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DM-SV01 Server Product Manual Revision 1.1 – Last updated Nov 2022 DATACOM...
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Datacom or its suppliers have been advised of the possibility of such damages. In particular, Datacom shall not have liability for the costs of replacing, repairing or recovering software, data or hardware related to the product or its use.
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3.2.2.3 DM1904 Ventilation 3.2.2.4 Installing Power Supplies in the DM1904 3.2.2.5 Grounding 3.3 Installing the DM-SV01 server into the DM1904 Sub-Rack 3.3.1 Inserting the DM-SV01 server into the DM1904 3.3.2 Removing the DM-SV01 server from the DM1904 4 Powering up the System - Quick Start Guide 4.1 Powering up the DM-SV01...
“1.1”. Figure 1: DM-SV01 Server Sled The DM-SV01 sleds can be installed in the DM1904 sub-rack chassis, allowing up to four servers to be allocated in a 4.5U height structure. Figure 2: DM1904 Chassis with 4 DM-SV01 servers...
Traditional servers combine many components with different life cycles. Separating power and storage nodes from computing allows the upgrading of each component at the optimal point of the life cycle, resulting in increased lifetime cost efficiency. DM-SV01 ● Product Manual ● Rev. 1.1...
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Datacom's policy is to give customers the choice of selecting their own components, even if they are not supplied by the company. This way the customer is free to purchase parts at the most convenient time and at the lowest cost.
2.1 System Overview The DM-SV01 can have up to two processors and each of them has support for 8 DIMMs slots. Using 256GB DDR3 memories for all the slots, the maximum DRAM capacity is 4TB per server. The system supports DDR3 memories with speeds up to 3200MT/s.
2.1.5 TPM The DM-SV01 server has a slot for a TPM module. The TPM device is an optional module provided by Datacom and can be connected to the server in order to bring enhanced hardware-based security features. The TPM module is compatible with TPM 2.0 specification and supports all cryptographic functions and key administration for a guaranteed security operation of the system.
Please refer to the section “2.2” for detailed information about all the interfaces available. 2.1.7 Power Supply The DM-SV01 is powered with 12Vdc supplied by OCP rack or by DM1904 Chassis (Datacom shelf for 19” racks installation). The power consumption can reach up to 750W, depending on processors and peripherals installed.
● For details regarding the procedure for performing secure data deletion on storage devices connected to the server, please refer to 9 Annex B - SSD Secure Data Deletion For additional details regarding the DM-SV01 CE Mark certification, please refer to “DM-SV01 - Technical File CE Marking” (3).
Figure 5: DM-SV01 Server Block Diagram 2.2.1 Buttons The DM-SV01 buttons are located in the motherboard as shown in the pictures below. DM-SV01 ● Product Manual ● Rev. 1.1...
Press the power The PWR_ACT LED will turn on in processors ON are powered button shortly. GREEN color, indicating that the (Standby to Active down. host processor completed the mode). power on process. DM-SV01 ● Product Manual ● Rev. 1.1...
2.2.1.3 Unit ID button - ID In black color, 90 angle, the ID button is used to identify the DM-SV01 inside a datacenter. The table below shows the possible operations using the reset button. DM-SV01 ● Product Manual ● Rev. 1.1...
BMC WEB management interface to turn the ID LED on allows the user to visually identify a specific server unit in the datacenter facilities. 2.2.2 LEDs The DM-SV01 LEDs are located in the motherboard as shown in the pictures below. Figure 8: DM-SV01 LEDs location DM-SV01 ● Product Manual ● Rev. 1.1...
Figure 9: DM-SV01 LEDs 2.2.2.1 Power Standby LED - PWR STBY The Power Standby LED provides information about the status of the DM-SV01 standby power rails. Power Standby LED LED Color Information There is no power (12V) at the rear power input connector.
2.2.2.4 User ID LED - ID The ID LED, together with the ID button, is used to identify the DM-SV01 inside a datacenter. For further details about the ID Function and how to enable it, please refer to section “2.2.1.3”.
The server provides an onboard VGA port (VGA D-Sub connector) for connecting an external display. The VGA port is used to access the video output of the operating system running on the host processors. The images below show the positioning of the VGA port in the DM-SV01 motherboard. Figure 10: DM-SV01 VGA location...
(mouse, keyboard, USB storage, etc). The images below show the positioning of the USB ports in the DM- SV01 motherboard. Figure 12: DM-SV01 USB 3.1 ports location DM-SV01 ● Product Manual ● Rev. 1.1...
Figure 13: USB 3.1 ports 2.2.5 LAN The DM-SV01 server provides a Gigabit Ethernet port which is used as an OOB (Out of Band) management interface for accessing the BMC. The images below show the positioning of the LAN port in the DM-SV01 motherboard.
Figure 15: LAN Connector 2.2.6 Debug Connector The DM-SV01 mainboard has a customized pinout USB 3.0 connector located on the right side of the front panel. This connector is not a general purpose USB 3.0 connector. It is a special connector, with a proprietary pinout and it is intended only to connect the external DM-SV01 Debug Card.
NCSI (Network Controller Sideband Interface), which is used as an inband management interface to access the BMC. The image below shows an example of a mezzanine card that can be used in the DM-SV01 server. DM-SV01 ● Product Manual ● Rev. 1.1...
Figure 19: Broadcom 2x25Gbit/s Mezzanine Card 2.2.9 Power Supply The DM-SV01 power is supplied through a connector located on the rear end of the SLED. The power supply connector type and board location are shown in the following pictures. Figure 20: Power connector location...
Datacom support must be contacted. 2.2.10 DM-SV01 Sensors The DM-SV01 server has a set of sensors which are responsible for monitoring the voltage, current and temperature at several relevant spots of the system. The sensors information is used for controlling the FANs speed and generating alarms or emergency shutdown in case of reaching a critical threshold.
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Temperature VRM P1 VDD MEM ABCD SUS Voltage Regulator Module 1 - CPU P1 ABCD DIMMs Power VRM8 Temperature VRM P1 VDD MEM EFGH SUS Voltage Regulator Module 1 - CPU P1 EFGH DIMMs Power DM-SV01 ● Product Manual ● Rev. 1.1...
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Table 11: DM-SV01 temperature sensors description Additionally, the DM-SV01 is also capable of monitoring the system input power, the FANs speed and some primary voltages. The table below shows the additional monitoring outputs of the DM-SV01. Sensor name in the BMC web GUI...
For additional information regarding the DM-SV01 sensors behavior in the BMC web management interface, please refer to the BMC User Manual (1). 2.2.11 X24 Expansion Slot The DM-SV01 server has a proprietary connector with 24 PCIe lanes, used for equipping an expansion riser card. Figure 23: Expansion slot x24 location Figure 24: expansion slot X24 The DM-SV01 server can be equipped with two different expansion riser cards on this slot: “Risercard...
This slot can have the PCIe lanes bifurcated on BIOS to the following options: ○ 1x PCIe x16 ○ 2x PCIe x8 ○ 4x PCIe x4 The image below shows a diagram of the system nomenclatures and slot positioning when using the Risercard PCIe x16+x8. DM-SV01 ● Product Manual ● Rev. 1.1...
Total (W) 3.3V (Aux) 0,375 1,2375 3.3V 3,30 77,14 12V (x16) 12,00 Table 14: PCIe High Power slot The Risercard PCIe x16+x8 does not support PCIe cards that require an extra external power DM-SV01 ● Product Manual ● Rev. 1.1...
This slot can have the PCIe lanes bifurcated on BIOS to the following options: ○ 1x PCIe x8 ○ 2x PCIe x4 The image below shows a diagram of the system nomenclatures and slot positioning when using the Risercard PCIe 3x8. DM-SV01 ● Product Manual ● Rev. 1.1...
PCIe x8 connector, its pinout is proprietary and it cannot be used in systems other than DM-SV01. The two SSD slots follow Intel’s EDSFF standard and are electrically and mechanically compatible with the EDSFF E1.S SSD form factor. DM-SV01 ● Product Manual ● Rev. 1.1...
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There are two types of 2xE1.S adapter card: ● Type I: The first type of 2xE1.S adapter card is intended for use with 5.9mm thickness E1.S disks. The picture below shows the mechanics of the Type I 2xE1.S adapter card. DM-SV01 ● Product Manual ● Rev. 1.1...
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Both 2xE1.S adapter card options provide the same electrical connections and disk features. The only difference is the mechanics, which is adapted to accommodate the different disk thicknesses available in the market. Please consult Datacom sales team or support team for acquiring the correct 2xE1.S adapter card model according to your SSD requirements.
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The 2x E1.S PCIe Adapter Card can be plugged in the following PCIe slots of the DM-SV01 server. ● Risercard PCIe 3x8: up to three 2x E1.S PCIe Adapter Cards can be plugged into the riser card, providing support for up to 6 E1.S SSDs.
Slot B Table 16: 2x E1.S PCIe Adapter Card - power specifications 2.2.12 X16 Expansion Slot The DM-SV01 server has a proprietary connector with 16 PCIe lanes, used for connecting an expansion Riser Card. DM-SV01 ● Product Manual ● Rev. 1.1...
The Cage E1.S is a riser card that is equipped in the x16 expansion slot and that provides four E1.S SSD slots. The Cage E1.S pinout is proprietary and it can not be used in systems other than DM-SV01. The four SSD slots follow Intel’s EDSFF standard and are electrically and mechanically compatible with the EDSFF E1.S SSD form factor.
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Both Cage E1.S options provide the same electrical connections and disk features. The only difference is the mechanics, which is adapted to accommodate the different disk thicknesses available in the market. Please consult Datacom sales team or support team for acquiring the correct Cage E1.S model according to your SSD requirements.
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The SSDs nomenclature when using the Cage E1.S is shown in the diagram below. Figure 40: Cage E1.S SSD slots DM-SV01 ● Product Manual ● Rev. 1.1...
Table 17: E1.S Cage - Power 2.2.13 TPM module The DM-SV01 motherboard has a slot for connecting a proprietary TPM (Trusted Plaftorm Module) card. This card is sold separately, so the user may ask the commercial team for this module when acquiring the server.
The TPM module is compatible with TCG specification for TPM 2.0. The BIOS/UEFI FW provides all configurations for handling the TPM keys and setting Secure Boot options. For additional information about these configurations, please refer to the DM-SV01 BIOS User manual (2). 3 DM-SV01 Installation This chapter describes the installation and maintenance procedures for the DM1904 sub-rack and for the DM-SV01 server.
The power supply cables are individually connected to each of the PSUs available in the system. The figure below shows one of the power supply units available for using within the DM1904 chassis. DM-SV01 ● Product Manual ● Rev. 1.1...
● The 19” Rack for installation must have side fixing beams at the front and also at the rear. Simple racks, with fixing beams only at the front side or only at the rear side do not provide enough mechanical support for the equipment. DM-SV01 ● Product Manual ● Rev. 1.1...
2. Position the DM1904 Chassis so that it settles on the supports fixed as explained in step 1. Insert the chassis by sliding it all the way to the end. 3. Fix the DM1904 side lugs in the rack beams also using M5 type screws. Figure 46: DM1904 rack installation DM-SV01 ● Product Manual ● Rev. 1.1...
2. Connect the power cables individually to each of the PSUs available in the system. For additional information regarding the DM1904 PSUs specifications and features, please refer to section “3.2.1 DM1904 Power Supply”. Figure 48: DM1904 PSU installation DM-SV01 ● Product Manual ● Rev. 1.1...
The grounding point of the DM1904 Chassis is located on the right side of the back of the chassis and must always be installed. The grounding point location is shown in the figures below. Figure 49: DM1904 grounding point location Figure 50: DM1904 grounding point DM-SV01 ● Product Manual ● Rev. 1.1...
“4.5 Host Processor Power Off”. 2. Pull the front fixing pin up for releasing the mechanical lock (step 1) and then pull DM-SV01 out of the shelf (step 2). The DM-SV01 mechanics has a rounded opening in the left side of the base plate that can be used to hold the server when removing it from the chassis.
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Figure 52: Removing DM-SV01 from the DM1904 DM-SV01 ● Product Manual ● Rev. 1.1...
For further details, please refer to the BIOS user manual (2) and the BMC user manual (1). 4.1 Powering up the DM-SV01 1. Insert the DM-SV01 server into the DM1904 sub-rack (refer to section “3.3.1” for details). As soon as the server is plugged in the DM1904 chassis, power is applied and the startup sequence takes place.
When the NIC has two ports available, The NC-SI interface is available at the port on the right side of the Mezzanine card (Mezzanine port 0). Figure 54: NC-SI mezzanine port DM-SV01 ● Product Manual ● Rev. 1.1...
● https://192.168.15.15/redfish/v1” 4.3 Host Processors Power On 1. After the DM-SV01 is powered and the BMC has finished booting, the host processors are ready to be turned on. This can be done in two ways: a. Power Button: turn on the processors by shortly pressing the PWR Button (in red color).
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If desired, press F2 during the boot process to access the BIOS setup screen. For more information regarding the BIOS menu, please refer to the BIOS user manual (2). Figure 56: BIOS screen DM-SV01 ● Product Manual ● Rev. 1.1...
BMC WEB management interface: in the BMC WEB management interface, access the Control > Server Power Operations menu, mark the “Immediately” option and then click on “REBOOT”. The OS will immediately restart without previous warning to the OS. DM-SV01 ● Product Manual ● Rev. 1.1...
5.1 Air Duct The DM-SV01 server is covered by a plastic air duct. The air duct protects the processors and DDR memories and it is designed for efficiently guiding the airflow in order to refrigerate such components.
5.2.1 General guidelines for DIMMs installation The DM-SV01 server has 16 DIMM slots (8 per processor) which can be populated with up to 4 TB of ECC DDR4. The maximum memory speed is 3200 MT/s. The supported memory types are RDIMM, LRDIMM, 3DS and NVDIMM ECC DDR4.
5.2.2 DIMMs installation procedure CAUTION: care should be taken when inserting or removing DIMM modules to prevent any damage. Please refer to section “3.1 ESD Precautions” for details regarding the safe handling of DM-SV01 sub- modules. The insertion of DIMM modules must be done by following the procedure below.
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Figure 61: DIMM installation procedure In order to remove a DDR4 module from the DIMM slot, please follow the instructions below. 1. Using your fingers, press both ejector levers in the direction away from the DIMM connector. DM-SV01 ● Product Manual ● Rev. 1.1...
1. insert the M.2 card into the connector using a 30° angle. Figure 63: M.2 angled insertion 2. After the insertion, push the far end of the M.2 card down until it touches the plastic standoff and then close it. DM-SV01 ● Product Manual ● Rev. 1.1...
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The plastic standoff that holds the far end of the M.2 card may have its position changed in order to adapt the connection to the 2280 or 22110 form factor, as needed by the user. Figure 65: M.2 connector DM-SV01 ● Product Manual ● Rev. 1.1...
B. The connection procedure is the same for this model, with the difference that only the connector B will be plugged in the motherboard. 3. Screw the four fixing screws using a screwdriver. Figure 67: Mezzanine card installation - screws DM-SV01 ● Product Manual ● Rev. 1.1...
(Figure 69 and Figure 70) and move it down until it fits completely. Figure 68: Positioning of the mechanics for riser cards Figure 69: Alignment of chamfers - right side DM-SV01 ● Product Manual ● Rev. 1.1...
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In order to remove the mechanics for the riser cards from the baseplate, please follow the procedure below. 1. Loosen the screw completely using a screwdriver. 2. Move the mechanics frontwards to complete the disconnecting process. 3. Pull the mechanics up to remove it completely from the baseplate. DM-SV01 ● Product Manual ● Rev. 1.1...
The installation process for both riser card options is identical. Note: in order to install a riser card in the DM-SV01 server, the mechanics for the riser cards must be previously installed. Please refer to section “5.5.1 Riser Cards mechanics” for details regarding the installation of the mechanics for supporting the riser cards.
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Make sure that the riser card is vertically aligned when moving it down. Figure 74: Riser card installation detail 4. Screw the two fixing screws using a screwdriver. DM-SV01 ● Product Manual ● Rev. 1.1...
Figure 75: Riser Card Screws fixing The procedure for removing the riser card from the slot is described below. 1. Completely remove power from the system (remove the DM-SV01 server from the shelf). 2. Unscrew the two fixing screws using a screwdriver.
2. Manually disconnect the PCIe connector from the riser card slot, as shown on step “2” from the Figure 77. Figure 77: PCIe card removal 5.5.3 Cage E1.S installation Follow the sequence below for installing the cage E1.S in the DM-SV01 server. DM-SV01 ● Product Manual ● Rev. 1.1...
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1. Completely remove power from the system (remove the DM-SV01 server from the shelf). 2. Position the cage E1.S over the DM-SV01 server according to Figure 78. 3. Move the cage E1.S down towards the mainboard slot connector until the connection is accomplished.
3. Hold the cage E1.S and pull it up vertically until it is completely removed from the connector. 5.6 E1.S disks installation The DM-SV01 is compatible with 5.9mm or 9.5mm thickness E1.S disks, as explained in section 2.2.12.1. The E1.S disks are fully hotplug compatible, so they can be inserted in or removed from the system whenever necessary, even if the server is powered and the OS is running.
5.7 Fans installation Follow the sequence below for replacing the fans of the DM-SV01 server. ● Completely remove power from the system (remove the DM-SV01 server from the shelf). ● Remove the air duct as explained in section “5.1”. ● Disconnect the fan connector by pulling it up (caution: disconnect the fan by holding the white connector;...
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● Insert the replacing fan into the mechanics, aligning the four fixing rubbers to the respective holes (step 1) and then move the fan down until the fixing rubbers are well attached (step 2). Figure 84: Fans insertion DM-SV01 ● Product Manual ● Rev. 1.1...
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Figure 86: Inserting the fan connector ● Insert the air duct as explained in section 5.1 Air Duct. ● Insert DM-SV01 back into the shelf so it is powered on again. DM-SV01 ● Product Manual ● Rev. 1.1...
5. Assembly back the mechanics of the riser cards and cage E1.S. 6. Insert the DM-SV01 server back into the shelf so it is powered on again. Figure 87: Clear CMOS CMOS Jumper position Normal Default Setting: CMOS data is unchanged.
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2. Assembly back the mechanics of the riser cards and cage E1.S. 3. Insert the DM-SV01 server back into the shelf so it is powered on again. DM-SV01 ● Product Manual ● Rev. 1.1...
Warning: There is a danger of explosion if the onboard battery is installed with reversed polarity. This battery must be replaced only by an equivalent type (CR2032). Please consult the Datacom support team if you have any doubt about the battery specifications.
Figure 91: TPM installation position 5.10 Motherboard installation The DM-SV01 motherboard can be inserted or removed from the baseplate if needed. The procedure for inserting the motherboard in the baseplate is described below. 1. Position the motherboard over the baseplate, aligning the holes present in the border of the board with the guiding pins of the baseplate, and move it down until it fits completely (step 1 on Figure 92).
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1. Loosen the screws completely using a screwdriver. 2. Move the motherboard backwards to complete the disconnecting process. 3. Pull the motherboard up to remove it completely from the baseplate. Figure 93: Motherboard removal DM-SV01 ● Product Manual ● Rev. 1.1...
JBODs (Just a Bunch Of Disks). They are enclosures with SAS interfaces and expanders that allow the connection of external disks to one or more servers. On the DM-SV01 an HBA PCIe card is required and the connection to JBODs is made via mini SAS cables (SFF-8644).
GPU cards offers all the advantages of a disaggregated solution. Those units are connected to the DM-SV01 through PCIe interface extenders and coaxial copper cables, the same used for external SAS connections for JBODs. On the DM-SV01 side, a PCIe retimer card is required.
8.3 A.3. Operating Condition Classification The operating condition of DM-SV01 is classified as an A3 type, as shown in the figure below. Figure 95: DM-SV01 operating condition classification DM-SV01 ● Product Manual ● Rev. 1.1...
This section describes the usage of the nvme-cli (NVMe management command line interface) tool to erase the data from SSDs installed on the DM-SV01. There are two operations that can be performed to securely delete data from an NVMe SSD, which are format and sanitize.
2- Start a Block Erase sanitize operation 3 - Start an Overwrite sanitize operation 4 - Start a Crypto Erase sanitize operation As an example, “nvme sanitize /dev/nvme0n1 -a 2” would sanitize the disk labeled as “nvme0n1”. DM-SV01 ● Product Manual ● Rev. 1.1...
10 Annex C - Buttons and LEDs This section describes the functions and behaviors of the DM-SV01 buttons and LEDs. The buttons present in the DM-SV01 server are shown in the images below. Figure 96: DM-SV01 buttons location - top view Figure 97: DM-SV01 buttons - front view The buttons of the DM-SV01 server are listed in the table below.
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A Redfish event will be shortly. triggered to the management system to indicate that the ID flag is OFF. Table 27: DM-SV01 buttons The LEDs present in the DM-SV01 server are shown in the images below. DM-SV01 ● Product Manual ● Rev. 1.1...
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Figure 98: DM-SV01 LEDs location - top view Figure 99: DM-SV01 LEDs - front view The LEDs in the DM-SV01 server are listed in the table below. LED Color Information There is no power (12V) at the rear power input connector.
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Fast Blinking YELLOW BMC initialization. Normal Blinking YELLOW BMC in normal operation. (2Hz) Solid GREEN No activity in the M.2 SSD. Blinking GREEN Read/Write activity in the M.2 SSD. Table 28: DM-SV01 LEDs DM-SV01 ● Product Manual ● Rev. 1.1...