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Zynq-based WISER platform - Start-up test
Table of Contents
- SDR Tutorials
Description
This tutorial shows how to load the Zynq-based WISER platform (Zedboard + ADFMCOMMS1) on ORBIT and run a start-up test.
Hardware / Software Resources utilized
- An SB6 node with WISER platform connected to it.
- wiser_sb6_zedboard.ndz: disk image.
Set up
- To get started first make a reservation on the Orbit Scheduler for using the SB6.
- After logging into SB6 console, image one of the nodes
omf load -i wiser_sb6_zedboard.ndz -t node1-1
- Once imaging is done, turn the node on
omf tell -a on -t node1-1
- Wait for the node to turn on and log in
ssh root@node1-1
Loading the Zedboard
Launch XMD
root@node1-1:~# xmd Xilinx Microprocessor Debugger (XMD) Engine Xilinx EDK 14.7 Build EDK_P.20131013 Copyright (c) 1995-2012 Xilinx, Inc. All rights reserved. XMD%
To program the Zedboard, use the script zedboard_load.tcl
XMD% source zedboard_load.tcl bit file - cr_top_spec_sense_rx.bit elf file - eth_fmcomms_spec_sense.elf Programming Bitstream -- cr_top_spec_sense_rx.bit Fpga Programming Progress ............10.........20.........30.........40....... ..50.........60.........70.........80.........90........Done Successfully downloaded bit file. JTAG chain configuration -------------------------------------------------- Device ID Code IR Length Part Name 1 4ba00477 4 Cortex-A9 2 03727093 6 XC7Z020 JTAG chain configuration -------------------------------------------------- Device ID Code IR Length Part Name 1 4ba00477 4 Cortex-A9 2 03727093 6 XC7Z020 -------------------------------------------------- Enabling extended memory access checks for Zynq. Writes to reserved memory are not permitted and reads return 0. To disable this feature, run "debugconfig -memory_access_check disable". -------------------------------------------------- CortexA9 Processor Configuration ------------------------------------- Version.............................0x00000003 User ID.............................0x00000000 No of PC Breakpoints................6 No of Addr/Data Watchpoints.........4 Connected to "arm" target. id = 64 Starting GDB server for "arm" target (id = 64) at TCP port no 1234 Downloading Program -- eth_fmcomms_spec_sense.elf section, .text: 0x00100000-0x0011faa7 section, .init: 0x0011faa8-0x0011fabf section, .fini: 0x0011fac0-0x0011fad7 section, .rodata: 0x0011fad8-0x00120df7 section, .data: 0x00120df8-0x00121c37 section, .eh_frame: 0x00121c38-0x00121c3b section, .mmu_tbl: 0x00124000-0x00127fff section, .ARM.exidx: 0x00128000-0x00128007 section, .init_array: 0x00128008-0x0012800f section, .fini_array: 0x00128010-0x00128013 section, .bss: 0x00128018-0x0012879b section, .heap: 0x0012879c-0x0012a79f section, .stack: 0x0012a7a0-0x0012fb9f Download Progress..10.20.30.40.50.60.70.80.90.Done Setting PC with Program Start Address 0x00100000 XMD%
Open another terminal and run the startdhcp shell script, which configures the Ethernet interface to Zedboard, and starts DHCP server on the node.
root@node1-2:~# ./startdhcp.sh * Starting ISC DHCP server dhcpd [ OK ] root@node1-2:~#
Launch minicom to display serial data sent by the Zedboard.
root@node1-2:~# minicom Welcome to minicom 2.7 OPTIONS: I18n Compiled on Jan 1 2014, 17:13:19. Port /dev/ttyACM0, 12:30:47 Press CTRL-A Z for help on special keys
Running a start up test
At the XMD prompt, start the processor by typing "con"
XMD% con Processor started. Type "stop" to stop processor RUNNING> XMD%
The following would be printed out in the minicom window.
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