let P1, P2 be Instruction-Sequence of SCM+FSA; :: thesis:
let s1, s2 be State of SCM+FSA; :: thesis:
let I be Program of SCM+FSA; :: thesis:
set S1 = Initialize s1;
set S2 = Initialize s2;
assume A1: DataPart s1 = DataPart s2 ; :: thesis:
A2: DataPart (Comput ((P1 +* I),(Initialize s1),0)) = DataPart s1 by MEMSTR_0:79
.= DataPart (Comput ((P2 +* I),(Initialize s2),0)) by A1, MEMSTR_0:79 ;
assume A3: I is_closed_on s1,P1 ; :: thesis:
then A4: 0 in dom I by Th1;
defpred S₁[ Nat] means ( IC (Comput ((P1 +* I),(Initialize s1),$1)) = IC (Comput ((P2 +* I),(Initialize s2),$1)) & CurInstr ((P1 +* I),(Comput ((P1 +* I),(Initialize s1),$1))) = CurInstr ((P2 +* I),(Comput ((P2 +* I),(Initialize s2),$1))) & DataPart (Comput ((P1 +* I),(Initialize s1),$1)) = DataPart (Comput ((P2 +* I),(Initialize s2),$1)) );

A5: now :: thesis:

let k be Element of NAT ; :: thesis:
A6: Comput ((P2 +* I),(Initialize s2),(k + 1)) = Following ((P2 +* I),(Comput ((P2 +* I),(Initialize s2),k))) by EXTPRO_1:3
.= Exec ((CurInstr ((P2 +* I),(Comput ((P2 +* I),(Initialize s2),k)))),(Comput ((P2 +* I),(Initialize s2),k))) ;
assume A7: S₁[k] ; :: thesis:
then A8: for f being FinSeq-Location holds (Comput ((P1 +* I),(Initialize s1),k)) . f = (Comput ((P2 +* I),(Initialize s2),k)) . f by SCMFSA_M:2;
for a being Int-Location holds (Comput ((P1 +* I),(Initialize s1),k)) . a = (Comput ((P2 +* I),(Initialize s2),k)) . a by A7, SCMFSA_M:2;
then A9: Comput ((P1 +* I),(Initialize s1),k) = Comput ((P2 +* I),(Initialize s2),k) by A7, A8, SCMFSA_2:61;
A10: IC (Comput ((P1 +* I),(Initialize s1),(k + 1))) in dom I by A3, SCMFSA7B:def 6;
Comput ((P1 +* I),(Initialize s1),(k + 1)) = Following ((P1 +* I),(Comput ((P1 +* I),(Initialize s1),k))) by EXTPRO_1:3
.= Exec ((CurInstr ((P1 +* I),(Comput ((P1 +* I),(Initialize s1),k)))),(Comput ((P1 +* I),(Initialize s1),k))) ;
then A11: Comput ((P1 +* I),(Initialize s1),(k + 1)) = Comput ((P2 +* I),(Initialize s2),(k + 1)) by A7, A9, A6;
A12: IC (Comput ((P1 +* I),(Initialize s1),(k + 1))) = IC (Comput ((P2 +* I),(Initialize s2),(k + 1))) by A11;
A13: (P1 +* I) /. (IC (Comput ((P1 +* I),(Initialize s1),(k + 1)))) = (P1 +* I) . (IC (Comput ((P1 +* I),(Initialize s1),(k + 1)))) by PBOOLE:143;
A14: (P2 +* I) /. (IC (Comput ((P2 +* I),(Initialize s2),(k + 1)))) = (P2 +* I) . (IC (Comput ((P2 +* I),(Initialize s2),(k + 1)))) by PBOOLE:143;
A15: I c= P1 +* I by FUNCT_4:25;
A16: I c= P2 +* I by FUNCT_4:25;
CurInstr ((P1 +* I),(Comput ((P1 +* I),(Initialize s1),(k + 1)))) = I . (IC (Comput ((P1 +* I),(Initialize s1),(k + 1)))) by A10, A13, A15, GRFUNC_1:2
.= CurInstr ((P2 +* I),(Comput ((P2 +* I),(Initialize s2),(k + 1)))) by A12, A10, A14, A16, GRFUNC_1:2 ;
hence S₁[k + 1] by A11; :: thesis:

end;

A17: (P1 +* I) /. (IC (Comput ((P1 +* I),(Initialize s1),0))) = (P1 +* I) . (IC (Comput ((P1 +* I),(Initialize s1),0))) by PBOOLE:143;
A18: (P2 +* I) /. (IC (Comput ((P2 +* I),(Initialize s2),0))) = (P2 +* I) . (IC (Comput ((P2 +* I),(Initialize s2),0))) by PBOOLE:143;
A19: IC in dom (Start-At (0,SCM+FSA)) by MEMSTR_0:15;
then A20: IC (Comput ((P2 +* I),(Initialize s2),0)) = IC (Start-At (0,SCM+FSA)) by FUNCT_4:13
.= 0 by FUNCOP_1:72 ;
A21: IC (Comput ((P1 +* I),(Initialize s1),0)) = IC (Start-At (0,SCM+FSA)) by A19, FUNCT_4:13
.= 0 by FUNCOP_1:72 ;
then CurInstr ((P1 +* I),(Comput ((P1 +* I),(Initialize s1),0))) = I . 0 by A4, A17, FUNCT_4:13
.= CurInstr ((P2 +* I),(Comput ((P2 +* I),(Initialize s2),0))) by A20, A4, A18, FUNCT_4:13 ;
then A22: S₁[ 0 ] by A21, A20, A2;

now :: thesis:

let k be Element of NAT ; :: thesis:
A23: IC (Comput ((P1 +* I),(Initialize s1),k)) in dom I by A3, SCMFSA7B:def 6;
for k being Element of NAT holds S₁[k] from NAT_1:sch 1(A22, A5);
hence IC (Comput ((P2 +* I),(Initialize s2),k)) in dom I by A23; :: thesis:

end;

hence I is_closed_on s2,P2 by SCMFSA7B:def 6; :: thesis: