Intel 9EJL4 manual Installing a CPU Processor for Socket

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Chapter 2

Chapter 2 Hardware Setup

If your motherboard has already been installed in your computer you may still need to refer to this chapter if you plan to upgrade your system's hardware.

This motherboard is electrostatic sensitive. Do not touch without wearing proper safety gadget and make sure to disconnect the power cable from the power source before performing any work on your motherboard. Not doing so may result in electrical shock!

2-1 Installing a CPU Processor for Socket 478

The Intel® Socket 478, designed for the Pentium 4 processor, has been incorporated as a standard motherboard specification. This motherboard will support Intel® Pentium 4 CPUs with its embedded Hyper-Threading technology. To insert your CPU into Socket 478 please follow the steps below:

1.Locate the 478-pin CPU socket on the motherboard.

2.Unlock the socket by pressing the lever sideways, and then open it up to a 90-degree angle.

3.Locate a Gold Mark on the top surface of the CPU, which is close to one of the CPU corners. The same corner will also be cut off, leaving a noticeable notch in the CPU's corner. These markings indicate Pin 1 on the CPU.

4.Gently insert the CPU with Gold Mark/Pin 1 at the same corner of Socket 478, which is located close to the end of the lever. Allow the weight of the CPU to push itself into place. Do not apply extra pressure as doing so may result in damaging your CPU.

5.When the CPU is correctly inserted, close the lever with your finger on to of the CPU to make sure the CPU is properly embedded into the socket.

6.Insert an appropriate heat sink and fan for proper Heat dispatch.

Installing a standard Intel® specified heat sink with cooling fan is necessary for proper heat dissipation from your CPU. Failing to install these items may result in overheating and possible burnout of your CPU.

In order to boot up with a newly installed CPU, AC Power must be switched off before installation.

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Contents 9EJL4 Declaration of Conformity Manufacturers Disclaimer Statement Federal Communications Commission StatementCanadian Department of Communications Statement Table of Contents Product Specifications Processor ChipsetMain Memory Expansion SlotsFast Ethernet /Home Networking Controller Boot-Block Flash ROMPackage Contents 9EJL4 Motherboard Layout Installing a CPU Processor for Socket Frequency Configuration OverclockabilityMain Memory Configuration Power-On By Modem Connector and Jumper SettingsPW 1 / 2 ATX Power Supply Connector Poly-fuse Over Current Protection Blinking LED in Suspend ModeCN1A Front Panel Connector FD1 Floppy Connector For Green LED connector please refer to .6 CboxIDE 1/2 IDE Hard-Disk Connector JP1 Cmos Clear JumperJP6 Enable/Disable USB 0/1, Device Wake-Up Jumper JP6 USB 0/1CN2/CN2A CD-ROM Audio-in Connector CN5 WOL Wake-on-LAN Connector CN5A WOM Wake-on-Modem ConnectorCN24 Cbox 2 Front Audio Connector Setup Program Initial Screen Standard Cmos Setup IDE Primary/Secondary Master/SlaveDrive A/B VideoAdvanced Bios Features CPU L1 & L2 CacheQuick Power On Self Test Post First/Second/Third/Boot Other DeviceBoot up Floppy Seek Boot Up NumLock StatusApic Mode Security OptionMPS Version Control For OS OS Select For Dram 64MBAdvanced Chipset Features Active to Precharge DelayDram RAS# to CAS# Delay Dram Timing SelectableSystem Bios Cacheable Video Bios CacheableDelayed Transaction Delay Prior to ThermalIDE HDD Block Mode Integrated PeripheralsOn-Chip Primary/Secondary PCI IDE IDE Primary/Secondary Master/Slave PIOSuper IO Device 2F8/IRQ3, Disabled, and AutoOnChip PCI Device USB controller USB 2.0 ControllerUSB Keyboard Support Onboard LAN DeviceVideo Off Method Power Management SetupPower Management Suspend Mode HDD Power DownVideo off In Suspend Suspend TypeWake up Events PNP/PCI Configurations Resources Controlled ByPCI/VGA Palette Snoop FDD IRQ Can Be FreeFrequency/Voltage Control CPU Clock RatioAuto Detect PCI Clk Spread SpectrumLoad Fail-Safe Defaults Load Optimized DefaultsSupervisor Password & User Password Setting Beyond product specificationsSave and Exit Setup Exit Without SavingIntel IDE Bus Mastering Drivers Setup Ultra ATA storage driver SetupClick Intel IDE Bus Mastering Drivers Click Ultra ATA storage driverAudio Driver Setup LAN Driver SetupIntel LAN Driver Setup USB 2.0 DriverHow To Contact Chaintech How To Contact Chaintech

9EJL4 specifications

The Intel 9EJL4 is a compact and versatile embedded processor specifically designed for edge computing applications. Based on Intel's cutting-edge architecture, it offers a unique blend of power efficiency, performance, and connectivity options, making it ideal for a variety of industries, including industrial automation, retail, healthcare, and smart cities.

One of the standout features of the 9EJL4 is its support for Intel’s Advanced Vector Extensions (AVX), which enhances its capability to handle complex calculations and data-heavy workloads efficiently. With multiple cores and threads, this processor can manage parallel tasks effectively, ensuring smooth operation in multi-threaded scenarios.

Power consumption is a critical consideration for embedded systems, and the Intel 9EJL4 excels in this aspect. It operates within an efficient thermal envelope, allowing it to maintain optimal performance while minimizing power draw. This makes it suitable for applications where power sourcing is limited or battery life is a crucial factor.

The architecture of the 9EJL4 supports Intel’s integrated graphics, which provide robust visual performance without the need for a dedicated GPU. This feature is particularly beneficial for applications requiring video processing or graphical interfaces, as it allows for seamless multimedia experiences.

Connectivity is another important aspect of the Intel 9EJL4. It supports various I/O interfaces, including USB, SATA, and PCIe, facilitating seamless integration with existing systems and enabling communication with a wide range of devices. Additionally, with support for high-speed network connectivity options such as Ethernet, the 9EJL4 can be part of IoT networks, enabling real-time data processing and analysis.

Furthermore, the processor is built with durability in mind, characterized by a robust design that can operate in various environmental conditions. This makes it suitable for deployment in harsh settings where other components might fail.

In summary, the Intel 9EJL4 stands out in the embedded processing market due to its performance, energy efficiency, and comprehensive connectivity options. These characteristics make it an excellent choice for developers looking to build reliable, high-performance systems tailored for modern applications across diverse industries.
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