Difference between revisions of "APF6 SP The full howto"

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(Linux BSP configuration)
(Linux BSP configuration)
Line 284: Line 284:
  
 
* Get a compiled BSP with following configuration : '''apf6_defconfig'''
 
* Get a compiled BSP with following configuration : '''apf6_defconfig'''
 +
* Adding [[Pci_debug| PCI debug]] package with '''make menuconfig'''
 +
<pre class="config">
 +
Target packages  --->
 +
    Hardware handling  --->
 +
        [*] pcidebug
 +
</pre>
  
 
= Conclusion =
 
= Conclusion =

Revision as of 11:15, 3 February 2016


Page under construction... 

Construction.png Informations on this page are not guaranteed !!

Introduction

This is the full howto to make an APF6_SP CycloneV example design to use :

  • PCIe
  • DDR3
  • LED
  • Button

This howto is designed for :

  • APF6D_SP-M1GE4G-4m-BW-C4M384: APF6_SP Dual with CycloneV C4 (speed C8) and two DDR3 chips
  • Quartus 15.1.1 : Quartus 15 with update 1
The full design for this howto

To install quartus 15 see this page.

Make the quartus project

  • Open the new project wizard in Quartus
  • Select a directory for the design:
~/tmp/apf6_the_full_howto
  • Open an empty project
  • Change the device : right click on "Cyclone V"->Devices... in Project Navigator
  • Select the part number : 5CGXFC4C7U19C8
  • Click on Device and Pin Options
  • in CvP Settings set this options:
    • Configuration via Protocol: Core initialization and update

Make the Qsys project

  • Open Qsys: Tools->Qsys
  • Delete the component clk_0 then save the Qsys project with name : qsys_tfht.qsys
  • Clic on finish and generate the component with all options left by default
  • Under Quartus project add the Qsys project (don't forget to click on add after selected here.
How to add a file in project
  • Right click on qsys_tfht.qsys and set as Top-Level Entity
  • Relaunch Qsys by double-click on the file in project navigator

Adding the PCIe and CvP

  • In IP Catalog select the component:
Library
    Interface Protocols
        PCI Express
            Avalon-MM Cyclone V Hard IP for PCI Express
  • PCIe configuration:
    • Number of Lanes: x1
    • Reference clock frequency: 125Mhz
    • check "Use 62.5 MHz application clock"
    • BAR0: 32-bit non-prefetchable memory
    • BAR1: 32-bit non-prefetchable memory
    • BAR2: 32-bit non-prefetchable memory
    • Vendor ID: 0x00001172
    • Device ID: 0x0000e001
    • Class Code: 0x00001300: there is a bug in quartus, the actual class code is here 13
  • click on finish
  • Export these signal with name in bold:
    • refclk : refclk
    • npor: npor
    • hip_serial: hip_serial
  • connect Rxm_BAR0 on Cra
  • Adding CvP component reconfig driver, with all default parameters:
Library
    Interface Protocols
        PCI Express
            Altera PCIe Reconfig Driver
  • Connect these signals:
    • coreclkout -> reconfig_xcvr_clk
    • coreclkout -> pld_clk
    • nreset_status -> reconfig_xcvr_rst
  • Adding CvP component transceiver, with all default parameters:
Library
    Interface Protocols
        Transceiver PHY
            Transceiver Reconfiguration Controller
  • Connect these signals:
    • coreclkout -> mgmt_clk_clk
    • nreset_status -> mgmt_rst_reset
    • reconfig_mgmt -> reconfig_mgmt
    • reconfig_driver.reconfig_busy -> reconfig_busy
    • pci.reconfig_to_xcvr -> reconfig_to_xcvr
    • pci.reconfig_from_xcvr -> reconfig_from_xcvr
Wiring result after PCIe configured


Adding the DDR3

Note Note: When parameters should be left by default they are not indicated


UniPHY controller

  • In the IP catalog, select:
Library
    Memory Interfaces and Controllers
        Memory Interfaces with UniPHY
            DDR3 SDRAM Controller with UniPHY
  • Select checkbox Enable Hard External Memory Interface
  • In tab PHY Settings configure:
    • Speed Grade: 8
    • Memory clock frequency: 375Mhz
    • PLL reference clock frequency: 62.5Mhz
    • Rate on Avalon-MM interface: Full
    • supply Voltage: 1.35V DDR3L
  • In tab Memory Parameters
    • In preset select: JEDEC DDR3-1G6 2GB X8 and apply
    • Memory device speed grade: 400Mhz
    • Total interface width: 24
    • Row address width: 14
  • In tab Controller Settings
    • checkbox: Generate power-of-2 data bus widths for Qsys or SOPC Builder
    • checkbox: Enable Configuration and Status Register Interface (Internacl JTAG)
    • checkbox: Enable Error Detection and Correction Logic
  • Click on finish
  • Connect following signals:
    • coreclkout -> pll_ref_clk
    • coreclkout -> mp_cmd_clk_0
    • coreclkout -> mp_rfifo_clk_0
    • coreclkout -> mp_wfifo_clk_0
    • coreclkout -> csr_clk
    • nreset_status -> global_reset
    • nreset_status -> soft_reset
    • nreset_status -> mp_cmd_reset_n_0
    • nreset_status -> mp_rfifo_reset_n_0
    • nreset_status -> mp_wfifo_reset_n_0
    • nreset_status -> csr_reset_n

Span extender

DDR3 memory is to large for PCIe BAR domain. Then we have to use a span extender to adapt PCIe BAR domain to DDR3 domain.

  • Select span expander in IP Library:
Library
    Basic Functions
        Bridges and Adaptors
            Memory Mapped
                Address Span Extender
  • Configure it with these options:
    • Datapath Width: 64bits
    • Slave Word Address Width: 20bits
    • Finish
  • Connect following extender signals:
    • coreclckout -> clock
    • nreset_status -> reset
    • Rxm_BAR1 -> windowed_slave
    • expanded_master -> avl_0
    • Rxm_BAR0 -> cntl
      • Change base address of cntl to 0x0000_4000

Adding the button and led (PIO)

  • In IP Library select:
Library
    Processors and Peripherals
        Peripherals
            PIO (Parallel I/O)
  • Configure it with these options:
    • Direction: Bidir
    • checkbox Synchronously capture
    • Edge Type: RISING
    • checkbox Generate IRQ
    • IRQ Type: EDGE
  • click on finish
  • export external_connection to pio
  • Connect following signals:
    • coreclkout -> clk
    • nreset_status -> reset
    • Rxm_BAR2 -> s1
    • irq -> Rxmirq

Qsys component schematic

The resulting schematics should give the figure below.

The full connections in qsys component

Now click on finish and generate the component with all default parameters kept.

Generate bitstream with Quartus

  • Make a first synthesis, under task right click and start on :
Compile Design
    + Analysis & Synthesis

Pinout

  • PCIe
    • Create a file named 'pcie_pinout.tcl and edit it.
    • Copy all lines from here.
    • Save then add the file to project
    • Run the script with following menu, select it then run:
Tools
    TCL Scripts ...
  • DDR3
    • Create a file named 'ddr3_pinout.tcl and edit it.
    • Copy all lines from here (Pinout placement and Technology pinout).
    • Save then add the file to project
    • Run the script with following menu, select it then run:
Tools
    TCL Scripts ...
  • Button & Led
    • Open the pinplanner by double-click in tasks:
Compile Design
    Analysis & Synthesis
        I/O Assignment Analysis
            Pin Planner
    • For button pio_export[0] select Location column and set it to : PIN_L9
    • For led pio_export[1] select Location column and set it to : PIN_M10
    • Close the Pin Planner

Synthesis, Place & route

  • Right click on Analysis and Synthesis then Start
  • Open a Linux console terminal then go to your project directory and type this:
$ cd ~/tmp/apf6_the_full_howto
$ find . -name "*_p0_pin_map.tcl" | xargs sed -iolt "/_mem_if_ddr3_emif_0_p0_get_input_clk_id {/a     return \$pll_output_node_id"
Note Note: Each time synthesis is relaunched, this shell line must be relaunch
  • Right click on Assembler (Generate programming files) then Start
  • Convert bitstream to rbf with menu:
File
   Convert Programming Files...
  • set these options:
    • Programming file type: Raw Binary File (.rbf)
    • Change the name to : output_files/tfht.rbf
    • Select SOF Data in Input files to convert then click on Add File...
    • add the file apf6_the_full_howto.sof in directory output_files
    • checkbox Create CvP files (Generate tfht.periph.rbf and tfht.core.rbf)
    • click on Generate
  • These files should be present on directory output_files:
ls -l tmp/apf6_the_full_howto/output_files/*.rbf
tmp/apf6_the_full_howto/output_files/tfht.core.rbf
tmp/apf6_the_full_howto/output_files/tfht.periph.rbf

Linux BSP configuration

Note Note: This is not an Armadeus BSP tutorial, the BSP is supposed to be installed and compiled according to this explains


  • Get a compiled BSP with following configuration : apf6_defconfig
  • Adding PCI debug package with make menuconfig
Target packages  --->
    Hardware handling  --->
        [*] pcidebug

Conclusion

This tutorial should give you the basics to use the CycloneV soldered on the APF6_SP module. Now you should know:

  • PCIe:
    • How to instanciate the CycloneV hard IP
    • How to read/write data with it from Linux with simple access
    • How to raise IRQ and transmit it to Linux
  • DDR3:
    • How to instanciate and configure the UniPHY hard IP
    • How to connect it to PCIe
    • How to read/write simple data
  • Simple I/O:
    • How to instanciate a simple port for I/O under Qsys
    • How to drive it from Linux

Some subjects are not covered by this tutorial:

  • Increase data bandwidth with PCIe-DMA (up to 140MB/s)
    • From the FPGA to the i.MX6
    • From the i.MX6 to the FPGA
  • Create a custom Qsys component
  • Using Serializer/Deserializer
  • And more ...


If you are interested in a specific subject, please contact Armadeus System they should do somethings for you.

Links & Resources