Zynq-7000 AP SoC SATA part 3 – Ready to Run NAS Design Example Setup
Zynq SSE for Network-Attached Storage for the Avnet Mini-ITX - Setup
Network-Attached Storage (NAS) is a file-level data storage connected to a computer net- work, typically via Ethernet transporting TCP/IP and/or UDP communication. Missing Link Electronics (MLE) Zynq SATA Storage Extension (Zynq SSE) is a fully integrated and pre-validated system stack comprising 3rd-party SATA Host Controller and DMA IP cores from ASICS World Services, a storage micro-architecture from MLE, Xilinx PetaLinux, and an Open Source SATA Host Controller Linux kernel driver, also from MLE. Zynq SSE utilizes the Xilinx GTX Multi Gigabit Transceivers to deliver SATA I (1.5 Gbps), SATA II (3.0 Gbps), or SATA III (6 Gbps) connectivity. When combined with Zynq’s networking capabilities this effectively leads to a demonstration of Networked Storage, or NAS. This Technical Tip shows how to setup the Zynq SSE to demonstrate NAS functionality. After going through the steps described herein, you will have a working Linux System running on the Zynq with an attached SATA HDD or SSD, making files stored on the attached disk available to other networked clients.
Team MLE has spent significant efforts to try and test all aspects of Zynq SSE. However, if you feel that you encounter something not right, or if you do have any questions, please do not hesitate to contact us. The best way to contact MLE is to fill out the Contact Request Form athttp://MLEcorp.com/ZynqSSE
The block diagram shown below gives an overview over the Zynq SSE reference design: Within the Zynq Programmable Logic (PL) the MLE storage micro-architecture instantiates the DMA and the SATA Host Controller IP blocks. The storage micro-architecture itself interfaces with the Zynq Processing System (PS) via the high-performance AXI HP0 slave port. The ARM A9 in the PS runs Xilinx PetaLinux and the SATA Linux kernel driver.
|Design Type||PS + PL|
|SW Type||Linux (Petalinux)|
|CPUs||2 CPUs 700 MHz|
|PS Features||DDR, USB, UART, ETHERNET|
|PL Cores||ASICS.WS SATA IP|
|Boards/Tools||Avnet Mini ITX Z045|
|Xilinx Tools Version||Vivado 2014.1, PETALINUX 2013-2|
|Other Details||SATA SSD(including Cable and Power Supply), SD-Card|
|SATA IP||0x41000000||4K||S AXI|
|DMA IP||0x41010000||4K||S AXI, M AXI|
For the available Project to built your ZYNQ SSE got to http://mlecorp.com/zynqsse
Step by Step Instructions
• Avnet Mini ITX Z045 Board (including Power supply) Link
- Micro USB Cable for USB Console
- Supported SSD (for Example Samsung 840)
- Power Supply for SSD
- Micro SD Card (2 GB or bigger)
- Ethernet Cable to connect Host PC and Avnet ITX board
• PC for UART console
1. Format the SD Card using FAT32 File system
2. Put image.ub and BOOT.bin into the root directory of the SD Card
- Insert the SD Card into the Avnet Mini ITX board’s SD Slot
- Connect the micro USB cable to the UART port o
f the Avnet Mini ITX board and the USB Port of your PC
- Connect the Ethernet port of the host pc to the ethernet port of the Avnet MINI ITX
- Connect the SSD to the SATA connector on the Avnet Mini ITX board using the SATA Cable.
- Connect the SSD to power
- Switch the Avnet Mini ITX board’s SW7 to SD Boot mode (as shown in picture)
- Connect the Avnet Mini ITX board to the Power Supply
The system should now look like in the supplied image
Connect to the Avnet Board using RS232
- Switch on the Avnet Mini ITX board
- On the PC open a Serial Terminal on the new serial port using the settings 115200 Baud 8N1
- Observe the Linux System booting
- After some time you should see a screen similar to the screenshot in the Expected Results.
- Login using
Connect to the Avnet Board using FTP
- configure the ethernet port on the host PC to have an IP address of 10.89.231.1 and a subnet mask of 255.255.255.0
It is crucial to configure the Host PC that way so that it can connect to the ZYNQ board
- The ZYNQ-board has an pre-supplied IP of 10.89.231.200
- now connect to the ZYNQ-board which has the IP of 10.89.231.200 using an FTP program and start transferring data to it
$ ftp 10.89.231.200
Connected to 10.89.231.200.
220 Operation successful
Name (10.89.231.200:christian): root
230 Operation successful
Remote system type is UNIX.
Using binary mode to transfer files.
Status LEDs can be found next to the PCIe connector. The associated meanings can be seen in the following table and in the Image below.
Figure 1: Location of the User LEDs on the Avnet Mini ITX Board
As a result you should be having a running Linux system on the Zynq board. The UART Console output should be similar to the screenshot below.
Also you will have file-system access to the attached SSD using FTP, and by this evaluate and test the Zynq Sata Storage extension.
The Evaluation Reference Design (ERD) of the Zynq SSE comprises a hardware license management which allows to run full SATA functionality for up to 12 hours after power-up. After approximately 12 hours the evaluation expires, which is indicated by illuminating the LED ’timeout’. You will also notice that the Linux kernel driver informs you of having lost the SATA link to the SSD/HDD.
|D7||Timeout LED, indicates the Timeout of the IP core.|
|D6||Gen3 Link, indicates 6 GBit/s connection|
|D5||Gen2 Link, indicates 3 GBit/s connection|
|D4||Linkup and Activity, Led will light up on Linkup and will go dark during data transfers|