TSTP Solution File: RNG019-6 by Fiesta---2
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%------------------------------------------------------------------------------
% File : Fiesta---2
% Problem : RNG019-6 : TPTP v8.1.0. Released v1.0.0.
% Transfm : none
% Format : dedam
% Command : fiesta-wrapper %s
% Computer : n032.cluster.edu
% Model : x86_64 x86_64
% CPU : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory : 8042.1875MB
% OS : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit : 600s
% DateTime : Mon Jul 18 20:27:48 EDT 2022
% Result : Unsatisfiable 2.64s 3.01s
% Output : CNFRefutation 2.64s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.03/0.10 % Problem : RNG019-6 : TPTP v8.1.0. Released v1.0.0.
% 0.03/0.11 % Command : fiesta-wrapper %s
% 0.10/0.30 % Computer : n032.cluster.edu
% 0.10/0.30 % Model : x86_64 x86_64
% 0.10/0.30 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.10/0.30 % Memory : 8042.1875MB
% 0.10/0.30 % OS : Linux 3.10.0-693.el7.x86_64
% 0.10/0.30 % CPULimit : 300
% 0.10/0.30 % WCLimit : 600
% 0.10/0.30 % DateTime : Mon May 30 20:19:57 EDT 2022
% 0.10/0.30 % CPUTime :
% 2.64/3.01 Theorem Proved.
% 2.64/3.01 % SZS status Unsatisfiable
% 2.64/3.01 % SZS output start CNFRefutation
% 2.64/3.01 [1=axiom,[],
% 2.64/3.01 add(multiply(X11,X10),additive_inverse(multiply(X10,X11))) = commutator(X10,X11)].
% 2.64/3.01 [2=axiom,[],
% 2.64/3.01 associator(X10,X11,X12) = add(multiply(multiply(X10,X11),X12),additive_inverse(multiply(X10,multiply(X11,X12))))].
% 2.64/3.01 [5=axiom,[],
% 2.64/3.01 add(add(X10,X11),X12) = add(X10,add(X11,X12))].
% 2.64/3.01 [6=axiom,[],
% 2.64/3.01 add(X10,X11) = add(X11,X10)].
% 2.64/3.01 [7=demod(2),[6],
% 2.64/3.01 associator(X10,X11,X12) = add(additive_inverse(multiply(X10,multiply(X11,X12))),multiply(multiply(X10,X11),X12))].
% 2.64/3.01 [8=axiom,[],
% 2.64/3.01 add(multiply(X10,X12),multiply(X11,X12)) = multiply(add(X10,X11),X12)].
% 2.64/3.01 [9=axiom,[],
% 2.64/3.01 add(multiply(X10,X11),multiply(X10,X12)) = multiply(X10,add(X11,X12))].
% 2.64/3.01 [10=axiom,[],
% 2.64/3.01 additive_inverse(additive_inverse(X10)) = X10].
% 2.64/3.01 [11=axiom,[],
% 2.64/3.01 add(X10,additive_inverse(X10)) = additive_identity].
% 2.64/3.01 [12=axiom,[],
% 2.64/3.01 multiply(X10,additive_identity) = additive_identity].
% 2.64/3.01 [13=axiom,[],
% 2.64/3.01 multiply(additive_identity,X10) = additive_identity].
% 2.64/3.01 [15=axiom,[],
% 2.64/3.01 add(additive_identity,X10) = X10].
% 2.64/3.01 [16=axiom,[],
% 2.64/3.01 thtop(X10,X10) = thmfalse].
% 2.64/3.01 [17=axiom,[6,7,7,7,5],
% 2.64/3.01 thtop(add(additive_inverse(multiply(x,multiply(y,add(v,u)))),multiply(multiply(x,y),add(v,u))),add(additive_inverse(multiply(x,multiply(y,u))),add(multiply(multiply(x,y),u),add(additive_inverse(multiply(x,multiply(y,v))),multiply(multiply(x,y),v))))) = thmtrue].
% 2.64/3.01 [23=param(11,15),[],
% 2.64/3.01 additive_inverse(additive_identity) = additive_identity].
% 2.64/3.01 [25=param(5,11),[15],
% 2.64/3.01 add(X11,add(additive_inverse(X11),X10)) = X10].
% 2.64/3.01 [26=param(6,1),[],
% 2.64/3.01 add(additive_inverse(multiply(X10,X11)),multiply(X11,X10)) = commutator(X10,X11)].
% 2.64/3.01 [27=param(6,5),[],
% 2.64/3.01 add(X10,add(X11,X12)) = add(X11,add(X12,X10))].
% 2.64/3.01 [28=param(5,6),[5],
% 2.64/3.01 add(X10,add(X11,X12)) = add(X11,add(X10,X12))].
% 2.64/3.01 [30=param(25,6),[5],
% 2.64/3.01 add(additive_inverse(X11),add(X10,X11)) = X10].
% 2.64/3.01 [31=param(25,6),[],
% 2.64/3.01 add(X10,add(X11,additive_inverse(X10))) = X11].
% 2.64/3.01 [32=param(31,1),[6],
% 2.64/3.01 add(commutator(X10,X11),multiply(X10,X11)) = multiply(X11,X10)].
% 2.64/3.01 [39=param(30,6),[],
% 2.64/3.01 add(additive_inverse(X10),add(X10,X11)) = X11].
% 2.64/3.01 [42=param(30,30),[6],
% 2.64/3.01 add(X10,additive_inverse(add(X10,X11))) = additive_inverse(X11)].
% 2.64/3.01 [46=param(30,39),[6],
% 2.64/3.01 add(X10,additive_inverse(add(X11,X10))) = additive_inverse(X11)].
% 2.64/3.01 [55=param(46,8),[],
% 2.64/3.01 add(multiply(X10,X11),additive_inverse(multiply(add(X12,X10),X11))) = additive_inverse(multiply(X12,X11))].
% 2.64/3.01 [56=param(46,9),[],
% 2.64/3.01 add(multiply(X10,X11),additive_inverse(multiply(X10,add(X12,X11)))) = additive_inverse(multiply(X10,X12))].
% 2.64/3.01 [57=param(25,46),[],
% 2.64/3.01 add(X10,additive_inverse(X11)) = additive_inverse(add(X11,additive_inverse(X10)))].
% 2.64/3.01 [58=param(39,46),[],
% 2.64/3.01 add(additive_inverse(X10),additive_inverse(X11)) = additive_inverse(add(X11,X10))].
% 2.64/3.01 [62=param(39,42),[],
% 2.64/3.01 add(additive_inverse(X10),additive_inverse(X11)) = additive_inverse(add(X10,X11))].
% 2.64/3.01 [63=demod(58),[62],
% 2.64/3.01 additive_inverse(add(X10,X11)) = additive_inverse(add(X11,X10))].
% 2.64/3.01 [65=param(62,10),[],
% 2.64/3.01 add(additive_inverse(X10),X11) = additive_inverse(add(X10,additive_inverse(X11)))].
% 2.64/3.01 [67=demod(26),[65,1],
% 2.64/3.01 additive_inverse(commutator(X10,X11)) = commutator(X11,X10)].
% 2.64/3.01 [73=param(65,67),[],
% 2.64/3.01 add(commutator(X10,X11),X12) = additive_inverse(add(commutator(X11,X10),additive_inverse(X12)))].
% 2.64/3.01 [75=param(27,5),[],
% 2.64/3.01 add(X10,add(X11,add(X12,X13))) = add(X12,add(X13,add(X10,X11)))].
% 2.64/3.01 [84=param(63,5),[],
% 2.64/3.01 additive_inverse(add(X10,add(X11,X12))) = additive_inverse(add(X12,add(X10,X11)))].
% 2.64/3.01 [87=param(65,63),[65,5,5],
% 2.64/3.01 additive_inverse(add(X10,add(X11,additive_inverse(X12)))) = additive_inverse(add(X11,add(X10,additive_inverse(X12))))].
% 2.64/3.01 [88=param(5,32),[],
% 2.64/3.01 add(multiply(X10,X11),X12) = add(commutator(X11,X10),add(multiply(X11,X10),X12))].
% 2.64/3.01 [89=param(27,32),[],
% 2.64/3.01 add(X10,multiply(X11,X12)) = add(multiply(X12,X11),add(X10,commutator(X12,X11)))].
% 2.64/3.01 [157=param(55,11),[13,23,6,15],
% 2.64/3.01 multiply(additive_inverse(X10),X11) = additive_inverse(multiply(X10,X11))].
% 2.64/3.01 [161=param(1,157),[65,10],
% 2.64/3.01 additive_inverse(add(multiply(X10,X11),multiply(X11,additive_inverse(X10)))) = commutator(X11,additive_inverse(X10))].
% 2.64/3.01 [166=param(56,11),[12,23,6,15],
% 2.64/3.01 multiply(X10,additive_inverse(X11)) = additive_inverse(multiply(X10,X11))].
% 2.64/3.01 [168=demod(161),[166,1],
% 2.64/3.01 commutator(X10,additive_inverse(X11)) = additive_inverse(commutator(X10,X11))].
% 2.64/3.01 [170=param(67,168),[10],
% 2.64/3.01 commutator(X10,X11) = commutator(additive_inverse(X11),X10)].
% 2.64/3.01 [177=param(170,67),[],
% 2.64/3.01 commutator(additive_inverse(X10),X11) = additive_inverse(commutator(X10,X11))].
% 2.64/3.01 [208=param(84,57),[65,10],
% 2.64/3.01 additive_inverse(add(X10,additive_inverse(add(X11,additive_inverse(X12))))) = add(X11,additive_inverse(add(X10,X12)))].
% 2.64/3.01 [344=param(28,9),[],
% 2.64/3.01 add(X10,multiply(X11,add(X12,X13))) = add(multiply(X11,X12),add(X10,multiply(X11,X13)))].
% 2.64/3.01 [401=param(73,28),[],
% 2.64/3.01 additive_inverse(add(commutator(X10,X11),additive_inverse(add(X12,X13)))) = add(X12,add(commutator(X11,X10),X13))].
% 2.64/3.01 [1172=param(17,344),[6,88,88,-401,170,177,65,10,10,89,6,-401,170,177,65,10,10,88,-401,170,177,87,65,10,10,-401,170,177,-401,170,177,75,6,65,-208,10,9,9,10,87,65,10,10,-208,65,10,10,10,16],
% 2.64/3.01 thmtrue = thmfalse].
% 2.64/3.01 % SZS output end CNFRefutation
% 2.64/3.01 Space: 12004 KB
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