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  1. 2 points
    Hi @attila Thank you again for all the support you've provided me for the past weeks. I am now capable of receiving more than 409 characters using the Wrapper I created base from your example. It uses the Record acquisition mode and I set the buffer size to 3 million for now. I'll increase it when the need arises. I used 1 UART controller and branched out its Tx pin to 2 DIO pins of the AD2 (DIO #0 & 1). I transmitted 500 characters: (If Record mode is not the acquisition mode, the received result will be blank) For DIO # 0, it received: with a length of: For DIO #1, it received: with a length of: I could not have done it without your guidance, thank you again and more power to you and Digilent Best regards, Lesiastas
  2. 2 points
    Hi @Blake, I was struggling with the same problem. In Adam's project is mistake which result is an FMC-HDMI module is not recognizable by other devices. The reason for that is not sending EDID at all. The cause of this situation is wrong initialized EDID map. In Adams example EDID is initialized by: but the correct way is: the body of iic_write2 is from LK example: By the way, in LucasKandle example initialization is done in same way as in Adam's example so is the reason why it not worked in your case. I hope it will helps. If you want I will post my working code for a ZedBoard with FMC-HDMI when I clean it because at the moment is kind of messy.
  3. 2 points
    kwilber

    Pmod DA3 clocking

    It seems to me the AXI Quad SPI block is sending address + data. Looking at the .xci file again, I see C_SPI_MEM_ADDR_BITS set to 24 bits. So 24 bits of address and 16 bits of data would yield 40 bits.
  4. 2 points
    Hi @neocsc, Here is a verified Nexys Video HDMI project updated from Vivado 2016.4 to Vivado 2017.4. You should be able to find the updated project in the proj folder . Here is a GitHub project done in HDL using the clocking wizard, DVI2RGB and RGB2DVI IP Cores for another FPGA. Here is a unverified Nexys Video Vivado 2017.4 HDMI pass through project made from the linked Github project. In the next few days I should have the bandwidth to verify this project. thank you, Jon
  5. 2 points
    The warning you pasted is benign and simply means there are no ILAs present in your design. The real issue could be your clock. You should review the datasheet for the dvi2rgb.Table 1 in section 5 specifies RefClk is supposed to be 200Mhz. Also, your constraint should follow the recommendation in section 6.1 for a 720p design. Finally, @elodg gives some great troubleshooting information in this thread.
  6. 2 points
    Hi @akhilahmed, In the mentioned video tutorial, the leds are controlled using "xgpio.h" library but the application is standalone. If you want to use a linux based application you have to use linux drivers for controlling. In the current Petalinux build, which is used in SDSoC platform, UIO driver is the best approach. Steps: 1. Vivado project generation: - Extract .dsa archive from /path_to_sdsoc_platform/zybo_z7_20/hw/zybo_z7_20.dsa - Launch Vivado - In Tcl Console: cd /path_to_extracted_dsa/prj - In Tcl Console: source rebuild.tcl - In this point you should have the vivado project which is the hardware component of SDSoC platform. Open Block Design. Change to Address Editor Tab. Here you will find the address for axi_gpio_led IP: 0x4122_0000 2. Petalinux UIO driver: - Launch SDx - Import zybo-z7-20 SDSoC platform - Create a new SDx linux based project using a sample application (e.g. array_zero_copy) - Build the project - Copy the files from /Dubug/sd_card to SD card - Plug the SD card in Zybo Z7. Make sure that the JP5 is set in SD position. Turn on the baord - Use your favorite serial terminal to interact with the board (115200, 8 data bits, 2 stop bits, none parity) - cd to /sys/class/uio - if you run ls you will get something like: uio0 uio1 uio2 uio3 uio4 uio5 - Now you have to iterate through all these directories and to search for the above mentioned axi_gpio_led address: 0x4122_0000 - For example: cat uio0/maps/map0/addr will output: 0x41220000, which means that the axi_gpio_led can be accessed using linux uio driver through uio0 device. - Code: #include <stdio.h> #include <stdlib.h> #include <sys/ioctl.h> #include <sys/mman.h> #include <stdint.h> #include <unistd.h> #include <fcntl.h> #define UIO_MEM_SIZE 65536 #define UIO_LED_PATH "/dev/uio0" void UioWrite32(uint8_t *uioMem, unsigned int offset, uint32_t data) { *((uint32_t*) (uioMem+offset)) = data; } uint32_t UioRead32(uint8_t *uioMem, unsigned int offset) { return *((uint32_t*) (uioMem+offset)); } void led_count_down(uint8_t *ledMem) { uint8_t count = 0xF; uint8_t index = 0; for (index = 0; index < 5; index++) { UioWrite32(ledMem, 0, count); count = count >> 1; sleep(1); } } int main() { // Set Leds as output int led_fd = open(UIO_LED_PATH, O_RDWR); uint8_t *ledMem = (uint8_t *) mmap( 0, UIO_MEM_SIZE, PROT_READ | PROT_WRITE, MAP_SHARED, led_fd, (off_t)0); UioWrite32(ledMem, 4, 0x0); // Set all leds as output while(1) { // Start led count-down led_count_down(ledMem); } return 0; } - Build the project and copy the content of Debug/sd_card on SD sd_card - Power on the board and connect to it using a serial terminal - run the following commands: mount mmcblk0p1 /mnt cd /mnt ./project_name.elf - Result: A countdown should be displayed on leds.
  7. 1 point
    D@n

    Verilog

    @Ahmed Alfadhel, Perhaps the most complete tutorial out there is asic-world's tutorial. You might also find it the most vacuous, since although it tells you all the details of the language it doesn't really give you the practice or the tools to move forward from there. There's also a litexsoc (IIRC) by enjoy-digital that I've heard about, but never looked into An alternative might be my own tutorial. Admittedly, it's only a beginner's tutorial. It'll only get you from blinky to a serial port with an attached FIFO. That said, it does go over a lot of FPGA Verilog design practice and principles. It also integrates learning how to use a simulator, in this case Verilator, and a formal verification tool, such as SymbiYosys, into your design process so that you can start learning how to build designs that work the first time they meet hardware. I'm also in the process of working to prepare an intermediate tutorial. For now, if you are interested, you'd need to find most of the information that would be in such a tutorial on my blog. (It's not all there ... yet, although there are articles on how to create AXI peripherals ..) Feel free to check it out. Let me know what you think, Dan
  8. 1 point
    Hi @P. Fiery The Views can't be opened/closed from Script. The FFT.Window refers to data windowing. You could have 2 Scopes opened, one with and the other one without fft, and control them from Script as Scope1 and Scope2.
  9. 1 point
    Hi @m72 After adding the Order option in Logic Analyzer (splitting the Input selection in two) I have forgotten to update the Protocol/Logic Analyzer to set the Order option automatically. Thank you for the observation, it is fixed for the next release.
  10. 1 point
    Hi @Lesiastas You should use higher sample rate to capture raw data than the UART rate. Otherwise due to clock jitter and signal slew rate the capture could be wrong. Imagine on sample could be captured exactly on bit start and next bit on the end of the same bit, instead of next bit start... Anyway, here I have modified the decodeUart to work with sample rate = uart rate, see the lines marked with ' ' ' ' Module Module1 Function decodeUart(ByRef rgData() As UShort, ByVal cSamplePerBit As Integer, ByVal pin As Integer) As List(Of Byte) Dim pData As Boolean Dim fData As Boolean = False Dim cSamples = rgData.Length Dim rgUart As New List(Of Byte) For i As Integer = 0 To cSamples - 1 Dim s = rgData(i) pData = fData fData = 1 And (s >> pin) If pData <> 0 And fData = 0 Then Dim bValue As Integer = 0 For b = 0 To 7 Dim ii = Math.Round(i + (1.499 + b) * cSamplePerBit) ''''' If ii >= cSamples Then Exit For End If s = rgData(ii) fData = 1 And (s >> pin) If fData Then bValue += (1 << b) End If Next rgUart.Add(bValue) i += cSamplePerBit * 9.499 - 1 ''''' 1 start + 8 bits + 0.5 stop -1 because For will increment End If Next Return rgUart End Function Sub Main() Dim hdwf As Long If FDwfDeviceOpen(-1, hdwf) = False Then Dim szError As String FDwfGetLastErrorMsg(szError) System.Console.WriteLine("Device open failed" & vbCrLf & szError, vbExclamation + vbOKOnly) End End If Const hzUart = 9600 Const hzRate = hzUart * 3 ''''' Const cSamples = 1000 Dim hzDI As Double FDwfDigitalInInternalClockInfo(hdwf, hzDI) FDwfDigitalInTriggerSourceSet(hdwf, trigsrcDetectorDigitalIn) FDwfDigitalInTriggerSet(hdwf, 0, 0, 0, &HFFFF) 'any falling edge 'FDwfDigitalInTriggerAutoTimeoutSet(hdwf, 10.0) FDwfDigitalInDividerSet(hdwf, hzDI / hzRate) FDwfDigitalInSampleFormatSet(hdwf, 16) FDwfDigitalInBufferSizeSet(hdwf, cSamples) FDwfDigitalInTriggerPositionSet(hdwf, cSamples - 10) FDwfDigitalInConfigure(hdwf, 1, 1) Dim sts As Byte While True If FDwfDigitalInStatus(hdwf, 1, sts) = 0 Then Return End If If sts = DwfStateDone Then Exit While End If End While FDwfDigitalInDividerGet(hdwf, hzRate) ' get the actual rate Const cSamplePerBit = hzRate / hzUart Dim rgData(cSamples) As UInt16 FDwfDigitalInStatusDataUShort(hdwf, rgData, 2 * rgData.Length) Call FDwfDeviceCloseAll() Dim rg0 = decodeUart(rgData, cSamplePerBit, 0) System.Console.Write("Hex 0: ") For i = 0 To rg0.Count - 1 System.Console.Write(" 0x" + Conversion.Hex(rg0(i))) Next System.Console.WriteLine() System.Console.WriteLine("Text 0: " + System.Text.Encoding.ASCII.GetString(rg0.ToArray)) End Sub End Module
  11. 1 point
    Hi @m72 The pulse preview is not correct. I will look into this. Thank you for the observations. You could use a custom bus or signals to easily create/modify such patterns.
  12. 1 point
    Actually, I'm not sure what Diglent's policy is about questions that aren't specific to Xilinx or Digilent products. The various FPGA vendors are certainly competitors but I have a hard time seeing non-commercial customers as 'competitors' regardless of which vendors' products they are using. I would agree that, even though some of the people who respond to questions posted to Digilent's Forum have recent experience with a variety of FPGA vendor's devices and tools, posting questions to a website dedicated to Xilinx based products when your question is specific to Intel is a good way to get bad information and probably unwise. Also, and this hasn't happened yet, I suspect that having a lot of questions about non-Xilinx devices and tools would be confusing to a lot of readers and make the experience for many of them of reading posts to Digilent's forum less useful. Intel has a community forum as does Xilinx. Neither is, in my experience, as helpful as Digilent's most of the time. Intel is, well not Altera, and even Altera's community support wasn't that great. Digilent's Forum is a great place to ask about Digilent products and Xilinx tools. Even restricted to that it' must be hard for people to find answers that have already been posted because a a lot of questions keep getting repeated. I do heartily suggest that it would be more appropriate to seek out answers to questions like saif1's at forums where people who hang out there are very knowledgeable about the tools and devices for the platform that you are working on. There also must be vendor agnostic forums out there somewhere dealing with FPGA development tools and devices. My last word is that an awful lot of questions would be answered if the poster only took the time to read through the vendors' literature. If there's any practice that's bad form it's wasting other peoples time because you can't be bothered or don't have the time to read readily available literature. Everyone's time is as important to them as yours is to you.
  13. 1 point
    jpeyron

    GPS Pmod

    Hi @cepwin, I'm glad you we able to get to the bottom of the issue. Thank you for sharing what happened. cheers, Jon
  14. 1 point
    Impedance Analyzer v1.3.0.43 available for Download Currently, it only works with AD1 (cf. EEVblog AD2 not working with this great S/W). Would be great to get some advace from Digilent ,-) Best Ulli
  15. 1 point
    Hi @dmishins, Welcome to the Digilent Forums! Please attach a screen shot of your Block design. Did you connect the 200 MHz clock to the MIG as instructed in section 10? What did you set the local memory and cache when running clock automation for Microblaze? best regards, Jon
  16. 1 point
    SmashedTransistors

    BASYS3 and Axoloti

    Thanks @OvidiuD, I'll take one step after another and the forums are quite a good source of knowledge. So far, I plan to start with very basic schemes in order to understand how Vivado works. Then I will work on communicating with the Axoloti through SPI. Best regards
  17. 1 point
    OvidiuD

    BASYS3 and Axoloti

    Hello, @SmashedTransistors! I'm very glad you're looking forward to your project and I have to admit it actually seems very interesting! Don't hesitate to ask questions on our forum whenever you have a question, I'm sure someone will always do their best to help you and eventually succeed by working with you. Best regards, Ovidiu
  18. 1 point
    D@n

    Noisy Output from FIR Compiler

    @Ahmed Alfadhel, You have a couple of options available to you: It's not clear, from your pictures above, whether or not the -40dB stop band was achieved. Some amount of noise is to be expected due to truncation errors, etc. Without seeing an estimated PSD, I can't tell. It may be that it's doing exactly what you required of it. -40dB is only so good. With more taps, you should be able to go deeper. How deep depends upon your requirements. How good do you want the signal to look? You may also need to provide more bits to both your signal and coefficient values in order to do better. You did prescale your coefficients so that, when rounded to integers, the taps were useful, right? Also, be aware, the filter will be specified for full scale. You'll want to measure it against a full scale input. Anything less will introduce additional truncation error. This is one of those reasons why the dynamic range (i.e. number of bits) of the input and output signals are so important. Enjoy! Dan
  19. 1 point
    Hi @ahmedengr.bilal, Like I mentioned in the previous post there is no HDMI output from the Linux side, neither the embedded rootFS provided by petalinux nor the kernel configuration we give out is set to accommodate this feature. Regarding the missing media-ctl and v4l2-ctl, you have not activated the v4l-utils in the rootfs configuration of the petalinux. to do this you need to navigate to your petalinux project folder and run: petalinux-config -c rootfs Once the menu appears you need to go to Filesystem Packages->misc->v4l-utils and activate: v4l-utils, libv4l, media-ctl. Rebuild the whole project and it should be working now. -Ciprian
  20. 1 point
    xc6lx45

    FIR compiler Amplitude

    My first guess is that the tool needs to know the position of the decimal point of your number format. It's off by 20 bits (=> 1048576 => 120 dB). Fixed point knows only integers, so it's a matter of interpretation.
  21. 1 point
    Yep, seen that they were back online. Thanks, Jon
  22. 1 point
    jomoengineer

    Howdy from NorCal

    Thanks Jon. And thanks for the links. Cheers, Jon
  23. 1 point
    The example I posted would work for Linux or Mac with "common" tools installed. As to Windows... can't really help much there. git's not part of Python, it's used for managing code; you can achieve the same end result here by downloading the ZIP from https://github.com/bdlow/dlog-utils-portable/archive/master.zip and unzipping to a folder. Virtual environment support is a standard part of Python 3; you can skip that if you like but without virtual environments eventually your Python installation will end up like this: https://xkcd.com/1987/ Ah, of course, in Windows `activate` is a batch script not a shell script: https://www.techcoil.com/blog/how-to-create-a-python-3-virtual-environment-in-windows-10/
  24. 1 point
    attila

    Logic Analyzer Counter Function

    Hi @Lars Lindner You can perform a recording and see the pulses using quick measurements or measurements like this:
  25. 1 point
    jpeyron

    hdmi ip clocking error

    Hi @askhunter, I did a little more searching and found a forum thread here where the customer is having a similar issue. A community member also posted a pass through zynq project that should be useful for your project. best regards, Jon
  26. 1 point
    For the Protocol / SPI-I2C /Spy mode you should specify the approximate (or highest) protocol frequency which will be used to filter transient glitches, like ringing on clock signal transition. The Errors you get indicate the signals are not correctly captured. - make sure to have proper grounding between the devices/circuits - use twisted wires (signal/ground) to reduce EMI - use logic analyzer and/or scope to verify the captured data / voltage levels at higher sample rate at least 10x the protocol frequency Like here in the Logic Analyzer you can see a case when the samples are noisy:
  27. 1 point
    @longboard, Yeah, that's really confusing isn't it? At issue is the fact that many of these chips are specified in Mega BITS not BYTES. So the 1Gib is mean to refer to a one gigabit memory, which is also a 128 megabyte memory. That's what the parentheses are trying to tell you. Where this becomes a real problem is that I've always learned that a MiB is a reference to a million bytes, 10^6 bytes, rather than a mega byte, or 2^20 bytes. The proper acronyms, IMHO, should be Gb, GB, Mb, and MB rather than GiB or MiB which are entirely misleading. As for the memory, listed as 16 Meg x 8 x 8, that's a reference to 8-banks of 16-mega words or memory, where each word is 8-bits wide. In other words, the memory has 16MB*8 or 128MB of storage. You could alternatively say it had 1Gb of memory, which would be the same thing, but this is often confused with 1GB of memory--hence the desire for the parentheses again. Dan
  28. 1 point
    Hi @Phil_D The gain switch is adjusted automatically based on the selected scope range. At 500mV/div (5Vpk2pk ~0.3mV resolution) or lower the high gain is used with and above this the low gain (50Vpk2pk w ~3mV resolution). In case you specify trigger level out of the screen (5Vpk2pk) or offset higher/lower than +/- 2.5V the low gain will be used for the trigger source channel. This will be noted on the screen with red warning text. The attenuation is a different thing. This option lets you specify the external attenuation or amplification on the signals which enter the scope inputs and the data is scaled accordingly. Like, if you use a 10x scope probe, the scope input will actually get 1/10th of the original signal, but specifying 10x attenuation the signal is scaled to show values on the probe. In this case the 500mV/div (5Vpk2pk) low/high gain limit moves up to 5V/div (50Vpk2pk) and the low gain up to 50V/div If you have an external 100x amplifier on the scope input you can specify 0.01x attenuation. With this you will have 5mV/div (50mVpk2pk ~0.003mV resolution) for high gain.
  29. 1 point
    Hi @Jaraqui Peixe, Unfortunately, Digilent does not have the ability to obtain these licenses for you with regards to Xilinx negotiations. I do not doubt that the Spartan 3E Starter Boards you have are as good as new and work as such, but the reality is that last variant of ISE 14.7 that could support the FPGA chips on the Basys 2 and the Spartan 3E (both over 10 years old), was released by Xilinx back in 2013, so active support on these boards is limited as the required software will not install on newer OS's (at least the Windows variants anyway). As @xc6lx45, it is possible to make it work though. What I would probably recommend is looking into the newer 7 series boards, such as the Basys 3 (the most similar to the Basys 2) or if you would want access to more memory than is provided in BRAM, both the Arty A7 and the Nexys A7 have on-board DDR memory. All of these boards work with Microblaze and are supported by the free Vivado WebPACK from Xilinx (which is license-free if that is a factor for you and includes Microblaze). Naturally, there is no guarantee that the Vivado software that supports these Artix 7 FPGA chips will become end-of-life'd, but I can at least say from Digilent's end that I have not heard of this happening in the near future. Thanks, JColvin
  30. 1 point
    jpeyron

    Nexys 2 - transistor part number

    Hi @CVu, Glad to hear that replacing the transistor fix the issue. Thank you for sharing what you did. best regards, Jon
  31. 1 point
    kwilber

    NEXYS 3 frequency meter

    The problem is likely in the .ucf file where you define pin information. The error message says device pin LL8 doesn't exist. If you post the contents of your ucf, we can probably figure it out.
  32. 1 point
    Thank you all for replying! @elodg Thanks for the tip! I was indeed using the vivado library IP core. From opencores I presume you meant this controller? https://opencores.org/projects/sdcard_mass_storage_controller If so, it does look promising, since it will basically be a direct hardware link to the SD card (if I am reading this correctly), currently it's running on the microBlaze and going through SPI. I just hope that the PmodSD supports the opencores controller. I registered there and hope to download and test the code soon! It appears to be written in verilog, hopefully that wont clash with my vhdl code. @MirceaDabacan Thanks for the explanation! I will search for some low power speakers to use with the AMP2 that I have right now since I couldn't find the max vpp specs of my JBL charge 2+. Your suggestion for the I2S2 is also a very interesting solution and if I do want to hook up a separate amplifier then I will definitely look into that module! @D@n Thanks for the suggestion! Creating a high speed buffer, with a much larger capacity than the RAM that is available on my basys 3 is very interesting! Considering that the data files are about 13 MB worth of samples per track, I could easily load the music from the SD card minute by minute, giving me ample time to continuously buffer during playback. Thanks for the support! Much appreciated! I will post back with my new findings! Jonathan
  33. 1 point
    kwilber

    Pmod DA3 clocking

    You may not have to build your own. That becomes a design decision that only you can make based on the requirements/specifications your design must meet. If the performance you are getting out of the Digilent IP meets your requirements, there is no reason to roll your own. On the other hand, if you are not able to meet your requirements and you are running up against limitations of the IP, then either look for a more performant IP or consider designing purpose specific logic. According to your measurements, it takes 40 bits sent at a rate of 3.125 Mhz for each update of the DAC. That is at least 12.8 microseconds per update. Take the inverse of that and you have a maximum update rate of 78,125 updates/second. Is that sufficient for your design?
  34. 1 point
    jpeyron

    Pmod DA3 clocking

    Hi @Ahmed Alfadhel, In section 2 Interfacing with the Pmod on page 1 of the reference manual for the Pmod DA3 here it states the pmod should use spi mode 0. thank you, Jon
  35. 1 point
    D@n

    Conflicting Voltages in Bank Arty-A7

    @zygot, @Ahmed Alfadhel is not using a Basys3 board, and so this is really a bad example of attaching one question to another post. @Ahmed Alfadhel appears to be using an Artix-A7 board. In that case, the sys_clk is properly constrained, but he may well have some of the DDR3 I/O pins improperly constrained. These are the pins located on Bank 35. I think the problem in this case is that @Ahmed Alfadhel has improperly constrained in DDR DQS pins. For example, ddr3_dqs_[0] should be set to pin N2, not to A6. Compounding the problem is the way these pins are hidden in a "board definition file" rather than in the XDC file, making it likely to have conflicting pin definitions. @Ahmed Alfadhel, If you are following Digilent's instructions, you might want to double check that you have the appropriate board definition file. If you are trying this on your own, using only an XDC file, then you might find these instructions valuable. Also, I would recommend you not attach unrelated issues to old posts. Perhaps the Digilent staff might be kind enough to separate these two issues into separate forum posts--since they really are quite different. For example, the Basys3 board doesn't have the DDR3 memory which is the source of your pin-connection troubles. Dan
  36. 1 point
    kwilber

    Simple HDMI pass through with NexysVideo

    Unfortunately, I do not have a NexysVideo board available. I have run the simple hdmi pass thru on both zybo and arty boards. Have you tried using a resolution of 720p yet? I find it useful to start with the lower frequencies first. Most sources and monitors have no trouble working with that.
  37. 1 point
    Hi @Mukul, Are you getting the Error while launching program: Memory write error at 0x100000. APB AP transaction error, DAP status f0000021? 1. Make sure the boot mode jumper JP5 is set to JTAG. If your Mode setting are JTAG and you are still having an issue then please attach a screen shot of your SDK errors? thank you, Jon
  38. 1 point
    are you maybe using a low-speed analog output with 200 ohms series resistor? Check the schematic of the board for a direct output.
  39. 1 point
    Hi @ebattaglia42, What operating system are you currently on? If you are Windows, can you attach a picture of what is shown in the Windows Device Manager and what you see in the WaveForms Device Manager (it should pop up when you initially connect the EE Board). The other thing I would suggest to try would be to use a different USB cable (make sure it's not just for charging only) and/or USB port on your computer as that is another source of error that is easy to check. Thank you, JColvin
  40. 1 point
    JColvin

    DMC60 Causing Power Supply Fault

    Hi @opethmc, Powering it from a battery should definitely help. They mentioned to me that when they use a bench power supply, they use a 12V lead acid battery in parallel with it and set the bench supply to output 13.7V which effectively float charges the battery. This way the battery acts like a very large capacitor unless the continuous current draw is more than the continuous output current that the bench supply can provide. Let me know if you have any questions. Thanks, JColvin
  41. 1 point
    You can get the SDK to add a few example projects for any device in the system. Open the system.mss and click on the OS (the default is the standalone but you may have chosen another one when you created your BSP). Scroll down to the uart_x that you run through the PL and click on the demonstration examples. There is a nice variety of demonstrations and you probably want to add them all. The SDK will build these for the uart you selected. This is one nice feature of the SDK. If you chose another OS, such as the RTOS I'm not sure if examples are available. You likely want to use the interrupt driven example as a basis for your design ( depending on how you designed your overall software control). Of course, there are a lot of ways to arrange your communication protocol so I hope that you've spent some time thinking about how it will work. The simpler the better. Understand that the purpose of the example code is to show you the basic requirements to implement a particular interface and not to solve your problems... that is they are there for you to pore over and understand how they work. I can't send you code because your application is unique to you. If your SDK OS has a hardware abstraction layer then you will likely need to find other sources for example code. I rarely need (or want) a full-up OS like Linux for embedded applications. [edit] I should have mentioned that since you have at least two FPGA boards ( and ony you know what else ) you have a system. The basic system definition and design approach should be the first thing to flesh out. This includes inter-board communication; for instance are the boards peer-peer or is there a hierarchy? You can always tweak the system design if the lower level considerations demand it once you start fleshing out the actual implementation. If you haven't given any thought to the system interactions and structure then you are in for a lot of unnecessary work as the project nears integration.
  42. 1 point
    Nianyu Jiang

    PmodIA Extension

    https://www.researchgate.net/publication/236037769_A_four-electrode_low_frequency_impedance_spectroscopy_measurement_system_using_the_AD5933_measurement_chipt this is the paper I am talking about. Thanks for the further explaination, I start understanding the working principle and trying to combine everything. Will go back to you once I have more question. Nianyu Jiang
  43. 1 point
    Hi @bklopp, Here is a completed Nexys Video UART interrupt project in Vivado 2018.2 that uses interrupts in microblaze. thank you, Jon
  44. 1 point
    jpeyron

    Custom Image Processing on Zybo-Z7 20

    Hi @Amin, I have not made a project like this. To get a Zybo-Z7-20 project working with the SD card: Make sure you are using the Digilent board files.Here is the installation tutorial for the board files. Your block design should be the just the Zynq processor with FCLK_CLK0 connected to the M_AXI GP0_ACLK as shown with the attached screen shot. Run block automation as default(board files) when the Digilent board files are being used. Then create a wrapper and generate a bitstream. Next export the hardware including the bitstream and launch SDK. In SDK you should be able to alter the main.c file attache above to work for your needs. If your goal is to use a standalone project i can assist with using the ZYNQ processor with the SD card. I would have to reach out to more experience engineers for assistance using HLS or non-prebuilt SDSoC project. If your project does not need to be standalone then I would suggest using either an embedded linux project like petalinux , a pre-built SDSoC project or the SDSoC reVISION platform. 1) Here is the Petalinux Support for Digilent Boards which has two version releases and a very detailed readme which should help you get the project going. 2) Here is the SDSoC Platforms which has a project completed for the Zybo-Z7-20. 3) Here is the SDSoC reVISION project for the Zybo-Z7-20. thank you, Jon
  45. 1 point
    Hi @Sami Malik, On Monday Ii will make a project and share it on this thread that I believe you are trying to do. thank you, Jon
  46. 1 point
    attila

    Math on FFT traces

    Hi @lab!fyi In the Network Analyzer extended option lets you use Wavegen channels at up to 20MHz and with external up to 50MHz. In the Spectrum Analyzer you can select frequency range up to 10MHz but with auto option lets you set Stop frequency up to 50MHz. Selecting the dB unit will let you specify custom reference, for dBm I think it should be 0.316V
  47. 1 point
    shahbaz

    How to read from SD card on ZYBO

    hi @jpeyron, I followed the guide at GitHub under Readme in PMODSD. can you please guide me step wise on how to start from block design and than going to SDK and running the demo. I have added the pmodsd and zynq PS IPs, after auto connection and running the generate bitstream I get following error. I need your guidance at this
  48. 1 point
    Hi @Michael2018, I went through the tutorial andI got the same error as you. You need to add the following library below #include "xparameters.h" to resolve error. #include "xil_io.h" thank you, Jon
  49. 1 point
    hamster

    MMCM dynamic clocking

    I feel a bit bad about posting a minor novel here, but here is an example of going from "5 cycles on, 5 off" (i.e. divide by 10) to "10 on, 10 off" (device by 20). The VCO is initially to 800 MHz with CLK0 being VCO divide by 8.... so after config you get 100MHz. Push the button and you get 800/20 = 40MHz, release the button and you get 80MHz. It is all really hairy in practice! EDIT: Through experimentation I just found that you don't need to reset the MMCM if you are not changing the VCO frequency. So the 'rst' signal in the code below isn't needed (and LOCKED will stay asserted). -------------------------------------------------------------------------------------------------------- -- Playing with the MMCM DRP ports. -- see https://www.xilinx.com/support/documentation/application_notes/xapp888_7Series_DynamicRecon.pdf -- for the Dynamic Reconviguration Port addresses -------------------------------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; library UNISIM; use UNISIM.VComponents.all; entity mmcm_reset is Port ( clk_100 : in STD_LOGIC; btn_raw : in STD_LOGIC; led : out STD_LOGIC_VECTOR (15 downto 0)); end mmcm_reset; architecture Behavioral of mmcm_reset is signal btn_meta : std_logic := '0'; signal btn : std_logic := '0'; signal speed_select : std_logic := '0'; signal counter : unsigned(26 downto 0) := (others => '0'); signal debounce : unsigned(15 downto 0) := (others => '0'); signal clk_switched : std_logic := '0'; signal clk_fb : std_logic := '0'; type t_state is (state_idle_fast, state_go_slow_1, state_go_slow_2, state_go_slow_3, state_idle_slow, state_go_fast_1, state_go_fast_2, state_go_fast_3); signal state : t_state := state_idle_fast; ----------------------------------------------------------------------------- --- This is the CLKOUT0 ClkReg1 address - the only register to be played with ----------------------------------------------------------------------------- signal daddr : std_logic_vector(6 downto 0) := "0001000"; signal do : std_logic_vector(15 downto 0) := (others => '0'); signal drdy : std_logic := '0'; signal den : std_logic := '0'; signal di : std_logic_vector(15 downto 0) := (others => '0'); signal dwe : std_logic := '0'; signal rst : std_logic := '0'; begin MMCME2_ADV_inst : MMCME2_ADV generic map ( BANDWIDTH => "OPTIMIZED", -- Jitter programming (OPTIMIZED, HIGH, LOW) CLKFBOUT_MULT_F => 8.0, -- Multiply value for all CLKOUT (2.000-64.000). CLKFBOUT_PHASE => 0.0, -- Phase offset in degrees of CLKFB (-360.000-360.000). -- CLKIN_PERIOD: Input clock period in ns to ps resolution (i.e. 33.333 is 30 MHz). CLKIN1_PERIOD => 10.0, CLKIN2_PERIOD => 0.0, -- CLKOUT0_DIVIDE - CLKOUT6_DIVIDE: Divide amount for CLKOUT (1-128) CLKOUT1_DIVIDE => 1, CLKOUT2_DIVIDE => 1, CLKOUT3_DIVIDE => 1, CLKOUT4_DIVIDE => 1, CLKOUT5_DIVIDE => 1, CLKOUT6_DIVIDE => 1, CLKOUT0_DIVIDE_F => 8.0, -- Divide amount for CLKOUT0 (1.000-128.000). -- CLKOUT0_DUTY_CYCLE - CLKOUT6_DUTY_CYCLE: Duty cycle for CLKOUT outputs (0.01-0.99). CLKOUT0_DUTY_CYCLE => 0.5, CLKOUT1_DUTY_CYCLE => 0.5, CLKOUT2_DUTY_CYCLE => 0.5, CLKOUT3_DUTY_CYCLE => 0.5, CLKOUT4_DUTY_CYCLE => 0.5, CLKOUT5_DUTY_CYCLE => 0.5, CLKOUT6_DUTY_CYCLE => 0.5, -- CLKOUT0_PHASE - CLKOUT6_PHASE: Phase offset for CLKOUT outputs (-360.000-360.000). CLKOUT0_PHASE => 0.0, CLKOUT1_PHASE => 0.0, CLKOUT2_PHASE => 0.0, CLKOUT3_PHASE => 0.0, CLKOUT4_PHASE => 0.0, CLKOUT5_PHASE => 0.0, CLKOUT6_PHASE => 0.0, CLKOUT4_CASCADE => FALSE, -- Cascade CLKOUT4 counter with CLKOUT6 (FALSE, TRUE) COMPENSATION => "ZHOLD", -- ZHOLD, BUF_IN, EXTERNAL, INTERNAL DIVCLK_DIVIDE => 1, -- Master division value (1-106) -- REF_JITTER: Reference input jitter in UI (0.000-0.999). REF_JITTER1 => 0.0, REF_JITTER2 => 0.0, STARTUP_WAIT => FALSE, -- Delays DONE until MMCM is locked (FALSE, TRUE) -- Spread Spectrum: Spread Spectrum Attributes SS_EN => "FALSE", -- Enables spread spectrum (FALSE, TRUE) SS_MODE => "CENTER_HIGH", -- CENTER_HIGH, CENTER_LOW, DOWN_HIGH, DOWN_LOW SS_MOD_PERIOD => 10000, -- Spread spectrum modulation period (ns) (VALUES) -- USE_FINE_PS: Fine phase shift enable (TRUE/FALSE) CLKFBOUT_USE_FINE_PS => FALSE, CLKOUT0_USE_FINE_PS => FALSE, CLKOUT1_USE_FINE_PS => FALSE, CLKOUT2_USE_FINE_PS => FALSE, CLKOUT3_USE_FINE_PS => FALSE, CLKOUT4_USE_FINE_PS => FALSE, CLKOUT5_USE_FINE_PS => FALSE, CLKOUT6_USE_FINE_PS => FALSE ) port map ( -- Clock Outputs: 1-bit (each) output: User configurable clock outputs CLKOUT0 => clk_switched, CLKOUT0B => open, CLKOUT1 => open, CLKOUT1B => open, CLKOUT2 => open, CLKOUT2B => open, CLKOUT3 => open, CLKOUT3B => open, CLKOUT4 => open, CLKOUT5 => open, CLKOUT6 => open, -- Dynamic Phase Shift Ports: 1-bit (each) output: Ports used for dynamic phase shifting of the outputs PSDONE => open, -- Feedback Clocks: 1-bit (each) output: Clock feedback ports CLKFBOUT => clk_fb, CLKFBOUTB => open, -- Status Ports: 1-bit (each) output: MMCM status ports CLKFBSTOPPED => open, CLKINSTOPPED => open, LOCKED => open, -- Clock Inputs: 1-bit (each) input: Clock inputs CLKIN1 => clk_100, CLKIN2 => '0', -- Control Ports: 1-bit (each) input: MMCM control ports CLKINSEL => '1', PWRDWN => '0', -- 1-bit input: Power-down RST => rst, -- 1-bit input: Reset -- DRP Ports: 16-bit (each) output: Dynamic reconfiguration ports DCLK => clk_100, -- 1-bit input: DRP clock DO => DO, -- 16-bit output: DRP data DRDY => DRDY, -- 1-bit output: DRP ready -- DRP Ports: 7-bit (each) input: Dynamic reconfiguration ports DADDR => DADDR, -- 7-bit input: DRP address DEN => DEN, -- 1-bit input: DRP enable DI => DI, -- 16-bit input: DRP data DWE => DWE, -- 1-bit input: DRP write enable -- Dynamic Phase Shift Ports: 1-bit (each) input: Ports used for dynamic phase shifting of the outputs PSCLK => '0', PSEN => '0', PSINCDEC => '0', -- Feedback Clocks: 1-bit (each) input: Clock feedback ports CLKFBIN => clk_fb ); speed_change_fsm: process(clk_100) begin if rising_edge(clk_100) then di <= (others => '0'); dwe <= '0'; den <= '0'; case state is when state_idle_fast => if speed_select = '1'then state <= state_go_slow_1; -- High 10 Low 10 di <= "0001" & "001010" & "001010"; dwe <= '1'; den <= '1'; end if; when state_go_slow_1 => if drdy = '1' then state <= state_go_slow_2; end if; when state_go_slow_2 => rst <= '1'; state <= state_go_slow_3; when state_go_slow_3 => rst <= '0'; state <= state_idle_slow; when state_idle_slow => di <= (others => '0'); if speed_select = '0' and drdy = '0' then state <= state_go_fast_1; -- High 5 Low 5 di <= "0001" & "000101" & "000101"; dwe <= '1'; den <= '1'; end if; when state_go_fast_1 => if drdy = '1' then state <= state_go_fast_2; end if; when state_go_fast_2 => rst <= '1'; state <= state_go_fast_3; when state_go_fast_3 => rst <= '0'; state <= state_idle_fast; end case; end if; end process; dbounce_proc: process(clk_100) begin if rising_edge(clk_100) then if speed_select = btn then debounce <= (others => '0'); elsif debounce(debounce'high) = '1' then speed_select <= not speed_select; else debounce <= debounce + 1; end if; -- Syncronise the button btn <= btn_meta; btn_meta <= btn_raw; end if; end process; show_speed_proc: process(clk_switched) begin if rising_edge(clk_switched) then counter <= counter + 1; led(7 downto 0) <= std_logic_vector(counter(counter'high downto counter'high-7)); end if; end process; led(15) <= speed_select; end Behavioral;