Intel IXD1110 manual Installing the IXF1110 Software

Page 16

IXD1110 Demo Board

5.2Installing the IXF1110 Software

For proper installation of the IXF1110 software, follow these steps:

1.Verify that the CAT5-UTP cable is connected between the PC and the IXF1110 CPU daughter card. This allows access to the GUI interface. Refer to Section 4.0, “CPU Daughter Card” on page 13 for detailed installation instructions.

2.(Optional) The following connection is required to access the HyperTerminal interface:

CAT5-UTP cable (connected to a CPU daughter card)

DB-9–to–RJ-45 connector (connected to a CAT5-UTP cable)

DB-9–to–RJ-45 connector (connected to a COM port on a PC installed with IXF1110 software)

For more information, refer to Section 4.0, “CPU Daughter Card” on page 13 for detailed instructions.

3.Insert the CD into the PC.

4.If your system supports Autorun, follow the on-screen instructions.

5.If your system does not support Autorun, select Run... from the Start menu. The Run dialog opens.

6.Select setup.exe from the CD in the Open: window (click Browse... to find setup.exe if not already in the window).

7.Click OK.

8.Follow the on-screen instructions.

9.Locate the IXD1110 demo board IP address that is located on the CPU daughter card. The IP address is required each time the GUI is opened.

10. Start the IXF1110 software GUI by double clicking the desktop icon.

Note: The IXF1110 software includes online documentation that describes how to run the GUI and HyperTerminal interfaces. Refer to the quick-start section of the IXF1110 Demonstration Software Help File for additional instructions on use of these interfaces.

5.3Changing the IP Address of the CPU Daughter Card (Optional)

The CPU daughter card comes with a default IP address, which is listed on a sticker attached to the daughter card. The GUI uses this IP address to locate the IXD1110 demo board. The IP address may need to be changed depending on the PC or network to which the board is attached. Use the following procedure to permanently change the IP Address of the CPU daughter card:

1.Ensure the IXD1110 demo board has been set up correctly (see Section 2.0, “Quick Start” on page 11).

2.Open the HyperTerminal on the PC to which the CPU daughter card serial port is attached, and configure the relevant COM port with the following settings:

Speed: 9600 Baud

Databits: 8

16

Development Kit Manual

Document Number: 250807

Revision Number: 003

Revision Date: June 27, 2003

Image 16
Contents Intel IXD1110 Demo Board Development Kit ManualDevelopment Kit Manual Contents Figures TablesRevision History Contents About This Kit IntroductionAdditional Equipment Required Features About The IXD1110 Demo BoardIntel IXD1110 Demo Board Principal Components Component DescriptionFpga Setup Quick StartTypical Test Setup Typical Test SetupCPU Daughter Card Intel IXF1110 CPU Daughter CardCPU Fpga IXF1110 Register Modifications on StartupIXF1110 Software PC RequirementsInstalling the IXF1110 Software Changing the IP Address of the CPU Daughter Card OptionalDram OK Optional Configurations Reset Jumper JP2Jtag Test Signals Jtag Test Signals JP1LEDs IXF1110 LED BehaviorReset Test Points Test PointsIXF1110 Input Clock Test Points Gbic Test PointsMictor Connector Test Points Sheet 1 Mictor ConnectorsGbic Test Points Sheet 2 Power and Ground Test Points Mictor Connector Test Points Sheet 2Power Test Points Sheet 1 Test Point Symbol DescriptionPower Test Points Sheet 2 Ground Test PointsUnused Test Points Unused Test PointsTest Points Description Schematics IXD1110 Demo Board Power Revision A1Digital Power 2.5 Digital Power1.8GND Intel IXD1110 Analog Power Analog PowerControl I2C Data I2CDATA3 MODDEF3 MODDEF0I2CDATA4IXF0 I2CDATA4AB9 AC9I2CDATA6 MODDEF6IXD1110 SerDes/GBIC PortMODDEF9 L1 I2CDATA9IXF0SPI-4 Phase 2 TX SPI-4 Phase 2 RXIXD1110 SPI4-2 SER SrclkSrclr RclkPower IXF1110 & CPU Interfaces+2.5V +3.3VConnectors GND GND GND GND GND CLK0 CLK1 CLK3GND CLK2 Intel IXD1110 Demo Board Bill of Materials Rev. A1 Bill of MaterialsReference Designator Description Manufacturer Part Number Misc Bottom Testpoint

IXD1110 specifications

The Intel IXD1110 is an advanced integrated circuit that serves as a highly efficient and versatile solution for various communication and data processing applications. Built on Intel's cutting-edge technology, the IXD1110 showcases enhanced performance characteristics tailored for modern industrial and embedded systems.

One of the most notable features of the IXD1110 is its robust processing capability. Designed to support high-speed data transfer, this device operates with a clock frequency of up to 500 MHz. Such a high processing speed ensures that the IXD1110 can handle data-heavy applications with ease, making it an ideal choice for real-time data processing tasks.

In terms of connectivity, the IXD1110 boasts multiple communication interfaces. It supports Ethernet, SPI, and I2C protocols, allowing seamless integration into various system architectures. The Ethernet interface ensures high-bandwidth connectivity, giving developers the flexibility to connect the IXD1110 to both wired and wireless networks. This opens up possibilities for IoT (Internet of Things) applications, where reliable and fast communication is critical.

Another standout feature of the IXD1110 is its low-power consumption, which is a significant consideration for embedded systems and battery-powered devices. Intel has implemented advanced power management technologies in the IXD1110, enabling it to operate efficiently while minimizing energy usage. This characteristic not only extends the lifespan of the devices it powers but also reduces overall operational costs.

The IXD1110 also includes advanced security features, catering to the growing demand for secure processing in connected devices. Integrated hardware security mechanisms help safeguard against vulnerabilities and attacks, ensuring data integrity and protecting sensitive information.

Additionally, the IXD1110 is designed for scalability, allowing developers to adapt the device to a wide range of applications, from automotive systems to industrial automation. Its flexible architecture accommodates future upgrades and enhancements, making it a long-term investment for companies looking to future-proof their systems.

In conclusion, the Intel IXD1110 stands out with its high processing speeds, versatile connectivity options, low power consumption, advanced security features, and scalability. These attributes make it a compelling choice for organizations looking to leverage cutting-edge technology in their communication and data processing systems. As industries continue to evolve towards greater connectivity and automation, the IXD1110 is positioned as a key enabler in this technological transformation.