CE12816

Huawei CE12816 switch with 2 MPU slots, 2 CMU slots, 16 LPU slots, 6 SFU slots, 20 Power Module slots, 23 Fan Module slots

Huawei

3-5 days

Shenzhen Warehouse

SKU: 02358867 Category: Tag:

Description

CE12816 overview

CE12816 is one of the Huawei CE12800 switches, which comes with 16 service line card slots.

CloudEngine 12800 (CE12800 for short) series switches are next-generation, high-performance core switches designed for data center networks and high-end campus networks. Using Huawei’s next-generation VRP8 operating system, CE12800 series switches provide stable, reliable, and secure high-performance Layer 2/Layer 3 switching capabilities to help build an elastic, virtualized, and high-quality network.

CE12800 series switches use an advanced hardware architecture design and provide 100GE/40GE/10GE/GE line cards with various port densities. The switches support high-density access of high-speed servers and aggregation of TOR switches, providing high performance and large capacity for data center networks.

CE12800 series switches use an industry-leading Clos architecture and a strict front-to-back airflow design to provide industrial-grade reliability. The switches also provide comprehensive virtualization capabilities and extensive data center service features. Moreover, they adopt multiple innovative energy-saving technologies to greatly reduce power consumption.

 

CE12816 fast spec

Switching capacity: 178/1032 Tbps

Forwarding capacity: 69,120 Mpps

Operating voltage: AC: 90 V to 290 V DC: -40 V to -72 V HVDC: 188 V to 288 V

Max. power supply (W): 30000

 

CE12816 appearance

 

1. CE12800 series switches chassis header, showing the following:

  • Product series name:

    For the CE12816 chassis, the series name is CloudEngine 12800.

  • Huawei Logo
  • PWR, FAN, SFU, and MPU indicators
2. Indicators 3. CMU

  • The CE12816 chassis supports two CMUs
4. MPU

  • The CE12812 chassis supports two MPUs.
5. LPUs

  • The CE12816 chassis supports 16 LPUs.
6. Front ESD jack

NOTE:

When maintaining components at the front of a chassis, wear an ESD wrist strap and insert the other end of the ESD wrist strap into this ESD jack.

7. Air intake area for SFUs in the CE12816 chassis (See Airflow for heat dissipation of the SFUs (side view) for the heat dissipation mechanism.) 8. Power modules

The CE12816 chassis supports 20 power modules.

  • The CE12816 AC chassis uses the 2700 W AC Power Module and 3000 W AC&high-Voltage DC Power Module.
  • The CE12816 DC chassis uses the 2200 W DC Power Module.
  • The CE12816 AC&high-voltage chassis uses the 2700 W AC Power Module and 3000 W AC&high-Voltage DC Power Module.
9. Cable management frame

NOTE:

Cable management frames are installed on the left and right sides of a chassis to route cables in each slot.

10. Fan modules

  • The CE12816 chassis uses the FAN-16A Fan Module.
  • CE12816 chassis: supports 23 fan modules, 9 on the left, 9 on the right, and 5 on the top.
11. SFU

  • The CE12816 chassis supports six SFU cards.
12. Power distribution unit 13. Rear ESD jack

NOTE:

When maintaining components at the rear of a chassis, wear an ESD wrist strap and insert the other end of the ESD wrist strap into this ESD jack.

14. Two ground points for a dual-hole ground lug, with a yellow grounding label attached

NOTE:

To protect a chassis from lightning and electromagnetic interference, use Ground Cable to ground the chassis.

15. Handle

NOTE:

When installing a chassis into a cabinet/rack, you can drag the chassis by the handle at the rear of the chassis.

16. Two power switches

NOTE:

It is recommended to turn on both switches to power on the device. Both switches must be turned off to power off the device.

17. Serial number label 18. MAC address label
Item CE12816
Physical specifications Dimensions (W x D x H): 442 mm x 1065 mm x 1597.4 mm (17.40 in. x 41.93 in. x 62.89 in. (36U))

Depth from fan module handles to the lower enclosure frame: 1065 mm (41.93 in.)

Depth from fan module handles to the air filter door: 1085 mm (42.72 in.)

Weight

Empty: 221.6 kg (488.54 lb)

Fully loaded: 474 kg (1044.99 lb)

Environment parameters Temperature Operating temperature: 0°C to 40°C (32°F to 104°F) at an altitude between 0 m and 1800 m (0 ft. and 5906 ft.)

NOTE:

When the altitude is between 1800 m and 4000 m (5906 ft. and 13123 ft.), the highest operating temperature reduces by 1°C (1.8°F) every time the altitude increases by 220 m (722 ft.).

Storage temperature: -40°C to +70°C (-40°F to +158°F)

Relative humidity 5% RH to 85% RH, noncondensing
Altitude < 4000 m (13123 ft.)
Noise (27°C) ≤ 78 dBA
Power specifications Power port The power modules are plug-and-play. Power cables are connected to sockets on the power distribution unit at the rear of the chassis.
AC power input Rated voltage: 110 V AC/220 V AC; 50 Hz/60 Hz

Rated voltage range: 100 V AC to 120 V AC/200 V AC to 240 V AC

Maximum voltage range: 90 V AC to 290 V AC; 45 Hz to 65 Hz (PAC-2700WA)/47 Hz to 63 Hz (PHD-3000WA)

Maximum input current

Using PAC-2700WA power modules: 16 A

Using PHD-3000WA power modules: 18.5 A

DC power input Rated voltage: -48 V DC/-60 V DC

Maximum voltage range: -40 V DC to -72 V DC

Rated input current: 50 A @ -48 V DC

Maximum input current: 62 A @ -40 V DC

High-voltage DC power input Rated voltage: 240 V DC

Rated voltage range: 188 V DC to 288 V DC

Maximum output power of AC power modules Using PAC-2700WA power modules:

380 V three-phase AC input, 220 V single-phase AC input, or 110 V dual-live-wire AC input:

N+N backupc (N ≤ 10): 2700 W x 10 = 27000 W

N+1 backup and N+0 mode (N ≤ 11): 2700 W x 11 = 29700 W

110 V single-live-wire AC input:

N+1 backup (N ≤ 19): 1200 W x 19 = 22800 W

N+0 mode (N ≤ 20): 1200 W x 20 = 24000 W

Using PHD-3000WA power modules:

380 V three-phase AC input, 220 V single-phase AC input, or 110 V dual-live-wire AC input:

N+N backup, N+1 backup, and N+0 mode (N ≤ 10): 3000 W x 10 = 30000 W

110 V single-live-wire AC input:

N+1 backup (N ≤ 19): 1500 W x 19 = 28500 W

N+0 mode (N ≤ 20): 1500 W x 20 = 30000 W

NOTE:

If the power modules use a 110 V power source, follow these suggestions:

1. Use double live wires. In this case, the output power of a power module is 2700 W/3000 W.

2. If only one live wire is used, the output power of a power module is 1200 W/1500 W. In this case, it is recommended that you use more power modules or change the power module backup mode to increase the output power.

Maximum output power of DC power modules N+N backupc (N ≤ 10): 2200 W x 10 = 22000 W

N+1 backup and N+0 mode (N ≤13): 2200 W x 13 = 28600 W

Maximum output power of high-voltage DC power modules N+N backup, N+1 backup, and N+0 mode (N ≤ 10): 3000 W x 10 = 30000 W
Heat dissipation The power modules have their own fans, which cool the power modules through front-to-back airflow.
Hot swap The power modules are hot swappable.
Reliability and availability Modules Power module:If double external power supply systems are used, the N+N backup mode is recommended.

If a single external power supply system is used, you can use more power modules or change the power module backup mode to increase the output power. To enhance system reliably, you are advised to use the N+1 backup mode.

Fan module: Fan modules work in hot backup mode. At normal temperature range, the system can operate normally for a short time after a single fan module fails. You are advised to replace the faulty fan module immediately.
MPU: 1:1 hot standby
CMU: 1:1 hot standby
Hot swap: All the power modules, fan modules, and cards support hot swap.
Chassis Mean Time Between Failures (MTBF): 32.00 years

Mean time to repair (MTTR): 1 hour

Availability: 0.9999964326

NOTE:

The preceding values are calculated based on the typical configuration of the product. The actual values will vary depending on the modules configured in the equipment.

Technical specifications Maximum port density V100R003C00 and V100R003C10: 64x100GE, 384x40GE, 1536x10GEa, or 768xGE

V100R005C00 and V100R005C10: 192x100GE, 384x40GE, 1536x10GEa, or 768xGE

V100R006C00: 192x100GE, 576x40GE, 2304x10GEa, or 768xGE

V200R001C00, V200R002C50, and V200R003C00: 576x100GE, 576x40GE, 2304x25GEb, 2304x10GEa, or 768xGE

Certification Safety standards compliance

EMC standards compliance

Environmental standards compliance

The CE12804/CE12808/CE12812/CE12816 system uses an orthogonal connector architecture, and the CE12804S/CE12808S system uses a horizontal connector architecture. The orthogonal and horizontal connector architectures, together with the dynamic distributed large buffer on LPUs, can better handle high traffic rates and traffic bursts resulting from cloud computing.

The CE12800 series switches are highly scalable. The CE12800 series switches support the cluster switch system (CSS) technology, which virtualizes multiple physical devices into one logical device to simplify network management and improve network reliability.

The CE12800 series switches have various chassis models to meet different user requirements. You can select chassis according to your network requirements.

Chassis Model MPU Quantity SFU Quantity CMU Quantity LPU Quantity PM Quantity FAN Quantity
CE12804 chassis 2 6 2 4 4 9
CE12808 chassis 2 6 2 8 8 13
CE12812 chassis 2 6 2 12 12 17
CE12816 chassis 2 6 2 16 20 23
CE12804s chassis 2 2 0

Note: The MPUs integrate the monitoring function.

4 4 3
CE12808s chassis 2 4 0

Note: The MPUs integrate the monitoring function.

8 8 6

NOTE:

  • The CE12800 AC chassis, DC chassis, and AC&high-voltage DC chassis differ in their power supply modes. Other configurations of these chassis are the same.
  • Unless otherwise specified, CE12800 chassis mentioned in this document include the AC chassis, DC chassis, and AC&high-voltage DC chassis.
  • Unless otherwise specified, CE12800 series switches mentioned in this document include CE12804/CE12808/CE12812/CE12816/CE12804S/CE12808S switches.

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