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LBL-1139-QRG

Board Layout

SuperServer 1029U-T Series Quick Reference Guide

CPU & Heatsink Installation

Memory

Front & Interface

Rev 1.0

Description

No.

SXB1A/1B/1C: Proprietary PCI-e Slot used for WIO-Left Devices  (supported by CPU2) 

SXB2: Proprietary PCI-e 3.0 x8 Slot for WIO-Right Devices or Add-on Cards (supported by CPU2) 
JBT1: CMOS Clear

I-SATA0~3: SATA 3.0 Ports (Intel PCH)

JSD1/JSD2: SATA DOM (Device_on_Module) Power Connectors 

SXB3A/3B/3C: Proprietary PCI-e Slot for Ultra Riser Devices (supported by CPU1)

P1-DIMMC1(Blue)/P1-DIMMC2/P1-DIMMB1(Blue) slot

P1-DIMMB2/P1-DIMMA1(Blue)/P1-DIMMA2 slot

CPU1  (Install CPU1 first) 

P1-DIMMD2/P1-DIMMD1(Blue)/P1-DIMME2 slot

P1-DIMME1(Blue)/P1-DIMMF2/P1-DIMMF1(Blue) slot

P2-DIMMC1(Blue)/P2-DIMMC2/P2-DIMMB1(Blue) slot

P2-DIMMB2/P2-DIMMA1(Blue)/P2-DIMMA2 slot

CPU2 

P2-DIMMD2/P2-DIMMD1(Blue)/P2-DIMME2 slot

P2-DIMME1(Blue)/P2-DIMMF2/P2-DIMMF1(Blue) slot

S-SATA 4, 5: SATA 3.0 Ports (Intel SCU) 

S-SATA0~3: SATA 3.0 Ports (Intel SCU)

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

Rear View

Description

No.

1
2
3
4
5
6
7
8
9

2 PCI-E 3.0 x16 (CPU2) Expansion Slots (Full-height 4.2”, Length 10.5”) 
PCI-E 3.0 x8 (CPU2) Expansion Slot( Low Profile (2.536”), Half Length (6.6”)) 
VGA Port
UID Button (Unit Identifier Button)
COM Port
Dedicated LAN for IPMI 
USB 3.0 Ports
2-4 LAN Port (Reference LAN port configuration table)
Redundant Power Supply Module (See User Manual for LED guidance)

1

9

3 2

6

7

4

5

8

Two to four 

1G/10G LAN ports

Two 25G 

LAN ports

1

2

1 2

3 4

LAN Port Configurations for 1029U-T Series Models

Ultra Riser Card

AOC-URN4-M2TS
AOC-UR-i4G
AOC-URI4XTF
AOC-URN2-i2XT
AOC-URN2-I2XS
AOC-URN2-i4GXS

LAN Ports

Two 25 GbE
Four GbE
Four 10GBase-T
Two 10GBase-T
Two 10G SFP+
Two GbE, Two 10G SFP+

System

1029U-TR25M
1029U-TR4
1029U-TR4T
1029U-TRT
1029U-TRP
1029U-TRTP2

          SAFETY INFORMATION

WARNING:

          CAUTION:

!

!

!

IMPORTANT: See installation instructions and safety warning before 

connecting system to power supply. 

http://www.supermicro.com/about/policies/safety_information.cfm

To reduce risk of electric shock/damage to equipment, disconnect power 

from server by disconnecting all power cords from electrical outlets. If any 

CPU socket empty, install protective plastic CPU cap

Always be sure all power supplies for this system have the same power 

output. If mixed power supplies are installed, the system will not operate.
For more information go to: http://www.supermicro.com/support

A

A

C

C

D

D

Pin 1

Align CPU Pin 1

Align Notch C of the 

CPU and Notch C of the 

Processor Clip

Align Notch D of the 

CPU and Notch D of 

the Processor Clip

CPU (Upside Down)

w/CPU LGA Lands up

CPU/Heatsink Package

(Upside Down)

B

B

Align Notch B of the CPU
and Notch B of the Processor Clip

A

A

B

B

C

C

Pin 1

Align CPU Pin 1

CPU (Upside Down)

w/CPU LGA Lands up

CPU/Heatsink Package

(Upside Down)

Align Notch C of the 

CPU and Notch C of 

the Processor Clip

Align Notch B of the 

CPU and Notch B of 

the Processor Clip

#1

#2

#3

#4

Small Guiding Post

Large Guiding

                Post

Oval D

T30 Torx Driver

Use a torque

of 12 lbf 

Oval C

Step 4:

Step 5:

Mounting the Processor Heatsink Module

into the CPU socket (on the motherboard) 

Tighten the screws in the

sequence of 1, 2, 3, 4 (top 3 quarter view)

Printed Triangle

Heatsink

(Upside Down)

Fabric CPU and 

Processor Clip

(Upside Down)

C

D

d

c

a

b

A

B

Triangle on the CPU

Triangle on the

Processor Clip

Step 1a: Attaching the Non-F Model Processor to the Narrow Processor Clip to 

Create the Processor Package Assembly

Step 1b: Attaching the F-Model Processor to the Narrow Processor Clip to 

Create the Processor Package Assembly

Align A, B and C, and 

insert the CPU by sliding 

notch B and C into the 

processor clip.

Step 2: Attaching the Processor Package Assembly to the Heatsink to Form the 

Processor Heatsink Module (PHM)

Align A, B, C and D with a, b, c 

and d respectively, and snap the 

processor package onto the 

heatsink with the mounting clips 

at the proper places.

Step 3: Installing the Processor Heatsink Module (PHM)

Align pin 1 (the triangle) on the PHM against pin 1 (the triangle) on the CPU socket, and 

insert the two diagonal oval holes on the heatsink into the guiding posts. Using a T30 

Torx-bit screwdriver, tighten the four screws into the mounting holes starting with the 

screw marked "1" (in the sequence of 1, 2, 3, and 4).

Align A, B, C and D, and 

insert the CPU by sliding 

notch B, C and D into the 

processor clip.

A

B

D

C

Make sure Mounting

Notches snap into place

On Locations of (C, D), the 

notches snap onto the heat 

sink’s mounting holes

On Locations (A, B), the 

notches snap onto the 

heatsink’s sides

HDD 1

(SATA3)

HDD 3 HDD 5 HDD 7 HDD 9

(SATA3) (SATA3) (SATA3) (SATA3)*

HDD 0 HDD 2 HDD 4 HDD 6 HDD 8

(SATA3) (SATA3) (SATA3) (SATA3) (SATA3)*

7

8

2

4

3

1

5

6

 *Optional NVMe support from CPU1

Power LED
Device Activity LED
LAN1 LED & LAN2 LED
Universal Information LED

Power Button
UID Button
Hard Drive Signal
Hard Drive Fail

Description

No.

Description

No.

1
2
3
4

5
6
7
8

Beep Codes

Caution

Beep Code

Error Message

Description

1 beep

Refresh

Circuits have been reset (Ready 

to power up)

5 short and 1 long

Memory error

No memory detected in the system

5 long and 2 short

Display memory read/

write error

Video adapter missing or with 

faulty memory

1 long continuous

System OH

System overheat condition

PSU2

PSU1

X11DPU

DESIGNED IN USA

BAR CODE

IPMI CODE

CPU2

CPU1

BIOS 

LICENSE

COM1

LAN

CTRL

LED_P1_D2

LED_P1_D1

LED_P1_E2

LED_P1_E1

LED_P1_F2

LED_P1_F1

LED_P1_A2

LED_P1_A1

LED_P1_C2

LED_P1_B1

LED_P1_B2

LED_P1_C1

LED_P2_F2

LED_P2_F1

LED_P2_E2

LED_P2_E1

LED_P2_D2

LED_P2_D1

LED_P2_C2

LED_P2_C1

LED_P2_B2

LED_P2_B1

LED_P2_A2

LED_P2_A1

JRK1

S-UM12

JVGA2

BT1

JBT1

JL1

JUIDB2

JF1

JPG1

JVRM1

JWD1

FAN8

FAN7

FAN6

FAN5

FAN4

FAN3

FAN2

FAN1

JIPMB1

JNVI2C1

JNVI2C2

SP1

JSD1

JSD2

T-SGPIO3

LED1

LEDM1

LEDPWR

JVRM2

JTPM1

SXB3B

SXB1B

SXB2

FAIL

LED UID

NIC

2

1

NIC

LED HDD

PWR

LED

X
NMI

PWR

ON

JF1

RST

PS

P2_NVMe1

P2_NVMe0

P2-DIMMF2

P2-DIMMF1

P2-DIMME1 P2-DIMME2

SXB1A

CPU2_PO

RT3A

CPU2_PO

RT2C

CPU2_PO

RT2A

SXB1C

P2-DIMMD2

P2-DIMMD1

CPU2_PO

RT1A

PCH_PO

RT1

CPU2_DMI

USB3/4 (3.0)

S-S

ATA0~3

S-S

AT

A4

P2-DIMMA2

S-S

AT

A5

P2-DIMMA1

UID

P2-DIMMB2 P2-DIMMB1 P2-DIMMC2

I-S

AT

A0~3

P2-DIMMC1

I-S

AT

A4~7

GPU PWR2

USB2 (3.0)

P1-DIMMF2

SXB3C

P1-DIMMF1

CPU1_PO

RT1A

SXB3A

CPU1_PO

RT3A

CPU1_PO

RT3C

CPU1_PO

RT2A

CPU1_PO

RT2C

P1-DIMMD1

P1-DIMME1 P1-DIMME2

P1-DIMMD2

P1-DIMMA2 P1-DIMMA1

P1-DIMMC1

P1-DIMMC2

P1-DIMMB2 P1-DIMMB1

P1_NVMe0 P1_NVMe1

BP

 PWR4

VGA

IPMI_LAN USB0/1 (3.0)

BMC

JSDCARD1

PCH

GPU PWR3

GPU PWR4

GPU PWR1

BP

 PWR2

BP

 PWR1

BP

 PWR3

CPU2_PO

RT3C

REV:1.10

JHFI2

JHFI1

6

7

8

9

10

11

14

12

13

15

16

1

18
17

2 3 4 5

DDR4 Memory Support for the Intel Xeon Scalable Processor Platform

Type

Ranks 

Per 

DIMM 

and Data 

Width

DIMM Capacity 

(GB)

Speed (MT/s); Voltage (V); Slots per Channel (SPC) and 

DIMMs per Channel (DPC)

2 Slots per Channel

4 Gb

8 Gb

RDIMM

SRx4

8 GB

16 GB

RDIMM

SRx8

4 GB

8 GB

RDIMM

DRx8

8 GB

16 GB

RDIMM

DRx4

16 GB

32 GB

RDIMM 3Ds

QRX4

N/A

2H-64GB

8RX4

N/A

4H-128GB

LRDIMM

QRx4

32 GB

64 GB

LRDIMM 3Ds

QRX4

N/A

2H-64GB

8Rx4

N/A

4H-128 GB

1DPC (1-DIMM per Channel)

1.2 V

2666

2666

2666

2666

2666

2666

2666

2666

2666

2DPC (2-DIMM per Channel)

1.2 V

2666

2666

2666

2666

2666

2666

2666

2666

2666

ÌLBL-1139-QRG-100QÎ

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