I have a PC that has two PCI cards connected to it. I've created a Matlab/Simulink simulation which sends a digital signal out to one of the cards. The card is a DA converter. It then outputs this signal to a control system. Matlab generates C code to do this. My objective is to recreate this simulation with an FPGA board. Unfortunately I cannot connect the PCI cards to the board. Therefore, the FPGA will have to access the PC's PCI ports. It will be connected through USB and I'm using Quartus as the FPGA software. IS there any way to access the PCI cards from the board? Or would there be any way to just have the FPGA call the simulation code.
closed as too broad by Daniel, Leeor, Jim Garrison, Bojangles, Davin Tryon Feb 28 '14 at 9:13
There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs.If this question can be reworded to fit the rules in the help center, please edit the question.
To sum up what I understood:
A PC with two PCI cards connected to a cart.
same as above, plus a board with an FPGA as its main component.
The board is supposed to replace the driving software on the PC.
my thoughts about it
To replace the kind of software Matlab generates, you will have to taylor a VHDL state machine that emulates the Matlab algorithm. This is not feasible in the general case, and would succeed only if the Matlab algorithm was very basic.
If you have a powerful FPGA, you can actually use it to implement a microcontroller and then program the said microcontroller to do whatever you want. It still seems to me like an overkill.
You can forget about USB right away, since the smallest interface requires software an FPGA cannot dream of emulating. The USB access on your board is done through a dedicated microcontroller that will be able to access the FPGA ram and other board components, but you most likely cannot directly use it to implement your protocol.
You might implement some kind of rudimentary protocol on the Ethernet link, for instance, but here again the FPGA would have the most terrible difficulties adding a software protocol on top of the low-level ring buffer it is meant to implement, unless you program your FPGA to emulate a processor first.
You could replace the PC with a barebone board that would embark a few digital I/Os and a small microcontroller, but trying to emulate a microcontroller with an FPGA on a board that does not have digital I/O seems incredibly inappropriate to me.
Using a PC as an FPGA slave to drive a couple of I/O signals is silly. It will cost you a huge development time and most probably fail, for a solution that would be at best an awkward proof of concept.
My advice: drop the FPGA board and replace it with a suitable microcontroller board.