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I am trying to implement the greatest common divisor in VHDL using an FSM.

These are the states

enter image description here

and some more details about the design

enter image description here

I made this implementation as described but I don't get the correct result during simulation

entity fsm is
    port (clk,rst: in std_logic; gt,eq,lt: in std_logic;
    sel,ld,sub: out std_logic_vector(1 downto 0);
    out_en: out std_logic);
end fsm;

architecture fsm of fsm is
    type STATES is (S1,S2,S3,S4,S5,S6,S7,S8);
    signal state: STATES;
begin
    process (clk, rst)
    begin
        if (rst='0') then 
            state<=S1;
        elsif (clk'event and clk='1') then
            case state is
                when S1 =>
                    sel(0) <= '1';
                    sel(1) <='0';                   
                    state <= S2;
                when S2 =>
                    ld(0) <= '1';
                    ld(1) <= '1';
                    state <= S3;
                when S3 =>
                    if(gt='1') then
                        state <= S4;
                    elsif(eq='1') then
                        state <= S6;
                    elsif(lt='1') then
                        state <= S7;
                    end if;
                when S4 =>
                    sub(0) <= '1';
                    state <= S5;
                when S6 =>
                    out_en <= '1';
                when S7 =>
                    sub(1) <= '1';
                    state <= S8;
                when S8 =>
                    sel(1) <= '1';
                    state <= S2;
                when S5 =>
                    sel(0) <= '0';
                    state <= S2;
                when others => null;
            end case;
        end if;
    end process;

end fsm;

And at last this the wiring module. I will not post implementation of components here cause I think it straight forward what they are doing.

library IEEE;
use IEEE.std_logic_1164.all;

entity gcd_calc is
    port (
        clk,rst: in std_logic;
        x_i,y_i: in std_logic_vector(7 downto 0);
        data_o: out std_logic_vector(7 downto 0));
end gcd_calc;

architecture struct of gcd_calc is

component mux8_2x1 
        port (sel: in std_logic;
            inp_a,inp_b: in std_logic_vector(7 downto 0);
            mout: out std_logic_vector(7 downto 0));
    end component;  
component reg8 
        port (en,clk: in std_logic;
            inp: in std_logic_vector(7 downto 0);
            outp: out std_logic_vector(7 downto 0));
    end component;

component cmp8 
        port (inp_a,inp_b: in std_logic_vector(7 downto 0);
            a_gt_b,a_eq_b,a_lt_b: out std_logic;
            outp: out std_logic_vector(7 downto 0));
    end component;

component sub8
        port (en: in std_logic;
            inp_a,inp_b: in std_logic_vector(7 downto 0);
            outp: out std_logic_vector(7 downto 0));
    end component;

component fsm
        port (clk,rst: in std_logic; gt,eq,lt: in std_logic;
            sel,ld,sub: out std_logic_vector(1 downto 0);
            out_en: out std_logic);
    end component;
    signal muxx_o,regx_o,subx_o: std_logic_vector(7 downto 0);
    signal muxy_o,regy_o,suby_o: std_logic_vector(7 downto 0);
    signal cmp_o: std_logic_vector(7 downto 0);
    signal x_sel,y_sel,x_ld,y_ld,x_sub,y_sub: std_logic;
    signal x_gt_y,x_eq_y,x_lt_y,data_en: std_logic;
begin
    mux_x: mux8_2x1 port map (x_sel,subx_o,x_i,muxx_o);
    mux_y: mux8_2x1 port map (y_sel,y_i,suby_o,muxy_o);
    reg_x: reg8 port map (x_ld,clk,muxx_o,regx_o);
    reg_y: reg8 port map (y_ld,clk,muxy_o,regy_o);
    cmp: cmp8 port map
        (regx_o,regy_o,x_gt_y,x_eq_y,x_lt_y,cmp_o);
    sub_x: sub8 port map (x_sub,regx_o,regy_o,subx_o);
    sub_y: sub8 port map (y_sub,regy_o,regx_o,suby_o);
    reg_out: reg8 port map (data_en,clk,cmp_o,data_o);
    ctrl: fsm port map
        (clk,rst,x_gt_y,x_eq_y,x_lt_y,
        sel(0)=>x_sel,sel(1)=>y_sel,
        ld(0)=>x_ld,ld(1)=>y_ld,
        sub(0)=>x_sub,sub(1)=>y_sub,out_en=>data_en);
end struct;

EDIT

Simulation

enter image description here

share|improve this question
    
Can you give the test case inputs and observed outputs? It might shed some light on what's going wrong. –  vhallac Apr 29 '12 at 18:35
    
@vhallac I've added simulation image. Hope this helps. –  kechapito Apr 29 '12 at 18:42
    
Since it goes to S6, the eq signal must get asserted at some point. You may want to look into its value during simulation as well. It may have something to do with the x and y registers' inital value before the first load triggering it. –  vhallac Apr 29 '12 at 19:09

2 Answers 2

I am not very fluent in VHDL, but it looks like you need to either reset the ld signals after state S2, or reset sub signals after S4 and S7. There is one clock cycle where both the subtractors and the load signals are active as it stands.

share|improve this answer
    
I tried but I get the same result. –  kechapito Apr 29 '12 at 16:58
    
Does the subtractor block latch its output when en is 0? –  vhallac Apr 29 '12 at 18:30
    
Yes blocks it. For some reason it goes to state 6 which will actually enable the output register. So the actual value is not already calculated and the output is wrong. –  kechapito Apr 29 '12 at 18:47

The code for case S6 never sets state to another value, so it will "lock-up" and stay in that state.

share|improve this answer
    
I know. I fixed that. The problem is that it goes to state 6 when it not supposed to go. –  kechapito Apr 30 '12 at 17:07
    
@marcushatchenson: In that case, can I suggest you re-paste your actual code ... it may well be you've introduced something else since then. –  Martin Thompson Apr 30 '12 at 19:57

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