1 | module MajorityVoter_bi2 (A, B, Zp, Z,status, fault1, fault0); |
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2 | //Z and Zp are bidirectional. |
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3 | //if forward =1, Zp is output and Z is input, the opposite otherwise. |
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4 | //note: forward can't change if not together with a status change. |
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5 | input [1:0] status; //status 00=relax, 01=switch, 10=hold, 11=release |
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6 | input A,B; |
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7 | input fault1, fault0; |
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8 | inout Z,Zp; |
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9 | wor wi1, wi2, wi3; |
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10 | wor wi1p, wi2p, wi3p; |
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11 | wor Z,Zp; |
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12 | reg latchZ, latchZp; |
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13 | // fault1=0 fault0=0 output fault free |
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14 | // fault1=1 fault0=0 output S a B |
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15 | // fault1=0(1) fault0=1 output Maj(A',B,C') |
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16 | |
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17 | assign forward = (Z===1'bz && Zp!==1'bz) ? 1: (Zp===1'bz && Z!==1'bz) ? 0 : 1'bz; |
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18 | assign latch_sig = ~status[0] & status[1]; |
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19 | assign wi1 = ((A & B) | (B & Z) | (A & Z)); |
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20 | assign wi1p= ((A & B) | (B & Zp) | (A & Zp)); |
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21 | assign wi3 = ((~A & B) | (B & ~Z) | (~A & ~Z)); |
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22 | assign wi3p= ((~A & B) | (B & ~Zp) | (~A & ~Zp)); |
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23 | assign wi2 = (fault1)? B : wi1; |
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24 | assign wi2p = (fault1)? B : wi1p; |
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25 | assign Zp = (status==2'b10) ? latchZp : |
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26 | (status==2'b01) ? (forward ? ((fault0) ? wi3: wi2) :1'bz) : |
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27 | 1'bz; |
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28 | assign Z = (status==2'b10 ) ? latchZ: |
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29 | (status==2'b01 ) ? ((forward===0) ? ((fault0) ? wi3p: wi2p) : 1'bz): |
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30 | 1'bz; |
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31 | initial |
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32 | begin |
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33 | latchZp =1'bZ; |
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34 | latchZ=1'bZ; |
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35 | end |
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36 | always@(posedge status[1]) |
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37 | begin |
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38 | if (status[0]==0) |
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39 | begin |
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40 | //latched <= ((fault0) ? wi3: wi2); |
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41 | latchZp <= Zp ; |
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42 | latchZ <= Z; |
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43 | end |
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44 | end |
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45 | endmodule |
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