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HPE ProLiant DX170r Gen10 Server User Guide Abstract This document is for the person who installs, administers, and troubleshoots servers and storage systems. Hewlett Packard Enterprise assumes you are qualified in the servicing of computer equipment and trained in recognizing hazards in products with hazardous energy levels.
Contents HPE Apollo DX2000 Gen10 System............7 Component identification...............8 Rear panel components........................8 Serial number/iLO information pull tab................8 Rear panel LEDs and buttons.......................9 Server UID LED........................10 UID button functionality....................10 Front panel LED power fault codes..................10 System board components......................11 System maintenance switch descriptions................ 12 DIMM label identification....................
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Selecting the boot mode ....................88 Secure Boot........................89 Launching the Embedded UEFI Shell ................89 HPE Smart Storage Administrator....................90 HPE MR Storage Administrator....................91 HPE InfoSight for servers ......................91 StorCLI............................91 USB support..........................92 External USB functionality....................92 Redundant ROM support......................92 Safety and security benefits.....................
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Ukraine RoHS material content declaration..............101 Warranty information.........................101 Specifications..................102 Environmental specifications....................102 Mechanical specifications......................102 Temperature requirements......................102 List of components with temperature requirements..............103 Thermal limitations for components in systems with the Enhanced Processor Performance feature enabled..................103 Thermal limitations for components in systems with the Enhanced Processor Performance feature disabled..................
HPE Apollo DX2000 Gen10 System The HPE Apollo DX2000 Gen10 System is a dense, multiserver platform that packs incredible performance and workload flexibility into a small data center space. It is designed to provide a bridge to scale out architecture for traditional data centers.
Use a mobile device to scan the QR code label to display the server mobile product page (http:// www.hpe.com/qref/dx170rgen10). This page contains links to server setup information, spare part numbers, QuickSpecs, troubleshooting resources, and other useful product links. Component identification...
Rear panel LEDs and buttons Item Description Status Definition NIC link LED Green Linked to network No network link NIC status LED Flashing green Network active No network activity Health LED Solid green Normal Flashing green iLO is rebooting. Flashing amber System degraded Flashing red System critical...
The UID button can be used to display the Server Health Summary when the server will not power on. For more information, see the latest HPE iLO 5 User Guide on the Hewlett Packard Enterprise website. Front panel LED power fault codes The following table provides a list of power fault codes, and the subsystems that are affected.
Item Description x8 SATA port Secondary PCIe x24 riser connector 2 TPM connector microSD slot System maintenance switch descriptions Position Default Function Off = iLO 5 security is enabled. On = iLO 5 security is disabled. Reserved Reserved Reserved Off = Power-on password is enabled. On = Power-on password is disabled.
L = LRDIMM (load reduced) E = Unbuffered ECC (UDIMM) For more information about product features, specifications, options, configurations, and compatibility, see the HPE DDR4 SmartMemory QuickSpecs on the Hewlett Packard Enterprise website (http:// www.hpe.com/support/DDR4SmartMemoryQS). Processor, heatsink, and socket components...
Symbol also on the processor and frame. Bayonet port numbering PCIe riser board components This section identifies the riser slots compatible with specific types of expansion options supported by the server. The following riser options are supported: • Primary riser •...
Operations This chapter describes the hardware operations carried out prior to and after installing or removing a hardware option, or performing a server maintenance or troubleshooting procedure. Before performing these hardware operations, review and observe the server warnings and cautions. Power up the server The DX chassis firmware initiates an automatic power-up sequence when the servers are installed.
CAUTION: To avoid damage to the server or server blank: • Always support the bottom of the server or server blank when removing it from the chassis. • Do not use the release lever to carry the server or server blank. Procedure 1.
4. Connect all peripheral cables to the server. 5. Power up the server on page 19. Remove the air baffle CAUTION: For proper cooling, do not operate the server without the baffles, expansion slot covers, or blanks installed. Procedure 1. Power down the server on page 19. 2.
Install the air baffle Procedure 1. Install the air baffle. 2. Install the server into the chassis on page 20. 3. Connect all peripheral cables to the server. 4. Power up the server on page 19. Remove the bayonet board Prerequisites Before you perform this procedure, make sure that you have a T-10 Torx screwdriver available.
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b. Remove the screws securing the cover to the server tray, and then remove the cover. c. Disconnect the bayonet board cables, and then remove the bayonet board. Operations...
Remove the secondary riser blank CAUTION: To prevent improper cooling and thermal damage, do not operate the server unless either riser blank or riser cage is installed. Prerequisites Before you perform this procedure, make sure that you have a T-10 Torx screwdriver available. Procedure 1.
Install the bayonet board Prerequisites Before you perform this procedure, make sure that you have a T-10 Torx screwdriver available. Procedure 1. Install the bayonet board: a. Connect all the bayonet board cables. b. Install the bayonet board. Make sure that the board is firmly seated in the connector. c.
d. Install the screws to secure the cover to the bayonet board. 2. Install the air baffle on page 22. 3. Install the server into the chassis on page 20. 4. Connect all peripheral cables to the server. 5. Power up the server on page 19. Install the secondary riser blank Prerequisites Before you perform this procedure, make sure that you have a T-10 Torx screwdriver available.
2. Install the server into the chassis on page 20. 3. Connect all peripheral cables to the server. 4. Power up the server on page 19. Remove the secondary riser cage CAUTION: To prevent improper cooling and thermal damage, do not operate the server unless either riser blank or riser cage is installed.
Install the secondary riser cage Prerequisites Before you perform this procedure, make sure that you have a T-10 Torx screwdriver available. Procedure 1. Install the secondary riser cage. Make sure that the riser board is firmly seated in its system board connectors.
5. Connect all peripheral cables to the server. 6. Power up the server on page 19. Remove the primary riser cage CAUTION: To prevent improper cooling and thermal damage, do not operate the server unless either riser blank or riser cage is installed. Prerequisites Before you perform this procedure, make sure that you have a T-10 Torx screwdriver available.
Install the primary riser cage Prerequisites Before you perform this procedure, make sure that you have a T-10 Torx screwdriver available. Procedure 1. Install the primary riser cage. Make sure that the riser board is firmly seated in its system board the connector.
Procedure 1. Power down the server on page 19. 2. Disconnect all peripheral cables from the server. 3. Remove the server from the chassis on page 19. 4. If a secondary riser cage is installed, remove the bayonet board. 5. Do one of the following: •...
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2. Do one of the following: • Install the secondary riser blank on page 26. • Install the secondary riser cage on page 28. 3. If removed, install the bayonet board. 4. Install the server into the chassis on page 20. 5.
Before you begin installing the HPE Apollo DX2000 Gen10 System, Hewlett Packard Enterprise recommends that you plan and coordinate the installation process with an authorized HPE representative or partner. Proper planning provides a more efficient installation process and leads to greater availability, reliability, and serviceability of the system.
HPE Installation Service provides basic installation of Hewlett Packard Enterprise branded equipment, software products, as well as HPE-supported products from other vendors that are sold by HPE or by HPE authorized resellers. The Installation Service is part of a suite of HPE deployment services that are designed to give users the peace of mind that comes from knowing that their HPE and HPE-supported products have been installed by an HPE specialist.
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Remotely: Connect to the iLO web interface and run a remote console: a. Verify the following: ◦ iLO is licensed to use the remote console feature. If iLO is not licensed, visit the HPE website: http://www.hpe.com/info/ilo ◦ The iLO Management Port is connected to a secure network.
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To configure the server to boot from a SAN, see the following guide: https://www.hpe.com/info/boot-from-san-config-guide • If an HPE Smart Array SR controller is installed, use the HPE Smart Storage Administrator to create arrays: a. From the boot screen, press F10 to run Intelligent Provisioning.
Operational requirements Site requirements The server must be located in a computer room or server room. The room must: • Be only accessible to authorized technicians trained the room restriction reasons and precautions. • Be within an area that is ideally locked or at minimum not accessible to unauthorized personnel.
The maximum recommended ambient operating temperature (TMRA) for most server products is 35°C (95°F). The temperature in the room where the rack is located must not exceed 35°C (95°F). CAUTION: To reduce the risk of damage to the equipment when installing third-party options: •...
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WARNING: To reduce the risk of personal injury from hot surfaces, allow the drives and the internal system components to cool before touching them. WARNING: To reduce the risk of electric shock or damage to the equipment: • Never reach inside the chassis while the system is powered up. •...
CAUTION: Do not operate the server for long periods with the access panel open or removed. Operating the server in this manner results in improper airflow and improper cooling that can lead to thermal damage. Electrostatic discharge Be aware of the precautions you must follow when setting up the system or handling components. A discharge of static electricity from a finger or other conductor may damage system boards or other static- sensitive devices.
Hardware options installation Introduction Install any hardware options before initializing the server. For options installation information, see the option documentation. For server-specific information, use the procedures in this section. If multiple options are being installed, read the installation instructions for all the hardware options to identify similar steps and streamline the installation process.
6. Connect a USB key or a USB optical drive to the USB hub. Processor heatsink assembly option Installing the processor heatsink assembly Procedure 1. Review the HPE Gen10 Servers Intelligent System Tuning whitepaper at the following website: http://www.hpe.com/support/ilo-docs 2. Identify the processor, heatsink, and socket components. 3. Review the processor cautions.
Do not touch the heatsink fins. IMPORTANT: Existing HPE ProLiant and HPE Synergy Gen10 server products containing first- generation Intel Xeon Scalable processors may not be upgraded to second-generation Intel Xeon Scalable processors at this time.
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Retain the blank for future use. Install the processor heatsink assembly: a. Locate and align the Pin 1 indicator on the processor frame and the socket. b. Align the processor heatsink assembly with the heatsink alignment posts and gently lower it down until it sits evenly on the socket.
Install the air baffle on page 22. Install the server into the chassis on page 20. 10. Connect all peripheral cables to the server. 11. Power up the server on page 19. 12. If the server is using Intel Xeon Gold 6244 processors, select one of the advanced fan cooling method.
DIMMs. Mixing DIMM types is not supported. Install either all DDR4-2666 DIMMs or all DDR4-2933 DIMMs in the server. HPE SmartMemory speed information For more information about memory speed information, see the Hewlett Packard Enterprise website (https://www.hpe.com/docs/memory-speed-table). Installing a DIMM The server supports up to 16 DIMMs.
The DIMM slots are structured to ensure proper installation. If you try to insert a DIMM but it does not fit easily into the slot, you might have positioned it incorrectly. Reverse the orientation of the DIMM and insert it again. 6.
• Remove the secondary riser blank on page 24. • Remove the secondary riser cage on page 27. Install the primary riser cage. Make sure that the riser board is firmly seated in its system board connector. If you are planning to install an expansion board in this riser cage, install it now. Do one of the following: •...
Remove the air baffle on page 21. If a secondary riser option is installed, remove the bayonet board. Remove the secondary PCIe riser blank. Install the secondary riser cage. Make sure that the riser board is firmly seated in its system board connectors.
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Procedure Power down the server on page 19. Disconnect all peripheral cables from the server. Remove the server from the chassis on page 19. Remove the air baffle on page 21. If a secondary riser option is installed, remove the bayonet board. Do one of the following: •...
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11. Make sure that any switches or jumpers on the expansion board are set properly. For more information, see the documentation that ships with the option. 12. Connect all necessary internal cabling to the expansion board. For more information on these cabling requirements, see the documentation that ships with the option.
The installation is complete. Installing an expansion board in the secondary riser cage The server supports multiple riser options in the secondary position. For more information on the secondary riser options, see Secondary riser board components on page 16. CAUTION: The maximum inlet ambient temperature for most components installed in the system is 35°C (95°F).
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Install the low-profile bracket on the expansion board. 10. Make sure that any switches or jumpers on the expansion board are set properly. For more information, see the documentation that ships with the option. 11. Connect all necessary internal cabling to the expansion board. For more information on these cabling requirements, see the documentation that ships with the option.
Storage controller options The server supports the following storage controllers: • For SATA drives only – Embedded HPE Smart Array S100i SR Gen10 Controller • For SAS and SATA drives – HPE Smart Array type-p controller The Smart Array type-p controller options are supported in both the primary and secondary riser slots.
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If you are installing a Smart Array P-class Gen10 controller, an energy pack option is required. For more information, see the chassis user guide on the Hewlett Packard Enterprise website (http:// www.hpe.com/info/DX2000Gen10-docs). • Before you perform this procedure, perform the following steps: 1.
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If installed, remove the full-height bracket from the controller. 10. Install the low-profile bracket on the controller. 11. Connect the following cables to the controller: Hardware options installation...
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19. Install the server into the chassis on page 20. 20. Connect all peripheral cables to the server. 21. To enable HPE Smart Array SR SmartCache or HPE Smart Array MR CacheCade in a Smart Array P-class Gen10 controller, install an energy pack.
If you are installing a Smart Array P-class Gen10 controller, an energy pack option is required. For more information, see the chassis user guide on the Hewlett Packard Enterprise website (http:// www.hpe.com/info/DX2000Gen10-docs). • Before you perform this procedure, perform the following steps: 1.
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If installed, remove the full-height bracket from the controller. Install the low-profile bracket on the controller. Hardware options installation...
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10. Connect the following cables to the controller: • Controller Mini-SAS cables • If you are installing a Smart Array P-class Gen10 controller, connect the storage controller backup power cable. 11. Install the controller. Make sure that the board is firmly seated in the slot. 12.
18. Connect all peripheral cables to the server. 19. To enable HPE Smart Array SR SmartCache or HPE Smart Array MR CacheCade in a Smart Array P-class Gen10 controller, install an energy pack. SmartCache and CacheCade enable solid-state drives to be used as caching devices for hard drive media.
Installing an M.2 SSD Prerequisites Before installing this option, make sure that you have the following tools available: • Phillips No. 1 screwdriver • T-15 Torx screwdriver Procedure Power down the server on page 19. Disconnect all peripheral cables from the server. Remove the server from the chassis on page 19.
10. Connect all peripheral cables to the server. 11. Power up the server on page 19. The installation is complete. To configure the M.2 SATA SSDs, see the HPE Smart Array SR Gen10 Configuration Guide at the Hewlett Packard Enterprise website. FlexibleLOM option The server supports a FlexibleLOM riser cage option in the secondary position.
CAUTION: The maximum inlet ambient temperature for most components installed in the system is 35°C (95°F). Some components, however, are subject to thermal limitations depending on the chassis model and the fan configuration. There are some hardware configurations where it is necessary to limit the number of drives installed in the chassis.
Install the FlexibleLOM riser cage. 10. If removed, install the bayonet board. 11. Install the air baffle on page 22. 12. Install the server into the chassis on page 20. 13. Connect the LAN segment cables to the adapter. 14. Connect all peripheral cables to the server. 15.
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• Remove the secondary riser blank on page 24. • Remove the secondary riser cage on page 27. Do one of the following: • Remove the primary riser blank on page 30. • Remove the primary riser cage on page 29. Remove the primary riser slot blank.
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b. Connect the IFP cable to the Intel Xeon 61XXF processor. c. Close the IFP cable retaining latch. 13. Connect the OPA adapter sideband cable to the system board. 14. Do one of the following: • Install the secondary riser blank on page 26. •...
19. Connect all peripheral cables to the server. 20. Power up the server on page 19. The installation is complete. Installing the Media Module adapter CAUTION: The maximum inlet ambient temperature for most components installed in the system is 35°C (95°F). Some components, however, are subject to thermal limitations depending on the chassis model and the fan configuration.
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Install the Media Module adapter. Make sure that the board is firmly seated in the slot. 10. Install the Media Module screws. Hardware options installation...
HPE Trusted Platform Module 2.0 Gen10 option Overview Use these instructions to install and enable an HPE TPM 2.0 Gen10 Kit in a supported server. This option is not supported on Gen9 and earlier servers. This procedure includes three sections: 1.
TPM including keys will be erased. IMPORTANT: In UEFI Boot Mode, the HPE TPM 2.0 Gen10 Kit can be configured to operate as TPM 2.0 (default) or TPM 1.2 on a supported server. In Legacy Boot Mode, the configuration can be changed between TPM 1.2 and TPM 2.0, but only TPM 1.2 operation is supported.
Installing and enabling the HPE TPM 2.0 Gen10 Kit Installing the Trusted Platform Module board Preparing the server for installation Procedure 1. Observe the following warnings: WARNING: The front panel Power On/Standby button does not shut off system power. Portions of the power supply and some internal circuitry remain active until AC power is removed.
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3. Install the TPM cover: a. Line up the tabs on the cover with the openings on either side of the TPM connector. b. To snap the cover into place, firmly press straight down on the middle of the cover. 4.
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Enabling the Trusted Platform Module When enabling the Trusted Platform module, observe the following guidelines: • By default, the Trusted Platform Module is enabled as TPM 2.0 when the server is powered on after installing it. • In UEFI Boot Mode, the Trusted Platform Module can be configured to operate as TPM 2.0 or TPM 1.2.
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Procedure 1. During the server startup sequence, press the F9 key to access System Utilities. 2. From the System Utilities screen select System Configuration > BIOS/Platform Configuration (RBSU) > Server Security > Trusted Platform Module options. 3. Change the "TPM Mode Switch Operation" to TPM 1.2. 4.
Cabling Cabling guidelines The cable colors in the cabling diagrams used in this chapter are for illustration purposes only. Most of the server cables are black. Observe the following guidelines when working with server cables. Before connecting cables • Note the port labels on the PCA components. Not all of these components are used by all servers: ◦...
• Remove cables that are no longer being used. Retaining them inside the server can restrict airflow. If you intend to use the removed cables later, label and store them for future use. Smart Array cabling Onboard S100i SR Gen10 controller cabling (SATA only) Cabling...
Storage controller backup power cabling Storage controller backup power cabling in the primary riser slot Storage controller backup power cabling in the P1 secondary riser Storage controller backup power cabling in the P2 secondary riser Cabling...
Product QuickSpecs For more information about product features, specifications, options, configurations, and compatibility, see the product QuickSpecs on the Hewlett Packard Enterprise website (http://www.hpe.com/info/qs). Active Health System Viewer Active Health System Viewer (AHSV) is an online tool used to read, diagnose, and resolve server issues quickly using AHS uploaded data.
The data that is collected is managed according to the privacy statement, available at http://www.hpe.com/info/privacy. You can also upload the log to the Active Health System Viewer. For more information, see the Active Health System Viewer documentation at the following website: http://www.hpe.com/support/ahsv-docs.
HPE iLO 5 iLO 5 is a remote server management processor embedded on the system boards of HPE ProLiant servers and Synergy compute modules. iLO enables the monitoring and controlling of servers from remote locations. iLO management is a powerful tool that provides multiple ways to configure, update, monitor, and repair servers remotely.
For more information, watch the Redfish & How it works with HPE Server Management video. RESTful Interface Tool The RESTful Interface Tool (iLOREST) is a scripting tool that allows you to automate HPE server management tasks. It provides a set of simplified commands that take advantage of the iLO RESTful API.
For more information about iLO Amplifier Pack, see the iLO Amplifier Pack User Guide at the following website: http://www.hpe.com/support/ilo-ap-ug-en. HPE Apollo Platform Manager overview The HPE ProLiant DX170r Gen10 is a rack-level point of contact for HPE ProLiant Scalable System and HPE Apollo administration. Rack management features •...
Synergy compute modules. Intelligent Provisioning simplifies server setup, providing a reliable and consistent way to deploy servers. Intelligent Provisioning 3.30 and later includes HPE Rapid Setup Software. When you launch F10 mode from the POST screen, you are prompted to select whether you want to enter the Intelligent Provisioning or HPE Rapid Setup Software mode.
Management Security HPE ProLiant Gen10 servers are built with some of the industry's most advanced security capabilities, out of the box, with a foundation of secure embedded management applications and firmware. The management security provided by HPE embedded management products enables secure support of modern workloads, protecting your components from unauthorized access and unapproved use.
Selecting the primary boot controller or partition. • Configuring memory options. • Launching other preboot environments. HPE servers with UEFI can provide: • Support for boot partitions larger than 2.2 TB. Such configurations could previously only be used for boot drives when using RAID solutions. •...
Using the System Utilities options described in the following sections. • Using the iLO RESTful API to clear and restore certificates. For more information, see the Hewlett Packard Enterprise website (http://www.hpe.com/info/redfish). • Using the secboot command in the Embedded UEFI Shell to display Secure Boot databases, keys, and security reports.
HPE Smart Storage Administrator HPE SSA is the main tool for configuring arrays on HPE Smart Array SR controllers. It exists in three interface formats: the HPE SSA GUI, the HPE SSA CLI, and HPE SSA Scripting. All formats provide support for configuration tasks.
The Storage Command Line Interface (StorCLI) tool is the command line management software designed for the HPE Smart Array MR controller. StorCLI is a command line interface that is designed to be easy to use, consistent, and easy to script.
SPP is a systems software and firmware solution delivered as a single ISO file download. This solution uses SUM as the deployment tool and is tested and supports HPE ProLiant, HPE BladeSystem, HPE Synergy, and HPE Apollo servers and infrastructure.
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NOTE: SUM does not support third-party controllers, including flashing hard drives behind the controllers. Integrated Smart Update Tools Integrated Smart Update Tools (iSUT) is a software utility used with iLO 4, iLO 5, iLO Amplifier Pack, HPE OneView, Service Pack for ProLiant (SPP), and Smart Update Manager (SUM) to stage, install, and activate firmware and driver updates.
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SPP: A comprehensive systems software and firmware update solution, which is delivered as a single ISO image. • SUM: A tool for firmware and driver maintenance for HPE ProLiant servers and associated options. NOTE: SUM, iLO Amplifier Pack, and HPE OneView should not manage the same nodes. Updating firmware from the System Utilities Use the Firmware Updates option to update firmware components in the system, including the system BIOS, NICs, and storage cards.
HPE Pointnext Portfolio HPE Pointnext delivers confidence, reduces risk, and helps customers realize agility and stability. Hewlett Packard Enterprise helps customers succeed through Hybrid IT by simplifying and enriching the on- premise experience, informed by public cloud qualities and attributes.
Utilize the Advisory and Transformation Services in the following areas: • Private or hybrid cloud computing • Big data and mobility requirements • Improving data center infrastructure • Better use of server, storage, and networking technology For more information, see the Hewlett Packard Enterprise website: http://www.hpe.com/services/consulting...
• Error Message Guide for HPE ProLiant Gen10 servers and HPE Synergy provides a list of error messages and information to assist with interpreting and resolving error messages. •...
System battery replacement System battery information The server contains an internal lithium manganese dioxide, a vanadium pentoxide, or an alkaline battery that provides power to the real-time clock. If this battery is not properly handled, a risk of the fire and burns exists.
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10. Slightly push the metal tab, and then install the new system battery in the socket. 11. Install the server into the chassis on page 20. 12. Connect all peripheral cables to the server. 13. Power up the server on page 19. 14.
To view the regulatory information for your product, view the Safety and Compliance Information for Server, Storage, Power, Networking, and Rack Products, available at the Hewlett Packard Enterprise Support Center: www.hpe.com/support/Safety-Compliance-EnterpriseProducts Additional regulatory information Hewlett Packard Enterprise is committed to providing our customers with information about the chemical substances in our products as needed to comply with legal requirements such as REACH (Regulation EC No 1907/2006 of the European Parliament and the Council).
Әл-Фараби даңғ ылы, 77/7, Телефон/факс: +7 727 355 35 50 Manufacturing date: The manufacturing date is defined by the serial number. If you need help identifying the manufacturing date, contact tre@hpe.com. Turkey RoHS material content declaration Türkiye Cumhuriyeti: AEEE Yönetmeliğine Uygundur...
Specifications Environmental specifications Specification Value Temperature range — Operating 10°C to 35°C (50°F to 95°F) Non-operating -30°C to 60°C (-22°F to 140°F) Relative humidity (noncondensing) — Operating 8% to 90% 28°C (82.4°F), maximum wet bulb temperature Non-operating 5% to 95% 38.7°C (101.7°F), maximum wet bulb temperature All temperature ratings shown are for sea level.
CAUTION: To reduce the risk of damage to the equipment when installing third-party options: • Do not permit optional equipment to impede airflow around the server or to increase the internal rack temperature beyond the maximum allowable limits. • Do not exceed the TMRA of manufacturer. •...
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• The processor does not support enhanced processor performance. • LFF drives with drive capacities greater than or equal to 10 TB are not supported for the Apollo DX2200 Gen10 Chassis series with three drives per node. Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient...
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Apollo DX2200 Gen10 Chassis, drive blanks must be installed in drive bays 3-2 and 4-2. DIMMs NOTE: In nonredundant fan configuration, 32 GB RDIMM and 64 GB LRDIMM can support up to 35°C (95°F) temperature. NOTE: HPE Persistent Memory module does not support enhanced processor performance. Description Chassis Fan configuration Number of drives...
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Apollo Redundant 0 to 6 drives 35°C (95°F) DX2600 Gen10 Chassis (24 SFF or 16 SFF + 8 NVMe backplane) Apollo Redundant 0 to 24 drives 35°C (95°F) DX2800 Gen10...
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Apollo Redundant 0 to 24 drives 35°C (95°F) DX2800 Gen10 Chassis (24 SFF backplane with SAS expander) Apollo Redundant 0 to 4 drives 35°C (95°F) DX2800 Gen10 Chassis...
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1-2 and 2-2. Similarly, if the component is installed in server 3 or server 4, and the server is installed in the Apollo DX2200 Gen10 Chassis, drive blanks must be installed in drive bays 3-2 and 4-2. HPE Smart Array controllers Description Chassis...
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Apollo DX2800 Redundant and 0 to 4 drives 25°C (77°F) Gen10 Chassis nonredundant (16 NVMe backplane) E208i-p Apollo DX2200 Redundant and 3 drives 30°C (86°F) Controller Gen10 Chassis nonredundant...
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Apollo DX2800 Redundant and 0 to 24 drives 30°C (86°F) Gen10 Chassis nonredundant (24 SFF backplane with SAS expander) Apollo DX2800 Redundant and 0 to 4 drives 30°C (86°F) Gen10 Chassis nonredundant...
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Apollo Redundant and 0 to 4 drives Not supported DX2800 nonredundant Gen10 Chassis (16 NVMe backplane) Apollo Redundant and 3 drives Optical cable: Not DX2200 nonredundant supported Gen10...
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If the component is installed in server 1 or server 2, and the server is installed in the Apollo DX2200 Gen10 Chassis, drive blanks must be installed in drive bays 1-2 and 2-2. Similarly, if the component is installed in server 3 or server 4, and the server is installed in the Apollo DX2200 Gen10 Chassis, drive blanks must be installed in drive bays 3-2 and 4-2.
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Ethernet Apollo Redundant and 3 drives Optical cable: Not adapters with DX2200 nonredundant supported QSFP28 Gen10 transceiver/ Chassis Copper cable: 25°C InfiniBand (77°F) (12 LFF adapters with backplane) EDR speed...
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FlexibleLOM adapters with SFP+, SFP28 or QSFP transceivers Chassis Fan configuration Number of drives Maximum inlet ambient supported by the server temperature Apollo DX2200 Redundant and 3 drives Optical cable: Not supported Gen10 Chassis nonredundant Copper cable: 28°C (82.4°F) (12 LFF backplane) 3 drives Not supported...
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Description Chassis Number of drives Maximum inlet configuration supported by the ambient temperature server Apollo DX2600 Redundant and 0 to 6 drives 30°C (86°F) Gen10 Chassis nonredundant (24 SFF or 16 SFF + 8 NVMe backplane) Apollo DX2800 Redundant and 0 to 24 drives 30°C (86°F) Gen10 Chassis...
Thermal limitations for components in systems with the Enhanced Processor Performance feature disabled Processors The following limitations are for the Intel Xeon Gold 6244 (G6244) processor: • The processor does not support enhanced processor performance. • LFF drives with drive capacities greater than or equal to 10 TB are not supported for the Apollo DX2200 Gen10 Chassis series with three drives per node.
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient server temperature 0 to 2 drives 30°C (86°F) (12 LFF backplane) Apollo Redundant and 0 to 6 drives 28°C (82.4°F) DX2600 nonredundant Gen10 Chassis (24 SFF or 16 SFF + 8 NVMe backplane)
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server 0 to 2 drives 35°C (95°F) (12 LFF backplane) Apollo Redundant 0 to 6 drives 35°C (95°F) DX2600 Gen10 Chassis (24 SFF or 16 SFF + 8 NVMe backplane) Apollo...
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Apollo Redundant 0 to 24 drives 35°C (95°F) DX2800 Gen10 Chassis (24 SFF backplane with SAS expander) Apollo Redundant 0 to 4 drives 35°C (95°F) DX2800 Gen10 Chassis...
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1-2 and 2-2. Similarly, if the component is installed in server 3 or server 4, and the server is installed in the Apollo DX2200 Gen10 Chassis, drive blanks must be installed in drive bays 3-2 and 4-2. HPE Smart Array controllers Description Chassis...
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Apollo Redundant and 0 to 6 drives 30°C (86°F) DX2600 nonredundant Gen10 Chassis (24 SFF or 16 SFF + 8 NVMe backplane) Apollo Redundant and 0 to 24 drives 30°C (86°F) DX2800...
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Apollo Redundant and 0 to 24 drives 35°C (95°F) DX2800 nonredundant Gen10 Chassis (24 SFF backplane with SAS expander) Apollo Redundant and 0 to 4 drives 35°C (95°F) DX2800 nonredundant...
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An energy pack is supported only with Smart Array P-class controllers. Due to thermal concerns, HPE recommends removing the energy pack if these controller type cards are not installed in the chassis. The drive capacity must be less than 10 TB.
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server 3 drives (12 LFF Optical cable: Not backplane) supported Copper cable: 25°C (77°F) 0 to 2 drives Optical cable: 28°C (82.4°F) Copper cable: 35°C (95°F) Apollo Redundant and 0 to 6 drives...
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Ethernet and InfiniBand adapters Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Ethernet Apollo Redundant and 3 drives Optical cable: Not adapters with DX2200 nonredundant supported SFP+, SFP28 Gen10 or QSFP Chassis Copper cable: 30°C transceiver/ (86°F) (12 LFF...
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Ethernet Apollo Redundant and 3 drives Optical cable: Not adapters with DX2200 nonredundant supported QSFP28 Gen10 transceiver/ Chassis Copper cable: 25°C InfiniBand (77°F) (12 LFF adapters with backplane) EDR speed...
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FlexibleLOM adapters with SFP+, SFP28 or QSFP transceivers Chassis Fan configuration Number of drives Maximum inlet ambient supported by the server temperature Apollo DX2200 Redundant and 3 drives Optical cable: Not Gen10 Chassis nonredundant supported (12 LFF Copper cable: 30°C (86°F) backplane) 3 drives Optical cable: Not...
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server 0 to 2 drives 35°C (95°F) (12 LFF backplane) Apollo Redundant and 0 to 6 drives 35°C (95°F) DX2600 nonredundant Gen10 Chassis (24 SFF or 16 SFF + 8 NVMe backplane)
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Description Chassis Fan configuration Number of drives Maximum inlet supported by the ambient temperature server Apollo Redundant and 0 to 24 drives 30°C (86°F) DX2800 nonredundant Gen10 Chassis (24 SFF backplane with SAS expander) Apollo Redundant and 0 to 4 drives 30°C (86°F) DX2800 nonredundant...
Single Point of Connectivity Knowledge (SPOCK) Storage compatibility matrix www.hpe.com/storage/spock Storage white papers and analyst reports www.hpe.com/storage/whitepapers For additional general support websites, see Support and other resources. Product websites HPE ProLiant DX170r Gen10 support page http://www.hpe.com/support/DX170rGen10 HPE ProLiant DX170r Gen10 user documents http://www.hpe.com/info/DX170rGen10-docs Nutanix support portal http://www.nutanix.com/docs/dx...
Support and other resources Accessing Hewlett Packard Enterprise Support • For live assistance, go to the Contact Hewlett Packard Enterprise Worldwide website: http://www.hpe.com/info/assistance • To access documentation and support services, go to the Hewlett Packard Enterprise Support Center website: http://www.hpe.com/support/hpesc Information to collect •...
IMPORTANT: Access to some updates might require product entitlement when accessed through the Hewlett Packard Enterprise Support Center. You must have an HPE Passport set up with relevant entitlements. Customer self repair Hewlett Packard Enterprise customer self repair (CSR) programs allow you to repair your product. If a CSR part needs to be replaced, it will be shipped directly to you so that you can install it at your convenience.