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CloudEngine 16800 Series Switches Hardware Description (V200)

This document provides an overall description of the CE16800 series switches hardware, helping you obtain detailed information about each chassis, Power Supply System, Heat Dissipation System, card, cable, and pluggable modules for interface.

This document provides an overall description of the CE16800 series switches hardware, helping you obtain detailed information about each chassis, Power Supply System, Heat Dissipation System, card, cable, and pluggable modules for interface.

CE-MPUD-HALF2 (CE16800 Main Processing Unit D-2 (half-width))

CE-MPUD-HALF2 (CE16800 Main Processing Unit D-2 (half-width))

CE-MPUD-HALF2 (03050EQL: CE16800 Main Processing Unit D-2 (half-width))

Overview

Table 7-63 Basic information about the CE-MPUD-HALF2
Item Details
Description CE16800 Main Processing Unit D-2 (half-width)
Part Number 03050EQL
Model CE-MPUD-HALF2
Silkscreen CE-MPUD-HALF2
Card Type MPU

Appearance

Figure 7-28 Appearance of the CE-MPUD-HALF2

Version Mapping

Table 7-64 Mappings between CE-MPUD-HALF2 and product
Product First Supported Version Unsupported Model IDs of Available Slots Limitations
CloudEngine 16804 V200R021C01 - 5–6 -
CloudEngine 16808 V200R021C01 - 9–10 -
Table 7-65 Mappings between CE-MPUD-HALF2 and Interface Card
Model Product First Supported Version Unsupported Product Model
CEL48XSFD1-G CloudEngine 16804 V200R021C01 -
CEL36CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-A CloudEngine 16804 V200R021C01 -
CEL36LQFD-G CloudEngine 16804 V200R021C01 -
CEL36CQFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL18CQFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16804 V200R021C01 -
CEL18CQFD-G CloudEngine 16804 V200R021C01 -
CEL48XSFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL18CQFD-A CloudEngine 16804 V200R021C01 -
CEL36CQFD-G CloudEngine 16804 V200R021C01 -
CEL36LQFD-A CloudEngine 16804 V200R021C01 -
CEL36CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL36CQFD-G CloudEngine 16804 V200R021C10SPC500 -
CEL36LQFD1-G CloudEngine 16804 V200R021C01 -
CEL36CQFD-A CloudEngine 16804 V200R022C00 -
CEL24LQFD1-G CloudEngine 16804 V200R021C01 -
CEL36LQFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16804 V200R021C01 -
CEL18CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16804 V200R021C01 -
CEL36LQFD-G CloudEngine 16804 V200R021C01 -
CEL18CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16804 V200R021C01 -
CEL18CQFD-G CloudEngine 16804 V200R021C01 -
CEL48XSFD1-G CloudEngine 16808 V200R021C01 -
CEL36CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-A CloudEngine 16808 V200R021C01 -
CEL36LQFD-G CloudEngine 16808 V200R021C01 -
CEL36CQFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL18CQFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16808 V200R021C01 -
CEL18CQFD-G CloudEngine 16808 V200R021C01 -
CEL48XSFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL18CQFD-A CloudEngine 16808 V200R021C01 -
CEL36CQFD-G CloudEngine 16808 V200R021C01 -
CEL36LQFD-A CloudEngine 16808 V200R021C01 -
CEL36CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL36CQFD-G CloudEngine 16808 V200R021C10SPC500 -
CEL36LQFD1-G CloudEngine 16808 V200R021C01 -
CEL36CQFD-A CloudEngine 16808 V200R022C00 -
CEL24LQFD1-G CloudEngine 16808 V200R021C01 -
CEL36LQFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16808 V200R021C01 -
CEL18CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16808 V200R021C01 -
CEL36LQFD-G CloudEngine 16808 V200R021C01 -
CEL18CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16808 V200R021C01 -
CEL18CQFD-G CloudEngine 16808 V200R021C01 -

Indicators and Buttons

Figure 7-29 Indicators and buttons on the CE-MPUD-HALF2

1. Running status indicator

2. Active/Standby status indicator

3. Reset button

4. Stack status indicator

5. OFL button

6. USB-based deployment indicator

7. ETH port indicator

8. SFP+ optical port indicator

9. High-precision clock optical module indicator

-
  • The indicators on CONSOLE, ALMIN, 485, CLK, TOD, and FSP ports are not in use.
  • In V200R021C10SPC500, V200R022C00, and V200R022C10, the indicator on USB port is not in use.
Table 7-66 Indicators on the CE-MPUD-HALF2
Silkscreen Name Color Status Description
RUN(G)/ALM(R)/OFL(Y) Running status indicator Green Steady on The card has been powered on but the system software is not running.
Green Slow blinking (0.5 Hz) The card is working properly.
Green Fast blinking (4 Hz) The card is loading the system software or is resetting.
Red Steady on A fault that affects services has occurred and it cannot be rectified automatically (critical alarm about hardware), or the card has generated an alarm because the memory size is not equal to the standard specification.
Red Fast blinking (4 Hz) The system power is insufficient.
Yellow Steady on The card is in power-off state. (For example, the card has been forcibly powered off using the power off command or is about to start.)
ACT Active/Standby status indicator Green Steady on The card is the active MPU.
Green Off The card is the standby MPU.
M/S

Stack status indicator

NOTE:

You can run the dfs-master led enable command to enable the stack status indicator to display the DFS group master and backup status.

After this function is enabled, the stack status indicator on the DFS master device is steady on and that on the DFS backup device is off.

 Green Steady on The stacking function is enabled, and the card is the active MPU of the stack.
Green Slow blinking (0.5 Hz) The stacking function is enabled, and the card is not the active MPU of the stack.
Green Off The stacking function is not enabled.
- USB-based deployment indicator Green Steady on USB-based deployment has been completed.
Green Blinking (4 Hz) The system is reading data from a USB flash drive.
Red Steady on USB-based deployment fails.
- Off USB-based deployment is disabled (default state).
-

Two single-color indicators for each ETH port:

Green: LINK indicator

Yellow: ACT indicator

 Green Steady on The link on the port is connected.
-

ETH port indicator, Two single-color indicators for each port:

Green: LINK indicator

Yellow: ACT indicator

 Green Off The link on the port is disconnected.
Yellow Blinking (15 Hz) The port is transmitting or receiving data.
Yellow Off The port is not transmitting or receiving data.
-

SFP+ optical port indicator

Two single-color indicators for each port:

Green: LINK indicator

Yellow: ACT indicator

 Green Steady on The link on the port is connected.
Green Off The link on the port is disconnected.
Yellow Blinking (15 Hz) The port is transmitting or receiving data.
Yellow Off The port is not transmitting or receiving data.
- High-precision clock optical transceiver indicator Green Steady on The link on the port is connected.
Green Blinking (15 Hz) The port is transmitting or receiving data.
Green Off The link on the port is disconnected.
Table 7-67 Buttons on the CE-MPUD-HALF2
Silkscreen Name Description
RESET Reset button

The button is used to manually reset an MPU.

If the device has only one MPU, pressing this button will cause the device to restart.

If the device has double MPUs, the following situations may occur:

Pressing the reset button on the active MPU will trigger an active/standby switchover.

Pressing the reset button on the standby MPU will reset the standby MPU, which does not affect running of the system.
OFL OFL button

The button is used to power off the MPU and collect logs. To implement this, you need to press and hold down the OFL button for about 6 seconds.

NOTE:

The OFL button is valid only for the standby MPU.

Ports

Figure 7-30 Ports on the CE-MPUD-HALF2

1. Clock SMA port (CLK/TEST)

2. USB port (USB)

3. ETH management port (ETH)

4. Console port (CONSOLE)

5. Boolean alarm input port (ALMIN)

6. RS485 port (485)

7. External synchronization port CLK (CLK)

8. External synchronization port TOD (TOD)

9. FSP serial port (FSP0 and FSP1)

10. SFP+ optical port (SFP+0, SFP+1, SFP+2, and SFP+3)

11. Clock SFP port (HP-GE)

-

-

-

-
  • The device does not support the ALMIN, 485, FSP0, FSP1 and HP-GE ports.
  • In V200R021C10SPC500, V200R022C00, and V200R022C10, the device does not support the USB port.
Table 7-68 Ports on the CE-MPUD-HALF2
Port Connector Type Description Available Components
Clock SMA port SMA Connects to an external clock.

50-ohm clock cable
USB port USB 2.0 Type A Is used for USB-based deployment. It is recommended that the dimensions of the USB flash drive be less than 10 mm x 40 mm x 20 mm (H x W x D, 0.39 in. x 1.57 in. x 0.79 in.). If the dimensions of a USB flash drive are larger than this specification, an extension cable is required.

USB
ETH management port RJ45 Connects to the NMS workstation. This port can work at the rates of 10 Mbit/s, 100 Mbit/s, and 1000 Mbit/s.

Super category 5 shielded twisted pair
Console port RJ45 Connects to the control platform and implements onsite system configuration. The default baud rate is 9600 bit/s, and the baud rate is configurable.

8-core shielded cable
Boolean input port RJ45 Functions as a port for Boolean detection. -
RS485 port RJ45 Is an RS485 monitoring/management port. -
External synchronization port CLK RJ45 Inputs or outputs 2-Mbit/s clock signals, 2-MHz clock signals, or 1 pps time signals.

120-ohm clock cable
External synchronization port TOD RJ45 Inputs or outputs 1 pps and ASCII time signals or DCLS time signals.

120-ohm clock cable
FSP serial port (Reserved) RJ45 Functions as a port for fast inter-chassis switchovers. -
SFP+ optical port SFP+

SFP+0, SFP+1, SFP+2, and SFP+3 are four mutually independent 10GE optical ports that are dedicated to establishing stack management links.

NOTE:

SFP+2 and SFP+3 optical ports do not support the stacking function.

Optical fiber
Clock SFP port SFP Is a high-precision clock SFP port.

Optical fiber

Functions and Features

Table 7-69 Functions and features of the CE-MPUD-HALF2
Functions and Features Description
Device management and maintenance The MPU provides management ports for managing and maintaining the system.
Device monitoring The MPU integrates a monitoring module. The monitoring module provides the monitoring plane, which allows administrators to remotely power on, power off, and reset the card, upgrade firmware, monitor card temperature, voltage, and power, manage asset information, and diagnose system faults.
Out-of-band communication between cards The MPU integrates a LAN switch module that provides out-of-band communication between cards. The LAN switch module completes control, monitoring, maintenance, and message exchange between SFUs and LPUs.
Route calculation

The MPU processes all routing protocol packets, which are sent from the forwarding engine.

The MPU broadcasts and filters routing protocol packets, and downloads routing policies from the policy server.
Data configuration The MPU stores system configuration data, startup files, upgrade software, and system logs.
Data saving The MPU uses SATA to save data files.
Hot swapping Supported
Restrictions and remarks In the same chassis, the MPU cannot be installed together with an MPU of a different model.

Technical Specifications

Table 7-70 Technical specifications of the CE-MPUD-HALF2
Item Specification
Dimensions without packaging (H x W x D) [mm (in.)] 45.7 mm x 215 mm x 522.5 mm (1.80 in. x 8.46 in. x 20.57 in.)
Dimensions with packaging (H x W x D) [mm (in.)] 185 mm x 385 mm x 780 mm (7.28 in. x 15.16 in. x 30.71 in.)
Weight without packaging [kg (lb)] 4.2 kg (9.26 lb)
Weight with packaging [kg (lb)] 6.2 kg (13.67 lb)
Typical power consumption [W] 88 W
Typical heat dissipation [BTU/hour] 300 BTU/hour
Static power consumption [W] 67 W
Static heat dissipation [BTU/hour] 229 BTU/hour
Maximum power consumption [W] 99 W
Maximum heat dissipation [BTU/hour] 338 BTU/hour
CPU 8-core, 1.5 GHz clock speed
Memory Standard configuration: 16 GB
Storage 32 GB SSD

CE-MPUD-HALF2 (03050EQL-001: CE16800 Main Processing Unit D-2 (half-width))

Overview

Table 7-71 Basic information about the CE-MPUD-HALF2
Item Details
Description CE16800 Main Processing Unit D-2 (half-width)
Part Number 03050EQL-001
Model CE-MPUD-HALF2
Silkscreen CE-MPUD-HALF2
Card Type MPU

Appearance

Figure 7-31 Appearance of the CE-MPUD-HALF2

Version Mapping

Table 7-72 Mappings between CE-MPUD-HALF2 and product
Product First Supported Version Unsupported Model IDs of Available Slots Limitations
CloudEngine 16804 V200R021C10SPC600 - 5–6

If the card is used in V200R021C01SPC600, install the patch of V200R021SPH020 or a later version.
CloudEngine 16808 V200R021C10SPC600 - 9–10

If the card is used in V200R021C01SPC600, install the patch of V200R021SPH020 or a later version.
Table 7-73 Mappings between CE-MPUD-HALF2 and Interface Card
Model Product First Supported Version Unsupported Product Model
CEL36CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD1-G CloudEngine 16804 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL36CQFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL18CQFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL18CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL18CQFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL36CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL36LQFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL36CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL36CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL36LQFD1-G CloudEngine 16804 V200R021C10SPC600 -
CEL36CQFD-A CloudEngine 16804 V200R022C00 -
CEL24LQFD1-G CloudEngine 16804 V200R021C10SPC600 -
CEL36LQFD-A CloudEngine 16804 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL18CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL18CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL18CQFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16804 V200R021C10SPC600 -
CEL36CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD1-G CloudEngine 16808 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL36CQFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL18CQFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL18CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL18CQFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL36CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL36LQFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL36CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL36CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL36LQFD1-G CloudEngine 16808 V200R021C10SPC600 -
CEL36CQFD-A CloudEngine 16808 V200R022C00 -
CEL24LQFD1-G CloudEngine 16808 V200R021C10SPC600 -
CEL36LQFD-A CloudEngine 16808 V200R021C10SPC600 -
CEL24LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL18CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL36LQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL18CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL18CQFD-G CloudEngine 16808 V200R021C10SPC600 -
CEL48XSFD-G CloudEngine 16808 V200R021C10SPC600 -

Indicators and Buttons

Figure 7-32 Indicators and buttons on the CE-MPUD-HALF2

1. Running status indicator

2. Active/Standby status indicator

3. Reset button

4. Stack status indicator

5. OFL button

6. USB-based deployment indicator

7. ETH port indicator

8. SFP+ optical port indicator

9. High-precision clock optical module indicator

-
  • The indicators on CONSOLE, ALMIN, 485, CLK, TOD, and FSP ports are not in use.
  • In V200R022C00 and V200R022C10, the indicator on USB port is not in use.
Table 7-74 Indicators on the CE-MPUD-HALF2
Silkscreen Name Color Status Description
RUN(G)/ALM(R)/OFL(Y) Running status indicator Green Steady on The card has been powered on but the system software is not running.
Green Slow blinking (0.5 Hz) The card is working properly.
Green Fast blinking (4 Hz) The card is loading the system software or is resetting.
Red Steady on A fault that affects services has occurred and it cannot be rectified automatically (critical alarm about hardware), or the card has generated an alarm because the memory size is not equal to the standard specification.
Red Fast blinking (4 Hz) The system power is insufficient.
Yellow Steady on The card is in power-off state. (For example, the card has been forcibly powered off using the power off command or is about to start.)
ACT Active/Standby status indicator Green Steady on The card is the active MPU.
Green Off The card is the standby MPU.
M/S

Stack status indicator

NOTE:

You can run the dfs-master led enable command to enable the stack status indicator to display the DFS group master and backup status.

After this function is enabled, the stack status indicator on the DFS master device is steady on and that on the DFS backup device is off.

 Green Steady on The stacking function is enabled, and the card is the active MPU of the stack.
Green Slow blinking (0.5 Hz) The stacking function is enabled, and the card is not the active MPU of the stack.
Green Off The stacking function is not enabled.
- USB-based deployment indicator Green Steady on USB-based deployment has been completed.
Green Blinking (4 Hz) The system is reading data from a USB flash drive.
Red Steady on USB-based deployment fails.
- Off USB-based deployment is disabled (default state).
-

Two single-color indicators for each ETH port:

Green: LINK indicator

Yellow: ACT indicator

 Green Steady on The link on the port is connected.
-

ETH port indicator, Two single-color indicators for each port:

Green: LINK indicator

Yellow: ACT indicator

 Green Off The link on the port is disconnected.
Yellow Blinking (15 Hz) The port is transmitting or receiving data.
Yellow Off The port is not transmitting or receiving data.
-

SFP+ optical port indicator

Two single-color indicators for each port:

Green: LINK indicator

Yellow: ACT indicator

 Green Steady on The link on the port is connected.
Green Off The link on the port is disconnected.
Yellow Blinking (15 Hz) The port is transmitting or receiving data.
Yellow Off The port is not transmitting or receiving data.
- High-precision clock optical transceiver indicator Green Steady on The link on the port is connected.
Green Blinking (15 Hz) The port is transmitting or receiving data.
Green Off The link on the port is disconnected.
Table 7-75 Buttons on the CE-MPUD-HALF2
Silkscreen Name Description
RESET Reset button

The button is used to manually reset an MPU.

If the device has only one MPU, pressing this button will cause the device to restart.

If the device has double MPUs, the following situations may occur:

Pressing the reset button on the active MPU will trigger an active/standby switchover.

Pressing the reset button on the standby MPU will reset the standby MPU, which does not affect running of the system.
OFL OFL button

The button is used to power off the MPU and collect logs. To implement this, you need to press and hold down the OFL button for about 6 seconds.

NOTE:

The OFL button is valid only for the standby MPU.

Ports

Figure 7-33 Ports on the CE-MPUD-HALF2

1. Clock SMA port (CLK/TEST)

2. USB port (USB)

3. ETH management port (ETH)

4. Console port (CONSOLE)

5. Boolean alarm input port (ALMIN)

6. RS485 port (485)

7. External synchronization port CLK (CLK)

8. External synchronization port TOD (TOD)

9. FSP serial port (FSP0 and FSP1)

10. SFP+ optical port (SFP+0, SFP+1, SFP+2, and SFP+3)

11. Clock SFP port (HP-GE)

-

-

-

-
  • The device does not support the ALMIN, 485, FSP0, FSP1 and HP-GE ports.
  • In V200R022C00 and V200R022C10, the device does not support the USB port.
Table 7-76 Ports on the CE-MPUD-HALF2
Port Connector Type Description Available Components
Clock SMA port SMA Connects to an external clock.

50-ohm clock cable
USB port USB 2.0 Type A Is used for USB-based deployment. It is recommended that the dimensions of the USB flash drive be less than 10 mm x 40 mm x 20 mm (H x W x D, 0.39 in. x 1.57 in. x 0.79 in.). If the dimensions of a USB flash drive are larger than this specification, an extension cable is required.

USB
ETH management port RJ45 Connects to the NMS workstation. This port can work at the rates of 10 Mbit/s, 100 Mbit/s, and 1000 Mbit/s.

Super category 5 shielded twisted pair
Console port RJ45 Connects to the control platform and implements onsite system configuration. The default baud rate is 9600 bit/s, and the baud rate is configurable.

8-core shielded cable
Boolean input port RJ45 Functions as a port for Boolean detection. -
RS485 port RJ45 Is an RS485 monitoring/management port. -
External synchronization port CLK RJ45 Inputs or outputs 2-Mbit/s clock signals, 2-MHz clock signals, or 1 pps time signals.

120-ohm clock cable
External synchronization port TOD RJ45 Inputs or outputs 1 pps and ASCII time signals or DCLS time signals.

120-ohm clock cable
FSP serial port (Reserved) RJ45 Functions as a port for fast inter-chassis switchovers. -
SFP+ optical port SFP+

SFP+0, SFP+1, SFP+2, and SFP+3 are four mutually independent 10GE optical ports that are dedicated to establishing stack management links.

NOTE:

SFP+2 and SFP+3 optical ports do not support the stacking function.

Optical fiber
Clock SFP port SFP Is a high-precision clock SFP port.

Optical fiber

Functions and Features

Table 7-77 Functions and features of the CE-MPUD-HALF2
Functions and Features Description
Device management and maintenance The MPU provides management ports for managing and maintaining the system.
Device monitoring The MPU integrates a monitoring module. The monitoring module provides the monitoring plane, which allows administrators to remotely power on, power off, and reset the card, upgrade firmware, monitor card temperature, voltage, and power, manage asset information, and diagnose system faults.
Out-of-band communication between cards The MPU integrates a LAN switch module that provides out-of-band communication between cards. The LAN switch module completes control, monitoring, maintenance, and message exchange between SFUs and LPUs.
Route calculation

The MPU processes all routing protocol packets, which are sent from the forwarding engine.

The MPU broadcasts and filters routing protocol packets, and downloads routing policies from the policy server.
Data configuration The MPU stores system configuration data, startup files, upgrade software, and system logs.
Data saving The MPU uses SATA to save data files.
Hot swapping Supported
Restrictions and remarks In the same chassis, the MPU cannot be installed together with an MPU of a different model.

Technical Specifications

Table 7-78 Technical specifications of the CE-MPUD-HALF2
Item Specification
Dimensions without packaging (H x W x D) [mm (in.)] 45.7 mm x 215 mm x 522.5 mm (1.80 in. x 8.46 in. x 20.57 in.)
Dimensions with packaging (H x W x D) [mm (in.)] 185 mm x 385 mm x 780 mm (7.28 in. x 15.16 in. x 30.71 in.)
Weight without packaging [kg (lb)] 4.2 kg (9.26 lb)
Weight with packaging [kg (lb)] 6.2 kg (13.67 lb)
Typical power consumption [W] 88 W
Typical heat dissipation [BTU/hour] 300 BTU/hour
Static power consumption [W] 67 W
Static heat dissipation [BTU/hour] 229 BTU/hour
Maximum power consumption [W] 99 W
Maximum heat dissipation [BTU/hour] 338 BTU/hour
CPU 8-core, 1.5 GHz clock speed
Memory Standard configuration: 16 GB
Storage 32 GB SSD

CE-MPUD-HALF2 (03050EQL-002: CE16800 Main Processing Unit D-2 (half-width))

Overview

Table 7-79 Basic information about the CE-MPUD-HALF2
Item Details
Description CE16800 Main Processing Unit D-2 (half-width)
Part Number 03050EQL-002
Model CE-MPUD-HALF2
Silkscreen CE-MPUD-HALF2
Card Type MPU

Appearance

Figure 7-34 Appearance of the CE-MPUD-HALF2

Version Mapping

Table 7-80 Mappings between CE-MPUD-HALF2 and product
Product First Supported Version Unsupported Model IDs of Available Slots Limitations
CloudEngine 16804 V200R022C00 - 5–6 -
CloudEngine 16808 V200R022C00 - 9–10 -
Table 7-81 Mappings between CE-MPUD-HALF2 and Interface Card
Model Product First Supported Version Unsupported Product Model
CEL36CQFD-G CloudEngine 16804 V200R022C00 -
CEL48XSFD1-G CloudEngine 16804 V200R022C00 -
CEL36LQFD-G CloudEngine 16804 V200R022C00 -
CEL48XSFD-G CloudEngine 16804 V200R022C00 -
CEL48XSFD-A CloudEngine 16804 V200R022C00 -
CEL36LQFD-G CloudEngine 16804 V200R022C00 -
CEL36CQFD-A CloudEngine 16804 V200R022C00 -
CEL18CQFD-A CloudEngine 16804 V200R022C00 -
CEL36LQFD-G CloudEngine 16804 V200R022C00 -
CEL24LQFD-G CloudEngine 16804 V200R022C00 -
CEL18CQFD-G CloudEngine 16804 V200R022C00 -
CEL48XSFD-A CloudEngine 16804 V200R022C00 -
CEL24LQFD-G CloudEngine 16804 V200R022C00 -
CEL48XSFD-G CloudEngine 16804 V200R022C00 -
CEL18CQFD-A CloudEngine 16804 V200R022C00 -
CEL36CQFD-G CloudEngine 16804 V200R022C00 -
CEL36LQFD-A CloudEngine 16804 V200R022C00 -
CEL36CQFD-G CloudEngine 16804 V200R022C00 -
CEL24LQFD-G CloudEngine 16804 V200R022C00 -
CEL36CQFD-G CloudEngine 16804 V200R022C00 -
CEL36LQFD1-G CloudEngine 16804 V200R022C00 -
CEL36CQFD-A CloudEngine 16804 V200R022C00 -
CEL24LQFD1-G CloudEngine 16804 V200R022C00 -
CEL36LQFD-A CloudEngine 16804 V200R022C00 -
CEL24LQFD-G CloudEngine 16804 V200R022C00 -
CEL18CQFD-G CloudEngine 16804 V200R022C00 -
CEL48XSFD-G CloudEngine 16804 V200R022C00 -
CEL36LQFD-G CloudEngine 16804 V200R022C00 -
CEL18CQFD-G CloudEngine 16804 V200R022C00 -
CEL18CQFD-G CloudEngine 16804 V200R022C00 -
CEL48XSFD-G CloudEngine 16804 V200R022C00 -
CEL36CQFD-G CloudEngine 16808 V200R022C00 -
CEL48XSFD1-G CloudEngine 16808 V200R022C00 -
CEL36LQFD-G CloudEngine 16808 V200R022C00 -
CEL48XSFD-G CloudEngine 16808 V200R022C00 -
CEL48XSFD-A CloudEngine 16808 V200R022C00 -
CEL36LQFD-G CloudEngine 16808 V200R022C00 -
CEL36CQFD-A CloudEngine 16808 V200R022C00 -
CEL18CQFD-A CloudEngine 16808 V200R022C00 -
CEL36LQFD-G CloudEngine 16808 V200R022C00 -
CEL24LQFD-G CloudEngine 16808 V200R022C00 -
CEL18CQFD-G CloudEngine 16808 V200R022C00 -
CEL48XSFD-A CloudEngine 16808 V200R022C00 -
CEL24LQFD-G CloudEngine 16808 V200R022C00 -
CEL48XSFD-G CloudEngine 16808 V200R022C00 -
CEL18CQFD-A CloudEngine 16808 V200R022C00 -
CEL36CQFD-G CloudEngine 16808 V200R022C00 -
CEL36LQFD-A CloudEngine 16808 V200R022C00 -
CEL36CQFD-G CloudEngine 16808 V200R022C00 -
CEL24LQFD-G CloudEngine 16808 V200R022C00 -
CEL36CQFD-G CloudEngine 16808 V200R022C00 -
CEL36LQFD1-G CloudEngine 16808 V200R022C00 -
CEL36CQFD-A CloudEngine 16808 V200R022C00 -
CEL24LQFD1-G CloudEngine 16808 V200R022C00 -
CEL36LQFD-A CloudEngine 16808 V200R022C00 -
CEL24LQFD-G CloudEngine 16808 V200R022C00 -
CEL18CQFD-G CloudEngine 16808 V200R022C00 -
CEL48XSFD-G CloudEngine 16808 V200R022C00 -
CEL36LQFD-G CloudEngine 16808 V200R022C00 -
CEL18CQFD-G CloudEngine 16808 V200R022C00 -
CEL18CQFD-G CloudEngine 16808 V200R022C00 -
CEL48XSFD-G CloudEngine 16808 V200R022C00 -

Indicators and Buttons

Figure 7-35 Indicators and buttons on the CE-MPUD-HALF2

1. Running status indicator

2. Active/Standby status indicator

3. Reset button

4. Stack status indicator

5. OFL button

6. USB-based deployment indicator

7. ETH port indicator

8. SFP+ optical port indicator

9. High-precision clock optical module indicator

-
  • The indicators on CONSOLE, ALMIN, 485, CLK, TOD, and FSP ports are not in use.
  • In V200R022C00 and V200R022C10, the indicator on USB port is not in use.
Table 7-82 Indicators on the CE-MPUD-HALF2
Silkscreen Name Color Status Description
RUN(G)/ALM(R)/OFL(Y) Running status indicator Green Steady on The card has been powered on but the system software is not running.
Green Slow blinking (0.5 Hz) The card is working properly.
Green Fast blinking (4 Hz) The card is loading the system software or is resetting.
Red Steady on A fault that affects services has occurred and it cannot be rectified automatically (critical alarm about hardware), or the card has generated an alarm because the memory size is not equal to the standard specification.
Red Fast blinking (4 Hz) The system power is insufficient.
Yellow Steady on The card is in power-off state. (For example, the card has been forcibly powered off using the power off command or is about to start.)
ACT Active/Standby status indicator Green Steady on The card is the active MPU.
Green Off The card is the standby MPU.
M/S

Stack status indicator

NOTE:

You can run the dfs-master led enable command to enable the stack status indicator to display the DFS group master and backup status.

After this function is enabled, the stack status indicator on the DFS master device is steady on and that on the DFS backup device is off.

 Green Steady on The stacking function is enabled, and the card is the active MPU of the stack.
Green Slow blinking (0.5 Hz) The stacking function is enabled, and the card is not the active MPU of the stack.
Green Off The stacking function is not enabled.
- USB-based deployment indicator Green Steady on USB-based deployment has been completed.
Green Blinking (4 Hz) The system is reading data from a USB flash drive.
Red Steady on USB-based deployment fails.
- Off USB-based deployment is disabled (default state).
-

Two single-color indicators for each ETH port:

Green: LINK indicator

Yellow: ACT indicator

 Green Steady on The link on the port is connected.
-

ETH port indicator, Two single-color indicators for each port:

Green: LINK indicator

Yellow: ACT indicator

 Green Off The link on the port is disconnected.
Yellow Blinking (15 Hz) The port is transmitting or receiving data.
Yellow Off The port is not transmitting or receiving data.
-

SFP+ optical port indicator

Two single-color indicators for each port:

Green: LINK indicator

Yellow: ACT indicator

 Green Steady on The link on the port is connected.
Green Off The link on the port is disconnected.
Yellow Blinking (15 Hz) The port is transmitting or receiving data.
Yellow Off The port is not transmitting or receiving data.
- High-precision clock optical transceiver indicator Green Steady on The link on the port is connected.
Green Blinking (15 Hz) The port is transmitting or receiving data.
Green Off The link on the port is disconnected.
Table 7-83 Buttons on the CE-MPUD-HALF2
Silkscreen Name Description
RESET Reset button

The button is used to manually reset an MPU.

If the device has only one MPU, pressing this button will cause the device to restart.

If the device has double MPUs, the following situations may occur:

Pressing the reset button on the active MPU will trigger an active/standby switchover.

Pressing the reset button on the standby MPU will reset the standby MPU, which does not affect running of the system.
OFL OFL button

The button is used to power off the MPU and collect logs. To implement this, you need to press and hold down the OFL button for about 6 seconds.

NOTE:

The OFL button is valid only for the standby MPU.

Ports

Figure 7-36 Ports on the CE-MPUD-HALF2

1. Clock SMA port (CLK/TEST)

2. USB port (USB)

3. ETH management port (ETH)

4. Console port (CONSOLE)

5. Boolean alarm input port (ALMIN)

6. RS485 port (485)

7. External synchronization port CLK (CLK)

8. External synchronization port TOD (TOD)

9. FSP serial port (FSP0 and FSP1)

10. SFP+ optical port (SFP+0, SFP+1, SFP+2, and SFP+3)

11. Clock SFP port (HP-GE)

-

-

-

-
  • The device does not support the ALMIN, 485, FSP0, FSP1 and HP-GE ports.
  • In V200R022C00 and V200R022C10, the device does not support the USB port.
Table 7-84 Ports on the CE-MPUD-HALF2
Port Connector Type Description Available Components
Clock SMA port SMA Connects to an external clock.

50-ohm clock cable
USB port USB 2.0 Type A Is used for USB-based deployment. It is recommended that the dimensions of the USB flash drive be less than 10 mm x 40 mm x 20 mm (H x W x D, 0.39 in. x 1.57 in. x 0.79 in.). If the dimensions of a USB flash drive are larger than this specification, an extension cable is required.

USB
ETH management port RJ45 Connects to the NMS workstation. This port can work at the rates of 10 Mbit/s, 100 Mbit/s, and 1000 Mbit/s.

Super category 5 shielded twisted pair
Console port RJ45 Connects to the control platform and implements onsite system configuration. The default baud rate is 9600 bit/s, and the baud rate is configurable.

8-core shielded cable
Boolean input port RJ45 Functions as a port for Boolean detection. -
RS485 port RJ45 Is an RS485 monitoring/management port. -
External synchronization port CLK RJ45 Inputs or outputs 2-Mbit/s clock signals, 2-MHz clock signals, or 1 pps time signals.

120-ohm clock cable
External synchronization port TOD RJ45 Inputs or outputs 1 pps and ASCII time signals or DCLS time signals.

120-ohm clock cable
FSP serial port (Reserved) RJ45 Functions as a port for fast inter-chassis switchovers. -
SFP+ optical port SFP+

SFP+0, SFP+1, SFP+2, and SFP+3 are four mutually independent 10GE optical ports that are dedicated to establishing stack management links.

NOTE:

SFP+2 and SFP+3 optical ports do not support the stacking function.

Optical fiber
Clock SFP port SFP Is a high-precision clock SFP port.

Optical fiber

Functions and Features

Table 7-85 Functions and features of the CE-MPUD-HALF2
Functions and Features Description
Device management and maintenance The MPU provides management ports for managing and maintaining the system.
Device monitoring The MPU integrates a monitoring module. The monitoring module provides the monitoring plane, which allows administrators to remotely power on, power off, and reset the card, upgrade firmware, monitor card temperature, voltage, and power, manage asset information, and diagnose system faults.
Out-of-band communication between cards The MPU integrates a LAN switch module that provides out-of-band communication between cards. The LAN switch module completes control, monitoring, maintenance, and message exchange between SFUs and LPUs.
Route calculation

The MPU processes all routing protocol packets, which are sent from the forwarding engine.

The MPU broadcasts and filters routing protocol packets, and downloads routing policies from the policy server.
Data configuration The MPU stores system configuration data, startup files, upgrade software, and system logs.
Data saving The MPU uses SATA to save data files.
Hot swapping Supported
Restrictions and remarks In the same chassis, the MPU cannot be installed together with an MPU of a different model.

Technical Specifications

Table 7-86 Technical specifications of the CE-MPUD-HALF2
Item Specification
Dimensions without packaging (H x W x D) [mm (in.)] 45.7 mm x 215 mm x 522.5 mm (1.80 in. x 8.46 in. x 20.57 in.)
Dimensions with packaging (H x W x D) [mm (in.)] 185 mm x 385 mm x 780 mm (7.28 in. x 15.16 in. x 30.71 in.)
Weight without packaging [kg (lb)] 4.2 kg (9.26 lb)
Weight with packaging [kg (lb)] 6.2 kg (13.67 lb)
Typical power consumption [W] 88 W
Typical heat dissipation [BTU/hour] 300 BTU/hour
Static power consumption [W] 67 W
Static heat dissipation [BTU/hour] 229 BTU/hour
Maximum power consumption [W] 99 W
Maximum heat dissipation [BTU/hour] 338 BTU/hour
CPU 8-core, 1.5 GHz clock speed
Memory Standard configuration: 16 GB
Storage 32 GB SSD
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Update Date:2025-05-14
Document ID:EDOC1100095397
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