%------------------------------------------------------------------------------
% File     : SnakeForV-SAT---1.0
% Problem  : MGT037-2 : TPTP v8.1.0. Released v2.4.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : vampire --input_syntax tptp --proof tptp --output_axiom_names on --mode portfolio --schedule snake_tptp_sat --cores 0 -t %d %s

% Computer : n004.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 Aug 31 17:51:32 EDT 2022

% Result   : Satisfiable 0.19s 0.51s
% Output   : Saturation 0.19s
% Verified : 
% SZS Type : ERROR: Analysing output (MakeTreeStats fails)

% Comments : 
%------------------------------------------------------------------------------
cnf(u54,negated_conjecture,
    decreases(number_of_organizations(sk3,sk4)) ).

cnf(u76,negated_conjecture,
    decreases(number_of_organizations(sk3,sk1(sk4,sk3))) ).

cnf(u88,negated_conjecture,
    greater(cardinality_at_time(efficient_producers,sk1(sk4,sk3)),zero) ).

cnf(u91,negated_conjecture,
    zero != cardinality_at_time(efficient_producers,sk1(sk4,sk3)) ).

cnf(u105,negated_conjecture,
    ( ~ greater(resilience(efficient_producers),resilience(X0))
    | greater(zero,growth_rate(X0,sk1(sk4,sk3))) ) ).

cnf(u116,negated_conjecture,
    ( ~ greater(resilience(first_movers),resilience(X0))
    | greater(zero,growth_rate(X0,sk1(sk4,sk3))) ) ).

cnf(u142,negated_conjecture,
    zero != number_of_organizations(sk3,sk4) ).

cnf(a7_48,hypothesis,
    ( ~ constant(resources(X0,X1))
    | ~ in_environment(X0,X1)
    | ~ environment(X0)
    | constant(number_of_organizations(X0,X1)) ) ).

cnf(mp_constant_not_decrease_41,axiom,
    ( ~ constant(X0)
    | ~ decreases(X0) ) ).

cnf(u94,negated_conjecture,
    subpopulation(efficient_producers,sk3,sk1(sk4,sk3)) ).

cnf(u67,negated_conjecture,
    subpopulation(first_movers,sk3,sk1(sk4,sk3)) ).

cnf(u35,negated_conjecture,
    subpopulation(efficient_producers,sk3,sk4) ).

cnf(u33,negated_conjecture,
    subpopulation(first_movers,sk3,sk4) ).

cnf(mp_no_members_36,axiom,
    ( ~ subpopulation(X2,X0,X1)
    | ~ in_environment(X0,X1)
    | ~ environment(X0)
    | zero != number_of_organizations(X0,X1)
    | zero = cardinality_at_time(X2,X1) ) ).

cnf(a7_47,hypothesis,
    ( ~ decreases(resources(X0,X1))
    | ~ decreases(number_of_organizations(X0,X1))
    | ~ in_environment(X0,X1)
    | ~ environment(X0) ) ).

cnf(u61,negated_conjecture,
    in_environment(sk3,sk1(sk4,sk3)) ).

cnf(prove_t6_52,negated_conjecture,
    in_environment(sk3,sk4) ).

cnf(mp_subpopulations_37,axiom,
    ( ~ in_environment(X0,X1)
    | subpopulation(first_movers,X0,X1)
    | ~ environment(X0) ) ).

cnf(mp_subpopulations_38,axiom,
    ( ~ in_environment(X0,X1)
    | subpopulation(efficient_producers,X0,X1)
    | ~ environment(X0) ) ).

cnf(mp_efficient_producers_exist_40,axiom,
    ( ~ in_environment(X0,X1)
    | greater(cardinality_at_time(efficient_producers,X1),zero)
    | cardinality_at_time(efficient_producers,X1) = zero
    | ~ environment(X0) ) ).

cnf(mp_non_decreasing_33,axiom,
    ( ~ in_environment(X0,X1)
    | decreases(number_of_organizations(X0,X1))
    | subpopulation(sk2(X1,X0),X0,X1)
    | ~ environment(X0) ) ).

cnf(mp_non_decreasing_34,axiom,
    ( ~ in_environment(X0,X1)
    | greater(cardinality_at_time(sk2(X1,X0),X1),zero)
    | ~ environment(X0)
    | decreases(number_of_organizations(X0,X1)) ) ).

cnf(u125,negated_conjecture,
    greater(sk4,sk1(sk4,sk3)) ).

cnf(a2_44,hypothesis,
    greater(resilience(efficient_producers),resilience(first_movers)) ).

cnf(u148,negated_conjecture,
    greater(sk1(sk4,sk3),sF1) ).

cnf(u111,negated_conjecture,
    greater(zero,growth_rate(first_movers,sk1(sk4,sk3))) ).

cnf(u100,negated_conjecture,
    greater(zero,growth_rate(efficient_producers,sk1(sk4,sk3))) ).

cnf(a4_45,hypothesis,
    ( ~ greater(number_of_organizations(X0,X1),zero)
    | ~ greater(equilibrium(X0),X1)
    | ~ environment(X0)
    | ~ in_environment(X0,X1)
    | decreases(resources(X0,X1)) ) ).

cnf(a4_46,hypothesis,
    ( ~ greater(number_of_organizations(X0,X1),zero)
    | ~ environment(X0)
    | greater(equilibrium(X0),X1)
    | ~ in_environment(X0,X1)
    | constant(resources(X0,X1)) ) ).

cnf(u42,negated_conjecture,
    ~ greater(zero,zero) ).

cnf(mp_non_decreasing_35,axiom,
    ( ~ greater(zero,growth_rate(sk2(X1,X0),X1))
    | decreases(number_of_organizations(X0,X1))
    | ~ environment(X0)
    | ~ in_environment(X0,X1) ) ).

cnf(mp_empty_not_decreasing_39,axiom,
    ( ~ greater(zero,growth_rate(X0,X1))
    | zero != cardinality_at_time(X0,X1) ) ).

cnf(a13_50,hypothesis,
    ( ~ greater(zero,growth_rate(X3,X1))
    | ~ greater(resilience(X3),resilience(X2))
    | ~ in_environment(X0,X1)
    | ~ environment(X0)
    | greater(zero,growth_rate(X2,X1)) ) ).

cnf(a11_49,hypothesis,
    ( ~ greater(cardinality_at_time(X1,X2),zero)
    | ~ environment(X0)
    | first_movers = X1
    | ~ subpopulation(X1,X0,X2)
    | efficient_producers = X1 ) ).

cnf(mp_start_of_organizations_32,axiom,
    ( ~ greater(appear(an_organisation,X0),X1)
    | ~ environment(X0)
    | ~ in_environment(X0,X1)
    | zero = number_of_organizations(X0,X1) ) ).

cnf(u31,negated_conjecture,
    greater_or_equal(sk4,sF1) ).

cnf(mp_previous_negative_growth_29,axiom,
    ( ~ greater_or_equal(X1,appear(efficient_producers,X0))
    | ~ environment(X0)
    | in_environment(X0,sk1(X1,X0))
    | cardinality_at_time(efficient_producers,X1) != zero ) ).

cnf(mp_previous_negative_growth_31,axiom,
    ( ~ greater_or_equal(X1,appear(efficient_producers,X0))
    | cardinality_at_time(efficient_producers,X1) != zero
    | ~ environment(X0)
    | greater(zero,growth_rate(efficient_producers,sk1(X1,X0))) ) ).

cnf(mp_previous_negative_growth_30,axiom,
    ( ~ greater_or_equal(X1,appear(efficient_producers,X0))
    | greater(X1,sk1(X1,X0))
    | cardinality_at_time(efficient_producers,X1) != zero
    | ~ environment(X0) ) ).

cnf(mp_previous_negative_growth_28,axiom,
    ( ~ greater_or_equal(X1,appear(efficient_producers,X0))
    | ~ environment(X0)
    | greater(sk1(X1,X0),appear(efficient_producers,X0))
    | cardinality_at_time(efficient_producers,X1) != zero ) ).

cnf(a1_43,hypothesis,
    ( ~ greater_or_equal(X1,appear(an_organisation,X0))
    | ~ environment(X0)
    | greater(number_of_organizations(X0,X1),zero)
    | ~ in_environment(X0,X1) ) ).

cnf(mp_environment_inequality_42,axiom,
    ( ~ greater_or_equal(X1,appear(an_organisation,X0))
    | ~ environment(X0)
    | ~ in_environment(X0,X1)
    | greater(appear(an_organisation,X0),X1) ) ).

cnf(prove_t6_51,negated_conjecture,
    environment(sk3) ).

cnf(u43,negated_conjecture,
    zero = cardinality_at_time(efficient_producers,sk4) ).

cnf(u41,negated_conjecture,
    zero = sF0 ).

cnf(u30,axiom,
    appear(efficient_producers,sk3) = sF1 ).

cnf(u132,negated_conjecture,
    zero != number_of_organizations(sk3,sk1(sk4,sk3)) ).

cnf(u113,negated_conjecture,
    zero != cardinality_at_time(first_movers,sk1(sk4,sk3)) ).

cnf(u58,negated_conjecture,
    ( zero != cardinality_at_time(efficient_producers,X0)
    | ~ greater_or_equal(X0,sF1)
    | in_environment(sk3,sk1(X0,sk3)) ) ).

cnf(u97,negated_conjecture,
    ( zero != cardinality_at_time(efficient_producers,X0)
    | greater(zero,growth_rate(efficient_producers,sk1(X0,sk3)))
    | ~ greater_or_equal(X0,sF1) ) ).

cnf(u122,negated_conjecture,
    ( zero != cardinality_at_time(efficient_producers,X0)
    | ~ greater_or_equal(X0,sF1)
    | greater(X0,sk1(X0,sk3)) ) ).

cnf(u145,negated_conjecture,
    ( zero != cardinality_at_time(efficient_producers,X0)
    | greater(sk1(X0,sk3),sF1)
    | ~ greater_or_equal(X0,sF1) ) ).


%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12  % Problem    : MGT037-2 : TPTP v8.1.0. Released v2.4.0.
% 0.07/0.13  % Command    : vampire --input_syntax tptp --proof tptp --output_axiom_names on --mode portfolio --schedule snake_tptp_sat --cores 0 -t %d %s
% 0.13/0.34  % Computer : n004.cluster.edu
% 0.13/0.34  % Model    : x86_64 x86_64
% 0.13/0.34  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.34  % Memory   : 8042.1875MB
% 0.13/0.34  % 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 Aug 30 03:17:04 EDT 2022
% 0.13/0.35  % CPUTime    : 
% 0.19/0.48  % (14304)ott+33_1:4_s2a=on:tgt=ground:i=51:si=on:rawr=on:rtra=on_0 on theBenchmark for (2999ds/51Mi)
% 0.19/0.50  % (14304)First to succeed.
% 0.19/0.50  % (14301)ott+10_1:32_abs=on:br=off:urr=ec_only:i=50:si=on:rawr=on:rtra=on_0 on theBenchmark for (2999ds/50Mi)
% 0.19/0.50  % (14300)fmb+10_1:1_bce=on:fmbsr=1.5:nm=4:skr=on:i=191324:si=on:rawr=on:rtra=on_0 on theBenchmark for (2999ds/191324Mi)
% 0.19/0.50  % (14329)ott+33_1:4_s2a=on:tgt=ground:i=439:si=on:rawr=on:rtra=on_0 on theBenchmark for (2999ds/439Mi)
% 0.19/0.51  TRYING [1]
% 0.19/0.51  % (14317)fmb+10_1:1_bce=on:i=59:si=on:rawr=on:rtra=on_0 on theBenchmark for (2999ds/59Mi)
% 0.19/0.51  % SZS status Satisfiable for theBenchmark
% 0.19/0.51  % (14304)# SZS output start Saturation.
% See solution above
% 0.19/0.51  % (14304)------------------------------
% 0.19/0.51  % (14304)Version: Vampire 4.7 (commit 807e37dd9 on 2022-08-23 09:55:27 +0200)
% 0.19/0.51  % (14304)Linked with Z3 4.8.13.0 f03d756e086f81f2596157241e0decfb1c982299 z3-4.8.4-5390-gf03d756e0
% 0.19/0.51  % (14304)Termination reason: Satisfiable
% 0.19/0.51  
% 0.19/0.51  % (14304)Memory used [KB]: 5500
% 0.19/0.51  % (14304)Time elapsed: 0.110 s
% 0.19/0.51  % (14304)Instructions burned: 5 (million)
% 0.19/0.51  % (14304)------------------------------
% 0.19/0.51  % (14304)------------------------------
% 0.19/0.51  % (14298)Success in time 0.153 s
%------------------------------------------------------------------------------