Intel KEMX-2030 user manual Hardware Settings, Jumpers

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Chapter 2

Chapter 2

Hardware Settings

„Overview

This chapter provides the definitions and locations of jumpers, headers, and connectors.

Jumpers

The product has several jumpers which must be properly configured to ensure correct operation.

Figure 3 Jumper Connector

For a three-pin jumper (see Figure 3), the jumper setting is designated “1-2” when the jumper connects pins 1 and 2. The jumper setting is designated “2-3” when pins 2 and 3 are connected and so on. You will see that one of the lines surrounding a jumper pin is thick, which indicates pin No.1.

To move a jumper from one position to another, use needle-nose pliers or tweezers to pull the pin cap off the pins and move it to the desired position.

KEMX-2030 User’s Manual

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Contents KEMX-2030 Revision Date Edited by Changes Quanmax Inc. All rights reservedContent Content Figures Tables Tables „ When Working Inside a Computer „ Before You Begin„ Preventing Electrostatic Discharge Safety Instructions „ How to Use This Guide „ Unpacking„ Regulatory Compliance Statements FCC Compliance Statement for Class a DevicesReturn Procedure „ Warranty PolicyLimited Warranty „ Temperature „ Maintaining Your ComputerLimitation of Liability Environmental FactorsPower Protection „ Uninterruptible Power Supply„ Altitude „ Surge ProtectorPreface Checklist FeaturesIntroduction „ Overview„ Product Specifications Bios„ System Block Diagram Block Diagram„ Mechanical Dimensions Mechanical DimensionsHardware Settings Jumpers„ Jumper Settings and Pin Definitions CN10Jumper Status Jumper Setting StatusFunction Jumper Setting Function Label Function Signal NamePin Signal Name Pin Signal DCD, Data carrier detectRXD, Receive data TXD, Transmit dataPin Signal Function Main Board Pin Assignments MIC2-L HDD LED + Signal Pin Signal Name PinDREQ0 GND IDEIOW# IDEIOR# Ideiordy Cbsel USB4 USB5 USB4+ USB5+ GND KEY Pcie slots IRDY# Comments Pitch2.54mm Yimtex 32526SAG1R6T „ Expansive Interfaces System Installation„ Memory Module Installation Removing a Dimm Align the SO-DIMM Memory Module with the onboard socketAMI Bios Setup Bios Main Menu IDE Device Setting MenuLBA/ Large Mode Auto „ Main MenuLBA/ Large Mode DMA Mode„ Advanced Menu System InformationCOM3 Mode COM4 ModeParallel Port Mode COM1 AddressParallel Port IRQ USB ControllerUSB Device Legacy Support Audio ControllerCPU Warning Temperature CPU Shutdown TemperatureHardware Health Configuration Trusted Computing„ Boot Menu Quick BootBootup Num-Lock On Wait for ‘F1’ If Error EnabledBoots Graphic Adapter Priority Internal Graphics Mode Select„ Chipset Menu Dram Frequency„ Video Function Configuration Dvmt Mode SelectBoot Display Device DVMT/FIXED Memory„ Power Menu Change Supervisor Password Change User PasswordSecurity Menu Security MenuLoad Optimal Defaults „ Exit MenuSave Changes and Exit Discard Changes and ExitLoad Failsafe Defaults Driver Installation System Resources Interrupt Request IRQ LinesDMA Channels Memory MappingPCI Devices PCI Express DevicesPS/2 P OS Hardware Monitor ParametersHow to install the test program DIO Digital I/O KIT User GuideAppendix B Appendix B How to run the test program CN3 to DIO Program look up tableHow to uninstall the test program

KEMX-2030 specifications

The Intel KEMX-2030 is a cutting-edge processor designed to push the boundaries of performance and efficiency in computing applications. This innovative chip integrates advanced technologies that cater to a variety of users, from gamers to data scientists, ensuring that it meets the demands of modern workloads.

At the heart of the KEMX-2030 is Intel's latest microarchitecture, which enhances instruction execution and optimizes power consumption. This microarchitecture employs a combination of high-performance cores and energy-efficient cores, allowing for dynamic scaling based on workload requirements. This enables the KEMX-2030 to deliver exceptional performance while maintaining energy efficiency, a crucial factor in today's environmentally conscious world.

One of the standout features of the KEMX-2030 is its support for Intel's Hyper-Threading technology. This technology allows each core to handle two threads simultaneously, effectively doubling the number of tasks the processor can manage at once. As a result, users can experience improved multitasking and faster processing times, especially in applications that require heavy computations.

The KEMX-2030 also includes built-in artificial intelligence (AI) capabilities that facilitate real-time machine learning applications. With dedicated AI accelerators, the processor can efficiently execute complex algorithms, making it suitable for tasks such as image and speech recognition, natural language processing, and more. This integration of AI and machine learning technologies not only boosts productivity but also opens up new avenues for innovation across industries.

In terms of connectivity, the KEMX-2030 supports the latest standards, including Thunderbolt 4 and USB4. This enables high-speed data transfers and connectivity to a wide array of peripherals. Additionally, the processor is optimized for use in edge computing environments, making it an ideal choice for IoT applications that require quick and reliable data processing at the source.

Thermal management is another critical aspect of the KEMX-2030's design. The processor utilizes advanced thermal throttling techniques to regulate temperature effectively during intensive tasks. This ensures stable performance without the risk of overheating, prolonging the lifespan of the hardware.

In summary, the Intel KEMX-2030 represents a significant advancement in processor technology. With its high-performance capabilities, energy-efficient design, and robust support for AI and connectivity, it is poised to become a preferred choice for a wide range of computing applications, driving innovation and efficiency in various fields.