TSTP Solution File: GRP818+1 by Vampire-SAT---4.8
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%------------------------------------------------------------------------------
% File : Vampire-SAT---4.8
% Problem : GRP818+1 : TPTP v8.1.2. Released v7.5.0.
% Transfm : none
% Format : tptp:raw
% Command : vampire --mode casc_sat -m 16384 --cores 7 -t %d %s
% Computer : n024.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 : Tue Apr 30 12:09:27 EDT 2024
% Result : CounterSatisfiable 1.31s 0.53s
% Output : FiniteModel 1.31s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12 % Problem : GRP818+1 : TPTP v8.1.2. Released v7.5.0.
% 0.07/0.14 % Command : vampire --mode casc_sat -m 16384 --cores 7 -t %d %s
% 0.13/0.35 % Computer : n024.cluster.edu
% 0.13/0.35 % Model : x86_64 x86_64
% 0.13/0.35 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.35 % Memory : 8042.1875MB
% 0.13/0.35 % OS : Linux 3.10.0-693.el7.x86_64
% 0.13/0.35 % CPULimit : 300
% 0.13/0.35 % WCLimit : 300
% 0.13/0.35 % DateTime : Tue Apr 30 04:22:36 EDT 2024
% 0.13/0.35 % CPUTime :
% 0.13/0.35 % (10632)Running in auto input_syntax mode. Trying TPTP
% 0.13/0.37 % (10635)WARNING: value z3 for option sas not known
% 0.13/0.37 % (10638)ott-10_8_av=off:bd=preordered:bs=on:fsd=off:fsr=off:fde=unused:irw=on:lcm=predicate:lma=on:nm=4:nwc=1.7:sp=frequency_522 on theBenchmark for (522ds/0Mi)
% 0.13/0.37 % (10636)fmb+10_1_bce=on:fmbsr=1.5:nm=32_533 on theBenchmark for (533ds/0Mi)
% 0.13/0.37 % (10633)fmb+10_1_bce=on:fmbas=function:fmbsr=1.2:fde=unused:nm=0_846 on theBenchmark for (846ds/0Mi)
% 0.13/0.37 % (10634)fmb+10_1_bce=on:fmbdsb=on:fmbes=contour:fmbswr=3:fde=none:nm=0_793 on theBenchmark for (793ds/0Mi)
% 0.13/0.37 % (10637)ott+10_10:1_add=off:afr=on:amm=off:anc=all:bd=off:bs=on:fsr=off:irw=on:lma=on:msp=off:nm=4:nwc=4.0:sac=on:sp=reverse_frequency_531 on theBenchmark for (531ds/0Mi)
% 0.13/0.37 % (10635)dis+2_11_add=large:afr=on:amm=off:bd=off:bce=on:fsd=off:fde=none:gs=on:gsaa=full_model:gsem=off:irw=on:msp=off:nm=4:nwc=1.3:sas=z3:sims=off:sac=on:sp=reverse_arity_569 on theBenchmark for (569ds/0Mi)
% 0.13/0.37 % (10639)ott+1_64_av=off:bd=off:bce=on:fsd=off:fde=unused:gsp=on:irw=on:lcm=predicate:lma=on:nm=2:nwc=1.1:sims=off:urr=on_497 on theBenchmark for (497ds/0Mi)
% 0.21/0.43 TRYING [1]
% 0.21/0.43 TRYING [2]
% 0.21/0.45 TRYING [1]
% 0.21/0.46 TRYING [2]
% 1.31/0.53 Finite Model Found!
% 1.31/0.53 % SZS status CounterSatisfiable for theBenchmark
% 1.31/0.53 % (10633)First to succeed.
% 1.31/0.53 % SZS output start FiniteModel for theBenchmark
% 1.31/0.53 tff(declare_$i,type,$i:$tType).
% 1.31/0.53 tff(declare_$i1,type,e:$i).
% 1.31/0.53 tff(declare_$i2,type,fmb_$i_2:$i).
% 1.31/0.53 tff(finite_domain,axiom,
% 1.31/0.53 ! [X:$i] : (
% 1.31/0.53 X = e | X = fmb_$i_2
% 1.31/0.53 ) ).
% 1.31/0.53
% 1.31/0.53 tff(distinct_domain,axiom,
% 1.31/0.53 e != fmb_$i_2
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 tff(declare_bool,type,$o:$tType).
% 1.31/0.53 tff(declare_bool1,type,fmb_bool_1:$o).
% 1.31/0.53 tff(finite_domain,axiom,
% 1.31/0.53 ! [X:$o] : (
% 1.31/0.53 X = fmb_bool_1
% 1.31/0.53 ) ).
% 1.31/0.53
% 1.31/0.53 tff(declare_m,type,m: $i * $i > $i).
% 1.31/0.53 tff(function_m,axiom,
% 1.31/0.53 m(e,e) = e
% 1.31/0.53 & m(e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & m(fmb_$i_2,e) = fmb_$i_2
% 1.31/0.53 & m(fmb_$i_2,fmb_$i_2) = e
% 1.31/0.53
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 tff(declare_b,type,b: $i * $i > $i).
% 1.31/0.53 tff(function_b,axiom,
% 1.31/0.53 b(e,e) = e
% 1.31/0.53 & b(e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & b(fmb_$i_2,e) = fmb_$i_2
% 1.31/0.53 & b(fmb_$i_2,fmb_$i_2) = e
% 1.31/0.53
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 tff(declare_s,type,s: $i * $i > $i).
% 1.31/0.53 tff(function_s,axiom,
% 1.31/0.53 s(e,e) = e
% 1.31/0.53 & s(e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & s(fmb_$i_2,e) = fmb_$i_2
% 1.31/0.53 & s(fmb_$i_2,fmb_$i_2) = e
% 1.31/0.53
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 tff(declare_t,type,t: $i * $i > $i).
% 1.31/0.53 tff(function_t,axiom,
% 1.31/0.53 t(e,e) = e
% 1.31/0.53 & t(e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & t(fmb_$i_2,e) = e
% 1.31/0.53 & t(fmb_$i_2,fmb_$i_2) = fmb_$i_2
% 1.31/0.53
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 tff(declare_i1,type,i1: $i * $i > $i).
% 1.31/0.53 tff(function_i1,axiom,
% 1.31/0.53 i1(e,e) = e
% 1.31/0.53 & i1(e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & i1(fmb_$i_2,e) = e
% 1.31/0.53 & i1(fmb_$i_2,fmb_$i_2) = fmb_$i_2
% 1.31/0.53
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 tff(declare_i2,type,i2: $i * $i > $i).
% 1.31/0.53 tff(function_i2,axiom,
% 1.31/0.53 i2(e,e) = e
% 1.31/0.53 & i2(e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & i2(fmb_$i_2,e) = e
% 1.31/0.53 & i2(fmb_$i_2,fmb_$i_2) = fmb_$i_2
% 1.31/0.53
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 tff(declare_j2,type,j2: $i * $i > $i).
% 1.31/0.53 tff(function_j2,axiom,
% 1.31/0.53 j2(e,e) = e
% 1.31/0.53 & j2(e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & j2(fmb_$i_2,e) = e
% 1.31/0.53 & j2(fmb_$i_2,fmb_$i_2) = fmb_$i_2
% 1.31/0.53
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 tff(declare_l,type,l: $i * $i * $i > $i).
% 1.31/0.53 tff(function_l,axiom,
% 1.31/0.53 l(e,e,e) = e
% 1.31/0.53 & l(e,e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & l(e,fmb_$i_2,e) = e
% 1.31/0.53 & l(e,fmb_$i_2,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & l(fmb_$i_2,e,e) = e
% 1.31/0.53 & l(fmb_$i_2,e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & l(fmb_$i_2,fmb_$i_2,e) = e
% 1.31/0.53 & l(fmb_$i_2,fmb_$i_2,fmb_$i_2) = fmb_$i_2
% 1.31/0.53
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 tff(declare_r,type,r: $i * $i * $i > $i).
% 1.31/0.53 tff(function_r,axiom,
% 1.31/0.53 r(e,e,e) = e
% 1.31/0.53 & r(e,e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & r(e,fmb_$i_2,e) = e
% 1.31/0.53 & r(e,fmb_$i_2,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & r(fmb_$i_2,e,e) = e
% 1.31/0.53 & r(fmb_$i_2,e,fmb_$i_2) = fmb_$i_2
% 1.31/0.53 & r(fmb_$i_2,fmb_$i_2,e) = e
% 1.31/0.53 & r(fmb_$i_2,fmb_$i_2,fmb_$i_2) = fmb_$i_2
% 1.31/0.53
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 tff(declare_a,type,a: $i * $i * $i > $i).
% 1.31/0.53 tff(function_a,axiom,
% 1.31/0.53 a(e,e,e) = fmb_$i_2
% 1.31/0.53 & a(e,e,fmb_$i_2) = e
% 1.31/0.53 & a(e,fmb_$i_2,e) = e
% 1.31/0.53 & a(e,fmb_$i_2,fmb_$i_2) = e
% 1.31/0.53 & a(fmb_$i_2,e,e) = e
% 1.31/0.53 & a(fmb_$i_2,e,fmb_$i_2) = e
% 1.31/0.53 & a(fmb_$i_2,fmb_$i_2,e) = e
% 1.31/0.53 & a(fmb_$i_2,fmb_$i_2,fmb_$i_2) = e
% 1.31/0.53
% 1.31/0.53 ).
% 1.31/0.53
% 1.31/0.53 % SZS output end FiniteModel for theBenchmark
% 1.31/0.53 % (10633)------------------------------
% 1.31/0.53 % (10633)Version: Vampire 4.8 (commit 8e9376e55 on 2024-01-18 13:49:33 +0100)
% 1.31/0.54 % (10633)Termination reason: Satisfiable
% 1.31/0.54
% 1.31/0.54 % (10633)Memory used [KB]: 2578
% 1.31/0.54 % (10633)Time elapsed: 0.164 s
% 1.31/0.54 % (10633)Instructions burned: 417 (million)
% 1.31/0.54 % (10633)------------------------------
% 1.31/0.54 % (10633)------------------------------
% 1.31/0.54 % (10632)Success in time 0.17 s
%------------------------------------------------------------------------------