User Manual
Table Of Contents
- HPE ProLiant DL360 Gen10 Server User Guide
- Contents
- Component identification
- Front panel components
- Front panel LEDs and buttons
- Systems Insight Display LEDs
- Systems Insight Display combined LED descriptions
- Rear panel components
- Rear panel LEDs
- System board components
- Device numbers
- Hot-plug drive LED definitions
- NVMe SSD LED definitions
- uFF drive components and LEDs
- Hot-plug fans
- HPE Smart Array P824i-p MR Gen10 Controller
- Operations
- Power up the server
- Powering down the server
- Extend the server from the rack
- Remove the server from the rack
- Remove the access panel
- Installing the access panel
- Remove the hot-plug fan
- Removing the primary PCI riser cage
- Install the primary PCI riser cage
- Removing the secondary PCI riser cage
- Install the secondary PCI riser cage
- Removing the 8 SFF drive backplane
- Releasing the cable management arm
- Setup
- Hardware options installation
- Hewlett Packard Enterprise product QuickSpecs
- Introduction
- Installing a redundant hot-plug power supply
- Memory options
- Installing a high-performance fan
- Drive options
- Hot-plug drive guidelines
- Removing the hard drive blank
- Installing a hot-plug SAS or SATA drive
- Removing a hot-plug SAS or SATA hard drive
- Installing the NVMe drives
- Removing and replacing an NVMe drive
- Installing a uFF drive and SCM drive carrier
- Removing and replacing a uFF drive
- Installing an 8 SFF optical drive
- Universal media bay options
- Installing the 4 LFF optical drive option
- Installing the rear drive riser cage option
- Primary PCI riser cage options
- Secondary PCI riser options
- Controller options
- Installing an HPE Smart Array P408i-a SR Gen10 Controller option
- Installing an HPE Smart Array P408i-p SR Gen10 Controller option
- Installing an HPE Smart Array P816i-a SR Gen10 Controller option
- Installing an HPE Smart Array P824i-p MR Gen10 controller in a configured server
- Installing the operating system with the HPE Smart Array MR Gen10 P824i-p controller driver
- Processor and heatsink options
- Installing the Systems Insight Display power module
- Installing the 4 LFF display port/USB module
- Installing the serial cable option
- Installing the Chassis Intrusion Detection switch option
- Installing a FlexibleLOM option
- Energy pack options
- HPE Trusted Platform Module 2.0 Gen10 option
- Cabling
- Software and configuration utilities
- Server mode
- Product QuickSpecs
- Active Health System Viewer
- HPE iLO 5
- Integrated Management Log
- Intelligent Provisioning
- Management Security
- Scripting Toolkit for Windows and Linux
- UEFI System Utilities
- HPE Smart Storage Administrator
- HPE MR Storage Administrator
- StorCLI
- USB support
- Redundant ROM support
- Keeping the system current
- Troubleshooting
- Removing and replacing the system battery
- Specifications
- Environmental specifications
- Server specifications
- Power supply specifications
- HPE 500W Flex Slot Platinum Hot-plug Low Halogen Power Supply
- HPE 800W Flex Slot Platinum Hot-plug Low Halogen Power Supply
- HPE 800W Flex Slot Titanium Hot-plug Low Halogen Power Supply
- HPE 800W Flex Slot Universal Hot-plug Low Halogen Power Supply
- HPE 800W Flex Slot -48VDC Hot-plug Low Halogen Power Supply
- HPE 1600W Flex Slot Platinum Hot-plug Low Halogen Power Supply
- Hot-plug power supply calculations
- Websites
- Support and other resources
- Acronyms and abbreviations
The loss of a single fan rotor (one standard fan) causes loss of redundancy. The loss of two fan rotors (2
standard fans or 1 high-performance fan) causes the server to initiate a shut down.
The high-performance fans are used for 8-SFF +2SFF NVMe and 10 SFF drive configurations when NVMe
drives are installed in the server. They are also required for ASHRAE compliant configurations. For more
information on ASHRAE compliant configurations, see the Hewlett Packard Enterprise website.
The server supports variable fan speeds. The fans operate at minimum speed until a temperature change
requires a fan speed increase to cool the server. The server shuts down during the following temperature-
related scenarios:
• At POST and in the OS, iLO performs an orderly shutdown if a cautionary temperature level is detected. If
the server hardware detects a critical temperature level before an orderly shutdown occurs, the server
performs an immediate shutdown.
• When the Thermal Shutdown feature is disabled in the BIOS/Platform Configuration (RBSU), iLO does not
perform an orderly shutdown when a cautionary temperature level is detected. Disabling this feature does
not disable the server hardware from performing an immediate shutdown when a critical temperature level
is detected.
CAUTION: A thermal event can damage server components when the Thermal Shutdown feature is
disabled in the BIOS/Platform Configuration (RBSU).
28 Component identification