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32 Bit Multiplexer Verilog Code

In this week, we designed a 32 bit multiplexer in the lab. You can download the manual  for this lab session that sent by our lecturer from this link.

Our purpose is designing a 32 bit multiplexer but our FPGA board has just 8 leds so we could not observe 32 bits. For this problem, we showed just last 8 bits of result via leds on the board. So, we designed a 32 bit multiplexer and another module for get last 8 bits of result from 32 bit multiplexer. Our new module has two inputs (selector, clock) and an output (8 bits of result).

Here are codes:


module multiplexer(
    input [31:0] a,
    input [31:0] b,
    input select,
    output [31:0] result,
    input clk
    );
    wire [31:0] a,b;
    reg [31:0] result;
    
    always @(a,b,select)
    begin
    if(select==0)
        result=a;
    else
        result=b;
    end    
endmodule

The code above is a design for 32 bit multiplexer, but we can’t observe 32 bit result on FPGA board because of leds count. We need creating a new module for check the code as I said above. In this module, we must get only last eight bits of the result from multiplexer module and observe value of these leds on the FPGA board.


module mainCode(
    input selector,
    input clock,
    output [0:7] result
    );
    wire [0:31] a,b;
    assign a='d130;
    assign b='d3454511;
    wire [0:31] temp;
    multiplexer child(a,b,selector,temp,clock);
    
    assign result=8'b11111111 &amp; temp;
endmodule

Why we use the clock?

Actually, we don’t need a clock for this design because it is simple. If we have a complex design, we should use a clock for working sync on FPGA board. If we don’t use a clock, some of values from inputs or calculation algorithms may be delayed so the result may be wrong.

Here is, the design:

Here is, the code is running on the board:

2 Comments

  1. kaimdaim

    Hello,
    I have resistivity measurement project using 2 DMMs,one for measuring V and the other for I.
    Since I prefer to apply dipole-dipole method,I designed a measurement cable connected to 9 probes,in order to stop the measurement at the n6 stage.Thus I read the injected current from the first 2 probes,and I read the potentials from the following probes(C1-C2;P1-P2).Firstly I take the potential readings from P1-P2 as power supply is turned-off.Then I turn on the power supply and I take current readings from C1-C2 and voltage readings from P1-P2.This is repeated for each pairings as told in the figure attached.
    |C1|C2||P1|P2|
    |1|2| |3|4|
    |1|2| |4|5|
    |1|2| |5|6|
    |1|2| |6|7|
    |1|2| |7|8|
    |1|2| |8|9|
    |2|3| |4|5|
    |2|3| |5|6|
    |2|3| |6|7|
    |2|3| |7|8|
    |2|3| |8|9|
    |3|4| |5|6|
    |3|4| |6|7|
    |3|4| |7|8|
    |3|4| |8|9|
    |4|5| |6|7|
    |4|5| |7|8|
    |4|5| |8|9|
    |5|6| |7|8|
    |5|6| |8|9|
    |6|7| |8|9|
    Finally I have 21 V0,21 V1 and 21 I readings,as a total of 63 readings.
    Is it possible to design and apply this switching with esp32 and MUX?And is it possible to record the savings afterall?(The model of DMMs I used is General Tools TS04,which has bluetooth).

    • unalfaruk

      I am sorry, it is too difficult to understand your need and answer your question here.

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