Equations

********** Mapped Logic **********
$OpTx$$OpTx$FX_DC$1_INV$9 <= (ja22 AND jd(14).PIN);
FDCPE_bank: FDCPE port map (bank,'0','0',bank_CLR,bank_PRE);
     bank_CLR <= (NOT jrw AND NOT jd(6).PIN AND NOT jd(4).PIN AND NOT jd(3).PIN AND
      NOT jd(2).PIN AND NOT jd(1).PIN AND NOT jd(12).PIN AND NOT jd(10).PIN AND jd(9).PIN AND
      jd(8).PIN AND jd(7).PIN AND NOT jd(15).PIN AND NOT jd(13).PIN AND
      jd(11).PIN AND jd(5).PIN AND ja22 AND NOT jrom1 AND NOT jd(0).PIN AND
      jd(14).PIN);
     bank_PRE <= (NOT jrw AND NOT jd(6).PIN AND NOT jd(4).PIN AND NOT jd(3).PIN AND
      NOT jd(2).PIN AND NOT jd(1).PIN AND NOT jd(12).PIN AND NOT jd(10).PIN AND jd(9).PIN AND
      jd(8).PIN AND jd(7).PIN AND NOT jd(15).PIN AND NOT jd(13).PIN AND
      jd(11).PIN AND jd(5).PIN AND ja22 AND NOT jrom1 AND jd(0).PIN AND
      jd(14).PIN);
FDCPE_bstate0: FDCPE port map (bstate(0),'0','0',bstate_CLR(0),bstate_PRE(0));
     bstate_CLR(0) <= (NOT jrw AND NOT jd(6).PIN AND NOT jd(4).PIN AND NOT jd(3).PIN AND
      NOT jd(12).PIN AND NOT jd(10).PIN AND NOT jd(9).PIN AND NOT jd(8).PIN AND NOT jd(7).PIN AND
      NOT jd(15).PIN AND NOT jd(13).PIN AND NOT jd(11).PIN AND NOT jd(5).PIN AND ja22 AND
      NOT jrom1 AND NOT jd(0).PIN AND jd(14).PIN);
     bstate_PRE(0) <= (NOT jrw AND NOT jd(6).PIN AND NOT jd(4).PIN AND NOT jd(3).PIN AND
      NOT jd(12).PIN AND NOT jd(10).PIN AND NOT jd(9).PIN AND NOT jd(8).PIN AND NOT jd(7).PIN AND
      NOT jd(15).PIN AND NOT jd(13).PIN AND NOT jd(11).PIN AND NOT jd(5).PIN AND ja22 AND
      NOT jrom1 AND jd(0).PIN AND jd(14).PIN);
FDCPE_bstate1: FDCPE port map (bstate(1),'0','0',bstate_CLR(1),bstate_PRE(1));
     bstate_CLR(1) <= (NOT jrw AND NOT jd(6).PIN AND NOT jd(4).PIN AND NOT jd(3).PIN AND
      NOT jd(1).PIN AND NOT jd(12).PIN AND NOT jd(10).PIN AND NOT jd(9).PIN AND NOT jd(8).PIN AND
      NOT jd(7).PIN AND NOT jd(15).PIN AND NOT jd(13).PIN AND NOT jd(11).PIN AND
      NOT jd(5).PIN AND ja22 AND NOT jrom1 AND jd(14).PIN);
     bstate_PRE(1) <= (NOT jrw AND NOT jd(6).PIN AND NOT jd(4).PIN AND NOT jd(3).PIN AND
      jd(1).PIN AND NOT jd(12).PIN AND NOT jd(10).PIN AND NOT jd(9).PIN AND NOT jd(8).PIN AND
      NOT jd(7).PIN AND NOT jd(15).PIN AND NOT jd(13).PIN AND NOT jd(11).PIN AND
      NOT jd(5).PIN AND ja22 AND NOT jrom1 AND jd(14).PIN);
FDCPE_bstate2: FDCPE port map (bstate(2),'0','0',bstate_CLR(2),bstate_PRE(2));
     bstate_CLR(2) <= (NOT jrw AND NOT jd(6).PIN AND NOT jd(4).PIN AND NOT jd(3).PIN AND
      NOT jd(2).PIN AND NOT jd(12).PIN AND NOT jd(10).PIN AND NOT jd(9).PIN AND NOT jd(8).PIN AND
      NOT jd(7).PIN AND NOT jd(15).PIN AND NOT jd(13).PIN AND NOT jd(11).PIN AND
      NOT jd(5).PIN AND ja22 AND NOT jrom1 AND jd(14).PIN);
     bstate_PRE(2) <= (NOT jrw AND NOT jd(6).PIN AND NOT jd(4).PIN AND NOT jd(3).PIN AND
      jd(2).PIN AND NOT jd(12).PIN AND NOT jd(10).PIN AND NOT jd(9).PIN AND NOT jd(8).PIN AND
      NOT jd(7).PIN AND NOT jd(15).PIN AND NOT jd(13).PIN AND NOT jd(11).PIN AND
      NOT jd(5).PIN AND ja22 AND NOT jrom1 AND jd(14).PIN);
eza0 <= ((NOT ja22 AND bstate(0))
      OR (jrom1 AND bstate(0)));
eza1 <= ((NOT jrw AND ja22 AND NOT jrom1)
      OR (ja22 AND NOT jrom1 AND NOT bstate(2) AND bstate(1))
      OR (NOT ja22 AND NOT jrom1 AND bstate(2) AND bstate(1))
      OR (NOT ja22 AND NOT jrom1 AND NOT bstate(2) AND bank));
ezrd30 <= NOT (((jrw AND NOT jrom1 AND bstate(2))
      OR (bstate(2) AND bstate(1) AND NOT bstate(0))
      OR (jrw AND ja22 AND NOT jrom1 AND NOT bstate(1))));
ezwr31 <= NOT (((bstate(2) AND bstate(1) AND NOT bstate(0))
      OR (NOT jrw AND ja22 AND NOT jrom1 AND NOT jd(14).PIN)
      OR (NOT jrw AND NOT ja22 AND NOT jrom1 AND bstate(2))));
floe <= NOT (((jrw AND NOT ja22 AND NOT jrom1 AND NOT bstate(2))
      OR (jrw AND NOT jrom1 AND NOT bstate(2) AND bstate(1))));
flwe <= NOT ((NOT jrw AND NOT ja22 AND NOT jrom1 AND NOT bstate(2) AND NOT bstate(0)));
FDCPE_ireset0: FDCPE port map (ireset0,'0','0',ireset0_CLR,ireset0_PRE);
     ireset0_CLR <= (NOT jrw AND NOT jd(6).PIN AND NOT jd(4).PIN AND jd(3).PIN AND
      jd(2).PIN AND NOT jd(1).PIN AND jd(12).PIN AND NOT jd(10).PIN AND jd(9).PIN AND
      jd(8).PIN AND jd(7).PIN AND NOT jd(15).PIN AND jd(13).PIN AND
      jd(11).PIN AND jd(5).PIN AND ja22 AND NOT jrom1 AND NOT jd(0).PIN AND
      jd(14).PIN);
     ireset0_PRE <= (NOT jrw AND NOT jd(6).PIN AND NOT jd(4).PIN AND jd(3).PIN AND
      jd(2).PIN AND NOT jd(1).PIN AND jd(12).PIN AND NOT jd(10).PIN AND jd(9).PIN AND
      jd(8).PIN AND jd(7).PIN AND NOT jd(15).PIN AND jd(13).PIN AND
      jd(11).PIN AND jd(5).PIN AND ja22 AND NOT jrom1 AND jd(0).PIN AND
      jd(14).PIN);
jd_I(0) <= pd(0).PIN;
     jd(0) <= jd_I(0) when jd_OE(0) = '1' else 'Z';
     jd_OE(0) <= (jrw AND NOT jrom1);
jd_I(1) <= pd(1).PIN;
     jd(1) <= jd_I(1) when jd_OE(1) = '1' else 'Z';
     jd_OE(1) <= (jrw AND NOT jrom1);
jd_I(2) <= pd(2).PIN;
     jd(2) <= jd_I(2) when jd_OE(2) = '1' else 'Z';
     jd_OE(2) <= (jrw AND NOT jrom1);
jd_I(3) <= pd(3).PIN;
     jd(3) <= jd_I(3) when jd_OE(3) = '1' else 'Z';
     jd_OE(3) <= (jrw AND NOT jrom1);
jd_I(4) <= pd(4).PIN;
     jd(4) <= jd_I(4) when jd_OE(4) = '1' else 'Z';
     jd_OE(4) <= (jrw AND NOT jrom1);
jd_I(5) <= pd(5).PIN;
     jd(5) <= jd_I(5) when jd_OE(5) = '1' else 'Z';
     jd_OE(5) <= (jrw AND NOT jrom1);
jd_I(6) <= pd(6).PIN;
     jd(6) <= jd_I(6) when jd_OE(6) = '1' else 'Z';
     jd_OE(6) <= (jrw AND NOT jrom1);
jd_I(7) <= pd(7).PIN;
     jd(7) <= jd_I(7) when jd_OE(7) = '1' else 'Z';
     jd_OE(7) <= (jrw AND NOT jrom1);
jd_I(8) <= pd(8).PIN;
     jd(8) <= jd_I(8) when jd_OE(8) = '1' else 'Z';
     jd_OE(8) <= (jrw AND NOT jrom1);
jd_I(9) <= pd(9).PIN;
     jd(9) <= jd_I(9) when jd_OE(9) = '1' else 'Z';
     jd_OE(9) <= (jrw AND NOT jrom1);
jd_I(10) <= pd(10).PIN;
     jd(10) <= jd_I(10) when jd_OE(10) = '1' else 'Z';
     jd_OE(10) <= (jrw AND NOT jrom1);
jd_I(11) <= pd(11).PIN;
     jd(11) <= jd_I(11) when jd_OE(11) = '1' else 'Z';
     jd_OE(11) <= (jrw AND NOT jrom1);
jd_I(12) <= pd(12).PIN;
     jd(12) <= jd_I(12) when jd_OE(12) = '1' else 'Z';
     jd_OE(12) <= (jrw AND NOT jrom1);
jd_I(13) <= pd(13).PIN;
     jd(13) <= jd_I(13) when jd_OE(13) = '1' else 'Z';
     jd_OE(13) <= (jrw AND NOT jrom1);
jd_I(14) <= pd(14).PIN;
     jd(14) <= jd_I(14) when jd_OE(14) = '1' else 'Z';
     jd_OE(14) <= (jrw AND NOT jrom1);
jd_I(15) <= pd(15).PIN;
     jd(15) <= jd_I(15) when jd_OE(15) = '1' else 'Z';
     jd_OE(15) <= (jrw AND NOT jrom1);
pd_I(0) <= jd(0).PIN;
     pd(0) <= pd_I(0) when pd_OE(0) = '1' else 'Z';
     pd_OE(0) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(1) <= jd(1).PIN;
     pd(1) <= pd_I(1) when pd_OE(1) = '1' else 'Z';
     pd_OE(1) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(2) <= jd(2).PIN;
     pd(2) <= pd_I(2) when pd_OE(2) = '1' else 'Z';
     pd_OE(2) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(3) <= jd(3).PIN;
     pd(3) <= pd_I(3) when pd_OE(3) = '1' else 'Z';
     pd_OE(3) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(4) <= jd(4).PIN;
     pd(4) <= pd_I(4) when pd_OE(4) = '1' else 'Z';
     pd_OE(4) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(5) <= jd(5).PIN;
     pd(5) <= pd_I(5) when pd_OE(5) = '1' else 'Z';
     pd_OE(5) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(6) <= jd(6).PIN;
     pd(6) <= pd_I(6) when pd_OE(6) = '1' else 'Z';
     pd_OE(6) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(7) <= jd(7).PIN;
     pd(7) <= pd_I(7) when pd_OE(7) = '1' else 'Z';
     pd_OE(7) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(8) <= jd(8).PIN;
     pd(8) <= pd_I(8) when pd_OE(8) = '1' else 'Z';
     pd_OE(8) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(9) <= jd(9).PIN;
     pd(9) <= pd_I(9) when pd_OE(9) = '1' else 'Z';
     pd_OE(9) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(10) <= jd(10).PIN;
     pd(10) <= pd_I(10) when pd_OE(10) = '1' else 'Z';
     pd_OE(10) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(11) <= jd(11).PIN;
     pd(11) <= pd_I(11) when pd_OE(11) = '1' else 'Z';
     pd_OE(11) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(12) <= jd(12).PIN;
     pd(12) <= pd_I(12) when pd_OE(12) = '1' else 'Z';
     pd_OE(12) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(13) <= jd(13).PIN;
     pd(13) <= pd_I(13) when pd_OE(13) = '1' else 'Z';
     pd_OE(13) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(14) <= jd(14).PIN;
     pd(14) <= pd_I(14) when pd_OE(14) = '1' else 'Z';
     pd_OE(14) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
pd_I(15) <= jd(15).PIN;
     pd(15) <= pd_I(15) when pd_OE(15) = '1' else 'Z';
     pd_OE(15) <= (NOT jrw AND NOT jrom1 AND NOT $OpTx$$OpTx$FX_DC$1_INV$9);
preset <= ((ireset0)
      OR (jrw AND NOT ja22 AND NOT jrom1));
Register Legend:
      FDCPE (Q,D,C,CLR,PRE,CE);
      FTCPE (Q,D,C,CLR,PRE,CE);
      LDCP (Q,D,G,CLR,PRE);