TSTP Solution File: SYN779-1 by Otter---3.3
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- Process Solution
%------------------------------------------------------------------------------
% File : Otter---3.3
% Problem : SYN779-1 : TPTP v8.1.0. Released v2.5.0.
% Transfm : none
% Format : tptp:raw
% Command : otter-tptp-script %s
% Computer : n006.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 : 300s
% DateTime : Wed Jul 27 13:25:16 EDT 2022
% Result : Timeout 299.93s 300.06s
% Output : None
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.11/0.11 % Problem : SYN779-1 : TPTP v8.1.0. Released v2.5.0.
% 0.11/0.12 % Command : otter-tptp-script %s
% 0.12/0.33 % Computer : n006.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 : 300
% 0.12/0.33 % DateTime : Wed Jul 27 11:22:16 EDT 2022
% 0.12/0.33 % CPUTime :
% 2.56/2.81 ----- Otter 3.3f, August 2004 -----
% 2.56/2.81 The process was started by sandbox2 on n006.cluster.edu,
% 2.56/2.81 Wed Jul 27 11:22:17 2022
% 2.56/2.81 The command was "./otter". The process ID is 31464.
% 2.56/2.81
% 2.56/2.81 set(prolog_style_variables).
% 2.56/2.81 set(auto).
% 2.56/2.81 dependent: set(auto1).
% 2.56/2.81 dependent: set(process_input).
% 2.56/2.81 dependent: clear(print_kept).
% 2.56/2.81 dependent: clear(print_new_demod).
% 2.56/2.81 dependent: clear(print_back_demod).
% 2.56/2.81 dependent: clear(print_back_sub).
% 2.56/2.81 dependent: set(control_memory).
% 2.56/2.81 dependent: assign(max_mem, 12000).
% 2.56/2.81 dependent: assign(pick_given_ratio, 4).
% 2.56/2.81 dependent: assign(stats_level, 1).
% 2.56/2.81 dependent: assign(max_seconds, 10800).
% 2.56/2.81 clear(print_given).
% 2.56/2.81
% 2.56/2.81 list(usable).
% 2.56/2.81 0 [] ssRr(skf3(U),U).
% 2.56/2.81 0 [] ssRr(U,skf2(U)).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv4(U)| -ssRr(V,W)|ssPv1(W)|ssPv2(W)|ssPv4(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(W,X)| -ssRr(V,W)|ssPv3(U)|ssPv1(X)|ssPv3(V)|ssPv4(V).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(V,W)| -ssRr(X,W)| -ssPv4(X)| -ssPv4(W)|ssPv3(U)|ssPv3(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(V,W)| -ssRr(X,W)| -ssPv1(X)| -ssPv1(W)|ssPv1(U)|ssPv4(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(W,X)| -ssPv4(X)| -ssRr(V,W)| -ssPv3(V)|ssPv4(U)|ssPv2(V).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv3(U)| -ssRr(W,V)| -ssRr(X,Y)| -ssRr(V,X)|ssPv4(W)|ssPv1(Y)|ssPv2(V).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv1(V)| -ssRr(W,U)| -ssRr(X,Y)| -ssRr(W,X)| -ssPv2(W)|ssPv1(Y)|ssPv3(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(V,W)| -ssRr(X,W)| -ssRr(W,Y)| -ssPv1(Y)| -ssPv2(W)|ssPv1(U)|ssPv1(X).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(V,W)| -ssRr(W,X)| -ssPv3(X)| -ssRr(W,Y)| -ssPv4(W)|ssPv4(U)|ssPv2(Y).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(V,W)| -ssRr(X,Y)| -ssRr(W,X)| -ssPv3(W)| -ssPv4(W)|ssPv1(U)|ssPv1(Y).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv1(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssRr(W,X)| -ssPv1(W)|ssPv4(Y)|ssPv2(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv2(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssRr(W,X)| -ssPv3(W)|ssPv2(Y)|ssPv1(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(V,W)| -ssRr(X,Y)| -ssPv2(Y)| -ssRr(W,X)| -ssPv2(W)|ssPv3(U)|ssPv1(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv1(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssRr(W,X)| -ssPv2(W)|ssPv2(Y)|ssPv1(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv2(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssPv1(Y)| -ssRr(W,X)| -ssPv3(W)|ssPv1(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(V,W)| -ssRr(W,X)| -ssPv4(X)| -ssRr(W,Y)| -ssPv1(Y)| -ssPv2(W)|ssPv2(U).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv1(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssPv2(Y)| -ssRr(W,X)| -ssPv1(W)| -ssPv4(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(V,W)| -ssRr(X,Y)| -ssRr(W,X)| -ssRr(W,Z)| -ssPv3(Z)|ssPv2(U)|ssPv3(Y)|ssPv3(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(V,W)| -ssRr(X,Y)| -ssRr(W,X)| -ssRr(W,Z)| -ssPv4(Z)|ssPv3(U)|ssPv2(Y)|ssPv1(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv1(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssPv3(Y)| -ssRr(W,X)| -ssRr(W,Z)|ssPv4(Z)|ssPv2(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv1(U)| -ssRr(V,W)| -ssRr(X,W)| -ssRr(Y,Z)| -ssRr(W,Y)| -ssPv4(W)|ssPv1(X)|ssPv3(Z).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssRr(V,W)| -ssRr(X,Y)| -ssPv4(Y)| -ssRr(W,X)| -ssRr(W,Z)| -ssPv1(Z)| -ssPv1(W)|ssPv2(U).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv1(V)| -ssRr(W,U)| -ssRr(X,Y)| -ssRr(W,X)| -ssRr(W,Z)| -ssPv2(Z)| -ssPv4(W)|ssPv1(Y).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv2(U)| -ssRr(W,X)| -ssPv4(X)| -ssRr(V,W)| -ssRr(Y,Z)| -ssPv3(Z)| -ssRr(V,Y)|ssPv1(V).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv4(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssPv3(X)| -ssRr(Y,W)| -ssRr(W,Z)| -ssPv4(W)|ssPv3(Z).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv3(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssRr(Y,W)| -ssRr(Z,X1)| -ssRr(X1,W)|ssPv2(X)|ssPv1(Z)|ssPv4(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv3(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssPv1(Y)| -ssRr(W,X)| -ssRr(Z,X1)| -ssRr(W,Z)|ssPv4(X1)|ssPv4(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv3(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssPv2(X)| -ssRr(Y,W)| -ssRr(Z,X1)| -ssRr(W,Z)| -ssPv4(W)|ssPv2(X1).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv4(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssPv4(Y)| -ssRr(W,X)| -ssRr(Z,X1)| -ssPv3(X1)| -ssRr(W,Z)|ssPv2(W).
% 2.56/2.81 0 [] -ssRr(U,V)| -ssPv3(U)| -ssRr(V,W)| -ssRr(X,Y)| -ssPv2(X)| -ssRr(Y,W)| -ssRr(Z,X1)| -ssPv1(Z)| -ssRr(X1,W)| -ssPv2(W).
% 2.56/2.81 end_of_list.
% 2.56/2.81
% 2.56/2.81 SCAN INPUT: prop=0, horn=0, equality=0, symmetry=0, max_lits=10.
% 2.56/2.81
% 2.56/2.81 This is a non-Horn set without equality. The strategy will
% 2.56/2.81 be ordered hyper_res, unit deletion, and factoring, with
% 2.56/2.81 satellites in sos and with nuclei in usable.
% 2.56/2.81
% 2.56/2.81 dependent: set(hyper_res).
% 2.56/2.81 dependent: set(factor).
% 2.56/2.81 dependent: set(unit_deletion).
% 2.56/2.81
% 2.56/2.81 ------------> process usable:
% 2.56/2.81 ** KEPT (pick-wt=14): 1 [] -ssRr(A,B)| -ssPv4(A)| -ssRr(B,C)|ssPv1(C)|ssPv2(C)|ssPv4(C).
% 2.56/2.81 ** KEPT (pick-wt=17): 2 [] -ssRr(A,B)| -ssRr(C,D)| -ssRr(B,C)|ssPv3(A)|ssPv1(D)|ssPv3(B)|ssPv4(B).
% 2.56/2.81 ** KEPT (pick-wt=17): 3 [] -ssRr(A,B)| -ssRr(B,C)| -ssRr(D,C)| -ssPv4(D)| -ssPv4(C)|ssPv3(A)|ssPv3(C).
% 2.56/2.81 ** KEPT (pick-wt=17): 4 [] -ssRr(A,B)| -ssRr(B,C)| -ssRr(D,C)| -ssPv1(D)| -ssPv1(C)|ssPv1(A)|ssPv4(C).
% 2.56/2.81 ** KEPT (pick-wt=17): 5 [] -ssRr(A,B)| -ssRr(C,D)| -ssPv4(D)| -ssRr(B,C)| -ssPv3(B)|ssPv4(A)|ssPv2(B).
% 2.56/2.81 ** KEPT (pick-wt=20): 6 [] -ssRr(A,B)| -ssPv3(A)| -ssRr(C,B)| -ssRr(D,E)| -ssRr(B,D)|ssPv4(C)|ssPv1(E)|ssPv2(B).
% 2.56/2.81 ** KEPT (pick-wt=20): 7 [] -ssRr(A,B)| -ssPv1(B)| -ssRr(C,A)| -ssRr(D,E)| -ssRr(C,D)| -ssPv2(C)|ssPv1(E)|ssPv3(C).
% 2.56/2.81 ** KEPT (pick-wt=20): 8 [] -ssRr(A,B)| -ssRr(B,C)| -ssRr(D,C)| -ssRr(C,E)| -ssPv1(E)| -ssPv2(C)|ssPv1(A)|ssPv1(D).
% 2.56/2.81 ** KEPT (pick-wt=20): 9 [] -ssRr(A,B)| -ssRr(B,C)| -ssRr(C,D)| -ssPv3(D)| -ssRr(C,E)| -ssPv4(C)|ssPv4(A)|ssPv2(E).
% 2.56/2.81 ** KEPT (pick-wt=20): 10 [] -ssRr(A,B)| -ssRr(B,C)| -ssRr(D,E)| -ssRr(C,D)| -ssPv3(C)| -ssPv4(C)|ssPv1(A)|ssPv1(E).
% 2.56/2.81 ** KEPT (pick-wt=20): 11 [] -ssRr(A,B)| -ssPv1(A)| -ssRr(B,C)| -ssRr(D,E)| -ssRr(C,D)| -ssPv1(C)|ssPv4(E)|ssPv2(C).
% 2.56/2.81 ** KEPT (pick-wt=20): 12 [] -ssRr(A,B)| -ssPv2(A)| -ssRr(B,C)| -ssRr(D,E)| -ssRr(C,D)| -ssPv3(C)|ssPv2(E)|ssPv1(C).
% 2.56/2.81 ** KEPT (pick-wt=20): 13 [] -ssRr(A,B)| -ssRr(B,C)| -ssRr(D,E)| -ssPv2(E)| -ssRr(C,D)| -ssPv2(C)|ssPv3(A)|ssPv1(C).
% 2.56/2.81 ** KEPT (pick-wt=20): 14 [] -ssRr(A,B)| -ssPv1(A)| -ssRr(B,C)| -ssRr(D,E)| -ssRr(C,D)| -ssPv2(C)|ssPv2(E)|ssPv1(C).
% 2.56/2.81 ** KEPT (pick-wt=20): 15 [] -ssRr(A,B)| -ssPv2(A)| -ssRr(B,C)| -ssRr(D,E)| -ssPv1(E)| -ssRr(C,D)| -ssPv3(C)|ssPv1(C).
% 2.56/2.81 ** KEPT (pick-wt=20): 16 [] -ssRr(A,B)| -ssRr(B,C)| -ssRr(C,D)| -ssPv4(D)| -ssRr(C,E)| -ssPv1(E)| -ssPv2(C)|ssPv2(A).
% 2.56/2.81 ** KEPT (pick-wt=20): 17 [] -ssRr(A,B)| -ssPv1(A)| -ssRr(B,C)| -ssRr(D,E)| -ssPv2(E)| -ssRr(C,D)| -ssPv1(C)| -ssPv4(C).
% 2.56/2.81 ** KEPT (pick-wt=23): 18 [] -ssRr(A,B)| -ssRr(B,C)| -ssRr(D,E)| -ssRr(C,D)| -ssRr(C,F)| -ssPv3(F)|ssPv2(A)|ssPv3(E)|ssPv3(C).
% 2.56/2.81 ** KEPT (pick-wt=23): 19 [] -ssRr(A,B)| -ssRr(B,C)| -ssRr(D,E)| -ssRr(C,D)| -ssRr(C,F)| -ssPv4(F)|ssPv3(A)|ssPv2(E)|ssPv1(C).
% 2.56/2.81 ** KEPT (pick-wt=23): 20 [] -ssRr(A,B)| -ssPv1(A)| -ssRr(B,C)| -ssRr(D,E)| -ssPv3(E)| -ssRr(C,D)| -ssRr(C,F)|ssPv4(F)|ssPv2(C).
% 2.56/2.81 ** KEPT (pick-wt=23): 21 [] -ssRr(A,B)| -ssPv1(A)| -ssRr(B,C)| -ssRr(D,C)| -ssRr(E,F)| -ssRr(C,E)| -ssPv4(C)|ssPv1(D)|ssPv3(F).
% 2.56/2.81 ** KEPT (pick-wt=23): 22 [] -ssRr(A,B)| -ssRr(B,C)| -ssRr(D,E)| -ssPv4(E)| -ssRr(C,D)| -ssRr(C,F)| -ssPv1(F)| -ssPv1(C)|ssPv2(A).
% 2.56/2.81 ** KEPT (pick-wt=23): 23 [] -ssRr(A,B)| -ssPv1(B)| -ssRr(C,A)| -ssRr(D,E)| -ssRr(C,D)| -ssRr(C,F)| -ssPv2(F)| -ssPv4(C)|ssPv1(E).
% 2.56/2.81 ** KEPT (pick-wt=23): 24 [] -ssRr(A,B)| -ssPv2(A)| -ssRr(C,D)| -ssPv4(D)| -ssRr(B,C)| -ssRr(E,F)| -ssPv3(F)| -ssRr(B,E)|ssPv1(B).
% 2.56/2.81 ** KEPT (pick-wt=23): 25 [] -ssRr(A,B)| -ssPv4(A)| -ssRr(B,C)| -ssRr(D,E)| -ssPv3(D)| -ssRr(E,C)| -ssRr(C,F)| -ssPv4(C)|ssPv3(F).
% 2.56/2.81 ** KEPT (pick-wt=26): 26 [] -ssRr(A,B)| -ssPv3(A)| -ssRr(B,C)| -ssRr(D,E)| -ssRr(E,C)| -ssRr(F,G)| -ssRr(G,C)|ssPv2(D)|ssPv1(F)|ssPv4(C).
% 2.56/2.81 ** KEPT (pick-wt=26): 27 [] -ssRr(A,B)| -ssPv3(A)| -ssRr(B,C)| -ssRr(D,E)| -ssPv1(E)| -ssRr(C,D)| -ssRr(F,G)| -ssRr(C,F)|ssPv4(G)|ssPv4(C).
% 2.56/2.81 ** KEPT (pick-wt=26): 28 [] -ssRr(A,B)| -ssPv3(A)| -ssRr(B,C)| -ssRr(D,E)| -ssPv2(D)| -ssRr(E,C)| -ssRr(F,G)| -ssRr(C,F)| -ssPv4(C)|ssPv2(G).
% 2.56/2.81 ** KEPT (pick-wt=26): 29 [] -ssRr(A,B)| -ssPv4(A)| -ssRr(B,C)| -ssRr(D,E)| -ssPv4(E)| -ssRr(C,D)| -ssRr(F,G)| -ssPv3(G)| -ssRr(C,F)|ssPv2(C).
% 2.56/2.81 ** KEPT (pick-wt=26): 30 [] -ssRr(A,B)| -ssPv3(A)| -ssRr(B,C)| -ssRr(D,E)| -ssPv2(D)| -ssRr(E,C)| -ssRr(F,G)| -ssPv1(F)| -ssRr(G,C)| -ssPv2(C).
% 2.56/2.81 81 back subsumes 53.
% 2.56/2.81 145 back subsumes 95.
% 2.56/2.81 149 back subsumes 148.
% 2.56/2.81 203 back subsumes 202.
% 2.56/2.81 205 back subsumes 203.
% 2.56/2.81 222 back subsumes 61.
% 2.56/2.81 222 back subsumes 42.
% 2.56/2.81 226 back subsumes 40.
% 2.56/2.81 241 back subsumes 238.
% 2.56/2.81 245 back subsumes 241.
% 2.56/2.81 276 back subsumes 271.
% 2.56/2.81 331 back subsumes 321.
% 2.56/2.81 332 back subsumes 328.
% 2.56/2.81 391 back subsumes 388.
% 2.56/2.81 411 back subsumes 405.
% 2.56/2.81 414 back subsumes 412.
% 2.56/2.81 433 back subsumes 407.
% 2.56/2.81 438 back subsumes 431.
% 2.56/2.81 459 back subsumes 458.
% 2.56/2.81 461 back subsumes 459.
% 2.56/2.81
% 2.56/2.81 ------------> process sos:
% 2.56/2.81 ** KEPT (pick-wt=4): 503 [] ssRr(skf3(A),A).
% 2.56/2.81 ** KEPT (pick-wt=4): 504 []Alarm clock
% 299.93/300.06 Otter interrupted
% 299.93/300.06 PROOF NOT FOUND
%------------------------------------------------------------------------------