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OceanStor 2000, 5000, and 6000 Series V500R007 Kunpeng Product Description
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Component Description

Component Description

This section provides the detailed illustration and description for each component.

System Subrack

The system subrack houses a midplane that provides reliable connections for interface modules and distributes power and signals to inner modules.

Appearance

Figure 4-86 shows the appearance of a system subrack.

Figure 4-86 System subrack

Controller

A controller is the core component of a storage system. It processes storage services, receives configuration management commands, saves configuration data, connects to disks, and saves critical data onto coffer disks.

Each controller has one built-in disk. The disk is used to store the data of a storage system and the data in cache after a power failure. The disk built in one controller and the one built in another are redundant for each other.

Ports

Figure 4-87 and Figure 4-88 describe the ports of a controller.

Figure 4-87 Ports of a controller (with onboard mini SAS HD expansion ports)
Figure 4-88 Ports of a controller (with onboard 100 Gbit/s RDMA ports)

Only serial cables can be inserted into the serial ports. Do not insert network cables into the serial ports.

Indicators

Table 4-30 describes indicators on a controller of a powered-on storage system.

Table 4-30 Indicators on a controller

Indicator

Status and Description

Link/Active indicator of the management network port
  • Steady green: The port is connected properly.
  • Blinking green (2 Hz): Data is being transferred.
  • Off: The port is connected abnormally.

Speed indicator of the management network port
  • Steady yellow: Data is being transferred at the highest rate.
  • Off: The data transfer speed is lower than the highest speed.

Controller Power indicator
  • Steady green: The controller is powered on.
  • Blinking green (0.5 Hz): The controller is powered on and in the BIOS boot process.
  • Blinking green (2 Hz): The controller is in the operating system boot process, or the controller is in the power-off process.
  • Off: The controller is absent or powered off.

Controller Alarm indicator
  • Steady yellow: An alarm is generated on the controller.
  • Off: The controller is working correctly.

Built-in FRU Alarm indicator
  • Steady yellow: The internal FRU (fan module) of the controller is faulty.
  • Off: The internal FRU of the controller is working correctly.

Mini SAS HD expansion port indicator
  • Steady blue: The data transfer rate between the controller enclosure and the disk enclosure is 4 x 12 Gbit/s.
  • Steady green: The data transfer rate between the controller enclosure and the disk enclosure is 4 x 3 Gbit/s or 4 x 6 Gbit/s.
  • Steady yellow: The port is faulty.
  • Off: The link is down.

100 Gbit/s RDMA port indicator
  • Steady blue: The speed is the highest.
  • Blinking blue (2 Hz): The port is transmitting data at the highest speed.
  • Steady green: The speed is not the highest.
  • Blinking green (2 Hz): The port is transmitting data, but not at the highest speed.
  • Steady yellow: The optical module or cable is faulty or not supported by the port.
  • Blinking yellow (2 Hz): The port is being located.
  • Off: The port is not connected.

Fan Module

A fan module dissipates heat and enables a controller enclosure to work properly at the maximum power consumption.

Appearance

Figure 4-89 shows the appearance of a fan module.

Figure 4-89 Appearance of a fan module

Indicators

A fan module is located inside a controller and its running status can be determined from the built-in FRU Alarm indicator or alarm information on DeviceManager. For details about the built-in FRU Alarm indicator, see Indicator Introduction.

Power-BBU Module

A Power-BBU module consists of a power module and a BBU. Only AC power modules are supported and they allow controller enclosures to work correctly in maximum power consumption. BBUs provide enough power to ensure that any data in flight is de-staged to the vault area in the event of a power failure. If a BBU is faulty, it can be isolated without affecting the normal running of the storage system. If a power failure occurs, BBUs ensure that the storage system writes cached data to the built-in disks of the controllers, preventing data loss. After the external power supply resumes, the driver reads data from the built-in disks of the controllers to the cache. In a system using the lithium batteries, the battery capacity is updated and detected by charging and discharging the batteries. In this way, the problems can be detected in advance that the battery capacity attenuates, the batteries fail to meet the power backup requirements of the system, and thus the data backup fails when the batteries are not used for a long time. Then, the reliability of data protection upon the system power failure can be improved.

Each controller enclosure has two power supply units (PSUs), named PSU 0 and PSU 1. The two PSUs form a power plane and work in redundancy mode to supply power to controllers A and B. To ensure power supply reliability, you are advised to insert PSU 0 and PSU 1 into different PDUs.

Appearance

Figure 4-90 and Figure 4-91 show the appearances of an AC Power-BBU module.

Figure 4-90 Appearance of an AC Power-BBU module
Figure 4-91 Front view of an AC Power-BBU module

Indicators

Table 4-31 describes indicators on a Power-BBU module of a powered-on storage system.

Table 4-31 Indicators on a Power-BBU module

Indicator

Status and Description

Running/Alarm indicator of the power module
  • Steady green: The power supply is normal.
  • Blinking green (1 Hz): The power input is normal but the device is powered off.
  • Blinking green (4 Hz): The power module is being upgraded online.
  • Steady yellow: The power supply is faulty.
  • Off: No external power input is found.

Running/Alarm indicator of the BBU
  • Steady green: The BBU is fully charged.
  • Blinking green (1 Hz): The BBU is being charged.
  • Blinking green (4 Hz): The BBU is being discharged.
  • Steady yellow: The BBU is faulty.
  • Off: The interface module is powered off or hot swappable..

Disk Module

Disk modules provide storage capacity for a storage system. Disk modules can function as system coffer disks to save service data, system data, and cache data.

Appearance

Figure 4-92, Figure 4-93, and Figure 4-94 show the appearance of a 2.5-inch disk module, a 3.5-inch disk module, and a palm-sized disk module.

Figure 4-92 2.5-inch disk module
Figure 4-93 3.5-inch disk module
Figure 4-94 Palm-sized disk module

Indicators

Table 4-32 describes indicators on a disk module of a powered-on storage system.

Table 4-32 Indicators on a disk module

Indicator

Status and Description

Running indicator of the disk module
  • Steady green: The disk module is working correctly.
  • Blinking green (4 Hz or above): The disk module is reading and writing data.
  • Off: The disk module is powered off or powered on incorrectly.

Alarm/Location indicator of the disk module
  • Steady yellow: The disk module is faulty.
  • Blinking yellow (2 Hz): The disk module is being located.
  • Off: The disk module is working correctly or hot swappable.
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Updated: 2021-11-03

Document ID: EDOC1100129454

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