SUPER MICRO Computer 5037C-T Installing an Active Fan CPU Heatsink, Thermal Grease Heatsink Fins

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Chapter 5: Advanced Motherboard Setup

Installing an Active Fan

CPU Heatsink

1.Locate the CPU Fan power connec- tor on the motherboard. (Refer to the layout on the right for the CPU Fan location.)

2.Position the heatsink so that the heatsink fan wires are closest to the CPU fan power connector and are not interfered with other compo- nents.

3.Inspect the CPU Fan wires to make sure that the wires are routed through the bottom of the heatsink.

4.Remove the thin layer of the protec- tive film from the copper core of the heatsink.

 

Warning: CPU may overheat

!

if the protective film is not re-

 

moved from the heatsink.

5.Apply the proper amount of thermal grease on the CPU.

Note: if your heatsink came with a thermal pad, please ignore this step.

6.If necessary, rearrange the wires to make sure that the wires are not pinched between the heatsink and the CPU. Also make sure to keep clearance between the fan wires and the fins of the heatsink.

Thermal Grease

Heatsink

Fins

Recommended heatsink:

Supermicro p/n

SNK-P0046A4 (active heatsink)

5-5

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Contents Super Manual Revision Release Date December 14 Manual Organization PrefaceAbout This Manual Bios Advanced Chassis SetupPreface Table of Contents Chapter Advanced Chassis Setup Viii Overview Chapter IntroductionMotherboard Features Chassis Features Intel C204 Chipset System Block Diagram Headquarters Contacting SupermicroEurope Asia-PacificPage Unpacking the System Chapter System SetupRemoving the Side Covers System AccessAccessing the Inside of the System Page Chapter System Interface PowerControl Panel Button Control Panel LEDsOverheat/Fan Fail HDDElectrical Safety Precautions Chapter System SafetyGeneral Safety Precautions ESD Precautions Installing the Onboard Battery Operating PrecautionsChapter Advanced Motherboard Setup Installing the LGA1155 Processor Processor and Heatsink InstallationPage Page Thermal Grease Heatsink Fins Installing an Active Fan CPU HeatsinkPage Unplug the PWR cord Removing the HeatsinkConnecting Data Cables Connecting CablesConnecting Power Cables Connecting the Control PanelI/O Ports Front Control Panel Header Pins JF1Installing DIMMs Installing MemoryMemory Support DDR3 Unbuffered ECC Udimm MemoryPossible System Memory Allocation & Availability Installing Dimm into SlotAdding PCI Expansion Cards Installing Expansion CardsFull-Height, Full-Length Expansion Card Setup Description State/Status Jumper Description DefaultMotherboard Details LAN1/LAN2 Connector DescriptionATX Power Connector Connector DefinitionsProcessor Power Connector Power LEDOverheat OH/Fan Fail/Front UID LED Reset ButtonPower Button Ethernet Ports Universal Serial Bus USBSerial Ports Chassis Intrusion Fan HeadersATX PS/2 Keyboard and PS/2 Mouse Ports External SpeakerPower Supply I2C Connector Onboard Power LEDTrusted Platform Module Header Wake-On-LANUnit ID Switch DOM PWR ConnectorSgpio 0/1 Headers Wake-On-LAN JwolVGA Enable/Disable Jumper SettingsExplanation of Jumpers Cmos ClearLAN Port Enable/Disable PCI Slot SMB EnableWatch Dog Enable USB Wake-UpOnboard Indicators Sata Ports Sata Drive ConnectionsDriver Installation Display Screen Installing DriversSuperDoctor III Interface Display Screen Health Information SuperDoctorSuperDoctor III Interface Display Screen Remote Control Page Tools Required Chapter Advanced Chassis SetupRotating the Hard Drive Cage Rotating the Hard Drive CageRemoving and Installing 3.5 Hard Drives Removing and Installing Hard DrivesRemoving a Hard Drive from the Carrier Removing and Installing 2.5 Hard Drives Removing and Installing 2.5 Hard DrivesRemoving the 2.5 Hard Drives Installing a 3.5 Device Installing a 3.5 DeviceFan Failure System FansInstalling the Front Cooling Fan Optional Installing the Front Cooling Fan OptionalReplacing the Power Supply Power SupplyHow To Change the Configuration Data Starting Bios Setup UtilityChapter IntroductionHow to Start the Setup Utility Main SetupSystem Memory System Time/System DateProcessor BOOT Feature Advanced Setup ConfigurationsProcessor & Clock Options Intel Hyper Threading Technology Power TechnologyActive Processor Cores State CoordinationChipset Configuration VT-d Active State Power ManagementPcie Maximum Payload Size PCI Express PortIDE/SATA Configuration PCIe/PCI/PnP Configuration Super IO Device Configuration Remote Access ConfigurationHardware Health Configuration Fan Speed Control ModeFan1 ~ Fan4, FanA Reading CPU Temperature Display ModeACPI Configuration Event LogsWait For BMC Ipmi Configuration X9SCi-LN4F, X9SCA-F OnlyBMC Support When SEL Full Erase Log Select Yes, On every reset or NoBMC Self Test Log System Event LogConfiguration Source BMC Network ConfigurationBoot Options Priority Boot SettingsBoot Option #1, Boot option #2, Boot Option #3, etc Delete Boot OptionAdministrator Password Security SettingsUser Password Boot Sector Virus ProtectionExit Options Restore DefaultsSave Changes and Exit Discard Changes and ExitBoot Override Save As User DefaultsRestore User Defaults Page Bios Error Beep Codes Appendix a Bios Error Beep CodesError Message Beep Code/LEDPage Processors Appendix B System SpecificationsWeight Appendix B System Specifications

5037C-T specifications

The Super Micro Computer 5037C-T is a robust and versatile workstation that caters to a variety of applications, particularly in fields such as data analysis, virtualization, and high-performance computing. Engineered for reliability and performance, the 5037C-T is built on Supermicro’s commitment to delivering innovative solutions tailored to meet the demands of modern computing.

One of the notable features of the 5037C-T is its support for dual Intel Xeon E5-2600 v3/v4 processors. This capability allows users to leverage advanced multi-threading technology, significantly boosting performance in resource-intensive tasks. The workstation can accommodate up to 1TB of DDR4 memory across its 16 DIMM slots, ensuring ample memory for demanding applications and complex workflows.

Storage options in the 5037C-T are extensive. It supports both SATA and SAS drives, enabling various configurations that can include a combination of traditional hard disks and high-speed solid-state drives. This flexibility allows users to optimize their storage solutions based on performance requirements and budget constraints. The system also features a hot-swappable drive bay, aiding in maintenance and upgrades.

Connectivity is another strong point for the 5037C-T. It offers multiple PCIe slots, facilitating the installation of additional graphics cards or network adapters. With support for NVIDIA GPUs, the workstation can be tailored for GPU-intensive tasks like rendering, artificial intelligence, and machine learning, making it a suitable choice for professionals in creative and scientific fields.

In terms of networking, the workstation comes equipped with dual 10 Gigabit Ethernet ports, enhancing data transfer rates and ensuring minimal latency in communication. This is particularly beneficial for environments that rely on high-speed data access and transfer, such as cloud computing or large data processing.

Cooling and thermal management are crucial components of the 5037C-T’s design. The system includes advanced cooling technologies that ensure optimal temperatures are maintained, even under heavy workloads. This not only enhances performance but also contributes to the longevity of the components.

In summary, the Super Micro Computer 5037C-T combines powerful processing capabilities, extensive memory support, flexible storage options, and robust networking features, making it a top choice for enterprises looking for a reliable and high-performance workstation. Its adaptability to various workloads and applications underscores Supermicro's commitment to providing cutting-edge solutions for today’s computing challenges.