified user management
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PPPoE, 802.1X, MAC, authentication
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Traffic- and duration-based accounting
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User authorization based on user groups, domains, and time ranges
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HTTP/HTTPS Access
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MAC address
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Maximum number of MAC entries:384K(MAX)
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Automatic MAC address learning and aging
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Static, dynamic, and blackhole MAC address entries
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Source MAC address filtering
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MAC address learning limiting based on ports and VLANs
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VLAN
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4K VLANs
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Access mode, Trunk mode and Hybrid mode
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Default VLAN
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VLAN stacking
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QinQ and enhanced selective QinQ
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Dynamic VLAN assignment based on MAC addresses
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ARP
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ARP Snooping
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IP routing
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IPv4 dynamic routing protocols such as RIP, OSPF, IS-IS, and BGP
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IPv6 dynamic routing protocols such as RIPng, OSPFv3, ISISv6, and BGP4+
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Segment Routing
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SRv6 BE (L3 EVPN)
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BGP EVPN
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SRv6 configuration through NETCONF
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Multicast
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IGMPv1/v2/v3 and IGMP v1/v2/v3 Snooping
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PIM-DM, PIM-SM, and PIM-SSM
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Fast-leave mechanism
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Multicast traffic control
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Multicast querier
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Multicast protocol packet suppression
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VXLAN
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Centralized gateway
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Distributed gateway
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BGP-EVPN
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Configures VXLANs through NETCONF
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QoS
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Traffic classification based on Layer 2 headers, Layer 3 protocols, Layer 4 protocols, and 802.1p priority
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Actions such as ACL, Committed Access Rate (CAR), re-marking, and scheduling
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Queuing algorithms, such as PQ, DRR and PQ+DRR
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Congestion avoidance mechanisms such as WRED and tail drop
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Traffic shaping
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Network Slicing
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Native-IP IFIT
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Marks the real service packets to obtain real-time count of dropped packets and packet loss ratio
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The statistical period can be modified
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Two-way frame delay measurement
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Ring network
protection |
STP (IEEE 802.1d), RSTP (IEEE 802.1w), and MSTP (IEEE 802.1s).
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BPDU protection, root protection, and loop protection
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G.8032 Ethernet Ring Protection Switching (ERPS)
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Reliability
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M-LAG
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CSS
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Link Aggregation Control Protocol (LACP) and E-
Trunk |
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Virtual Router Redundancy Protocol (VRRP) and Bidirectional Forwarding Detection (BFD) for VRRP
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BFD for BGP/IS-IS/OSPF/static routes
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Eth-OAM 802.1ag
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Smart Link
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System
Management |
Terminal access services such as console port login, Telnet, and SSH
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Network management protocols, such as SNMPv1/v2/v3
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File uploading and downloading through FTP,TFTP and SFTP
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BootROM upgrade and remote in-service upgrade
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Hot patches
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User operation logs
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Open Programmability System (OPS)
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Streaming Telemetry
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Port Mirroring
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Security and
management |
MACsec
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NAC
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RADIUS and HWTACACS authentication for login users
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Command line authority control based on user levels, preventing unauthorized users from using command configurations
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Defense against DoS attacks, Transmission Control Protocol (TCP) SYN Flood attacks, User Datagram Protocol (UDP) Flood attacks, broadcast storms, and heavy traffic attacks
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IPv6 RA Guard
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CPU hardware queues to implement hierarchical scheduling and protection for protocol packets on the control plane
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Remote Network Monitoring (RMON)
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Secure boot (need to use MPU that supports secure boot)
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