http://www.supermicro.com MNL-1960-QRG Rev. 1.0b SuperServer AS -1123US-TR4 Quick Reference Guide Front View & Interface Rear View Description No. 1 2 3 4 5 6 7 8 9 2 PCI-E x16 (FH/HL 9.5") Slots PCI-E x8 (LP) Slot VGA Port UID LED Serial Port Dedicated LAN for IPMI 2 USB 3.0 Ports 4 LAN Ports (Ultra riser card) Redundant Power Supply Modules Board Layout *Redundancy based on configuration and application load CPU Installation Caution SAFETY INFORMATION IMPORTANT: See installation instructions and safety warning before connecting system to power supply. http://www.supermicro.com/about/policies/safety_information.cfm WARNING: 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 WARNING: 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 ! ! ! 1. Removing the Processor Force Frame Use a Torx T20 driver to loosen the screws holding down Force Frame in the sequence of 3-2-1. The screws are numbered on the Force Frame next to each screw hole. 2. Raising the Force Frame 3. Lifting the Rail Frame 5. Inserting the Carrier Frame/CPU Package 6. Lowering the Force Frame 7. Securing the Force Frame Secure the screws in the order 1-2-3, tightening to 16.1 kgf-cm (14 lbf-in) of torque. The Force Frame secures both the Rail Frame and CPU Package. Caution: Tightening must be executed in proper 1-2-3 sequence to avoid causing catastrophic damage to the socket or CPU Package. 8. The Force Frame Secured 1. Mounting the Heatsink Screw #1 Screw #2 Screw #3 Force Frame Rail Frame PnP Cover Cap Carrier Frame/ CPU Package #1 Screw #2 Screw #3 Screw #4 Screw Processor Installation 2. Securing the Heatsink Using a diagonal pattern and a Torx T20 driver, tighten the four heatsink screws evenly to 16.1 kgf-cm (14.0 lbf-in) torque. 4. Removing the External Cap and PnP Cover Cap External Cap PnP Cover Cap Heatsink Installation Removing a Hot-Swap Drive Carrier from the Chassis 1. Press the release button on the drive carrier, which will extend the drive carrier handle. 2. Use the drive carrier handle to pull the drive out of the chassis. Installing a Drive 1. Remove the dummy drive, by removing the screws securing the dummy drive to the carrier. These screws are not used to mount the actual hard drive. 2. Insert a drive into the carrier with the PCB side facing down and the connector end toward the rear of the carrier. Align the drive in the carrier so that the screw holes line up. 3. Secure the drive to the carrier with four M3 screws, included in the chassis accessory box. 4. Insert the drive carrier with the disk drive into its bay, keeping the carrier oriented so that the release button is on the right side. When the carrier reaches the rear of the bay, the release handle retracts. 5. Push the handle in until it clicks into its locked position. Power Button UID button/LED Hard Drive Signal Hard Drive Fail Description No. Description No. 1 2 3 4 5 6 7 8 9 Power LED HDD LED NIC1 LED NIC2 LED Information LED Memory 1 2 Release Button 9 3 1 6 7 4 5 2 8 1 2 3 4 1 2 5 6 7 8 *Optional NVMe support from CPU1 Hard Drive Installation No. Description SXB1A/1B/1C: WIO-L Riser Card Support (CPU2 PCI-E 3.0 x16 and CPU2 PCI-E 3.0 x16) SXB2: WIO-R Riser Card Support (CPU2 PCI-E 3.0 x16) JBT1: CMOS Clear JS1: SATA8~11 (SATA 3.0 Ports) SXB3A/3B/3C: Ultra I/O Riser Card Support (CPU1 PCI-E 3.0 x 8, CPU1 PCI-E 3.0 x16) P1-DIMME1~H2 slots CPU1 P1-DIMMA1~D2 slots P2-DIMME1~H2 slots CPU2 P2-DIMMA1~D2 slots JSD1, JSD2: SATA DOM (Device on Module) power connectors 1/2 SATA0~7, 12, 13 Ports P1-NVME0/1, P2-NVME0/1: Processor 1 NVMe Ports, Processor 2 NVMe Ports 1 2 3 4 5 6 7 8 9 10 11 12 13 14 DIMM Module Population Sequence JL1 JF1 FAN7 FAN8 JF2 P2-DIMMA1 P2-DIMMB1 P2-DIMMA2 P2-DIMMC1 P2-DIMMB2 P2-DIMMD2 P2-DIMMD1 P2-DIMMC2 JVR1 FAN3 FAN4 FAN5 FAN6 P2-DIMMH2 P2-DIMMG2 P2-DIMMH1 P2-DIMMF2 P2-DIMMG1 P2-DIMME2 P2-DIMMF1 P2-DIMME1 P1-DIMMD2 P1-DIMMC2 P1-DIMMC1 P1-DIMMD1 P1-DIMMA1 P1-DIMMA2 P1-DIMMB1 P1-DIMMB2 CPU1 CPU2 P1-DIMMG1 P1-DIMMG2 P1-DIMMH1 P1-DIMMF2 P1-DIMMF1 P1-DIMME2 P1-DIMME1 P1-DIMMH2 FAN1 FAN2 LE1 When installing memory modules, the DIMM slots should be populated in the following order: DIMMA2, DIMMB2, DIMMC2, DIMMD2, DIMME2, DIMMF2, DIMMG2, DIMMH2, then DIMMA1, DIMMB1, DIMMC1, DIMMD1, DIMME1, DIMMF1, DIMMG1, DIMMH1. • The blue slots must be populated first. • Always use DDR4 DIMM modules of the same type, size and speed. • Mixed DIMM speeds can be installed. However, all DIMMs will run at the speed of the slowest DIMM. • The motherboard will support odd-numbered modules (1 or 3 modules installed). However, to achieve the best memory performance, fully populate the motherboard with validated memory modules. JL1 JF1 FAN7 FAN8 JF2 P2-DIMMA1 P2-DIMMB1 P2-DIMMA2 P2-DIMMC1 P2-DIMMB2 P2-DIMMD2 P2-DIMMD1 P2-DIMMC2 JVR1 FAN3 FAN4 FAN5 FAN6 P2-DIMMH2 P2-DIMMG2 P2-DIMMH1 P2-DIMMF2 P2-DIMMG1 P2-DIMME2 P2-DIMMF1 P2-DIMME1 P1-DIMMD2 P1-DIMMC2 P1-DIMMC1 P1-DIMMD1 P1-DIMMA1 P1-DIMMA2 P1-DIMMB1 P1-DIMMB2 CPU1 CPU2 P1-DIMMG1 P1-DIMMG2 P1-DIMMH1 P1-DIMMF2 P1-DIMMF1 P1-DIMME2 P1-DIMME1 P1-DIMMH2 FAN1 FAN2 JSGPIO JGPW3 JUSB3 JTPM1 JSD2 SATA13 SATA12 JGPW2 JSD1 JBT1 Battery P2_NVME0 P2_NVME1 P1_NVME1 P1_NVME0 JL2 J38 LEDM1 LE1 CPU1 PCI-E 3.0 x16 + CPU1 PCI-E 3.0 x16 CPU2 PCI-E 3.0 x16 + CPU2 PCI-E 3.0 x16 SXB3C SXB1C SXB1A CPU1 PCIE 3.0 X8 PSU2 PSU1 LED1 JIPMB1 JLAN1 UID-LED COM1 VGA IPMI_LAN USB0/1 (3.0) JWD1 JPG1 JPB1 JSDCARD1 JPW4 JPW3 JPW2 JPW1 JGPW1 SATA4~7 SATA0~3 JS1: SATA8~11 JUSBA1 SXB2 CPU2 PCI-E 3.0 X16 H11DSU-i(N) REV:1.01 10 11 12 1 4 3 6 5 2 9 8 7 14 13 Processors and their Corresponding Memory Modules CPU# Channel 1 Channel 2 Channel 3 Channel 4 Channel 5 Channel 6 Channel 7 Channel 8 8 DIMMS CPU1 C2 D2 G2 H2 CPU2 C2 D2 G2 H2 CPU1 C2 D2 G2 H2 CPU2 C2 D2 G2 H2 16 DIMMS A2 E2 F2 A2 B2 E2 F2 B2 CPU1 C2 D2 G2 H2 CPU2 C2 D2 G2 H2 A2 E2 F2 A2 B2 E2 F2 B2 C1 D1 G1 H1 C1 D1 G1 H1 A1 E1 F1 A1 B1 E1 F1 B1 32 DIMMS HDD 1 (SATA3) HDD 0 (SATA3) HDD 2 (SATA3) HDD 4 (SATA3) HDD 6 (SATA3) HDD 8 (SATA3)* HDD 3 (SATA3) HDD 5 (SATA3) HDD 7 (SATA3) HDD 9 (SATA3)*
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http://www.supermicro.com MNL-1960-QRG Rev. 1.0b
SuperServer AS -1123US-TR4 Quick Reference GuideFront View & Interface Rear View
DescriptionNo.1
2
3
4
5
6
7
8
9
2 PCI-E x16 (FH/HL 9.5") Slots
PCI-E x8 (LP) Slot
VGA Port
UID LED
Serial Port
Dedicated LAN for IPMI
2 USB 3.0 Ports
4 LAN Ports (Ultra riser card)
Redundant Power Supply Modules
Board Layout
*Redundancy based on configuration and application load
12
UID
CPU Installation
Caution SAFETY INFORMATIONIMPORTANT: See installation instructions and safety warning beforeconnecting system to power supply.http://www.supermicro.com/about/policies/safety_information.cfm
WARNING: To reduce risk of electric shock/damage to equipment, disconnect powerfrom server by disconnecting all power cords from electrical outlets.If any CPU socket empty, install protective plastic CPU cap
WARNING: Always be sure all power supplies for this system have the same poweroutput. If mixed power supplies are installed, the system will not operate.For more information go to : http://www.supermicro.com/support
!
!
!
1. Removing the Processor Force FrameUse a Torx T20 driver to loosen the screws holding down Force Frame in the sequence of 3-2-1. The screws are numbered on the Force Frame next to each screw hole.
2. Raising the Force Frame 3. Lifting the Rail Frame
5. Inserting the Carrier Frame/CPU Package 6. Lowering the Force Frame 7. Securing the Force FrameSecure the screws in the order 1-2-3, tightening to 16.1 kgf-cm (14 lbf-in) of torque. The Force Frame secures both the Rail Frame and CPU Package.Caution: Tightening must be executed in proper 1-2-3 sequence to avoid causing catastrophic damage to the socket or CPU Package.
8. The Force Frame Secured
1. Mounting the Heatsink
Screw #1
Screw #2
Screw #3
Force Frame
Rail Frame
PnP Cover Cap
Carrier Frame/CPU Package
#1 Screw
#2 Screw
#3 Screw#4 Screw
Processor Installation
2. Securing the HeatsinkUsing a diagonal pattern and a Torx T20 driver, tighten the four heatsink screws evenly to 16.1 kgf-cm (14.0 lbf-in) torque.
4. Removing the External Cap and PnP Cover Cap
External Cap
PnP Cover Cap
Heatsink InstallationRemoving a Hot-Swap Drive Carrier from the Chassis
1. Press the release button on the drive carrier, which will extend the drive carrier handle.
2. Use the drive carrier handle to pull the drive out of the chassis.
Installing a Drive1. Remove the dummy drive, by removing the screws securing the dummy drive to
the carrier. These screws are not used to mount the actual hard drive.2. Insert a drive into the carrier with the PCB side facing down and the connector
end toward the rear of the carrier. Align the drive in the carrier so that the screw holes line up.
3. Secure the drive to the carrier with four M3 screws, included in the chassis accessory box.
4. Insert the drive carrier with the disk drive into its bay, keeping the carrier oriented so that the release button is on the right side. When the carrier reaches the rear of the bay, the release handle retracts.
5. Push the handle in until it clicks into its locked position.
Power ButtonUID button/LEDHard Drive SignalHard Drive Fail
DescriptionNo. DescriptionNo.1
2
3
4
5
6
7
8
9
Power LEDHDD LEDNIC1 LEDNIC2 LEDInformation LED
Memory
1
2
Release Button
9 3 167 45 28
1234
12
5678 *Optional NVMe support from CPU1
Hard Drive Installation
No. DescriptionSXB1A/1B/1C: WIO-L Riser Card Support (CPU2 PCI-E 3.0 x16 and CPU2 PCI-E 3.0 x16) SXB2: WIO-R Riser Card Support (CPU2 PCI-E 3.0 x16)
JBT1: CMOS ClearJS1: SATA8~11 (SATA 3.0 Ports)
SXB3A/3B/3C: Ultra I/O Riser Card Support (CPU1 PCI-E 3.0 x 8, CPU1 PCI-E 3.0 x16)
P1-DIMME1~H2 slotsCPU1 P1-DIMMA1~D2 slotsP2-DIMME1~H2 slotsCPU2P2-DIMMA1~D2 slotsJSD1, JSD2: SATA DOM (Device on Module) power connectors 1/2
SATA0~7, 12, 13 Ports
P1-NVME0/1, P2-NVME0/1: Processor 1 NVMe Ports, Processor 2 NVMe Ports
1234567891011121314
DIMM Module Population Sequence
JL1JF1
FAN7
FAN8
JF2
P2-DIM
MA1
P2-DIM
MB1
P2-DIM
MA2
P2-DIM
MC
1
P2-DIM
MB2
P2-DIM
MD
2
P2-DIM
MD
1
P2-DIM
MC
2
JVR1
FAN3
FAN4
FAN5
FAN6
P2-DIM
MH
2
P2-DIM
MG
2
P2-DIM
MH
1
P2-DIM
MF2
P2-DIM
MG
1
P2-DIM
ME2
P2-DIM
MF1
P2-DIM
ME1
P1-DIM
MD
2
P1-DIM
MC
2
P1-DIM
MC
1
P1-DIM
MD
1
P1-DIM
MA1
P1-DIM
MA2
P1-DIM
MB1
P1-DIM
MB2
CPU1CPU2
P1-DIM
MG
1
P1-DIM
MG
2
P1-DIM
MH
1
P1-DIM
MF2
P1-DIM
MF1
P1-DIM
ME2
P1-DIM
ME1
P1-DIM
MH
2FAN
1
FAN2
LE1
When installing memory modules, the DIMM slots should be populated in the following order:
DIMMA2, DIMMB2, DIMMC2, DIMMD2, DIMME2, DIMMF2, DIMMG2, DIMMH2, then DIMMA1,
DIMMB1, DIMMC1, DIMMD1, DIMME1, DIMMF1, DIMMG1, DIMMH1.
• The blue slots must be populated first.• Always use DDR4 DIMM modules of the same type, size and speed.• Mixed DIMM speeds can be installed. However, all DIMMs will run at the speed of the slowest DIMM.• The motherboard will support odd-numbered modules (1 or 3 modules installed). However, to achieve the best memory performance, fully populate the motherboard with validated memory modules.
JL1JF1
FAN7
FAN8
JF2
P2-DIM
MA1
P2-DIM
MB1
P2-DIM
MA2
P2-DIM
MC
1
P2-DIM
MB2
P2-DIM
MD
2
P2-DIM
MD
1
P2-DIM
MC
2
JVR1
FAN3
FAN4
FAN5
FAN6
P2-DIM
MH
2
P2-DIM
MG
2
P2-DIM
MH
1
P2-DIM
MF2
P2-DIM
MG
1
P2-DIM
ME2
P2-DIM
MF1
P2-DIM
ME1
P1-DIM
MD
2
P1-DIM
MC
2
P1-DIM
MC
1
P1-DIM
MD
1
P1-DIM
MA1
P1-DIM
MA2
P1-DIM
MB1
P1-DIM
MB2
CPU1CPU2
P1-DIM
MG
1
P1-DIM
MG
2
P1-DIM
MH
1
P1-DIM
MF2
P1-DIM
MF1
P1-DIM
ME2
P1-DIM
ME1
P1-DIM
MH
2FAN
1
FAN2
JSGPIO
JGPW
3
JUSB3
JTPM1
JSD2
SATA13
SATA12
JGPW
2 JSD1
JBT1
Battery
P2_NVME0
P2_NVME1 P1_NVME1
P1_NVME0
JL2J38
LEDM1
LE1
CPU
1 PCI-E 3.0 x16 + C
PU1 PC
I-E 3.0 x16
CPU
2 PCI-E 3.0 x16 + C
PU2 PC
I-E 3.0 x16
SXB3C
SXB1CSXB1A
CPU
1 PCIE 3.0 X8
PSU2 PSU1
LED1
JIPMB1
JLAN1
UID
-LED
COM1VGA IPMI_LAN
USB0/1
(3.0)
JWD
1JPG
1
JPB1
JSDCARD1
JPW4
JPW3JPW2
JPW1
JGPW1
SATA4~7SATA0~3
JS1: SATA8~11
JUSBA1
SXB2C
PU2 PC
I-E 3.0 X16
H11DSU-i(N)REV:1.01
101112
1 43
6
52
9 8 7
14
13
Processors and their Corresponding Memory Modules
CPU# Channel 1
Channel 2
Channel 3
Channel 4
Channel 5
Channel 6
Channel 7
Channel 8
8 DIMMS
CPU1 C2 D2 G2 H2
CPU2 C2 D2 G2 H2
CPU1 C2 D2 G2 H2
CPU2 C2 D2 G2 H2
16 DIMMS
A2
E2 F2A2 B2
E2 F2B2
CPU1 C2 D2 G2 H2
CPU2 C2 D2 G2 H2
A2
E2 F2A2 B2
E2 F2B2 C1 D1 G1 H1
C1 D1 G1 H1
A1
E1 F1A1 B1
E1 F1B1
32 DIMMS
HDD 1(SATA3)
HDD 0(SATA3)
HDD 2(SATA3)
HDD 4(SATA3)
HDD 6(SATA3)
HDD 8(SATA3)*
HDD 3(SATA3)
HDD 5(SATA3)
HDD 7(SATA3)
HDD 9(SATA3)*
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