Intel US15W user manual Firmware Configuration

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Quick Start

A.1.2 Firmware Configuration

To enable Mott Canyon 4 Interposer card High Definition Audio functionality, the Firmware settings may need to be modified.

To modify the Firmware settings do the following:

1.With the system powered off, press the power button located at SW3J1.

2.As the system boots, press DEL on the keyboard to enter the Firmware setup screen.

3.Move the top cursor (using the sideways arrow keys) to Chipset.

4.Move the screen cursor (using the up/down arrow keys) to South Bridge Configuration and press the Enter key.

5.Move the screen cursor to Audio Controller Codec and press the Enter key.

6.Select Azalia for the audio codec.

7.Save the settings and exit the Firmware.

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User’s Manual

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Document Number: 320264

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Contents July Document # Revision User’s ManualUser’s Manual Document Number Contents Power Up Tables FiguresDocument Revision Description Revision HistoryInitial release Release for public postingAbout the Development Kit IntroductionTerm Definition TerminologyAdditional Technical Support Technical SupportRelated Documents Product LiteratureIntel Literature Centers Related DocumentsCrown Beach Board Crown Beach Board Block DiagramCrown Beach Board Top View Getting StartedCrown Beach Feature Set Summary Major FeaturesFeature Crown Beach Board Comments Implementation OverviewSDIO/MMC Processor Voltage Regulators Processor SupportSMC/KBC Intel SCH Chipset Subsystem DescriptionsSystem Memory DisplayPCI Express* Slots Manufacturer Size Resolution Back Aspect Part#Soft Audio/Soft Modem Crown Beach Supported Lvds DisplaysPata Storage USB ConnectorsLPC Slot System Management Controller SMC/Keyboard Controller KBCTrusted Platform Module TPM Header EFI Firmware Hub FWH12 SD/SDIO/MMC ClocksIn-Target Probe ITP and Debug Support Power Supply SolutionBoard Size Board TechnologyPower Measurement Support Power ManagementPower Measurement Resistor EquationAgilent 34401A 6½ digit Crown Beach Voltage RailsSch Component Voltage Supply Rail Ref Des Resistor Lvdsddc DDR2VRLvdsbcklt LvdsvdlKeyboard +V12SCPU Vcore+V12S Connectors Crown Beach Board FeaturesReference Board Summary Ref Des Description Back Panel ConnectorsConfiguration Jumpers/Switches Configuration SettingsBbprog Configuration Jumper/Switches SettingsPSON# Bsel Jumper Settings Bsel Jumper SettingsManual VID Support for CPU ProcessorCrown Beach Manual VID Power On and Reset Push ButtonsCrown Beach LEDs LEDsFunction Reference Designator Mini Card a connector J7H1 is enabled by default PCI Express* X1 Slots and Mini Card ConnectorsPCI Express* Slot 1 Board Rework to Enable Functionality Rework Impacted components CommentsMini Card B Board Rework to Enable Functionality Mini Card B connector J2G1 is disabled by defaultH8S Jtag Programming Headers 1 H8 In-System ProgrammingReference Board Summary H8 Programming Jumpers Uart ConnectorJtag Required Peripherals Quick StartSamsung 15 inch 381.00 mm Panel Graphics Assembly Lvds PanelCrown Beach Board Lvds Cable Connected to the Crown Beach Board Power Up Powering Up the Board EFI Firmware Updates Mott Canyon 4 Interposer Card Appendix a Daughter and Plug-In CardsMott Canyon 4 Interposer Card Jumper SettingsDescription Default Setting Optional Setting Reference Mott Canyon 4 Interposer Card Configuration Jumper/SwitchesFirmware Configuration Voltage Identification Definition Appendix B Intel MVP-6 VID CodesVID6 VID5 VID4 VID3 VID2 VID1 VID0 VCC 5625 External Feature Location Front of Chassis Appendix C External FeaturesRear Chassis View with Board Installed External Feature Location Rear of Chassis

US15W specifications

The Intel US15W is an embedded chipset designed to meet the demands of ultra-low power computing environments. Released in 2008, this chipset was aimed at small form-factor devices such as netbooks, thin clients, and embedded systems. With its unique blend of features, the US15W has played a crucial role in the evolution of low-power computing technologies.

One of the standout characteristics of the US15W chipset is its integration of a single-chip design, which significantly reduces the overall footprint of the system. This is particularly advantageous for manufacturers looking to create compact devices without compromising on performance. The chipset integrates the Intel Atom processor, which is known for its efficient power consumption and solid performance for lightweight applications. The combination provides a balance between energy efficiency and processing capability, making it suitable for various applications ranging from internet browsing to multimedia playback.

Another major feature of the Intel US15W is its support for Intel's Graphics Media Accelerator 500, which enhances visual performance by providing hardware acceleration for graphics rendering. This capability enables smoother video playback and improved graphical user interfaces, which are essential for user-centric devices.

The US15W chipset also supports various connectivity options, including USB 2.0 and Serial ATA (SATA) interfaces. This flexibility allows for ease in peripheral connectivity and storage solutions, accommodating the needs of embedded applications and consumer electronics alike. Moreover, the chipset supports Intel's Enhanced SpeedStep technology, a power management feature that adjusts processor voltage and frequency based on workload, helping to extend battery life in portable devices.

In terms of memory support, the Intel US15W can handle up to 2GB of DDR2 RAM, which is adequate for many embedded computing tasks. The chipset is designed to facilitate efficient thermal management, which is crucial in maintaining long-lasting performance in compact and thermally constrained environments.

Overall, the Intel US15W chipset exemplifies the shift towards energy-efficient, compact computing solutions. Its innovative integration of features, support for modern graphics, and robust connectivity options make it a significant player in the embedded chipset market. As technology continues to evolve, the US15W remains a testament to Intel's commitment to providing high-performance solutions that meet the demands of modern computing without sacrificing power efficiency.