Mini-ITX
Mini-ITX Base Kit: The AMD Xilinx Zynq®-7000 All Programmable SoC Mini-ITX Base Kit provides a complete development platform for designing and verifying applications based on the AMD Xilinx Zynq-7000 All Programmable SoC family. Along with the Mini-ITX development board, available with the Zynq XC7Z045-2FFG900 or the XC7Z100-2FFG900 device, the kit includes the cables, hardware and software needed to create a complete development system.
Mini-ITX System Kit:The AMD Xilinx Zynq®-7000 All Programmable SoC Mini-ITX System Kit builds on the AMD Xilinx Zynq®-7000 All Programmable SoC Mini-ITX Base Kit, and includes the hardware to create a complete standalone system.
The Mini-ITX boards are discontinued, documentation is provided for support.
- Technical Documents
- Reference Designs
- Technical Specifications
- FAQS
This is the software and hardware platform, boot files, Linux kernel and RAMdisk that are provided on the pre-installed SD card.
This application note builds on a PetaLinux BSP and demonstrates how to use a USB device to store Linux and bitstream images. The BOOT.BIN file is reduced to < 400 KB in size, and u-boot is responsible for loading the programmable logic via PCAP.
This reference design demonstrates how to create a bare metal system to output HDMI video and audio using the ADI ADV7511 HDMI transmitter. The IP used in this design is free and publicly available through ADI.
Zynq Mini-ITX 7Z045 HDMI Bare Metal - Vivado 2014.4
Zynq Mini-ITX 7Z100 HDMI Bare Metal - Vivado 2014.4
Zynq Mini-ITX 7Z045 PetaLinux Compressed BSP v2016.2
Zynq Mini-ITX 7Z100 PetaLinux Compressed BSP v2016.2
Zynq Mini-ITX 7Z045 PetaLinux Compressed BSP v2015.2.1
Zynq Mini-ITX 7Z100 PetaLinux Compressed BSP v2015.2.1
Zynq Mini-ITX 7Z045 PetaLinux Compressed BSP v2014.4
Zynq Mini-ITX 7Z100 PetaLinux Compressed BSP v2014.4
Zynq Mini-ITX 7Z045 PetaLinux Compressed BSP v2014.2
Zynq Mini-ITX 7Z100 PetaLinux Compressed BSP v2014.2
This reference design demonstrates how to create, customize and execute a PetaLinux kernel on Avnet Zynq system platforms.
Zynq Mini-ITX 7Z045 Petalinux Design v2015.2.1
Zynq Mini-ITX 7Z100 Petalinux Design v2015.2.1
Zynq Mini-ITX 7Z045 PetaLinux Design v2014.4
Zynq Mini-ITX 7Z100 PetaLinux Design v2014.4
Zynq Mini-ITX 7Z045 PetaLinux Design v2014.2
Zynq Mini-ITX 7Z100 PetaLinux Design v2014.2
This reference design demonstrates how to use the Xilinx IBERT to test the SFP interface on the Mini-ITX board.
Zynq Mini-ITX 7Z045 IBERT Design - Vivado 2015.2
Zynq Mini-ITX 7Z100 IBERT Design - Vivado 2015.2
Zynq Mini-ITX 7Z045 IBERT Design - Vivado 2014.4
Zynq Mini-ITX 7Z100 IBERT Design - Vivado 2014.4
Zynq Mini-ITX 7Z045 IBERT Design - Vivado 2014.2
Zynq Mini-ITX 7Z100 IBERT Design - Vivado 2014.2
This reference design is based on a standalone OS and demonstrates how to test a SATA-III hard drive connected to the Mini-ITX board.
This reference design is based on a standalone OS and demonstrates the basic functionality of the Mini-ITX board.
Zynq Mini-ITX 7Z045 Embedded Design - Vivado 2015.2
Zynq Mini-ITX 7Z100 Embedded Design - Vivado 2015.2
Zynq Mini-ITX 7Z045 Embedded Design - Vivado 2014.4
Zynq Mini-ITX 7Z100 Embedded Design - Vivado 2014.4
Zynq Mini-ITX 7Z045 Embedded Design - Vivado 2014.2
Zynq Mini-ITX 7Z100 Embedded Design - Vivado 2014.2
This reference design demonstrates how to build a PCIe Root Complex System on the Mini-ITX board.
Zynq Mini-ITX 7Z045 PCIe Design - Vivado 2015.2
Zynq Mini-ITX 7Z100 PCIe Design - Vivado 2015.2
Zynq Mini-ITX 7Z045 PCIe Design - Vivado 2014.4
Zynq Mini-ITX 7Z100 PCIe Design - Vivado 2014.4
Zynq Mini-ITX 7Z045 PCIe Design - Vivado 2014.2
Zynq Mini-ITX 7Z100 PCIe Design - Vivado 2014.2
This reference design demonstrates how to interface the ARM DSTREAM debug adapter to the Mini-ITX board.
Zynq Mini-ITX 7Z045 DSTREAM Design - Vivado 2015.2
Zynq Mini-ITX 7Z100 DSTREAM Design - Vivado 2015.2
Zynq Mini-ITX 7Z045 DSTREAM Design - Vivado 2014.4
Zynq Mini-ITX 7Z100 DSTREAM Design - Vivado 2014.4
Zynq Mini-ITX 7Z045 DSTREAM Design - Vivado 2014.2
Zynq Mini-ITX 7Z100 DSTREAM Design - Vivado 2014.2
These tutorials provide a means to integrate several different technologies on a single platform. Using the Avnet target boards, we have the power of ARM processors, combined with the unrivaled flexibility of Xilinx programmable logic to implement custom hardware systems. We use a Linux kernel as the foundation operating system running on the processor cores which enables a very large ecosystem of software to be run on our development kits. Virtual machines can provide a very convenient Ubuntu development environment for building the hardware platform and cross-compiling software to target the Processing System.
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| OTHER | Other Peripherals
Clocks
Zynq Processor
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Do Avnet's products come with a warranty? ... more
- Board Kit
- AMD Xilinx XC7Z045/XC7Z100-2FFG900
- 1 GB PS DDR3 SDRAM
- 1 GB PL DDR3 SDRAM
- 32 MB of QSPI Flash
- 8 KB of I2 C EEPROM
- Real-Time Clock
- 10/100/1000 Ethernet Interface
- USB-UART Interface
- microSD Card Interface
- USB 2.0 4-Port HUB
- PCIe Gen2 x4 Root Complex (x16 physical Slot)
- SATA-III Interface
- FMC HPC Slot (VADJ of 1.8 V, 2.5 V, or 3.3 V)
- SFP Socket
- LVDS Touch Panel Interface
- HDMI Interface
- Audio Codec
- User LEDs and Switches
- Programmable LVDS Clock Source (GTX reference clock)
- 200 MHz LVDS Oscillator (system clock)
- JTAG Header
- Processor PJTAG Header
- Digilent USB-JTAG Module (JTAG-SMT2)
- Base Kit
- Mini-ITX development board
- FMC Adapter
- Two micro USB cables
- 4 GB microSD card
- 200 W ATX power supply
- AMD Xilinx Vivado® Design Edition software license voucher (device locked to 7Z045 or 7Z100)
- System Kit
- Mini-ITX Base Kit
- Mini-ITX Chassis
- FMC Adapter
- 500 GB SATA-III Hard Drive
