Intel IP-4MTS6B IDE Primary/Secondary Master/Slave PIO, IDE Primary/Secondary Master/Slave Udma

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Award BIOS Setup

IDE Primary/Secondary Master/Slave PIO:

The four IDE PIO (Programmed Input/Output) fields let you set a PIO mode (0-4) for each of the four IDE devices that the onboard IDE interface supports. Modes 0 through 4 provide successively increased performance. In Auto mode, the system automatically determines the best mode for each device.

The choice: Auto, Mode 0, Mode 1, Mode 2, Mode 3 and Mode 4.

IDE Primary/Secondary Master/Slave UDMA:

Ultra DMA/33 implementation is possible only if your IDE hard drive supports it and the operating environment includes a DMA driver (Windows 95 OSR2 or a third-party IDE bus master driver). If your hard drive and your system software both support Ultra DMA/33, select “Auto” to enable BIOS support.

The choice: Auto, Disabled.

IDE HDD Block Mode:

Block mode is also called block transfer, multiple commands, or multiple sector read/write. If your IDE hard drive supports block mode (most new drives do), select Enabled for automatic detection of the optimal number of block read/writes per sector the drive can support.

The choice: Enabled, Disabled

Onboard Device:

Onboard Device

USB Controller

Enabled

 

USB 2.0 Controller

Enabled

 

USB Keyboard Support

Disabled

USB Mouse Support

Disabled

AC97 Audio

Auto

Onboard LAN1 Device

Enabled

Onboard LAN2 Device

Disabled

Init Display First

Onboard/AGP.

Item Help

____________________________

Menu Level ¾

↑↓←→Move Enter: Select +/-/PU/PD: Value F10: Save ESC: Exit F1: General Help

F5: Previous Values F6: Fail-safe defaults

F7: Optimized Defaults

USB / USB 2.0 Controller:

Select “Enabled” if your system contains a Universal Serial Bus (USB) / USB

2.0controller and you have USB peripherals. The choice: Enabled, Disabled.

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Contents IP-4MTS6B Embedded BoardPage Copyright TrademarkContents Award Bios Setup Page Section Introduction Unpacking IP-4MTS6B / 4GMS6F SeriesIntroduction Features Graphic & Ethernet DescriptionHardware Monitoring 4 I/O Shield ConnectorUltra ATA/66/100 Power-On/Off Remote 6 IP-4MTS6B / IP-4GMS6F Series OverviewSystem Block Diagram Addr Ctrl DataSpecifications ¡ Processor IP-4MTS6B ¡ External Connector¡ Chipset IP-4MTS6B ¡ Dram Module¡ Bios Section Installations System Installation CPU Installation IP-4MTS6B seriesHeat Sink Installation Removing a CPUMemory Module Installation Dimm Memory and 184-pins SocketRemoving a Dimm Setting Jumpers IP-4MTS6B Jumper & Connector Location Board LayoutJumper Setting Table for Jumper Location Description Jumpers Functions Clear Cmos setting select JP4 Function Location  Auto power on setting select JP5 FunctionJP4 Location LCD power setting select JP6 Function Connector’s Description IP-4MTS6B Connector Location Table for Connector’s Location Description Connectors FunctionsVCC  IrDA connector 5-pins pin-header CN4 Pin # Assignment Keyboard data Ground  USB 2/3 connectors 4-pins female CN6 Pin # Assignment  USB 0/1 connectors 4-pins female CN7 Pin # Assignment Pin # Assignment  External keyboard & mouse connector 6-pins pin-header CN8 COM2 RS-232 serial port connector 10-pins pin-header CN9 YAM0 YAM1 YAP0 YAP1  System fan power connector CN13 Pin # Assignment  CPU fan power connector CN14 Pin # Assignment  Audio Lineout pin-header CN15 Pin # AssignmentDRQ Index  20-pins ATX power connector CN19 Pin # Assignment  Cdin pin-header CN18 Pin # AssignmentNo Connect Reset PWR on Speaker PWR LEDKeylock HDD LED LAN1 LED pin-header JP2 Pin # Assignment Section Award Bios Setup Bios InstructionsSetup Items Standard Cmos FeaturesAdvanced Bios Features Advanced Chipset FeaturesPower Management Setup PnP / PCI ConfigurationLoad Fail-Safe Defaults Load Optimized DefaultsEGA/VGA Total Memory Option N/A Base Memory Option N/AExtended Memory Option N/A IDE Adapters IDE HDD Auto-Detection Options Press EnterAward Bios Setup CPU Feature HDD-0Quick Power On Self Test First / Second / Third Boot DeviceBoot Other Device Thermal ManagementBoot Up Floppy Seek Boot Up NumLock StatusTypematic Rate Setting Typematic Delay MsecApic Mode MPS Version Control For OSOS Select For Dram 64MB Report No FDD For WIN95Dram Timing Selectable CAS Latency TimeActive To Precharge Delay Dram RAS# To CAS# DelayDram Data Integrity Mode System Bios CacheableDelayed Transaction Delay Prior To ThermalOn-Chip VGA Setting Boot DisplayOnChip IDE Device OnChip Primary/Secondary PCI IDEIDE HDD Block Mode IDE Primary/Secondary Master/Slave PIOIDE Primary/Secondary Master/Slave Udma Onboard DeviceUSB Keyboard Support USB Mouse SupportAC97 Audio Onboard LAN1/2 DeviceKB Power on Password Option Enter Uart Mode SelectIR Transmission Delay UR2 Duplex ModeUse IR Pins Parallel Port ModeEPP Mode Select ECP Mode Use DMAVideo Off Method SYNC+BlankBlank Screen DpmsSuspend Mode HDD Power DownVideo Off In Suspend Suspend TypePM Events PnP/PCI Configurations Reset Configuration DataResource controlled by IRQ ResourcesIRQs PCI/VGA Palette SnoopVcore / Vbat Spread Spectrum Frequency/Voltage ControlAuto Detect PCI CLK Load Fail-Safe Defaults Supervisor/User Password Setting Enter PasswordExit Selecting Save & Exit Setup Save to Cmos and Exit Y/N? YExit Without Saving Quit without saving Y/N? Y

IP-4MTS6B specifications

The Intel IP-4MTS6B is a sophisticated and high-performance microprocessor designed for a wide range of applications, particularly in embedded systems and industrial automation. Known for its energy efficiency and robust capabilities, the IP-4MTS6B is a prominent choice for developers seeking reliability and superior performance in demanding environments.

One of the main features of the Intel IP-4MTS6B is its quad-core architecture, which provides exceptional processing power and allows for parallel task execution. This multi-core design enhances the overall throughput while minimizing lag and latency, making it ideal for applications that require real-time data processing. The processor supports advanced instruction sets, including SSE and AVX, enabling it to handle complex calculations efficiently.

Another key characteristic of the Intel IP-4MTS6B is its support for various connectivity options. It comes equipped with multiple I/O interfaces, including USB, UART, and Ethernet, which facilitate seamless communication with other devices and networks. This versatility makes it suitable for Internet of Things (IoT) applications, where connectivity and interoperability are critical.

The technology behind the Intel IP-4MTS6B also incorporates enhanced thermal management features, allowing it to operate within a wide temperature range. This thermal resilience ensures the processor maintains performance in harsh environments, making it perfect for industrial and automotive applications.

In terms of memory support, the IP-4MTS6B can interface with both DDR3 and DDR4 RAM, providing flexibility in system design and enabling higher memory bandwidth for improved performance. The processor's integrated graphics engine further enhances its capabilities, allowing for advanced graphics processing, which is essential in applications requiring visualization and graphical user interfaces.

Power efficiency is another standout feature of the Intel IP-4MTS6B. It is designed for low power consumption, which helps in reducing overall system costs, especially in battery-operated devices. This energy efficiency does not compromise performance; on the contrary, it ensures a balance between power usage and the high processing demands of modern applications.

Overall, the Intel IP-4MTS6B stands out as a reliable choice for developers looking to leverage cutting-edge technology in their embedded solutions. Its combination of multi-core processing, diverse connectivity options, excellent thermal characteristics, and power efficiency makes it an exemplary microprocessor for a variety of advanced applications. Whether in industrial automation, embedded systems, or IoT devices, the IP-4MTS6B demonstrates Intel's commitment to innovation and quality in the semiconductor market.