TSTP Solution File: MGT024+1 by lazyCoP---0.1

View Problem - Process Solution 
%------------------------------------------------------------------------------
% File     : lazyCoP---0.1
% Problem  : MGT024+1 : TPTP v8.1.0. Released v2.0.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : vampire -t 0 --mode clausify %d -updr off -nm 2 -erd input_only -icip on | lazycop

% Computer : n027.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 : Sun Jul 17 22:16:30 EDT 2022

% Result   : Theorem 2.04s 0.60s
% Output   : Assurance 0s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----No solution output by system
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.11  % Problem  : MGT024+1 : TPTP v8.1.0. Released v2.0.0.
% 0.11/0.12  % Command  : vampire -t 0 --mode clausify %d -updr off -nm 2 -erd input_only -icip on | lazycop
% 0.12/0.33  % Computer : n027.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 : Thu Jun  9 07:59:57 EDT 2022
% 0.12/0.33  % CPUTime  : 
% 2.04/0.60  % SZS status Theorem
% 2.04/0.60  % SZS output begin IncompleteProof
% 2.04/0.60  cnf(c0, axiom,
% 2.04/0.60  	subpopulations(first_movers,efficient_producers,sK2,sK3)).
% 2.04/0.60  cnf(c1, plain,
% 2.04/0.60  	subpopulations(first_movers,efficient_producers,sK2,sK3),
% 2.04/0.60  	inference(start, [], [c0])).
% 2.04/0.60  
% 2.04/0.60  cnf(c2, axiom,
% 2.04/0.60  	in_environment(X0,X1) | ~subpopulations(first_movers,efficient_producers,X0,X1) | ~environment(X0)).
% 2.04/0.60  cnf(a0, assumption,
% 2.04/0.60  	first_movers = first_movers).
% 2.04/0.60  cnf(a1, assumption,
% 2.04/0.60  	efficient_producers = efficient_producers).
% 2.04/0.60  cnf(a2, assumption,
% 2.04/0.60  	sK2 = X0).
% 2.04/0.60  cnf(a3, assumption,
% 2.04/0.60  	sK3 = X1).
% 2.04/0.60  cnf(c3, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a0, a1, a2, a3])], [c1, c2])).
% 2.04/0.60  cnf(c4, plain,
% 2.04/0.60  	in_environment(X0,X1) | ~environment(X0),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a0, a1, a2, a3])], [c1, c2])).
% 2.04/0.60  
% 2.04/0.60  cnf(c5, axiom,
% 2.04/0.60  	constant(resources(X2,X3)) | greater(equilibrium(X2),X3) | ~greater(number_of_organizations(X2,X3),zero) | ~in_environment(X2,X3) | ~environment(X2)).
% 2.04/0.60  cnf(a4, assumption,
% 2.04/0.60  	X0 = X2).
% 2.04/0.60  cnf(a5, assumption,
% 2.04/0.60  	X1 = X3).
% 2.04/0.60  cnf(c6, plain,
% 2.04/0.60  	~environment(X0),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a4, a5])], [c4, c5])).
% 2.04/0.60  cnf(c7, plain,
% 2.04/0.60  	constant(resources(X2,X3)) | greater(equilibrium(X2),X3) | ~greater(number_of_organizations(X2,X3),zero) | ~environment(X2),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a4, a5])], [c4, c5])).
% 2.04/0.60  
% 2.04/0.60  cnf(c8, axiom,
% 2.04/0.60  	constant(number_of_organizations(X4,X5)) | ~constant(resources(X4,X5)) | ~in_environment(X4,X5) | ~environment(X4)).
% 2.04/0.60  cnf(a6, assumption,
% 2.04/0.60  	resources(X2,X3) = resources(X4,X5)).
% 2.04/0.60  cnf(c9, plain,
% 2.04/0.60  	greater(equilibrium(X2),X3) | ~greater(number_of_organizations(X2,X3),zero) | ~environment(X2),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a6])], [c7, c8])).
% 2.04/0.60  cnf(c10, plain,
% 2.04/0.60  	constant(number_of_organizations(X4,X5)) | ~in_environment(X4,X5) | ~environment(X4),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a6])], [c7, c8])).
% 2.04/0.60  
% 2.04/0.60  cnf(c11, axiom,
% 2.04/0.60  	greater(growth_rate(efficient_producers,X6),zero) | sP1(X6) | sP0(X6) | ~constant(number_of_organizations(X7,X6)) | ~subpopulations(first_movers,efficient_producers,X7,X6) | ~environment(X7)).
% 2.04/0.60  cnf(a7, assumption,
% 2.04/0.60  	number_of_organizations(X4,X5) = number_of_organizations(X7,X6)).
% 2.04/0.60  cnf(c12, plain,
% 2.04/0.60  	~in_environment(X4,X5) | ~environment(X4),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a7])], [c10, c11])).
% 2.04/0.60  cnf(c13, plain,
% 2.04/0.60  	greater(growth_rate(efficient_producers,X6),zero) | sP1(X6) | sP0(X6) | ~subpopulations(first_movers,efficient_producers,X7,X6) | ~environment(X7),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a7])], [c10, c11])).
% 2.04/0.60  
% 2.04/0.60  cnf(c14, axiom,
% 2.04/0.60  	~greater(zero,growth_rate(first_movers,sK3)) | ~greater(growth_rate(efficient_producers,sK3),zero)).
% 2.04/0.60  cnf(a8, assumption,
% 2.04/0.60  	growth_rate(efficient_producers,X6) = growth_rate(efficient_producers,sK3)).
% 2.04/0.60  cnf(a9, assumption,
% 2.04/0.60  	zero = zero).
% 2.04/0.60  cnf(c15, plain,
% 2.04/0.60  	sP1(X6) | sP0(X6) | ~subpopulations(first_movers,efficient_producers,X7,X6) | ~environment(X7),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a8, a9])], [c13, c14])).
% 2.04/0.60  cnf(c16, plain,
% 2.04/0.60  	~greater(zero,growth_rate(first_movers,sK3)),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a8, a9])], [c13, c14])).
% 2.04/0.60  
% 2.04/0.60  cnf(c17, axiom,
% 2.04/0.60  	greater(zero,growth_rate(first_movers,X8)) | sP1(X8) | sP0(X8) | ~constant(number_of_organizations(X9,X8)) | ~subpopulations(first_movers,efficient_producers,X9,X8) | ~environment(X9)).
% 2.04/0.60  cnf(a10, assumption,
% 2.04/0.60  	zero = zero).
% 2.04/0.60  cnf(a11, assumption,
% 2.04/0.60  	growth_rate(first_movers,sK3) = growth_rate(first_movers,X8)).
% 2.04/0.60  cnf(c18, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a10, a11])], [c16, c17])).
% 2.04/0.60  cnf(c19, plain,
% 2.04/0.60  	sP1(X8) | sP0(X8) | ~constant(number_of_organizations(X9,X8)) | ~subpopulations(first_movers,efficient_producers,X9,X8) | ~environment(X9),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a10, a11])], [c16, c17])).
% 2.04/0.60  
% 2.04/0.60  cnf(c20, axiom,
% 2.04/0.60  	greater(growth_rate(first_movers,X10),zero) | ~sP1(X10)).
% 2.04/0.60  cnf(a12, assumption,
% 2.04/0.60  	X8 = X10).
% 2.04/0.60  cnf(c21, plain,
% 2.04/0.60  	sP0(X8) | ~constant(number_of_organizations(X9,X8)) | ~subpopulations(first_movers,efficient_producers,X9,X8) | ~environment(X9),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a12])], [c19, c20])).
% 2.04/0.60  cnf(c22, plain,
% 2.04/0.60  	greater(growth_rate(first_movers,X10),zero),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a12])], [c19, c20])).
% 2.04/0.60  
% 2.04/0.60  cnf(c23, axiom,
% 2.04/0.60  	~greater(zero,growth_rate(efficient_producers,sK3)) | ~greater(growth_rate(first_movers,sK3),zero)).
% 2.04/0.60  cnf(a13, assumption,
% 2.04/0.60  	growth_rate(first_movers,X10) = growth_rate(first_movers,sK3)).
% 2.04/0.60  cnf(a14, assumption,
% 2.04/0.60  	zero = zero).
% 2.04/0.60  cnf(c24, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a13, a14])], [c22, c23])).
% 2.04/0.60  cnf(c25, plain,
% 2.04/0.60  	~greater(zero,growth_rate(efficient_producers,sK3)),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a13, a14])], [c22, c23])).
% 2.04/0.60  
% 2.04/0.60  cnf(c26, axiom,
% 2.04/0.60  	greater(zero,growth_rate(efficient_producers,X11)) | ~sP1(X11)).
% 2.04/0.60  cnf(a15, assumption,
% 2.04/0.60  	zero = zero).
% 2.04/0.60  cnf(a16, assumption,
% 2.04/0.60  	growth_rate(efficient_producers,sK3) = growth_rate(efficient_producers,X11)).
% 2.04/0.60  cnf(c27, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a15, a16])], [c25, c26])).
% 2.04/0.60  cnf(c28, plain,
% 2.04/0.60  	~sP1(X11),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a15, a16])], [c25, c26])).
% 2.04/0.60  
% 2.04/0.60  cnf(c29, plain,
% 2.04/0.60  	sP1(X8)).
% 2.04/0.60  cnf(a17, assumption,
% 2.04/0.60  	X11 = X8).
% 2.04/0.60  cnf(c30, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a17])], [c28, c29])).
% 2.04/0.60  
% 2.04/0.60  cnf(c31, axiom,
% 2.04/0.60  	zero = growth_rate(first_movers,X12) | ~sP0(X12)).
% 2.04/0.60  cnf(a18, assumption,
% 2.04/0.60  	X8 = X12).
% 2.04/0.60  cnf(c32, plain,
% 2.04/0.60  	~constant(number_of_organizations(X9,X8)) | ~subpopulations(first_movers,efficient_producers,X9,X8) | ~environment(X9),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a18])], [c21, c31])).
% 2.04/0.60  cnf(c33, plain,
% 2.04/0.60  	zero = growth_rate(first_movers,X12),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a18])], [c21, c31])).
% 2.04/0.60  
% 2.04/0.60  cnf(c34, axiom,
% 2.04/0.60  	zero != growth_rate(efficient_producers,sK3) | zero != growth_rate(first_movers,sK3)).
% 2.04/0.60  cnf(a19, assumption,
% 2.04/0.60  	growth_rate(first_movers,sK3) = growth_rate(first_movers,X12)).
% 2.04/0.60  cnf(a20, assumption,
% 2.04/0.60  	zero = X13).
% 2.04/0.60  cnf(c35, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(strict_subterm_extension, [assumptions([a19, a20])], [c33, c34])).
% 2.04/0.60  cnf(c36, plain,
% 2.04/0.60  	zero != growth_rate(efficient_producers,sK3),
% 2.04/0.60  	inference(strict_subterm_extension, [assumptions([a19, a20])], [c33, c34])).
% 2.04/0.60  cnf(c37, plain,
% 2.04/0.60  	zero != X13,
% 2.04/0.60  	inference(strict_subterm_extension, [assumptions([a19, a20])], [c33, c34])).
% 2.04/0.60  
% 2.04/0.60  cnf(a21, assumption,
% 2.04/0.60  	zero = X13).
% 2.04/0.60  cnf(c38, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(reflexivity, [assumptions([a21])], [c37])).
% 2.04/0.60  
% 2.04/0.60  cnf(c39, axiom,
% 2.04/0.60  	zero = growth_rate(efficient_producers,X14) | ~sP0(X14)).
% 2.04/0.60  cnf(a22, assumption,
% 2.04/0.60  	growth_rate(efficient_producers,sK3) = growth_rate(efficient_producers,X14)).
% 2.04/0.60  cnf(c40, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(strict_function_extension, [assumptions([a22])], [c36, c39])).
% 2.04/0.60  cnf(c41, plain,
% 2.04/0.60  	~sP0(X14),
% 2.04/0.60  	inference(strict_function_extension, [assumptions([a22])], [c36, c39])).
% 2.04/0.60  cnf(c42, plain,
% 2.04/0.60  	X15 != zero | zero != X15,
% 2.04/0.60  	inference(strict_function_extension, [assumptions([a22])], [c36, c39])).
% 2.04/0.60  
% 2.04/0.60  cnf(a23, assumption,
% 2.04/0.60  	X15 = zero).
% 2.04/0.60  cnf(c43, plain,
% 2.04/0.60  	zero != X15,
% 2.04/0.60  	inference(reflexivity, [assumptions([a23])], [c42])).
% 2.04/0.60  
% 2.04/0.60  cnf(a24, assumption,
% 2.04/0.60  	zero = X15).
% 2.04/0.60  cnf(c44, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(reflexivity, [assumptions([a24])], [c43])).
% 2.04/0.60  
% 2.04/0.60  cnf(c45, plain,
% 2.04/0.60  	sP0(X8)).
% 2.04/0.60  cnf(a25, assumption,
% 2.04/0.60  	X14 = X8).
% 2.04/0.60  cnf(c46, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a25])], [c41, c45])).
% 2.04/0.60  
% 2.04/0.60  cnf(c47, plain,
% 2.04/0.60  	constant(number_of_organizations(X4,X5))).
% 2.04/0.60  cnf(a26, assumption,
% 2.04/0.60  	number_of_organizations(X9,X8) = number_of_organizations(X4,X5)).
% 2.04/0.60  cnf(c48, plain,
% 2.04/0.60  	~subpopulations(first_movers,efficient_producers,X9,X8) | ~environment(X9),
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a26])], [c32, c47])).
% 2.04/0.60  
% 2.04/0.60  cnf(c49, plain,
% 2.04/0.60  	subpopulations(first_movers,efficient_producers,sK2,sK3)).
% 2.04/0.60  cnf(a27, assumption,
% 2.04/0.60  	first_movers = first_movers).
% 2.04/0.60  cnf(a28, assumption,
% 2.04/0.60  	efficient_producers = efficient_producers).
% 2.04/0.60  cnf(a29, assumption,
% 2.04/0.60  	X9 = sK2).
% 2.04/0.60  cnf(a30, assumption,
% 2.04/0.60  	X8 = sK3).
% 2.04/0.60  cnf(c50, plain,
% 2.04/0.60  	~environment(X9),
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a27, a28, a29, a30])], [c48, c49])).
% 2.04/0.60  
% 2.04/0.60  cnf(c51, axiom,
% 2.04/0.60  	environment(sK2)).
% 2.04/0.60  cnf(a31, assumption,
% 2.04/0.60  	X9 = sK2).
% 2.04/0.60  cnf(c52, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a31])], [c50, c51])).
% 2.04/0.60  cnf(c53, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a31])], [c50, c51])).
% 2.04/0.60  
% 2.04/0.60  cnf(c54, plain,
% 2.04/0.60  	~sP1(X8)).
% 2.04/0.60  cnf(a32, assumption,
% 2.04/0.60  	X6 = X8).
% 2.04/0.60  cnf(c55, plain,
% 2.04/0.60  	sP0(X6) | ~subpopulations(first_movers,efficient_producers,X7,X6) | ~environment(X7),
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a32])], [c15, c54])).
% 2.04/0.60  
% 2.04/0.60  cnf(c56, plain,
% 2.04/0.60  	~sP0(X8)).
% 2.04/0.60  cnf(a33, assumption,
% 2.04/0.60  	X6 = X8).
% 2.04/0.60  cnf(c57, plain,
% 2.04/0.60  	~subpopulations(first_movers,efficient_producers,X7,X6) | ~environment(X7),
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a33])], [c55, c56])).
% 2.04/0.60  
% 2.04/0.60  cnf(c58, plain,
% 2.04/0.60  	subpopulations(first_movers,efficient_producers,sK2,sK3)).
% 2.04/0.60  cnf(a34, assumption,
% 2.04/0.60  	first_movers = first_movers).
% 2.04/0.60  cnf(a35, assumption,
% 2.04/0.60  	efficient_producers = efficient_producers).
% 2.04/0.60  cnf(a36, assumption,
% 2.04/0.60  	X7 = sK2).
% 2.04/0.60  cnf(a37, assumption,
% 2.04/0.60  	X6 = sK3).
% 2.04/0.60  cnf(c59, plain,
% 2.04/0.60  	~environment(X7),
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a34, a35, a36, a37])], [c57, c58])).
% 2.04/0.60  
% 2.04/0.60  cnf(c60, plain,
% 2.04/0.60  	environment(X9)).
% 2.04/0.60  cnf(a38, assumption,
% 2.04/0.60  	X7 = X9).
% 2.04/0.60  cnf(c61, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a38])], [c59, c60])).
% 2.04/0.60  
% 2.04/0.60  cnf(c62, plain,
% 2.04/0.60  	in_environment(X0,X1)).
% 2.04/0.60  cnf(a39, assumption,
% 2.04/0.60  	X4 = X0).
% 2.04/0.60  cnf(a40, assumption,
% 2.04/0.60  	X5 = X1).
% 2.04/0.60  cnf(c63, plain,
% 2.04/0.60  	~environment(X4),
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a39, a40])], [c12, c62])).
% 2.04/0.60  
% 2.04/0.60  cnf(c64, plain,
% 2.04/0.60  	environment(X9)).
% 2.04/0.60  cnf(a41, assumption,
% 2.04/0.60  	X4 = X9).
% 2.04/0.60  cnf(c65, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a41])], [c63, c64])).
% 2.04/0.60  
% 2.04/0.60  cnf(c66, axiom,
% 2.04/0.60  	~greater(equilibrium(X16),X17) | ~greater_or_equal(X17,equilibrium(X16)) | ~environment(X16)).
% 2.04/0.60  cnf(a42, assumption,
% 2.04/0.60  	equilibrium(X2) = equilibrium(X16)).
% 2.04/0.60  cnf(a43, assumption,
% 2.04/0.60  	X3 = X17).
% 2.04/0.60  cnf(c67, plain,
% 2.04/0.60  	~greater(number_of_organizations(X2,X3),zero) | ~environment(X2),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a42, a43])], [c9, c66])).
% 2.04/0.60  cnf(c68, plain,
% 2.04/0.60  	~greater_or_equal(X17,equilibrium(X16)) | ~environment(X16),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a42, a43])], [c9, c66])).
% 2.04/0.60  
% 2.04/0.60  cnf(c69, axiom,
% 2.04/0.60  	greater_or_equal(sK3,equilibrium(sK2))).
% 2.04/0.60  cnf(a44, assumption,
% 2.04/0.60  	X17 = sK3).
% 2.04/0.60  cnf(a45, assumption,
% 2.04/0.60  	equilibrium(X16) = equilibrium(sK2)).
% 2.04/0.60  cnf(c70, plain,
% 2.04/0.60  	~environment(X16),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a44, a45])], [c68, c69])).
% 2.04/0.60  cnf(c71, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a44, a45])], [c68, c69])).
% 2.04/0.60  
% 2.04/0.60  cnf(c72, plain,
% 2.04/0.60  	environment(X9)).
% 2.04/0.60  cnf(a46, assumption,
% 2.04/0.60  	X16 = X9).
% 2.04/0.60  cnf(c73, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a46])], [c70, c72])).
% 2.04/0.60  
% 2.04/0.60  cnf(c74, axiom,
% 2.04/0.60  	greater(number_of_organizations(X18,X19),zero) | ~subpopulations(first_movers,efficient_producers,X18,X19) | ~environment(X18)).
% 2.04/0.60  cnf(a47, assumption,
% 2.04/0.60  	number_of_organizations(X2,X3) = number_of_organizations(X18,X19)).
% 2.04/0.60  cnf(a48, assumption,
% 2.04/0.60  	zero = zero).
% 2.04/0.60  cnf(c75, plain,
% 2.04/0.60  	~environment(X2),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a47, a48])], [c67, c74])).
% 2.04/0.60  cnf(c76, plain,
% 2.04/0.60  	~subpopulations(first_movers,efficient_producers,X18,X19) | ~environment(X18),
% 2.04/0.60  	inference(strict_predicate_extension, [assumptions([a47, a48])], [c67, c74])).
% 2.04/0.60  
% 2.04/0.60  cnf(c77, plain,
% 2.04/0.60  	subpopulations(first_movers,efficient_producers,sK2,sK3)).
% 2.04/0.60  cnf(a49, assumption,
% 2.04/0.60  	first_movers = first_movers).
% 2.04/0.60  cnf(a50, assumption,
% 2.04/0.60  	efficient_producers = efficient_producers).
% 2.04/0.60  cnf(a51, assumption,
% 2.04/0.60  	X18 = sK2).
% 2.04/0.60  cnf(a52, assumption,
% 2.04/0.60  	X19 = sK3).
% 2.04/0.60  cnf(c78, plain,
% 2.04/0.60  	~environment(X18),
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a49, a50, a51, a52])], [c76, c77])).
% 2.04/0.60  
% 2.04/0.60  cnf(c79, plain,
% 2.04/0.60  	environment(X9)).
% 2.04/0.60  cnf(a53, assumption,
% 2.04/0.60  	X18 = X9).
% 2.04/0.60  cnf(c80, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a53])], [c78, c79])).
% 2.04/0.60  
% 2.04/0.60  cnf(c81, plain,
% 2.04/0.60  	environment(X9)).
% 2.04/0.60  cnf(a54, assumption,
% 2.04/0.60  	X2 = X9).
% 2.04/0.60  cnf(c82, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a54])], [c75, c81])).
% 2.04/0.60  
% 2.04/0.60  cnf(c83, plain,
% 2.04/0.60  	environment(X9)).
% 2.04/0.60  cnf(a55, assumption,
% 2.04/0.60  	X0 = X9).
% 2.04/0.60  cnf(c84, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(predicate_reduction, [assumptions([a55])], [c6, c83])).
% 2.04/0.60  
% 2.04/0.60  cnf(c85, plain,
% 2.04/0.60  	$false,
% 2.04/0.60  	inference(constraint_solving, [
% 2.04/0.60  		bind(X0, sK2),
% 2.04/0.60  		bind(X1, sK3),
% 2.04/0.60  		bind(X2, sK2),
% 2.04/0.60  		bind(X3, sK3),
% 2.04/0.60  		bind(X4, sK2),
% 2.04/0.60  		bind(X5, sK3),
% 2.04/0.60  		bind(X6, sK3),
% 2.04/0.60  		bind(X7, sK2),
% 2.04/0.60  		bind(X8, sK3),
% 2.04/0.60  		bind(X9, sK2),
% 2.04/0.60  		bind(X10, sK3),
% 2.04/0.60  		bind(X11, sK3),
% 2.04/0.60  		bind(X12, sK3),
% 2.04/0.60  		bind(X13, zero),
% 2.04/0.60  		bind(X14, sK3),
% 2.04/0.60  		bind(X15, zero),
% 2.04/0.60  		bind(X16, sK2),
% 2.04/0.60  		bind(X17, sK3),
% 2.04/0.60  		bind(X18, sK2),
% 2.04/0.60  		bind(X19, sK3)
% 2.04/0.60  	],
% 2.04/0.60  	[a0, a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13, a14, a15, a16, a17, a18, a19, a20, a21, a22, a23, a24, a25, a26, a27, a28, a29, a30, a31, a32, a33, a34, a35, a36, a37, a38, a39, a40, a41, a42, a43, a44, a45, a46, a47, a48, a49, a50, a51, a52, a53, a54, a55])).
% 2.04/0.60  
% 2.04/0.60  % SZS output end IncompleteProof
%------------------------------------------------------------------------------