Lenovo P3 Tower ThinkStation Workstation Power Instruction Manual

June 24, 2024
Lenovo

P3 Tower ThinkStation Workstation Power

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Specifications

  • System: Lenovo ThinkStation P3 Tower, P3
    Ultra, and P3 Tiny

  • M.2 NVMe Support: Yes

  • SATA Support: Yes

Product Usage Instructions

Installation of M.2 NVMe Drives

  1. Remove the film covering the thermal pad on the carrier. Slide
    the M.2 solid-state drive into the carrier.

  2. Install the heat sink onto the M.2 drive in the bracket after
    removing the film covering the thermal pad at the bottom of the
    heat sink.

  3. If not already present, install the M.2 drive bracket into the
    system.

  4. Install the heat sink with the bracket into the system and
    insert the stopper.

Installation of M.2 NVMe Drives in PCIe Add-in Card (AIC)

  1. Place a thermal pad on the M.2 solid-state drive PCIe
    adapter.

  2. Insert the new M.2 solid-state drive into the M.2 slot and
    secure it with the retention latch.

  3. Position the heat sink on the M.2 solid-state drive PCIe
    adapter and secure it by aligning mounting studs with holes and
    pushing them downward.

FAQ

Q: What RAID levels are supported by P3 Tower, P3 Ultra, and P3

Tiny?

A: P3 Tower, P3 Ultra, and P3 Tiny support RAID levels 0 & 1
for onboard NVMe drives. P3 Tower can support levels 0, 1, 5, &
10 for SATA drives depending on system configuration.

Q: Are there specific part numbers required for installing M.2

NVMe drives?

A: Yes, for adding an M.2 drive to an open onboard slot in P3
Tower, you will need option kit 4XF1C39743 which includes necessary
components like heatsink assembly and stopper. For supported
double-sided 4TB M.2 drives, FRU 5F10U94103 is needed.

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Storage Configurator
Lenovo ThinkStation P3 Tower, P3 Ultra, and P3 Tiny
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Table of Contents
Overview………………………………………………………………………………………………………. 3 Section 1 ­ Installing NVMe Devices in P3 Tower ……………………………………………….. 4 Section 2 ­ Installing NVMe Devices in P3 Ultra …………………………………………………. 9 Section 3 ­ Installing NVMe Devices in P3 Tiny ………………………………………………….14 Section 4 ­ Installing SATA Drives in P3 Tower ………………………………………………….17 Section 5 ­ Installing SATA Drives in P3 Ultra ……………………………………………………29 Section 6 ­ RAID Levels …………………………………………………………………………………33 Section 7 ­ Configuring RAID ………………………………………………………………………….35 Section 8 ­ Optical Disk Drive in P3 Tower ………………………………………………………..45 Section 9 ­ Appendix ……………………………………………………………………………………..47 Section 10 ­ Document Revision History …………………………………………………………..53
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Overview
The purpose of this document is to provide guidelines for users on how to optimally configure the system storage in the ThinkStation P3 series platform to ensure proper functionality.
Below is a table showing the drive type support of each system in the P3 series:

Table 1 – P3 Series Storage Support

System

M.2 NVMe

SATA

Notes

P3 Tower

Supported, Max QTY: 3*

Supported, Max QTY: 4*

3.5″ SATA or 2.5″ SATA with adapter

P3 Ultra

Supported, Max QTY: 2

Supported, Max QTY: 1

2.5″ SATA only

P3 Tiny

Supported, Max QTY: 2

Not Supported

*Max quantity varies by configuration. See Section 1 & Section 4 for more information.

The following sections give detailed instructions on the installation of M.2 NVMe and SATA drives, as well as provide part numbers for required components needed for proper installation. ODD support in P3 Tower is discussed in Section 8.

P3 Tower, P3 Ultra, and P3 Tiny support RAID levels 0 & 1 for onboard NVMe drives. P3 Tower can support levels 0, 1, 5, & 10 for SATA drives depending on system configuration. RAID configurations and setup instructions are discussed in Section 6 and Section 7.

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Section 1 ­ Installing NVMe Devices in P3 Tower
M.2 NVMe devices can be installed into the following locations on the ThinkStation P3 Tower motherboard below. The M.2 NVMe drives may use the dedicated PCIe Gen 4 capable onboard M.2 slots or use a Gen 3 PCIe M.2 Add-In Card (AIC) in PCIe Slot 3. P3 Tower supports up to two double-sided 4TB M.2 2280 drives in the onboard slots and up to one single-sided 2TB M.2 2280 in the AIC. The P3 chassis has the ability to mount M.2 22110 and M.2 2242 drives, however at the time of this writing, all Lenovo supported M.2 drives for P3 Tower are 2280.
Figure 1 – P3 Tower Motherboard Diagram with NVMe Callouts
Figure 2 – P3 Tower Chassis with NVMe Callouts
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For M.2 NVMe drives in the onboard M.2 slots: 1. Remove the film that covers the thermal pad on the carrier, if any. Then, install the M.2 solid-state drive by sliding the drive in the carrier.
2. Remove the film that covers the thermal pad at the bottom of the heat sink, if any. Then, install the heat sink onto the M.2 drive in the bracket.
3. If not already present, install the M.2 drive bracket into the system.
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4. Install the heat sink with the bracket into the system.
5. Insert the stopper.
Note: P3 Tower systems come equipped with only the necessary onboard M.2 parts required for the configuration when it was originally ordered from Lenovo. Adding an M.2 drive to an open onboard slot requires the option kit 4XF1C39743, which includes the heatsink assembly and stopper seen in the instructions above. For supported double-sided 4TB M.2 drives, FRU 5F10U94103 is needed instead. See Appendix for more details. Below is a visual comparison between single-sided and double-sided drives:
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For M.2 NVMe drives installed in the PCIe Add-in Card (AIC): 1. Ensure that a thermal pad is placed in position on the M.2 solid-state drive PCIe adapter.
2. Insert the new M.2 solid-state drive into the M.2 slot. Then, insert the plug of the retention latch into the hole to secure the new drive.
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3. Position the heat sink on the M.2 solid-state drive PCIe adapter. Ensure that the two mounting studs in the heat sink are aligned with the holes in the M.2 solid-state drive PCIe adapter. Then, push the mounting studs downward to secure the heat sink to the adapter.
Note: The M.2 NVMe Add-in Card’s option part number is 4XH0L08578. This kit will include the add-in card, thermal pad, and heatsink. See Appendix for more details.
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Section 2 ­ Installing NVMe Devices in P3 Ultra
M.2 NVMe devices can be installed into the following locations on the ThinkStation P3 Ultra motherboard below. Both onboard M.2 NVMe slots are PCIe Gen 4 capable and can each support up to a double-sided 4TB M.2 2280 drives. When opening the chassis, the NVMe slots are on the side of the motherboard opposite the CPU, beneath their own dedicated heatsink. The steps to access the M.2 slots are outlined in this section.
Figure 3 – P3 Ultra Motherboard Diagram with NVMe Callouts
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Figure 4 – P3 Ultra chassis with NVMe Callouts
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Access the onboard M.2 NVMe slots: 1. Power down the system. Remove the power cable and all attached devices and cables from the system. Locate the chassis opening lever on the back of the system. Push in one side of the lever and pull on the extended lever.
2. While pulling on the lever, hold the chassis body in place until the motherboard assembly slides out of the chassis shell.
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3. The M.2 NVMe heat sink is now accessible as seen in the image below. To remove the heat sink, squeeze the locking handle and pull up on the heat sink.
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Remove and install the onboard M.2 NVMe drives: 1. To remove a drive, pull up on the retaining plunger for the M.2. It may be necessary to gently pull up on the drive to free it from the heat sink pad underneath. When the drive is free, pull it sideways away from the slot as seen below.
2. Reverse the steps to install a drive. For best drive performance when only one M.2 drive is installed in the system, install in Slot 1 as seen in the image below:
Figure 5 – P3 Ultra M.2 Slot Reference Picture
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Section 3 ­ Installing NVMe Devices in P3 Tiny
There are only two Gen 4 M.2 slots in the P3 Tiny. No other drives can be added to the system. The steps to access to these M.2 slots is explained in this section. P3 Tiny supports up to a single-sided 2TB M.2 2280 drive in each of the onboard slots. Accessing the M.2 drives:
1. Disconnect the power and all connected devices. 2. Remove the rear screw, (1) in the image. 3. Slide the cover forward and lift to remove it (2).
4. Turn the system over and slide the bottom plate towards the front of the system.
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Removal and installation of the M.2 drives: 1. Locate the M.2 drive(s) and remove the retention latch(es).
2. With the retention latch removed the M.2 SSD should lift slightly. If it remains attached to the heat sink pad underneath it, pull up on it gently until it is free of the pad. Slowly slide the M.2 horizontally away from the M.2 slot. To install the M.2 drive(s), reverse the procedure.
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3. For best drive performance when only one M.2 drive is installed in the system, install in Slot 1 as seen in the image below:
Figure 6 – P3 Tiny M.2 Slot Numbers
4. Reverse steps 1-4 of “Accessing the M.2 drives” to reassemble the system.
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Section 4 ­ Installing SATA Drives in P3 Tower
The ThinkStation P3 Tower can hold a maximum of four SATA drives. The P3 Tower motherboard has four SATA port connections, labelled SATA1, SATA2, SATA3, and SATA4 (eSATA) in the order they show up in the system BIOS.
Figure 7 – P3 Tower Motherboard with SATA Callouts
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Removal and installation of the bottom SATA Drives: 1. Disconnect power and data cables from the drive. Pinch the handles of the drive tray and pull up.
2. Remove the tray pins holding the SATA drive in each corner to separate the drive.
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3. For 2.5″ drives in the 3.5″ adapter bracket, remove the screws holding the drive to the bracket.
4. To install SATA drive, perform these steps in reverse. Removal and installation of the top SATA Drives:
1. Disconnect power and data cables from the drive. Push on the marked lever on the rear of the drive cage and lift out of the chassis.
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2. Pinch the handles of the drive tray and pull out of the drive cage. 3. Remove the tray pins holding the SATA drive in each corner to separate
the drive.
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4. For 2.5″ drives in the 3.5″ adapter bracket, remove the screws holding the drive to the bracket.
5. To install SATA drive, perform these steps in reverse. Removal and installation of the FASE SATA Drives:
1. Unlock the front bezel door and press its left side to open.
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2. Once the door is open, pull the SATA drive out of the FASE. 3. Remove the tray pins holding the SATA drive in each corner to separate
the drive.
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4. For 2.5″ drives in the 3.5″ adapter bracket, lift the metal tongue and push toward the back of the bracket. Lift the drive out of the adapter bracket and remove the metal frame from the drive.
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Below are some important notes about SATA drive capabilities in P3 Tower:

· The ability to maximize the number of SATA drives is dependent upon using a “3rd HDD enclosure” or “Front-Access Storage Enclosure” (FASE), depending on CPU SKU and fan cooler (See Table 2 & Figures 8 & 9).

Table 2 – P3 Tower CPU Cooler & HDD Enclosure Compatibility

CPU Cooler 125W Cooler

CPU (RPL & RPL-R)
i9-14900K, i7-14700K, i5-14600K

HDD Enclosure Capability 3rd HDD Enclosure

65W Cooler

i9-13900K, i7-13700K, i5-13600K i9-14900, i7-14700, i5-14600, i5-14500, i5-14400, i3-14100

3rd HDD Enclosure OR FASE

i9-13900, i7-13700, i5-13600, i5-13500, i5-13400, i3-13100

Figure 8 – P3 Tower FASE Enclosure with 65W Cooler (Chassis beam removed for visibility)

Figure 9 – P3 Tower 3rd Enclosure with 125W Cooler (Chassis beam removed for visibility)

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· The use of four SATA drives will utilize all the available SATA ports on the motherboard. Adding additional SATA drives to the system may impact certain lengths of M.2 drives installed in the onboard M.2 slots. SATA Bay #4 & M.2 2280 drives will physically interfere and cannot be installed at the same time (See Figure 10).
Figure 10 – P3 Tower SATA Bay overlaying M.2 NVMe 2280 (Power Supply removed for visibility)
· Additionally, in systems with a side fan assembly, the maximum number of SATA drives is three (See Figure 11) due to physical interference between the side fan assembly and SATA Bay 4. At the time of this writing, the side fan assembly is factory-fit on ThinkStation P3 Tower on all models with a 750W or 1100W PSU configured. It is not included in 500W PSU models.
Figure 11 – P3 Tower with Side Fan Assembly
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· The ODD bracket occupies the same space as the 3rd HDD / FASE. Whenever the FASE or ODD is installed in the system, the maximum number of SATA drives supported is three. See Section 8 for more details on ODD configurations.
· SATA port 4 is an eSATA port. This port is capable of hot-swapping SATA drives after the feature is enabled in BIOS, found under DevicesStorage Setup”SATA Drive 4 Hot-Plug Support”Enable/Disable. FASE must be plugged into this port with enabled BIOS setting to fully operate.
· Due to the external accessibility of the FASE, Lenovo recommends only using the hot-swap feature with the FASE bay. Lenovo strongly recommends against accessing internal drives/components while the system is operating.
· When a 3-slot or 4-slot GPU is installed in the system, the max quantity of SATA drives is limited to three.
· Windows 11 boot is not supported for rotational spinning HDDs.
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P3 Tower Internal Storage Drives Overview Below is an overview of the SATA storage locations in the P3 Tower:
Figure 12 – P3 Tower Chassis with Numbered Callouts
SATA Bay 1 ­ 3.5″ primary storage drive cage SATA Bay 2 ­ 3.5″ storage drive cage SATA Bay 3 ­ 3.5″ storage drive cage OR front access storage enclosure OR ODD SATA Bay 4 ­ 3.5″ storage drive cage (if installed, interferes with M.2 2280 drives in onboard slots) Area 5 ­ Two M.2 SSD slots Area 6 ­ PCIe Slot 3 for additional M.2 SSD in Add-In Card
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The table below lists option kits for upgrading the P3 Tower SATA storage available at the time of this writing. Remember the previous notes in this Section in regard to adding a 4th SATA bay, ODD, or FASE kit, as some option kits will not be physically compatible with certain system configurations. More information can be found in the Appendix.

Table 3 – P3 Tower SATA Storage Options

SATA Option Kit

Option P/N

ThinkStation Storage Kit for P3 Tower 4XF1M24243

ThinkStation Front Access Storage Enclosure for P3 Tower

4XF1M24244

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Section 5 ­ Installing SATA Drives in P3 Ultra
The P3 Ultra supports one 2.5″ SATA drive. Adding a SATA drive into a P3 Ultra that does not already have one will require additional parts. The SATA drive will also prevent the use of PCIe x4, located on the side of the motherboard opposite the CPU. The installation requires a 2.5″ Drive Bracket and SATA ribbon cable, both of which are included in the ThinkStation P3 Tower Storage Kit (4XF1M24243).
Figure 13 – P3 Ultra Motherboard with SATA Port Callout
Figure 14 – P3 Ultra Chassis with SATA Bracket Installed
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Accessing SATA port: 1. Power down the system. Remove the power cable and all attached devices and cables from the system. Locate the chassis opening lever on the back of the system. Push in one side of the lever and pull on the extended lever.
2. While pulling on the lever, hold the chassis body in place until the motherboard assembly slides out of the chassis shell.
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3. The M.2 NVMe heat sink is now accessible as seen in the image below. To access the motherboard SATA port, remove the heat sink by squeezing the locking handle and pull up on the heat sink.
4. The SATA connection is ribbon-style, so the cable and port should be handled with care. Whenever inserting or removing the ribbon cable, lift the black flap to release the cable (See Figure 15 below).
Figure 15 – P3 Ultra SATA Port Callout
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Removing/Installing the SATA Drive: 1. To remove the drive, unplug the ribbon cable from the system and drive. Squeeze the locking handle and pull up on the drive carrier. When the carrier is free, remove it from the system and turn it over.
2. Gently stretch the drive carrier apart until the drive comes loose from the screw hole pins. Lift the drive up and out of the carrier.
3. Reverse the steps to install a new drive.
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Section 6 ­ RAID Levels

This section will detail the RAID capabilities of each system in the P3 family. The table below shows various RAID levels supported on each platform:

Table 4 – P3 Series RAID Capabilities

System P3 Tower

Max # of RAIDable M.2 NVMe Drives 2

M.2 NVMe RAID Levels
0,1

Max # of RAIDable SATA Drives 4*

SATA RAID Levels
0,1,5,10**

P3 Ultra

2

0,1

0

N/A

P3 Tiny

2

0,1

0

N/A

*A fourth SATA drive bay will prevent M.2 2280 sized drives from being installed in the two onboard M.2 slots, reducing max number of supported M.2 NVMe drives to one (installed in an add-in card). See reference picture in Section 4.
**Depending on number of SATA drives installed in the system.

General RAID Notes:
· Before creating or altering a RAID config, always backup important data to an external location to prevent accidental data loss.
· A given array should not mix drive types or logical sizes. It is recommended to only use drives officially supported by Lenovo for the given platform.
· Each RAID level requires a certain minimum and or maximum number of drives. If altering the system storage devices after purchase or a previous configuration, it will be necessary to verify the proper types and number of devices for a desired RAID configuration have been installed. Altering or creating an array may require any existing OS to be reinstalled.
· P3 Tower, P3 Ultra, and P3 Tiny utilize Intel Rapid Storage Technology (RST) for configuring RAID.
· RAID arrays can be monitored in Windows using the Intel Optane Memory and Storage Management tool. At the time of this writing, it can be downloaded from the Microsoft Store or installed using the Hardware Support Application (HSA) software package, available from Lenovo Support, for either P3 Tower, Ultra, or Tiny.

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Figure 16 ­ Intel Optane Memory and Storage Management application

P3 Tower RAID Notes:

· At the time of writing there are no add-in RAID controllers certified on this platform.
· Only drives in the two onboard Gen 4 M.2 slots can be utilized together in a RAID configuration. RAID configurations utilizing both onboard and AIC M.2 drives are not supported.
· At the time of this writing, when a Thunderbolt card is installed in the system, SATA RAID is not supported.
· The table below lists the supported quantities of SATA drives for the respective RAID levels:

Table 5 – P3 Series RAID Capabilities

RAID Level (SATA) Possible QTY of SATA Drives Supported

RAID 0

2,3,4*

RAID 1

2

RAID 5

3,4*

RAID 10

4*

*4th SATA support is configuration dependent

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Section 7 ­ Configuring RAID
Please refer to the following steps to configure RAID for both NVMe and SATA drives. Examples may show configurations that are not possible on all systems. Backup any important data before editing RAID configurations!
1. Boot into the BIOS by pressing the function F1 key at the “Lenovo” splash screen.
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2. Select “System Summary” and scroll down to verify BIOS is recognizing all the drives installed in the system.
Note: From this point forward, the examples will utilize the M.2 NVMe drives. The process is the same for both drive types.
36

3. Select the “Devices” menu at the BIOS main screen setup utility and then select “Storage Setup”.
4. In the “Storage Setup” menu, select “Configure Storage as” and change or verify the option is set to “RAID”.
Notes: In order to Secure Erase any drives, the Configure Storage as’ option must be set toAHCI’ mode. Changing storage modes may cause issues with boot OS and data on existing drives.
37

5. When selecting to enable RAID the system will prompt a warning that changing the setting may result in the failure of the system to boot. Select “Yes” to continue.
6. Press F10 to save and Exit BIOS setup.
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7. As the system reboots, press the function F1 key at the Lenovo splash screen to enter the BIOS setup. Select the “Devices” menu at the BIOS main screen setup utility and then “Intel(R) Rapid Storage Technology”.
8. Verify all the desired drives are available.
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9. If all the disks installed are not shown as available, it may be necessary to clear any previous data from the disks. If no arrays have been created previously but there is an existing volume shown, it will be necessary to delete any previous arrays. Advance to step 15 to complete the process to delete any arrays. Return and proceed to step 10 once the desired drives are available.
10. Select “Create RAID Volume”.
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11. Choose a name for the volume.
12. Select the drop-down box for “RAID Level” and select the desired RAID level. The RAID level options displayed are based on the type and number of drives available in the system.
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13. On the same page, select the drop-down box for each drive and select “X” to add the drive to the array. Once all the required drives are added, select “Create Volume”. Unselected drives will appear in an OS like normal.
14. From the opening page of the “Intel(R) Rapid Storage Technology”, verify the volume was created properly.
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15. To delete an array, select a displayed volume to view information about it.
16. Select the “Delete” option.
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17. Select “Yes” to confirm the deletion of the volume.
18. To verify the array was deleted, return the opening page of the “Intel(R) Rapid Storage Technology” and verify the drives are once again seen as available for the creation of a new array.
Note: The user may not see the RAID array show up in the BIOS boot sequence until after a bootable operating system has been installed on the array.
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Section 8 ­ Optical Disk Drive in P3 Tower
Certain models of P3 Tower offer Optical Disk Drive (ODD) compatibility. To verify this, check the chassis barcode label on the back of the chassis to see if the system is compatible. The chassis part number is embedded in the label. The following chassis part numbers do NOT support ODD:
· SS51K39864 · SS51H56507 · SS51H56506 Any chassis part number not listed about can be assumed to support ODD.
Figure 16 – P3 Tower Chassis Label
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Another way to determine if the chassis is ODD compatible is to check for the required cutouts in the front of the chassis frame for the ODD bracket. Figure 17 is an example of the difference:
Figure 17 – P3 Tower ODD Bracket Cutouts
Systems with the ODD bracket installed will have some limitations to the maximum number of SATA drives. The bracket occupies the same space as the 3rd HDD and FASE, which would limit the maximum number of SATA drives to three. Similar to the 3rd HDD enclosure, the ODD bracket is compatible with either the 125W or 65W CPU coolers (See Figure 18). All components required to install the ODD bracket in the system are listed in this document’s Appendix.
Figure 18 – P3 Tower ODD Bracket with 125W CPU Cooler (chassis beam removed for visibility)
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Section 9 ­ Appendix
This section contains breakdowns of the available option kits or parts required to upgrade an existing P3 system to accept additional storage. ThinkStation Storage Kit for P3 Tower:
(4XF1M24243) ThinkStation Storage Kit for P3 Tower contains the following: A. Top 3.5″ HDD Cage Kit (for 3rd HDD) B. Bottom 3.5″ HDD Cage Kit (for 2nd or 4th HDD) C. 3.5″ to 2.5″ HDD Bracket D. Single-drop SATA Power Cable (380mm) E. Three-drop SATA Power Cable (320+40+40mm) F. Right-angle SATA Data Cable (450mm) G. FOR P3 ULTRA ­ SATA Data+Power Ribbon Cable H. FOR P3 ULTRA ­ 2.5″ HDD Cage
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ThinkStation Front Access Storage Enclosure for P3 Tower:
(4XF1M24244) ThinkStation Front Access Storage Enclosure for P3 Tower contains the following:
A. FASE HDD Cage Hot-Swap Assembly B. Front Access Door & Blank Bezel C. 2x Keys for locking HDD front access D. 3.5″ to 2.5″ HDD Bracket E. 3.5″ HDD Tray F. Data+Power SATA Cable (520+150mm) G. Single-drop SATA Power Cable (380mm)
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ThinkStation PCIe to M.2 Riser Card (High Profile):
(4XH0L08578) ThinkStation PCIe to M.2 Riser Card (HP) contains the following:
· PCIe to M.2 Riser Card with Thermal Pad · M.2 Push Pin Heatsink Module
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ThinkStation P3 Tower ODD Bracket:
Installation of ODD in P3 Tower requires each of the following: · ODD Bracket & Bezel kit for P3 Tower o FRU 5M11H28786 · Slim ODD Latch o FRU 01EF799 · 450mm SATA cable with dual right-angle connectors o FRU 5C10U58614 · SATA HDD

  • ODD Power cable (300mm + 210mm) o FRU 5C10U58423
    50

Single-sided NVMe M.2 2280 Heatsinks:
(4XF1C39743) ThinkCentre M.2 2280 SSD Kit III contains: A. M.2 2280 Heatsink (Top heatsink and carrier, supports single-sided M.2 drives) B. M.2 2280 Carrier (unused) C. M.2 Bracket with stopper
For Lenovo-supported double-sided 4TB M.2 drives:
· M.2 heatsink set for double-sided M.2 drives o FRU 5F10U94103
· M.2 bracket with stopper (FRU or use one from above option kit) o FRU 5M10U50407 51

Below is a visual comparison between single-sided and double-sided drives: 52

Section 10 ­ Document Revision History

Version v1.0 v1.1 v1.2 v1.3
v1.4

Date 5/25/23 9/10/23

Author Chris C Chris C

10/23/23 Chris C

12/1/23 Chris C

4/22/24 Chris C

Updates Initial Release Updated information for P3 Tower RAID Minor updates and revised P3 Tower SATA RAID notes Added ODD support notes and appendix. Updated SATA capability notes. Updated with RPL-R CPUs, new RAID rules

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