TSTP Solution File: GRP589-1 by Waldmeister---710
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%------------------------------------------------------------------------------
% File : Waldmeister---710
% Problem : GRP589-1 : TPTP v8.1.0. Released v2.6.0.
% Transfm : none
% Format : tptp:raw
% Command : woody %s
% Computer : n020.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 : Sat Jul 16 12:27:02 EDT 2022
% Result : Unsatisfiable 0.60s 1.00s
% Output : CNFRefutation 0.60s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12 % Problem : GRP589-1 : TPTP v8.1.0. Released v2.6.0.
% 0.07/0.12 % Command : woody %s
% 0.12/0.33 % Computer : n020.cluster.edu
% 0.12/0.33 % Model : x86_64 x86_64
% 0.12/0.33 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.33 % Memory : 8042.1875MB
% 0.12/0.33 % OS : Linux 3.10.0-693.el7.x86_64
% 0.12/0.33 % CPULimit : 300
% 0.12/0.33 % WCLimit : 600
% 0.12/0.33 % DateTime : Mon Jun 13 13:40:20 EDT 2022
% 0.12/0.33 % CPUTime :
% 0.60/1.00 ********************************************************************************
% 0.60/1.00 * W A L D M E I S T E R \| \ / \|/ *
% 0.60/1.00 * |/ | \/ | *
% 0.60/1.00 * (C) 1994-2010 A. Buch and Th. Hillenbrand, \ / \ / *
% 0.60/1.00 * A. Jaeger and B. Loechner | | *
% 0.60/1.00 * <waldmeister@informatik.uni-kl.de> | *
% 0.60/1.00 ********************************************************************************
% 0.60/1.00
% 0.60/1.00
% 0.60/1.00 Goals:
% 0.60/1.00 ------
% 0.60/1.00
% 0.60/1.00 ( 1) multiply(inverse(a1),a1) ?=? multiply(inverse(b1),b1)
% 0.60/1.00
% 0.60/1.00 Detected structure: Orkus
% 0.60/1.00 ********************************************************************************
% 0.60/1.00 ****************************** COMPLETION - PROOF ******************************
% 0.60/1.00 ********************************************************************************
% 0.60/1.00
% 0.60/1.00 joined goal: 1 multiply(inverse(a1),a1) ?= multiply(inverse(b1),b1) to multiply(inverse(b1),b1)
% 0.60/1.00 goal joined
% 0.60/1.00 % SZS status Unsatisfiable
% 0.60/1.00 #START OF PROOF
% 0.60/1.00 % SZS output start CNFRefutation
% 0.60/1.00 cnf('0.1.0.0',axiom,
% 0.60/1.00 ( X1 = double_divide(inverse(double_divide(double_divide(X2,X3),inverse(double_divide(X2,inverse(X1))))),X3) ),
% 0.60/1.00 file('/tmp/WALDMEISTER_16698_n020')).
% 0.60/1.00 cnf('0.1.1.0',plain,
% 0.60/1.00 ( X1 = double_divide(inverse(double_divide(double_divide(X2,X3),inverse(double_divide(X2,inverse(X1))))),X3) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.1.0.0']),
% 0.60/1.00 [weight('<0,0,0,[0,0,0,1]>')]).
% 0.60/1.00 cnf('0.1.2.0',plain,
% 0.60/1.00 ( double_divide(inverse(double_divide(double_divide(X1,X2),inverse(double_divide(X1,inverse(X3))))),X2) = X3 ),
% 0.60/1.00 inference(orient,[status(thm)],['0.1.1.0',theory(equality)]),
% 0.60/1.00 [x,rule_1]).
% 0.60/1.00 cnf('0.2.0.0',axiom,
% 0.60/1.00 ( inverse(double_divide(X1,X2)) = multiply(X2,X1) ),
% 0.60/1.00 file('/tmp/WALDMEISTER_16698_n020')).
% 0.60/1.00 cnf('0.2.1.0',plain,
% 0.60/1.00 ( inverse(double_divide(X1,X2)) = multiply(X2,X1) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.2.0.0']),
% 0.60/1.00 [weight('<1,0,0,[0,0,0,2]>')]).
% 0.60/1.00 cnf('0.2.2.0',plain,
% 0.60/1.00 ( inverse(double_divide(X1,X2)) = multiply(X2,X1) ),
% 0.60/1.00 inference(orient,[status(thm)],['0.2.1.0',theory(equality)]),
% 0.60/1.00 [u,rule_2]).
% 0.60/1.00 cnf('0.3.0.0',plain,
% 0.60/1.00 ( double_divide(inverse(double_divide(double_divide(X1,X2),inverse(double_divide(X1,inverse(X3))))),X2) = X3 ),
% 0.60/1.00 inference(interreduction_right,[status(thm)],['0.1.2.0'])).
% 0.60/1.00 cnf('0.3.0.1',plain,
% 0.60/1.00 ( double_divide(multiply(inverse(double_divide(X1,inverse(X3))),double_divide(X1,X2)),X2) = X3 ),
% 0.60/1.00 inference(reduction,[status(thm)],['0.3.0.0','0.2.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.1','L')]).
% 0.60/1.00 cnf('0.3.0.2',plain,
% 0.60/1.00 ( double_divide(multiply(multiply(inverse(X3),X1),double_divide(X1,X2)),X2) = X3 ),
% 0.60/1.00 inference(reduction,[status(thm)],['0.3.0.1','0.2.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.1.1','L')]).
% 0.60/1.00 cnf('0.3.1.0',plain,
% 0.60/1.00 ( double_divide(multiply(multiply(inverse(X3),X1),double_divide(X1,X2)),X2) = X3 ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.3.0.2']),
% 0.60/1.00 [weight('<131,1,2,[0,0,0,0]>')]).
% 0.60/1.00 cnf('0.3.2.0',plain,
% 0.60/1.00 ( double_divide(multiply(multiply(inverse(X1),X2),double_divide(X2,X3)),X3) = X1 ),
% 0.60/1.00 inference(orient,[status(thm)],['0.3.1.0',theory(equality)]),
% 0.60/1.00 [u,rule_3]).
% 0.60/1.00 cnf('0.4.0.0',plain,
% 0.60/1.00 ( multiply(X1,multiply(multiply(inverse(X2),X3),double_divide(X3,X1))) = inverse(X2) ),
% 0.60/1.00 inference(cp,[status(thm)],['0.2.2.0','0.3.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.1','L')]).
% 0.60/1.00 cnf('0.4.1.0',plain,
% 0.60/1.00 ( multiply(X1,multiply(multiply(inverse(X2),X3),double_divide(X3,X1))) = inverse(X2) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.4.0.0']),
% 0.60/1.00 [weight('<142,3,2,[0,0,0,1]>')]).
% 0.60/1.00 cnf('0.4.2.0',plain,
% 0.60/1.00 ( multiply(X1,multiply(multiply(inverse(X2),X3),double_divide(X3,X1))) = inverse(X2) ),
% 0.60/1.00 inference(orient,[status(thm)],['0.4.1.0',theory(equality)]),
% 0.60/1.00 [u,rule_4]).
% 0.60/1.00 cnf('0.7.0.0',plain,
% 0.60/1.00 ( X1 = double_divide(multiply(multiply(inverse(X1),multiply(multiply(inverse(X2),X3),double_divide(X3,X4))),X2),X4) ),
% 0.60/1.00 inference(cp,[status(thm)],['0.3.2.0','0.3.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.1.2','L')]).
% 0.60/1.00 cnf('0.7.1.0',plain,
% 0.60/1.00 ( X1 = double_divide(multiply(multiply(inverse(X1),multiply(multiply(inverse(X2),X3),double_divide(X3,X4))),X2),X4) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.7.0.0']),
% 0.60/1.00 [weight('<271,3,3,[0,0,0,6]>')]).
% 0.60/1.00 cnf('0.7.2.0',plain,
% 0.60/1.00 ( double_divide(multiply(multiply(inverse(X1),multiply(multiply(inverse(X2),X3),double_divide(X3,X4))),X2),X4) = X1 ),
% 0.60/1.00 inference(orient,[status(thm)],['0.7.1.0',theory(equality)]),
% 0.60/1.00 [x,rule_7]).
% 0.60/1.00 cnf('0.8.0.0',plain,
% 0.60/1.00 ( X1 = double_divide(multiply(inverse(X2),X2),inverse(X1)) ),
% 0.60/1.00 inference(cp,[status(thm)],['0.7.2.0','0.4.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.1.1','L')]).
% 0.60/1.00 cnf('0.8.1.0',plain,
% 0.60/1.00 ( X1 = double_divide(multiply(inverse(X2),X2),inverse(X1)) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.8.0.0']),
% 0.60/1.00 [weight('<71,7,4,[1,0,0,2]>')]).
% 0.60/1.00 cnf('0.8.2.0',plain,
% 0.60/1.00 ( double_divide(multiply(inverse(X1),X1),inverse(X2)) = X2 ),
% 0.60/1.00 inference(orient,[status(thm)],['0.8.1.0',theory(equality)]),
% 0.60/1.00 [x,rule_8]).
% 0.60/1.00 cnf('0.9.0.0',plain,
% 0.60/1.00 ( multiply(inverse(X1),multiply(inverse(X2),X2)) = inverse(X1) ),
% 0.60/1.00 inference(cp,[status(thm)],['0.2.2.0','0.8.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.1','L')]).
% 0.60/1.00 cnf('0.9.1.0',plain,
% 0.60/1.00 ( multiply(inverse(X1),multiply(inverse(X2),X2)) = inverse(X1) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.9.0.0']),
% 0.60/1.00 [weight('<79,8,2,[0,0,0,1]>')]).
% 0.60/1.00 cnf('0.9.2.0',plain,
% 0.60/1.00 ( multiply(inverse(X1),multiply(inverse(X2),X2)) = inverse(X1) ),
% 0.60/1.00 inference(orient,[status(thm)],['0.9.1.0',theory(equality)]),
% 0.60/1.00 [u,rule_9]).
% 0.60/1.00 cnf('0.10.0.0',plain,
% 0.60/1.00 ( X1 = double_divide(inverse(multiply(inverse(X2),X2)),inverse(X1)) ),
% 0.60/1.00 inference(cp,[status(thm)],['0.8.2.0','0.9.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.1','L')]).
% 0.60/1.00 cnf('0.10.1.0',plain,
% 0.60/1.00 ( X1 = double_divide(inverse(multiply(inverse(X2),X2)),inverse(X1)) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.10.0.0']),
% 0.60/1.00 [weight('<89,9,8,[0,0,0,1]>')]).
% 0.60/1.00 cnf('0.10.2.0',plain,
% 0.60/1.00 ( double_divide(inverse(multiply(inverse(X1),X1)),inverse(X2)) = X2 ),
% 0.60/1.00 inference(orient,[status(thm)],['0.10.1.0',theory(equality)]),
% 0.60/1.00 [x,rule_10]).
% 0.60/1.00 cnf('0.12.0.0',plain,
% 0.60/1.00 ( double_divide(X1,X2) = double_divide(multiply(inverse(X3),X3),multiply(X2,X1)) ),
% 0.60/1.00 inference(cp,[status(thm)],['0.8.2.0','0.2.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.2','L')]).
% 0.60/1.00 cnf('0.12.1.0',plain,
% 0.60/1.00 ( double_divide(X1,X2) = double_divide(multiply(inverse(X3),X3),multiply(X2,X1)) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.12.0.0']),
% 0.60/1.00 [weight('<107,8,2,[1,0,0,5]>')]).
% 0.60/1.00 cnf('0.12.2.0',plain,
% 0.60/1.00 ( double_divide(multiply(inverse(X1),X1),multiply(X2,X3)) = double_divide(X3,X2) ),
% 0.60/1.00 inference(orient,[status(thm)],['0.12.1.0',theory(equality)]),
% 0.60/1.00 [x,rule_12]).
% 0.60/1.00 cnf('0.20.0.0',plain,
% 0.60/1.00 ( X1 = double_divide(multiply(multiply(inverse(X1),multiply(inverse(X2),X2)),double_divide(X3,X4)),multiply(X4,X3)) ),
% 0.60/1.00 inference(cp,[status(thm)],['0.3.2.0','0.12.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.1.2','L')]).
% 0.60/1.00 cnf('0.20.0.1',plain,
% 0.60/1.00 ( X1 = double_divide(multiply(inverse(X1),double_divide(X3,X4)),multiply(X4,X3)) ),
% 0.60/1.00 inference(reduction,[status(thm)],['0.20.0.0','0.9.2.0',theory(equality)]),
% 0.60/1.00 [pos('R.1.1','L')]).
% 0.60/1.00 cnf('0.20.1.0',plain,
% 0.60/1.00 ( X1 = double_divide(multiply(inverse(X1),double_divide(X3,X4)),multiply(X4,X3)) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.20.0.1']),
% 0.60/1.00 [weight('<131,12,3,[0,0,0,6]>')]).
% 0.60/1.00 cnf('0.20.2.0',plain,
% 0.60/1.00 ( double_divide(multiply(inverse(X1),double_divide(X2,X3)),multiply(X3,X2)) = X1 ),
% 0.60/1.00 inference(orient,[status(thm)],['0.20.1.0',theory(equality)]),
% 0.60/1.00 [x,rule_20]).
% 0.60/1.00 cnf('0.21.0.0',plain,
% 0.60/1.00 ( X1 = double_divide(multiply(inverse(X1),X2),multiply(X3,multiply(multiply(inverse(X2),X4),double_divide(X4,X3)))) ),
% 0.60/1.00 inference(cp,[status(thm)],['0.20.2.0','0.3.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.1.2','L')]).
% 0.60/1.00 cnf('0.21.0.1',plain,
% 0.60/1.00 ( X1 = double_divide(multiply(inverse(X1),X2),inverse(X2)) ),
% 0.60/1.00 inference(reduction,[status(thm)],['0.21.0.0','0.4.2.0',theory(equality)]),
% 0.60/1.00 [pos('R.2','L')]).
% 0.60/1.00 cnf('0.21.1.0',plain,
% 0.60/1.00 ( X1 = double_divide(multiply(inverse(X1),X2),inverse(X2)) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.21.0.1']),
% 0.60/1.00 [weight('<71,20,3,[1,0,0,4]>')]).
% 0.60/1.00 cnf('0.21.2.0',plain,
% 0.60/1.00 ( double_divide(multiply(inverse(X1),X2),inverse(X2)) = X1 ),
% 0.60/1.00 inference(orient,[status(thm)],['0.21.1.0',theory(equality)]),
% 0.60/1.00 [x,rule_21]).
% 0.60/1.00 cnf('0.23.0.0',plain,
% 0.60/1.00 ( X1 = double_divide(inverse(X1),inverse(multiply(inverse(X2),X2))) ),
% 0.60/1.00 inference(cp,[status(thm)],['0.21.2.0','0.9.2.0',theory(equality)]),
% 0.60/1.00 [pos('L.1','L')]).
% 0.60/1.00 cnf('0.23.1.0',plain,
% 0.60/1.00 ( X1 = double_divide(inverse(X1),inverse(multiply(inverse(X2),X2))) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.23.0.0']),
% 0.60/1.00 [weight('<89,21,9,[1,0,0,1]>')]).
% 0.60/1.00 cnf('0.23.2.0',plain,
% 0.60/1.00 ( double_divide(inverse(X1),inverse(multiply(inverse(X2),X2))) = X1 ),
% 0.60/1.00 inference(orient,[status(thm)],['0.23.1.0',theory(equality)]),
% 0.60/1.00 [x,rule_23]).
% 0.60/1.00 cnf('0.24.0.0',plain,
% 0.60/1.00 ( multiply(inverse(X1),X1) = multiply(inverse(X2),X2) ),
% 0.60/1.00 inference(cp,[status(thm)],['0.23.2.0','0.10.2.0',theory(equality)]),
% 0.60/1.00 [pos('L','L')]).
% 0.60/1.00 cnf('0.24.1.0',plain,
% 0.60/1.00 ( multiply(inverse(X1),X1) = multiply(inverse(X2),X2) ),
% 0.60/1.00 inference(weigh,[status(thm)],['0.24.0.0']),
% 0.60/1.00 [weight('<80,23,10,[1,0,0,0]>')]).
% 0.60/1.00 cnf('0.24.2.0',plain,
% 0.60/1.00 ( multiply(inverse(X1),X1) = multiply(inverse(X2),X2) ),
% 0.60/1.00 inference(activate,[status(thm)],['0.24.1.0']),
% 0.60/1.00 [equation_1]).
% 0.60/1.00 cnf('0.24.2.1',plain,
% 0.60/1.00 ( multiply(inverse(X1),X1) = multiply(inverse(b1),b1) ),
% 0.60/1.00 inference(instr,[status(thm)],['0.24.2.0',theory(equality)])).
% 0.60/1.00 cnf('0.24.2.2',plain,
% 0.60/1.00 ( multiply(inverse(b1),b1) = multiply(inverse(X1),X1) ),
% 0.60/1.00 inference(instl,[status(thm)],['0.24.2.0',theory(equality)])).
% 0.60/1.00 cnf('1.0.0.0',conjecture,
% 0.60/1.00 ( multiply(inverse(a1),a1) = multiply(inverse(b1),b1) ),
% 0.60/1.00 file('/tmp/WALDMEISTER_16698_n020',conjecture_1)).
% 0.60/1.00 cnf('1.0.0.1',plain,
% 0.60/1.00 ( multiply(inverse(b1),b1) = multiply(inverse(b1),b1) ),
% 0.60/1.00 inference(reduction,[status(thm)],['1.0.0.0','0.24.2.1',theory(equality)]),
% 0.60/1.00 [pos('L','L')]).
% 0.60/1.00 cnf('1.0.0.2',plain,
% 0.60/1.00 ( $true ),
% 0.60/1.00 inference(trivial,[status(thm)],['1.0.0.1',theory(equality)]),
% 0.60/1.00 [conjecture_1]).
% 0.60/1.00
% 0.60/1.00 Proved Goals:
% 0.60/1.00 No. 1: multiply(inverse(a1),a1) ?= multiply(inverse(b1),b1) joined, current: multiply(inverse(b1),b1) = multiply(inverse(b1),b1)
% 0.60/1.00 1 goal was specified, which was proved.
% 0.60/1.00 % SZS output end CNFRefutation
% 0.60/1.00 #END OF PROOF
% 0.60/1.00
% 0.60/1.00 Problem WALDMEISTER_16698_n020
% 0.60/1.00 CPs.gen 284
% 0.60/1.00 CPs.reexp 0
% 0.60/1.00 Select 40
% 0.60/1.00 R 23
% 0.60/1.00 E 1
% 0.60/1.00 vsize 6.4M
% 0.60/1.00 rss 3.8M
% 0.60/1.00 process.time 0.003s
% 0.60/1.00 wallclock.time 0.003s
% 0.60/1.00 status S
% 0.60/1.00
% 0.60/1.00
% 0.60/1.00 Waldmeister states: Goal proved.
% 0.60/1.00 % SZS status Unsatisfiable
%------------------------------------------------------------------------------