let am, bm, cm, dm be non pair set ; :: thesis: for cin being set st cin <> [<*dm,(GFA3AdderOutput (am,bm,cm))*>,nor2] & not cin in InnerVertices (BitGFA3Str (am,bm,cm)) holds
for s being State of (BitFTA3Circ (am,bm,cm,dm,cin))
for a1, a2, a3, a4, a5 being Element of BOOLEAN st a1 = s . am & a2 = s . bm & a3 = s . cm & a4 = s . dm & a5 = s . cin holds
( (Following (s,3)) . [<*(GFA3AdderOutput (am,bm,cm)),cin*>,xor2] = ('not' ((('not' a1) 'xor' ('not' a2)) 'xor' ('not' a3))) 'xor' a5 & (Following (s,3)) . am = a1 & (Following (s,3)) . bm = a2 & (Following (s,3)) . cm = a3 & (Following (s,3)) . dm = a4 & (Following (s,3)) . cin = a5 )
let cin be set ; :: thesis: ( cin <> [<*dm,(GFA3AdderOutput (am,bm,cm))*>,nor2] & not cin in InnerVertices (BitGFA3Str (am,bm,cm)) implies for s being State of (BitFTA3Circ (am,bm,cm,dm,cin))
for a1, a2, a3, a4, a5 being Element of BOOLEAN st a1 = s . am & a2 = s . bm & a3 = s . cm & a4 = s . dm & a5 = s . cin holds
( (Following (s,3)) . [<*(GFA3AdderOutput (am,bm,cm)),cin*>,xor2] = ('not' ((('not' a1) 'xor' ('not' a2)) 'xor' ('not' a3))) 'xor' a5 & (Following (s,3)) . am = a1 & (Following (s,3)) . bm = a2 & (Following (s,3)) . cm = a3 & (Following (s,3)) . dm = a4 & (Following (s,3)) . cin = a5 ) )
assume A1: ( cin <> [<*dm,(GFA3AdderOutput (am,bm,cm))*>,nor2] & not cin in InnerVertices (BitGFA3Str (am,bm,cm)) ) ; :: thesis: for s being State of (BitFTA3Circ (am,bm,cm,dm,cin))
for a1, a2, a3, a4, a5 being Element of BOOLEAN st a1 = s . am & a2 = s . bm & a3 = s . cm & a4 = s . dm & a5 = s . cin holds
( (Following (s,3)) . [<*(GFA3AdderOutput (am,bm,cm)),cin*>,xor2] = ('not' ((('not' a1) 'xor' ('not' a2)) 'xor' ('not' a3))) 'xor' a5 & (Following (s,3)) . am = a1 & (Following (s,3)) . bm = a2 & (Following (s,3)) . cm = a3 & (Following (s,3)) . dm = a4 & (Following (s,3)) . cin = a5 )
set S = BitFTA3Str (am,bm,cm,dm,cin);
A2: ( am in InputVertices (BitFTA3Str (am,bm,cm,dm,cin)) & bm in InputVertices (BitFTA3Str (am,bm,cm,dm,cin)) ) by A1, Th36;
A3: ( cm in InputVertices (BitFTA3Str (am,bm,cm,dm,cin)) & dm in InputVertices (BitFTA3Str (am,bm,cm,dm,cin)) ) by A1, Th36;
let s be State of (BitFTA3Circ (am,bm,cm,dm,cin)); :: thesis: for a1, a2, a3, a4, a5 being Element of BOOLEAN st a1 = s . am & a2 = s . bm & a3 = s . cm & a4 = s . dm & a5 = s . cin holds
( (Following (s,3)) . [<*(GFA3AdderOutput (am,bm,cm)),cin*>,xor2] = ('not' ((('not' a1) 'xor' ('not' a2)) 'xor' ('not' a3))) 'xor' a5 & (Following (s,3)) . am = a1 & (Following (s,3)) . bm = a2 & (Following (s,3)) . cm = a3 & (Following (s,3)) . dm = a4 & (Following (s,3)) . cin = a5 )
let a1, a2, a3, a4, a5 be Element of BOOLEAN ; :: thesis: ( a1 = s . am & a2 = s . bm & a3 = s . cm & a4 = s . dm & a5 = s . cin implies ( (Following (s,3)) . [<*(GFA3AdderOutput (am,bm,cm)),cin*>,xor2] = ('not' ((('not' a1) 'xor' ('not' a2)) 'xor' ('not' a3))) 'xor' a5 & (Following (s,3)) . am = a1 & (Following (s,3)) . bm = a2 & (Following (s,3)) . cm = a3 & (Following (s,3)) . dm = a4 & (Following (s,3)) . cin = a5 ) )
assume A4: ( a1 = s . am & a2 = s . bm & a3 = s . cm & a4 = s . dm & a5 = s . cin ) ; :: thesis: ( (Following (s,3)) . [<*(GFA3AdderOutput (am,bm,cm)),cin*>,xor2] = ('not' ((('not' a1) 'xor' ('not' a2)) 'xor' ('not' a3))) 'xor' a5 & (Following (s,3)) . am = a1 & (Following (s,3)) . bm = a2 & (Following (s,3)) . cm = a3 & (Following (s,3)) . dm = a4 & (Following (s,3)) . cin = a5 )
A5: ( (Following (s,2)) . cm = a3 & (Following (s,2)) . dm = a4 ) by A1, A4, Th38;
set A1 = GFA3AdderOutput (am,bm,cm);
set A1cin = [<*(GFA3AdderOutput (am,bm,cm)),cin*>,xor2];
A6: Following (s,(2 + 1)) = Following (Following (s,2)) by FACIRC_1:12;
( (Following (s,2)) . (GFA3AdderOutput (am,bm,cm)) = 'not' ((('not' a1) 'xor' ('not' a2)) 'xor' ('not' a3)) & (Following (s,2)) . cin = a5 ) by A1, A4, Th38;
hence (Following (s,3)) . [<*(GFA3AdderOutput (am,bm,cm)),cin*>,xor2] = ('not' ((('not' a1) 'xor' ('not' a2)) 'xor' ('not' a3))) 'xor' a5 by A6, Lm34; :: thesis: ( (Following (s,3)) . am = a1 & (Following (s,3)) . bm = a2 & (Following (s,3)) . cm = a3 & (Following (s,3)) . dm = a4 & (Following (s,3)) . cin = a5 )
A7: (Following (s,2)) . cin = a5 by A1, A4, Th38;
A8: cin in InputVertices (BitFTA3Str (am,bm,cm,dm,cin)) by A1, Th36;
( (Following (s,2)) . am = a1 & (Following (s,2)) . bm = a2 ) by A1, A4, Th38;
hence ( (Following (s,3)) . am = a1 & (Following (s,3)) . bm = a2 & (Following (s,3)) . cm = a3 & (Following (s,3)) . dm = a4 & (Following (s,3)) . cin = a5 ) by A6, A2, A3, A8, A5, A7, CIRCUIT2:def 5; :: thesis: verum