TSTP Solution File: MGT035+1 by Prover9---1109a

%------------------------------------------------------------------------------
% File     : Prover9---1109a
% Problem  : MGT035+1 : TPTP v8.1.0. Released v2.0.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : tptp2X_and_run_prover9 %d %s

% Computer : n018.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 22:22:58 EDT 2022

% Result   : Theorem 1.42s 1.76s
% Output   : Refutation 1.42s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.07/0.12  % Problem  : MGT035+1 : TPTP v8.1.0. Released v2.0.0.
% 0.07/0.12  % Command  : tptp2X_and_run_prover9 %d %s
% 0.12/0.33  % Computer : n018.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 11:11:08 EDT 2022
% 0.12/0.33  % CPUTime  : 
% 0.41/0.98  ============================== Prover9 ===============================
% 0.41/0.98  Prover9 (32) version 2009-11A, November 2009.
% 0.41/0.98  Process 12163 was started by sandbox2 on n018.cluster.edu,
% 0.41/0.98  Thu Jun  9 11:11:08 2022
% 0.41/0.98  The command was "/export/starexec/sandbox2/solver/bin/prover9 -t 300 -f /tmp/Prover9_12009_n018.cluster.edu".
% 0.41/0.98  ============================== end of head ===========================
% 0.41/0.98  
% 0.41/0.98  ============================== INPUT =================================
% 0.41/0.98  
% 0.41/0.98  % Reading from file /tmp/Prover9_12009_n018.cluster.edu
% 0.41/0.98  
% 0.41/0.98  set(prolog_style_variables).
% 0.41/0.98  set(auto2).
% 0.41/0.98      % set(auto2) -> set(auto).
% 0.41/0.98      % set(auto) -> set(auto_inference).
% 0.41/0.98      % set(auto) -> set(auto_setup).
% 0.41/0.98      % set(auto_setup) -> set(predicate_elim).
% 0.41/0.98      % set(auto_setup) -> assign(eq_defs, unfold).
% 0.41/0.98      % set(auto) -> set(auto_limits).
% 0.41/0.98      % set(auto_limits) -> assign(max_weight, "100.000").
% 0.41/0.98      % set(auto_limits) -> assign(sos_limit, 20000).
% 0.41/0.98      % set(auto) -> set(auto_denials).
% 0.41/0.98      % set(auto) -> set(auto_process).
% 0.41/0.98      % set(auto2) -> assign(new_constants, 1).
% 0.41/0.98      % set(auto2) -> assign(fold_denial_max, 3).
% 0.41/0.98      % set(auto2) -> assign(max_weight, "200.000").
% 0.41/0.98      % set(auto2) -> assign(max_hours, 1).
% 0.41/0.98      % assign(max_hours, 1) -> assign(max_seconds, 3600).
% 0.41/0.98      % set(auto2) -> assign(max_seconds, 0).
% 0.41/0.98      % set(auto2) -> assign(max_minutes, 5).
% 0.41/0.98      % assign(max_minutes, 5) -> assign(max_seconds, 300).
% 0.41/0.98      % set(auto2) -> set(sort_initial_sos).
% 0.41/0.98      % set(auto2) -> assign(sos_limit, -1).
% 0.41/0.98      % set(auto2) -> assign(lrs_ticks, 3000).
% 0.41/0.98      % set(auto2) -> assign(max_megs, 400).
% 0.41/0.98      % set(auto2) -> assign(stats, some).
% 0.41/0.98      % set(auto2) -> clear(echo_input).
% 0.41/0.98      % set(auto2) -> set(quiet).
% 0.41/0.98      % set(auto2) -> clear(print_initial_clauses).
% 0.41/0.98      % set(auto2) -> clear(print_given).
% 0.41/0.98  assign(lrs_ticks,-1).
% 0.41/0.98  assign(sos_limit,10000).
% 0.41/0.98  assign(order,kbo).
% 0.41/0.98  set(lex_order_vars).
% 0.41/0.98  clear(print_given).
% 0.41/0.98  
% 0.41/0.98  % formulas(sos).  % not echoed (8 formulas)
% 0.41/0.98  
% 0.41/0.98  ============================== end of input ==========================
% 0.41/0.98  
% 0.41/0.98  % From the command line: assign(max_seconds, 300).
% 0.41/0.98  
% 0.41/0.98  ============================== PROCESS NON-CLAUSAL FORMULAS ==========
% 0.41/0.98  
% 0.41/0.98  % Formulas that are not ordinary clauses:
% 0.41/0.98  1 (all X all Y all Z (greater(X,Y) & greater(Y,Z) -> greater(X,Z))) # label(mp_greater_transitivity) # label(axiom) # label(non_clause).  [assumption].
% 0.41/0.98  2 (all E all T1 all T2 (in_environment(E,T1) & in_environment(E,T2) -> greater(T2,T1) | T2 = T1 | greater(T1,T2))) # label(mp_times_in_environment) # label(axiom) # label(non_clause).  [assumption].
% 0.41/0.98  3 (all X all Y (greater_or_equal(X,Y) <-> greater(X,Y) | X = Y)) # label(mp_greater_or_equal) # label(axiom) # label(non_clause).  [assumption].
% 0.41/0.98  4 (all E all S1 all S2 all T (environment(E) & subpopulations(S1,S2,E,T) -> (greater_or_equal(growth_rate(S2,T),zero) & greater(zero,growth_rate(S1,T)) <-> outcompetes(S2,S1,T)))) # label(d2) # label(hypothesis) # label(non_clause).  [assumption].
% 0.41/0.98  5 (all E all T (environment(E) & subpopulations(first_movers,efficient_producers,E,T) & greater_or_equal(T,equilibrium(E)) -> growth_rate(first_movers,T) = zero & growth_rate(efficient_producers,T) = zero | greater(growth_rate(first_movers,T),zero) & greater(zero,growth_rate(efficient_producers,T)) | greater(growth_rate(efficient_producers,T),zero) & greater(zero,growth_rate(first_movers,T)))) # label(l6) # label(hypothesis) # label(non_clause).  [assumption].
% 0.41/0.98  6 (all E (environment(E) & stable(E) -> (exists To (in_environment(E,To) & (all T (subpopulations(first_movers,efficient_producers,E,T) & greater_or_equal(T,To) -> greater(growth_rate(efficient_producers,T),growth_rate(first_movers,T)))))))) # label(l1) # label(hypothesis) # label(non_clause).  [assumption].
% 0.41/0.98  7 (all E (environment(E) & stable(E) -> (exists T (in_environment(E,T) & greater_or_equal(T,equilibrium(E)))))) # label(a4) # label(hypothesis) # label(non_clause).  [assumption].
% 0.41/0.98  8 -(all E (environment(E) & stable(E) -> (exists To (in_environment(E,To) & (all T (subpopulations(first_movers,efficient_producers,E,T) & greater_or_equal(T,To) -> outcompetes(efficient_producers,first_movers,T))))))) # label(prove_t4) # label(negated_conjecture) # label(non_clause).  [assumption].
% 0.41/0.98  
% 0.41/0.98  ============================== end of process non-clausal formulas ===
% 0.41/0.98  
% 0.41/0.98  ============================== PROCESS INITIAL CLAUSES ===============
% 0.41/0.98  
% 0.41/0.98  ============================== PREDICATE ELIMINATION =================
% 0.41/0.98  9 -environment(A) | -stable(A) | in_environment(A,f1(A)) # label(l1) # label(hypothesis).  [clausify(6)].
% 0.41/0.98  10 environment(c1) # label(prove_t4) # label(negated_conjecture).  [clausify(8)].
% 0.41/0.98  Derived: -stable(c1) | in_environment(c1,f1(c1)).  [resolve(9,a,10,a)].
% 0.41/0.98  11 -environment(A) | -stable(A) | in_environment(A,f2(A)) # label(a4) # label(hypothesis).  [clausify(7)].
% 0.41/0.98  Derived: -stable(c1) | in_environment(c1,f2(c1)).  [resolve(11,a,10,a)].
% 0.41/0.98  12 -environment(A) | -stable(A) | greater_or_equal(f2(A),equilibrium(A)) # label(a4) # label(hypothesis).  [clausify(7)].
% 0.41/0.98  Derived: -stable(c1) | greater_or_equal(f2(c1),equilibrium(c1)).  [resolve(12,a,10,a)].
% 0.41/0.98  13 -environment(A) | -subpopulations(B,C,A,D) | greater_or_equal(growth_rate(C,D),zero) | -outcompetes(C,B,D) # label(d2) # label(hypothesis).  [clausify(4)].
% 0.41/0.98  Derived: -subpopulations(A,B,c1,C) | greater_or_equal(growth_rate(B,C),zero) | -outcompetes(B,A,C).  [resolve(13,a,10,a)].
% 0.41/0.98  14 -environment(A) | -subpopulations(B,C,A,D) | greater(zero,growth_rate(B,D)) | -outcompetes(C,B,D) # label(d2) # label(hypothesis).  [clausify(4)].
% 0.41/0.98  Derived: -subpopulations(A,B,c1,C) | greater(zero,growth_rate(A,C)) | -outcompetes(B,A,C).  [resolve(14,a,10,a)].
% 0.41/0.98  15 -environment(A) | -stable(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,f1(A)) | greater(growth_rate(efficient_producers,B),growth_rate(first_movers,B)) # label(l1) # label(hypothesis).  [clausify(6)].
% 0.41/0.98  Derived: -stable(c1) | -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,f1(c1)) | greater(growth_rate(efficient_producers,A),growth_rate(first_movers,A)).  [resolve(15,a,10,a)].
% 0.41/0.98  16 -environment(A) | -subpopulations(B,C,A,D) | -greater_or_equal(growth_rate(C,D),zero) | -greater(zero,growth_rate(B,D)) | outcompetes(C,B,D) # label(d2) # label(hypothesis).  [clausify(4)].
% 0.41/0.98  Derived: -subpopulations(A,B,c1,C) | -greater_or_equal(growth_rate(B,C),zero) | -greater(zero,growth_rate(A,C)) | outcompetes(B,A,C).  [resolve(16,a,10,a)].
% 0.41/0.98  17 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(first_movers,B) = zero | greater(growth_rate(first_movers,B),zero) | greater(growth_rate(efficient_producers,B),zero) # label(l6) # label(hypothesis).  [clausify(5)].
% 0.41/0.98  Derived: -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(first_movers,A) = zero | greater(growth_rate(first_movers,A),zero) | greater(growth_rate(efficient_producers,A),zero).  [resolve(17,a,10,a)].
% 0.41/0.98  18 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(first_movers,B) = zero | greater(growth_rate(first_movers,B),zero) | greater(zero,growth_rate(first_movers,B)) # label(l6) # label(hypothesis).  [clausify(5)].
% 0.41/0.98  Derived: -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(first_movers,A) = zero | greater(growth_rate(first_movers,A),zero) | greater(zero,growth_rate(first_movers,A)).  [resolve(18,a,10,a)].
% 0.41/0.98  19 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(first_movers,B) = zero | greater(zero,growth_rate(efficient_producers,B)) | greater(growth_rate(efficient_producers,B),zero) # label(l6) # label(hypothesis).  [clausify(5)].
% 0.41/0.98  Derived: -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(first_movers,A) = zero | greater(zero,growth_rate(efficient_producers,A)) | greater(growth_rate(efficient_producers,A),zero).  [resolve(19,a,10,a)].
% 0.41/0.98  20 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(first_movers,B) = zero | greater(zero,growth_rate(efficient_producers,B)) | greater(zero,growth_rate(first_movers,B)) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  Derived: -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(first_movers,A) = zero | greater(zero,growth_rate(efficient_producers,A)) | greater(zero,growth_rate(first_movers,A)).  [resolve(20,a,10,a)].
% 1.42/1.76  21 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(efficient_producers,B) = zero | greater(growth_rate(first_movers,B),zero) | greater(growth_rate(efficient_producers,B),zero) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  Derived: -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(efficient_producers,A) = zero | greater(growth_rate(first_movers,A),zero) | greater(growth_rate(efficient_producers,A),zero).  [resolve(21,a,10,a)].
% 1.42/1.76  22 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(efficient_producers,B) = zero | greater(growth_rate(first_movers,B),zero) | greater(zero,growth_rate(first_movers,B)) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  Derived: -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(efficient_producers,A) = zero | greater(growth_rate(first_movers,A),zero) | greater(zero,growth_rate(first_movers,A)).  [resolve(22,a,10,a)].
% 1.42/1.76  23 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(efficient_producers,B) = zero | greater(zero,growth_rate(efficient_producers,B)) | greater(growth_rate(efficient_producers,B),zero) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  Derived: -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(efficient_producers,A) = zero | greater(zero,growth_rate(efficient_producers,A)) | greater(growth_rate(efficient_producers,A),zero).  [resolve(23,a,10,a)].
% 1.42/1.76  24 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(efficient_producers,B) = zero | greater(zero,growth_rate(efficient_producers,B)) | greater(zero,growth_rate(first_movers,B)) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  Derived: -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(efficient_producers,A) = zero | greater(zero,growth_rate(efficient_producers,A)) | greater(zero,growth_rate(first_movers,A)).  [resolve(24,a,10,a)].
% 1.42/1.76  
% 1.42/1.76  ============================== end predicate elimination =============
% 1.42/1.76  
% 1.42/1.76  Auto_denials:  (non-Horn, no changes).
% 1.42/1.76  
% 1.42/1.76  Term ordering decisions:
% 1.42/1.76  Function symbol KB weights:  zero=1. efficient_producers=1. first_movers=1. c1=1. growth_rate=1. equilibrium=1. f1=1. f2=1. f3=1.
% 1.42/1.76  
% 1.42/1.76  ============================== end of process initial clauses ========
% 1.42/1.76  
% 1.42/1.76  ============================== CLAUSES FOR SEARCH ====================
% 1.42/1.76  
% 1.42/1.76  ============================== end of clauses for search =============
% 1.42/1.76  
% 1.42/1.76  ============================== SEARCH ================================
% 1.42/1.76  
% 1.42/1.76  % Starting search at 0.01 seconds.
% 1.42/1.76  
% 1.42/1.76  ============================== PROOF =================================
% 1.42/1.76  % SZS status Theorem
% 1.42/1.76  % SZS output start Refutation
% 1.42/1.76  
% 1.42/1.76  % Proof 1 at 0.77 (+ 0.02) seconds.
% 1.42/1.76  % Length of proof is 574.
% 1.42/1.76  % Level of proof is 286.
% 1.42/1.76  % Maximum clause weight is 50.000.
% 1.42/1.76  % Given clauses 2247.
% 1.42/1.76  
% 1.42/1.76  1 (all X all Y all Z (greater(X,Y) & greater(Y,Z) -> greater(X,Z))) # label(mp_greater_transitivity) # label(axiom) # label(non_clause).  [assumption].
% 1.42/1.76  2 (all E all T1 all T2 (in_environment(E,T1) & in_environment(E,T2) -> greater(T2,T1) | T2 = T1 | greater(T1,T2))) # label(mp_times_in_environment) # label(axiom) # label(non_clause).  [assumption].
% 1.42/1.76  3 (all X all Y (greater_or_equal(X,Y) <-> greater(X,Y) | X = Y)) # label(mp_greater_or_equal) # label(axiom) # label(non_clause).  [assumption].
% 1.42/1.76  4 (all E all S1 all S2 all T (environment(E) & subpopulations(S1,S2,E,T) -> (greater_or_equal(growth_rate(S2,T),zero) & greater(zero,growth_rate(S1,T)) <-> outcompetes(S2,S1,T)))) # label(d2) # label(hypothesis) # label(non_clause).  [assumption].
% 1.42/1.76  5 (all E all T (environment(E) & subpopulations(first_movers,efficient_producers,E,T) & greater_or_equal(T,equilibrium(E)) -> growth_rate(first_movers,T) = zero & growth_rate(efficient_producers,T) = zero | greater(growth_rate(first_movers,T),zero) & greater(zero,growth_rate(efficient_producers,T)) | greater(growth_rate(efficient_producers,T),zero) & greater(zero,growth_rate(first_movers,T)))) # label(l6) # label(hypothesis) # label(non_clause).  [assumption].
% 1.42/1.76  6 (all E (environment(E) & stable(E) -> (exists To (in_environment(E,To) & (all T (subpopulations(first_movers,efficient_producers,E,T) & greater_or_equal(T,To) -> greater(growth_rate(efficient_producers,T),growth_rate(first_movers,T)))))))) # label(l1) # label(hypothesis) # label(non_clause).  [assumption].
% 1.42/1.76  7 (all E (environment(E) & stable(E) -> (exists T (in_environment(E,T) & greater_or_equal(T,equilibrium(E)))))) # label(a4) # label(hypothesis) # label(non_clause).  [assumption].
% 1.42/1.76  8 -(all E (environment(E) & stable(E) -> (exists To (in_environment(E,To) & (all T (subpopulations(first_movers,efficient_producers,E,T) & greater_or_equal(T,To) -> outcompetes(efficient_producers,first_movers,T))))))) # label(prove_t4) # label(negated_conjecture) # label(non_clause).  [assumption].
% 1.42/1.76  9 -environment(A) | -stable(A) | in_environment(A,f1(A)) # label(l1) # label(hypothesis).  [clausify(6)].
% 1.42/1.76  10 environment(c1) # label(prove_t4) # label(negated_conjecture).  [clausify(8)].
% 1.42/1.76  11 -environment(A) | -stable(A) | in_environment(A,f2(A)) # label(a4) # label(hypothesis).  [clausify(7)].
% 1.42/1.76  12 -environment(A) | -stable(A) | greater_or_equal(f2(A),equilibrium(A)) # label(a4) # label(hypothesis).  [clausify(7)].
% 1.42/1.76  15 -environment(A) | -stable(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,f1(A)) | greater(growth_rate(efficient_producers,B),growth_rate(first_movers,B)) # label(l1) # label(hypothesis).  [clausify(6)].
% 1.42/1.76  16 -environment(A) | -subpopulations(B,C,A,D) | -greater_or_equal(growth_rate(C,D),zero) | -greater(zero,growth_rate(B,D)) | outcompetes(C,B,D) # label(d2) # label(hypothesis).  [clausify(4)].
% 1.42/1.76  17 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(first_movers,B) = zero | greater(growth_rate(first_movers,B),zero) | greater(growth_rate(efficient_producers,B),zero) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  19 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(first_movers,B) = zero | greater(zero,growth_rate(efficient_producers,B)) | greater(growth_rate(efficient_producers,B),zero) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  20 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(first_movers,B) = zero | greater(zero,growth_rate(efficient_producers,B)) | greater(zero,growth_rate(first_movers,B)) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  21 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(efficient_producers,B) = zero | greater(growth_rate(first_movers,B),zero) | greater(growth_rate(efficient_producers,B),zero) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  23 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(efficient_producers,B) = zero | greater(zero,growth_rate(efficient_producers,B)) | greater(growth_rate(efficient_producers,B),zero) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  24 -environment(A) | -subpopulations(first_movers,efficient_producers,A,B) | -greater_or_equal(B,equilibrium(A)) | growth_rate(efficient_producers,B) = zero | greater(zero,growth_rate(efficient_producers,B)) | greater(zero,growth_rate(first_movers,B)) # label(l6) # label(hypothesis).  [clausify(5)].
% 1.42/1.76  25 stable(c1) # label(prove_t4) # label(negated_conjecture).  [clausify(8)].
% 1.42/1.76  26 -in_environment(c1,A) | -outcompetes(efficient_producers,first_movers,f3(A)) # label(prove_t4) # label(negated_conjecture).  [clausify(8)].
% 1.42/1.76  27 greater_or_equal(A,B) | -greater(A,B) # label(mp_greater_or_equal) # label(axiom).  [clausify(3)].
% 1.42/1.76  28 greater_or_equal(A,B) | B != A # label(mp_greater_or_equal) # label(axiom).  [clausify(3)].
% 1.42/1.76  29 -in_environment(c1,A) | greater_or_equal(f3(A),A) # label(prove_t4) # label(negated_conjecture).  [clausify(8)].
% 1.42/1.76  30 -greater(A,B) | -greater(B,C) | greater(A,C) # label(mp_greater_transitivity) # label(axiom).  [clausify(1)].
% 1.42/1.76  31 -greater_or_equal(A,B) | greater(A,B) | B = A # label(mp_greater_or_equal) # label(axiom).  [clausify(3)].
% 1.42/1.76  32 -in_environment(c1,A) | subpopulations(first_movers,efficient_producers,c1,f3(A)) # label(prove_t4) # label(negated_conjecture).  [clausify(8)].
% 1.42/1.76  33 -in_environment(A,B) | -in_environment(A,C) | greater(C,B) | C = B | greater(B,C) # label(mp_times_in_environment) # label(axiom).  [clausify(2)].
% 1.42/1.76  34 -stable(c1) | in_environment(c1,f1(c1)).  [resolve(9,a,10,a)].
% 1.42/1.76  35 in_environment(c1,f1(c1)).  [copy(34),unit_del(a,25)].
% 1.42/1.76  36 -stable(c1) | in_environment(c1,f2(c1)).  [resolve(11,a,10,a)].
% 1.42/1.76  37 in_environment(c1,f2(c1)).  [copy(36),unit_del(a,25)].
% 1.42/1.76  38 -stable(c1) | greater_or_equal(f2(c1),equilibrium(c1)).  [resolve(12,a,10,a)].
% 1.42/1.76  39 greater_or_equal(f2(c1),equilibrium(c1)).  [copy(38),unit_del(a,25)].
% 1.42/1.76  42 -stable(c1) | -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,f1(c1)) | greater(growth_rate(efficient_producers,A),growth_rate(first_movers,A)).  [resolve(15,a,10,a)].
% 1.42/1.76  43 -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,f1(c1)) | greater(growth_rate(efficient_producers,A),growth_rate(first_movers,A)).  [copy(42),unit_del(a,25)].
% 1.42/1.76  44 -subpopulations(A,B,c1,C) | -greater_or_equal(growth_rate(B,C),zero) | -greater(zero,growth_rate(A,C)) | outcompetes(B,A,C).  [resolve(16,a,10,a)].
% 1.42/1.76  45 -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(first_movers,A) = zero | greater(growth_rate(first_movers,A),zero) | greater(growth_rate(efficient_producers,A),zero).  [resolve(17,a,10,a)].
% 1.42/1.76  47 -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(first_movers,A) = zero | greater(zero,growth_rate(efficient_producers,A)) | greater(growth_rate(efficient_producers,A),zero).  [resolve(19,a,10,a)].
% 1.42/1.76  48 -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(first_movers,A) = zero | greater(zero,growth_rate(efficient_producers,A)) | greater(zero,growth_rate(first_movers,A)).  [resolve(20,a,10,a)].
% 1.42/1.76  49 -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(efficient_producers,A) = zero | greater(growth_rate(first_movers,A),zero) | greater(growth_rate(efficient_producers,A),zero).  [resolve(21,a,10,a)].
% 1.42/1.76  51 -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(efficient_producers,A) = zero | greater(zero,growth_rate(efficient_producers,A)) | greater(growth_rate(efficient_producers,A),zero).  [resolve(23,a,10,a)].
% 1.42/1.76  52 -subpopulations(first_movers,efficient_producers,c1,A) | -greater_or_equal(A,equilibrium(c1)) | growth_rate(efficient_producers,A) = zero | greater(zero,growth_rate(efficient_producers,A)) | greater(zero,growth_rate(first_movers,A)).  [resolve(24,a,10,a)].
% 1.42/1.76  53 greater_or_equal(A,A).  [xx_res(28,b)].
% 1.42/1.76  54 -in_environment(c1,A) | greater(f1(c1),A) | f1(c1) = A | greater(A,f1(c1)).  [resolve(35,a,33,b)].
% 1.42/1.76  55 subpopulations(first_movers,efficient_producers,c1,f3(f1(c1))).  [resolve(35,a,32,a)].
% 1.42/1.76  56 greater_or_equal(f3(f1(c1)),f1(c1)).  [resolve(35,a,29,a)].
% 1.42/1.76  57 -outcompetes(efficient_producers,first_movers,f3(f1(c1))).  [ur(26,a,35,a)].
% 1.42/1.76  59 subpopulations(first_movers,efficient_producers,c1,f3(f2(c1))).  [resolve(37,a,32,a)].
% 1.42/1.76  60 greater_or_equal(f3(f2(c1)),f2(c1)).  [resolve(37,a,29,a)].
% 1.42/1.76  61 -outcompetes(efficient_producers,first_movers,f3(f2(c1))).  [ur(26,a,37,a)].
% 1.42/1.76  62 greater(f2(c1),equilibrium(c1)) | f2(c1) = equilibrium(c1).  [resolve(39,a,31,a),flip(b)].
% 1.42/1.76  63 greater(f3(f1(c1)),f1(c1)) | f3(f1(c1)) = f1(c1).  [resolve(56,a,31,a),flip(b)].
% 1.42/1.76  64 greater(f3(f2(c1)),f2(c1)) | f3(f2(c1)) = f2(c1).  [resolve(60,a,31,a),flip(b)].
% 1.42/1.76  65 -greater_or_equal(f3(f1(c1)),equilibrium(c1)) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(55,a,52,a)].
% 1.42/1.76  68 -greater_or_equal(f3(f1(c1)),equilibrium(c1)) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(growth_rate(first_movers,f3(f1(c1))),zero) | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(55,a,49,a)].
% 1.42/1.76  69 -greater_or_equal(f3(f1(c1)),equilibrium(c1)) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(55,a,48,a)].
% 1.42/1.76  72 -greater_or_equal(f3(f1(c1)),equilibrium(c1)) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(growth_rate(first_movers,f3(f1(c1))),zero) | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(55,a,45,a)].
% 1.42/1.76  73 -greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(55,a,44,a),unit_del(c,57)].
% 1.42/1.76  74 greater(growth_rate(efficient_producers,f3(f1(c1))),growth_rate(first_movers,f3(f1(c1)))).  [resolve(55,a,43,a),unit_del(a,56)].
% 1.42/1.76  75 -greater_or_equal(f3(f2(c1)),equilibrium(c1)) | growth_rate(efficient_producers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(59,a,52,a)].
% 1.42/1.76  76 -greater_or_equal(f3(f2(c1)),equilibrium(c1)) | growth_rate(efficient_producers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | greater(growth_rate(efficient_producers,f3(f2(c1))),zero).  [resolve(59,a,51,a)].
% 1.42/1.76  78 -greater_or_equal(f3(f2(c1)),equilibrium(c1)) | growth_rate(efficient_producers,f3(f2(c1))) = zero | greater(growth_rate(first_movers,f3(f2(c1))),zero) | greater(growth_rate(efficient_producers,f3(f2(c1))),zero).  [resolve(59,a,49,a)].
% 1.42/1.76  79 -greater_or_equal(f3(f2(c1)),equilibrium(c1)) | growth_rate(first_movers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(59,a,48,a)].
% 1.42/1.76  80 -greater_or_equal(f3(f2(c1)),equilibrium(c1)) | growth_rate(first_movers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | greater(growth_rate(efficient_producers,f3(f2(c1))),zero).  [resolve(59,a,47,a)].
% 1.42/1.76  82 -greater_or_equal(f3(f2(c1)),equilibrium(c1)) | growth_rate(first_movers,f3(f2(c1))) = zero | greater(growth_rate(first_movers,f3(f2(c1))),zero) | greater(growth_rate(efficient_producers,f3(f2(c1))),zero).  [resolve(59,a,45,a)].
% 1.42/1.76  83 -greater_or_equal(growth_rate(efficient_producers,f3(f2(c1))),zero) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(59,a,44,a),unit_del(c,61)].
% 1.42/1.76  84 -greater_or_equal(f3(f2(c1)),f1(c1)) | greater(growth_rate(efficient_producers,f3(f2(c1))),growth_rate(first_movers,f3(f2(c1)))).  [resolve(59,a,43,a)].
% 1.42/1.76  85 greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | greater(f2(c1),f1(c1)).  [resolve(54,a,37,a),flip(b)].
% 1.42/1.76  86 f2(c1) = equilibrium(c1) | -greater(A,f2(c1)) | greater(A,equilibrium(c1)).  [resolve(62,a,30,b)].
% 1.42/1.76  88 -greater(A,growth_rate(efficient_producers,f3(f1(c1)))) | greater(A,growth_rate(first_movers,f3(f1(c1)))).  [resolve(74,a,30,b)].
% 1.42/1.76  89 -greater(growth_rate(first_movers,f3(f1(c1))),A) | greater(growth_rate(efficient_producers,f3(f1(c1))),A).  [resolve(74,a,30,a)].
% 1.42/1.76  90 greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),growth_rate(first_movers,f3(f1(c1)))).  [resolve(74,a,27,b)].
% 1.42/1.76  92 f3(f1(c1)) = f1(c1) | -greater(f1(c1),A) | greater(f3(f1(c1)),A).  [resolve(63,a,30,a)].
% 1.42/1.76  94 f3(f2(c1)) = f2(c1) | -greater(f2(c1),A) | greater(f3(f2(c1)),A).  [resolve(64,a,30,a)].
% 1.42/1.76  95 f2(c1) = equilibrium(c1) | greater(f3(f2(c1)),equilibrium(c1)) | f3(f2(c1)) = f2(c1).  [resolve(86,b,64,a)].
% 1.42/1.76  98 greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | greater_or_equal(f2(c1),f1(c1)).  [resolve(85,c,27,b)].
% 1.42/1.76  99 f3(f2(c1)) = f2(c1) | greater(f3(f2(c1)),f1(c1)) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1).  [resolve(94,b,85,c)].
% 1.42/1.76  102 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater_or_equal(f3(f2(c1)),equilibrium(c1)).  [resolve(95,b,27,b)].
% 1.42/1.76  105 f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | greater_or_equal(f3(f2(c1)),f1(c1)).  [resolve(99,b,27,b)].
% 1.42/1.76  106 f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | greater(growth_rate(efficient_producers,f3(f2(c1))),growth_rate(first_movers,f3(f2(c1)))).  [resolve(105,d,84,a)].
% 1.42/1.76  107 growth_rate(efficient_producers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | greater(zero,growth_rate(first_movers,f3(f2(c1)))) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1).  [resolve(75,a,102,c)].
% 1.42/1.76  108 growth_rate(efficient_producers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | greater(growth_rate(efficient_producers,f3(f2(c1))),zero) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1).  [resolve(76,a,102,c)].
% 1.42/1.76  110 growth_rate(efficient_producers,f3(f2(c1))) = zero | greater(growth_rate(first_movers,f3(f2(c1))),zero) | greater(growth_rate(efficient_producers,f3(f2(c1))),zero) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1).  [resolve(78,a,102,c)].
% 1.42/1.76  111 growth_rate(first_movers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | greater(zero,growth_rate(first_movers,f3(f2(c1)))) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1).  [resolve(79,a,102,c)].
% 1.42/1.76  112 growth_rate(first_movers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | greater(growth_rate(efficient_producers,f3(f2(c1))),zero) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1).  [resolve(80,a,102,c)].
% 1.42/1.76  114 growth_rate(first_movers,f3(f2(c1))) = zero | greater(growth_rate(first_movers,f3(f2(c1))),zero) | greater(growth_rate(efficient_producers,f3(f2(c1))),zero) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1).  [resolve(82,a,102,c)].
% 1.42/1.76  115 f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | -greater(A,growth_rate(efficient_producers,f3(f2(c1)))) | greater(A,growth_rate(first_movers,f3(f2(c1)))).  [resolve(106,d,30,b)].
% 1.42/1.76  116 f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | -greater(growth_rate(first_movers,f3(f2(c1))),A) | greater(growth_rate(efficient_producers,f3(f2(c1))),A).  [resolve(106,d,30,a)].
% 1.42/1.76  124 growth_rate(efficient_producers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater_or_equal(growth_rate(efficient_producers,f3(f2(c1))),zero).  [resolve(108,c,27,b)].
% 1.42/1.76  129 growth_rate(efficient_producers,f3(f2(c1))) = zero | greater(growth_rate(efficient_producers,f3(f2(c1))),zero) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1).  [resolve(110,b,116,d),merge(e),merge(h)].
% 1.42/1.76  140 growth_rate(first_movers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater_or_equal(growth_rate(efficient_producers,f3(f2(c1))),zero).  [resolve(112,c,27,b)].
% 1.42/1.76  145 growth_rate(first_movers,f3(f2(c1))) = zero | greater(growth_rate(efficient_producers,f3(f2(c1))),zero) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1).  [resolve(114,b,116,d),merge(e),merge(h)].
% 1.42/1.76  146 growth_rate(first_movers,f3(f2(c1))) = zero | greater(growth_rate(efficient_producers,f3(f2(c1))),zero) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | -greater(A,growth_rate(first_movers,f3(f2(c1)))) | greater(A,zero).  [resolve(114,b,30,b)].
% 1.42/1.76  149 growth_rate(first_movers,f3(f2(c1))) = zero | greater(growth_rate(efficient_producers,f3(f2(c1))),zero) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | -greater(growth_rate(efficient_producers,f3(f2(c1))),growth_rate(first_movers,f3(f2(c1)))).  [factor(146,b,f)].
% 1.42/1.76  150 growth_rate(efficient_producers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(124,e,83,a)].
% 1.42/1.76  153 growth_rate(first_movers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(140,e,83,a)].
% 1.42/1.76  155 growth_rate(efficient_producers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1).  [resolve(150,e,107,c),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  156 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(155,b,115,d),merge(d)].
% 1.42/1.76  158 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | -greater(growth_rate(efficient_producers,f3(f2(c1))),A) | greater(zero,A).  [resolve(155,b,30,a)].
% 1.42/1.76  164 growth_rate(first_movers,f3(f2(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f2(c1)))) | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1).  [resolve(153,e,111,c),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  165 growth_rate(first_movers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(164,b,115,d),merge(d)].
% 1.42/1.76  167 growth_rate(first_movers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | -greater(growth_rate(efficient_producers,f3(f2(c1))),A) | greater(zero,A).  [resolve(164,b,30,a)].
% 1.42/1.76  177 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | greater_or_equal(growth_rate(efficient_producers,f3(f2(c1))),zero).  [resolve(129,b,27,b)].
% 1.42/1.76  191 growth_rate(first_movers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | greater_or_equal(growth_rate(efficient_producers,f3(f2(c1))),zero).  [resolve(145,b,27,b)].
% 1.42/1.76  207 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(177,f,83,a)].
% 1.42/1.76  208 growth_rate(first_movers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(191,f,83,a)].
% 1.42/1.76  213 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1).  [resolve(207,f,156,f),merge(f),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  215 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | greater(f1(c1),equilibrium(c1)).  [resolve(213,d,86,b),merge(e)].
% 1.42/1.76  219 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(f3(f1(c1)),equilibrium(c1)).  [resolve(215,e,92,b)].
% 1.42/1.76  222 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | greater_or_equal(f1(c1),equilibrium(c1)).  [resolve(215,e,27,b)].
% 1.42/1.76  229 growth_rate(first_movers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | f2(c1) = f1(c1).  [resolve(208,f,165,f),merge(f),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  231 growth_rate(first_movers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | greater(f1(c1),equilibrium(c1)).  [resolve(229,d,86,b),merge(e)].
% 1.42/1.76  238 growth_rate(first_movers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | greater_or_equal(f1(c1),equilibrium(c1)).  [resolve(231,e,27,b)].
% 1.42/1.76  247 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater_or_equal(f3(f1(c1)),equilibrium(c1)).  [resolve(219,f,27,b)].
% 1.42/1.76  254 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(growth_rate(first_movers,f3(f1(c1))),zero) | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(247,f,72,a)].
% 1.42/1.76  257 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(247,f,69,a)].
% 1.42/1.76  261 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(247,f,65,a)].
% 1.42/1.76  272 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(254,g,89,a),merge(h)].
% 1.42/1.76  277 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(272,g,27,b)].
% 1.42/1.76  278 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(277,g,73,a)].
% 1.42/1.76  287 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))).  [resolve(257,h,278,g),merge(h),merge(i),merge(j),merge(k),merge(l),merge(m)].
% 1.42/1.76  297 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(287,g,88,a)].
% 1.42/1.76  306 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero.  [resolve(297,g,278,g),merge(g),merge(h),merge(i),merge(j),merge(k),merge(l)].
% 1.42/1.76  314 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [para(306(f,1),74(a,2))].
% 1.42/1.76  315 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero).  [para(306(f,1),90(a,2))].
% 1.42/1.76  320 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater(A,growth_rate(efficient_producers,f3(f1(c1)))) | greater(A,zero).  [resolve(314,f,30,b)].
% 1.42/1.76  329 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(315,f,73,a)].
% 1.42/1.76  330 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))).  [resolve(329,f,261,h),merge(f),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  331 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater(zero,zero).  [para(306(f,1),329(f,2)),merge(f),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  337 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,zero).  [resolve(330,g,320,f),merge(g),merge(h),merge(i),merge(j),merge(k)].
% 1.42/1.76  351 growth_rate(efficient_producers,f3(f2(c1))) = zero | f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(337,g,331,f),merge(g),merge(h),merge(i),merge(j),merge(k)].
% 1.42/1.76  354 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [para(351(a,1),83(a,1)),unit_del(f,53)].
% 1.42/1.76  355 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(f1(c1),f2(c1)) | greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [para(351(a,1),106(d,1)),merge(f),merge(h)].
% 1.42/1.76  365 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(f1(c1),f2(c1)).  [resolve(355,g,354,f),merge(g),merge(h),merge(i),merge(j),merge(k)].
% 1.42/1.76  367 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(f1(c1),equilibrium(c1)).  [resolve(365,f,86,b),merge(f)].
% 1.42/1.76  373 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(f3(f1(c1)),equilibrium(c1)).  [resolve(367,f,92,b),merge(f)].
% 1.42/1.76  386 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater_or_equal(f3(f1(c1)),equilibrium(c1)).  [resolve(373,f,27,b)].
% 1.42/1.76  391 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(growth_rate(first_movers,f3(f1(c1))),zero) | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(386,f,68,a),merge(f)].
% 1.42/1.76  394 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(386,f,65,a),merge(f)].
% 1.42/1.76  406 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(391,f,89,a),merge(g)].
% 1.42/1.76  409 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(406,f,27,b)].
% 1.42/1.76  410 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(409,f,73,a)].
% 1.42/1.76  415 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))).  [resolve(394,g,410,f),merge(g),merge(h),merge(i),merge(j),merge(k)].
% 1.42/1.76  421 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(415,f,88,a)].
% 1.42/1.76  425 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(421,f,410,f),merge(f),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  428 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(425(e,1),73(a,1)),unit_del(e,53)].
% 1.42/1.76  429 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(425(e,1),74(a,1))].
% 1.42/1.76  437 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1).  [resolve(429,e,428,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  440 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | subpopulations(first_movers,efficient_producers,c1,f2(c1)).  [para(437(b,1),59(a,4))].
% 1.42/1.76  441 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater_or_equal(growth_rate(efficient_producers,f2(c1)),zero) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [para(437(b,1),83(a,1,2))].
% 1.42/1.76  451 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(zero,growth_rate(efficient_producers,f2(c1))) | greater(zero,growth_rate(first_movers,f2(c1))).  [resolve(440,d,52,a),unit_del(d,39)].
% 1.42/1.76  454 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(growth_rate(first_movers,f2(c1)),zero) | greater(growth_rate(efficient_producers,f2(c1)),zero).  [resolve(440,d,49,a),unit_del(d,39)].
% 1.42/1.76  460 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater_or_equal(f2(c1),f1(c1)) | greater(growth_rate(efficient_producers,f2(c1)),growth_rate(first_movers,f2(c1))).  [resolve(440,d,43,a)].
% 1.42/1.76  461 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(growth_rate(efficient_producers,f2(c1)),growth_rate(first_movers,f2(c1))) | greater(f1(c1),f2(c1)).  [resolve(460,d,98,c),merge(f)].
% 1.42/1.76  462 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(f1(c1),f2(c1)) | -greater(A,growth_rate(efficient_producers,f2(c1))) | greater(A,growth_rate(first_movers,f2(c1))).  [resolve(461,d,30,b)].
% 1.42/1.76  463 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(f1(c1),f2(c1)) | -greater(growth_rate(first_movers,f2(c1)),A) | greater(growth_rate(efficient_producers,f2(c1)),A).  [resolve(461,d,30,a)].
% 1.42/1.76  501 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(growth_rate(efficient_producers,f2(c1)),zero) | greater(f1(c1),f2(c1)).  [resolve(454,e,463,e),merge(f),merge(g),merge(h),merge(j)].
% 1.42/1.76  508 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)) | greater_or_equal(growth_rate(efficient_producers,f2(c1)),zero).  [resolve(501,e,27,b)].
% 1.42/1.76  510 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(508,f,441,d),merge(f),merge(g),merge(h)].
% 1.42/1.76  559 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)) | -greater(zero,growth_rate(first_movers,f2(c1))).  [para(437(b,1),510(f,2,2)),merge(d),merge(e),merge(f)].
% 1.42/1.76  561 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)) | greater(zero,growth_rate(efficient_producers,f2(c1))).  [resolve(559,f,451,f),merge(f),merge(g),merge(h),merge(i)].
% 1.42/1.76  563 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)) | greater(zero,growth_rate(first_movers,f2(c1))).  [resolve(561,f,462,e),merge(f),merge(g),merge(h),merge(i)].
% 1.42/1.76  573 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)).  [resolve(563,f,559,f),merge(f),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  575 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),equilibrium(c1)).  [resolve(573,e,86,b),merge(e)].
% 1.42/1.76  579 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f3(f1(c1)),equilibrium(c1)).  [resolve(575,e,92,b),merge(e)].
% 1.42/1.76  588 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater_or_equal(f3(f1(c1)),equilibrium(c1)).  [resolve(579,e,27,b)].
% 1.42/1.76  591 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f3(f1(c1))) = zero | greater(growth_rate(first_movers,f3(f1(c1))),zero) | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(588,e,72,a)].
% 1.42/1.76  594 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(588,e,69,a)].
% 1.42/1.76  598 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(588,e,65,a)].
% 1.42/1.76  981 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f3(f1(c1))) = zero | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(591,f,89,a),merge(g)].
% 1.42/1.76  999 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f3(f1(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(981,f,27,b)].
% 1.42/1.76  1000 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f3(f1(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(999,f,73,a)].
% 1.42/1.76  1004 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))).  [resolve(594,g,1000,f),merge(g),merge(h),merge(i),merge(j),merge(k)].
% 1.42/1.76  1016 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(1004,f,88,a)].
% 1.42/1.76  1020 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f3(f1(c1))) = zero.  [resolve(1016,f,1000,f),merge(f),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  1023 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [para(1020(e,1),74(a,2))].
% 1.42/1.76  1024 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero).  [para(1020(e,1),90(a,2))].
% 1.42/1.76  1041 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | -greater(A,growth_rate(efficient_producers,f3(f1(c1)))) | greater(A,zero).  [resolve(1023,e,30,b)].
% 1.42/1.76  1042 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(1024,e,73,a)].
% 1.42/1.76  1043 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | -greater(zero,zero).  [para(1020(e,1),1042(e,2)),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  1044 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))).  [resolve(598,g,1042,e),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  1056 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,zero).  [resolve(1044,f,1041,e),merge(f),merge(g),merge(h),merge(i)].
% 1.42/1.76  1081 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(1056,f,1043,e),merge(f),merge(g),merge(h),merge(i)].
% 1.42/1.76  1085 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(zero,zero).  [para(1081(e,1),1023(e,1)),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  1086 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero.  [resolve(1085,e,1043,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  1089 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [para(1086(d,1),441(d,1)),merge(d),merge(e),merge(f),unit_del(d,53)].
% 1.42/1.76  1090 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(zero,growth_rate(first_movers,f2(c1))) | greater(f1(c1),f2(c1)).  [para(1086(d,1),461(d,1)),merge(d),merge(e),merge(f)].
% 1.42/1.76  1115 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater(zero,growth_rate(first_movers,f2(c1))).  [para(437(b,1),1089(d,2,2)),merge(d),merge(e),merge(f)].
% 1.42/1.76  1121 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(f1(c1),f2(c1)).  [resolve(1090,d,1115,d),merge(e),merge(f),merge(g)].
% 1.42/1.76  1130 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(f1(c1),equilibrium(c1)).  [resolve(1121,d,86,b),merge(d)].
% 1.42/1.76  1134 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(f3(f1(c1)),equilibrium(c1)).  [resolve(1130,d,92,b),merge(d)].
% 1.42/1.76  1155 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater_or_equal(f3(f1(c1)),equilibrium(c1)).  [resolve(1134,d,27,b)].
% 1.42/1.76  1156 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(growth_rate(first_movers,f3(f1(c1))),zero) | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(1155,d,72,a)].
% 1.42/1.76  1159 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(1155,d,69,a)].
% 1.42/1.76  1163 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(1155,d,65,a)].
% 1.42/1.76  1211 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(1156,e,89,a),merge(f)].
% 1.42/1.76  1218 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(1211,e,27,b)].
% 1.42/1.76  1222 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(1218,e,73,a)].
% 1.42/1.76  1231 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))).  [resolve(1159,f,1222,e),merge(f),merge(g),merge(h),merge(i)].
% 1.42/1.76  1242 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(1231,e,88,a)].
% 1.42/1.76  1249 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero.  [resolve(1242,e,1222,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  1252 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [para(1249(d,1),74(a,2))].
% 1.42/1.76  1253 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero).  [para(1249(d,1),90(a,2))].
% 1.42/1.76  1264 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater(A,growth_rate(efficient_producers,f3(f1(c1)))) | greater(A,zero).  [resolve(1252,d,30,b)].
% 1.42/1.76  1265 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(1253,d,73,a)].
% 1.42/1.76  1266 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | -greater(zero,zero).  [para(1249(d,1),1265(d,2)),merge(d),merge(e),merge(f)].
% 1.42/1.76  1277 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))).  [resolve(1163,f,1265,d),merge(f),merge(g),merge(h)].
% 1.42/1.76  1280 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,zero).  [resolve(1277,e,1264,d),merge(e),merge(f),merge(g)].
% 1.42/1.76  1286 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(1280,e,1266,d),merge(e),merge(f),merge(g)].
% 1.42/1.76  1290 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1) | greater(zero,zero).  [para(1286(d,1),1252(d,1)),merge(d),merge(e),merge(f)].
% 1.42/1.76  1291 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f1(c1)) = f1(c1).  [resolve(1290,d,1266,d),merge(d),merge(e),merge(f)].
% 1.42/1.76  1294 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | subpopulations(first_movers,efficient_producers,c1,f1(c1)).  [para(1291(c,1),55(a,4))].
% 1.42/1.76  1295 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | -greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(1291(c,1),73(a,1,2))].
% 1.42/1.76  1296 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | greater(growth_rate(efficient_producers,f1(c1)),growth_rate(first_movers,f3(f1(c1)))).  [para(1291(c,1),74(a,1,2))].
% 1.42/1.76  1310 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | -greater_or_equal(f1(c1),equilibrium(c1)) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(1294,c,52,a)].
% 1.42/1.76  1313 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | -greater_or_equal(f1(c1),equilibrium(c1)) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(1294,c,49,a)].
% 1.42/1.76  1314 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | -greater_or_equal(f1(c1),equilibrium(c1)) | growth_rate(first_movers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(1294,c,48,a)].
% 1.42/1.76  1317 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | -greater_or_equal(f1(c1),equilibrium(c1)) | growth_rate(first_movers,f1(c1)) = zero | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(1294,c,45,a)].
% 1.42/1.76  1319 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | greater(growth_rate(efficient_producers,f1(c1)),growth_rate(first_movers,f1(c1))).  [resolve(1294,c,43,a),unit_del(c,53)].
% 1.42/1.76  1320 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | -greater(A,growth_rate(efficient_producers,f1(c1))) | greater(A,growth_rate(first_movers,f1(c1))).  [resolve(1319,c,30,b)].
% 1.42/1.76  1321 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | -greater(growth_rate(first_movers,f1(c1)),A) | greater(growth_rate(efficient_producers,f1(c1)),A).  [resolve(1319,c,30,a)].
% 1.42/1.76  1322 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | greater_or_equal(growth_rate(efficient_producers,f1(c1)),growth_rate(first_movers,f1(c1))).  [resolve(1319,c,27,b)].
% 1.42/1.76  1327 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))) | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1).  [resolve(1310,c,238,e),merge(g),merge(i)].
% 1.42/1.76  1328 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))) | growth_rate(efficient_producers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1).  [resolve(1310,c,222,e),merge(g),merge(i)].
% 1.42/1.76  1333 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero) | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1).  [resolve(1313,c,238,e),merge(g),merge(i)].
% 1.42/1.76  1334 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero) | growth_rate(efficient_producers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1).  [resolve(1313,c,222,e),merge(g),merge(i)].
% 1.42/1.76  1396 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,f1(c1)),zero) | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1).  [resolve(1333,d,1321,c),merge(g),merge(h),merge(i)].
% 1.42/1.76  1400 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(1396,d,27,b)].
% 1.42/1.76  1409 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(1400,f,1295,c),merge(f),merge(g)].
% 1.42/1.76  1412 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f1(c1))).  [para(1291(c,1),1409(f,2,2)),merge(c),merge(d)].
% 1.42/1.76  1414 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | greater(zero,growth_rate(efficient_producers,f1(c1))).  [resolve(1412,f,1327,e),merge(f),merge(g),merge(h),merge(j),merge(k)].
% 1.42/1.76  1415 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(1414,f,1320,c),merge(f),merge(g)].
% 1.42/1.76  1422 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,f1(c1)),zero) | growth_rate(efficient_producers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1).  [resolve(1334,d,1321,c),merge(g),merge(h),merge(i)].
% 1.42/1.76  1423 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1).  [resolve(1415,f,1412,f),merge(f),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  1447 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(efficient_producers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(1422,d,27,b)].
% 1.42/1.76  1449 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(efficient_producers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(1447,f,1295,c),merge(f),merge(g)].
% 1.42/1.76  1451 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(efficient_producers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f1(c1))).  [para(1291(c,1),1449(f,2,2)),merge(c),merge(d)].
% 1.42/1.76  1452 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(efficient_producers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | greater(zero,growth_rate(efficient_producers,f1(c1))).  [resolve(1451,f,1328,e),merge(f),merge(g),merge(h),merge(j),merge(k)].
% 1.42/1.76  1459 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(efficient_producers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(1452,f,1320,c),merge(f),merge(g)].
% 1.42/1.76  1466 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(efficient_producers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1).  [resolve(1459,f,1451,f),merge(f),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  1469 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [para(1466(d,1),83(a,1)),unit_del(e,53)].
% 1.42/1.76  1470 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)) | greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [para(1466(d,1),106(d,1)),merge(e),merge(g)].
% 1.42/1.76  1479 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | -greater(zero,zero).  [para(1423(d,1),1469(e,2)),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  1511 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | greater(f1(c1),f2(c1)).  [resolve(1470,f,1469,e),merge(f),merge(g),merge(h),merge(i)].
% 1.42/1.76  1518 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | greater(f1(c1),equilibrium(c1)).  [resolve(1511,e,86,b),merge(e)].
% 1.42/1.76  1524 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | greater_or_equal(f1(c1),equilibrium(c1)).  [resolve(1518,e,27,b)].
% 1.42/1.76  1529 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(1524,e,1313,c),merge(e),merge(f),merge(g)].
% 1.42/1.76  1532 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(1524,e,1310,c),merge(e),merge(f),merge(g)].
% 1.42/1.76  1548 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | greater(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(1529,e,1321,c),merge(f),merge(g),merge(h)].
% 1.42/1.76  1549 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | -greater(A,growth_rate(efficient_producers,f1(c1))) | greater(A,zero).  [resolve(1548,e,30,b)].
% 1.42/1.76  1551 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(1548,e,27,b)].
% 1.42/1.76  1553 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(1551,e,1295,c),merge(e),merge(f)].
% 1.42/1.76  1554 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f1(c1))).  [para(1291(c,1),1553(e,2,2)),merge(c),merge(d)].
% 1.42/1.76  1567 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | greater(zero,growth_rate(efficient_producers,f1(c1))).  [resolve(1532,f,1554,e),merge(f),merge(g),merge(h),merge(i)].
% 1.42/1.76  1569 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1) | greater(zero,zero).  [resolve(1567,e,1549,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  1575 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | f3(f2(c1)) = f2(c1).  [resolve(1569,e,1479,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  1580 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f2(c1)) = f2(c1) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(1575(c,1),1296(c,1)),merge(d),merge(e)].
% 1.42/1.76  1581 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(1575(c,1),1295(c,1)),merge(d),merge(e),unit_del(d,53)].
% 1.42/1.76  1602 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | f3(f2(c1)) = f2(c1).  [resolve(1581,d,1580,d),merge(d),merge(e),merge(f)].
% 1.42/1.76  1605 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | subpopulations(first_movers,efficient_producers,c1,f2(c1)).  [para(1602(c,1),59(a,4))].
% 1.42/1.76  1606 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | -greater_or_equal(growth_rate(efficient_producers,f2(c1)),zero) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [para(1602(c,1),83(a,1,2))].
% 1.42/1.76  1616 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(zero,growth_rate(efficient_producers,f2(c1))) | greater(zero,growth_rate(first_movers,f2(c1))).  [resolve(1605,c,52,a),unit_del(c,39)].
% 1.42/1.76  1619 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(growth_rate(first_movers,f2(c1)),zero) | greater(growth_rate(efficient_producers,f2(c1)),zero).  [resolve(1605,c,49,a),unit_del(c,39)].
% 1.42/1.76  1625 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | -greater_or_equal(f2(c1),f1(c1)) | greater(growth_rate(efficient_producers,f2(c1)),growth_rate(first_movers,f2(c1))).  [resolve(1605,c,43,a)].
% 1.42/1.76  1626 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | greater(growth_rate(efficient_producers,f2(c1)),growth_rate(first_movers,f2(c1))) | greater(f1(c1),f2(c1)).  [resolve(1625,c,98,c),merge(e)].
% 1.42/1.76  1627 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | greater(f1(c1),f2(c1)) | -greater(A,growth_rate(efficient_producers,f2(c1))) | greater(A,growth_rate(first_movers,f2(c1))).  [resolve(1626,c,30,b)].
% 1.42/1.76  1628 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | greater(f1(c1),f2(c1)) | -greater(growth_rate(first_movers,f2(c1)),A) | greater(growth_rate(efficient_producers,f2(c1)),A).  [resolve(1626,c,30,a)].
% 1.42/1.76  1666 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(growth_rate(efficient_producers,f2(c1)),zero) | greater(f1(c1),f2(c1)).  [resolve(1619,d,1628,d),merge(e),merge(f),merge(h)].
% 1.42/1.76  1673 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)) | greater_or_equal(growth_rate(efficient_producers,f2(c1)),zero).  [resolve(1666,d,27,b)].
% 1.42/1.76  1675 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(1673,e,1606,c),merge(e),merge(f)].
% 1.42/1.76  1724 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)) | -greater(zero,growth_rate(first_movers,f2(c1))).  [para(1602(c,1),1675(e,2,2)),merge(c),merge(d)].
% 1.42/1.76  1726 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)) | greater(zero,growth_rate(efficient_producers,f2(c1))).  [resolve(1724,e,1616,e),merge(e),merge(f),merge(g)].
% 1.42/1.76  1734 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)) | greater(zero,growth_rate(first_movers,f2(c1))).  [resolve(1726,e,1627,d),merge(e),merge(f),merge(g)].
% 1.42/1.76  1738 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),f2(c1)).  [resolve(1734,e,1724,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  1739 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(f1(c1),equilibrium(c1)).  [resolve(1738,d,86,b),merge(d)].
% 1.42/1.76  1745 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater_or_equal(f1(c1),equilibrium(c1)).  [resolve(1739,d,27,b)].
% 1.42/1.76  1746 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f1(c1)) = zero | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(1745,d,1317,c),merge(d),merge(e)].
% 1.42/1.76  1749 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(1745,d,1314,c),merge(d),merge(e)].
% 1.42/1.76  1753 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(1745,d,1310,c),merge(d),merge(e)].
% 1.42/1.76  2162 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f1(c1)) = zero | greater(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(1746,e,1321,c),merge(f),merge(g),merge(h)].
% 1.42/1.76  2171 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f1(c1)) = zero | greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(2162,e,27,b)].
% 1.42/1.76  2173 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f1(c1)) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(2171,e,1295,c),merge(e),merge(f)].
% 1.42/1.76  2174 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f1(c1)) = zero | -greater(zero,growth_rate(first_movers,f1(c1))).  [para(1291(c,1),2173(e,2,2)),merge(c),merge(d)].
% 1.42/1.76  2185 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))).  [resolve(1749,f,2174,e),merge(f),merge(g),merge(h),merge(i)].
% 1.42/1.76  2196 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f1(c1)) = zero | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(2185,e,1320,c),merge(e),merge(f)].
% 1.42/1.76  2201 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(first_movers,f1(c1)) = zero.  [resolve(2196,e,2174,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  2204 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(growth_rate(efficient_producers,f1(c1)),zero).  [para(2201(d,1),1319(c,2)),merge(d),merge(e)].
% 1.42/1.76  2205 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero).  [para(2201(d,1),1322(c,2)),merge(d),merge(e)].
% 1.42/1.76  2225 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | -greater(A,growth_rate(efficient_producers,f1(c1))) | greater(A,zero).  [resolve(2204,d,30,b)].
% 1.42/1.76  2227 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(2205,d,1295,c),merge(d),merge(e)].
% 1.42/1.76  2249 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | -greater(zero,growth_rate(first_movers,f1(c1))).  [para(1291(c,1),2227(d,2,2)),merge(c),merge(d)].
% 1.42/1.76  2250 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))).  [resolve(2249,d,1753,f),merge(d),merge(e),merge(f)].
% 1.42/1.76  2251 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | -greater(zero,zero).  [para(2201(d,1),2249(d,2)),merge(d),merge(e),merge(f)].
% 1.42/1.76  2279 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,zero).  [resolve(2250,e,2225,d),merge(e),merge(f),merge(g)].
% 1.42/1.76  2297 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f2(c1)) = zero | growth_rate(efficient_producers,f1(c1)) = zero.  [resolve(2279,e,2251,d),merge(e),merge(f),merge(g)].
% 1.42/1.76  2300 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [para(2297(c,1),1606(c,1)),merge(d),merge(e),unit_del(d,53)].
% 1.42/1.76  2301 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(first_movers,f2(c1))) | greater(f1(c1),f2(c1)).  [para(2297(c,1),1626(c,1)),merge(d),merge(e)].
% 1.42/1.76  2313 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | -greater(zero,growth_rate(first_movers,f2(c1))).  [para(1602(c,1),2300(d,2,2)),merge(c),merge(d)].
% 1.42/1.76  2320 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(f1(c1),f2(c1)).  [resolve(2301,d,2313,d),merge(e),merge(f),merge(g)].
% 1.42/1.76  2321 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(f1(c1),equilibrium(c1)).  [resolve(2320,d,86,b),merge(d)].
% 1.42/1.76  2336 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater_or_equal(f1(c1),equilibrium(c1)).  [resolve(2321,d,27,b)].
% 1.42/1.76  2341 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(2336,d,1313,c),merge(d),merge(e),merge(f)].
% 1.42/1.76  2344 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(2336,d,1310,c),merge(d),merge(e),merge(f)].
% 1.42/1.76  2385 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(2341,d,1321,c),merge(e),merge(f),merge(g)].
% 1.42/1.76  2393 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(2385,d,27,b)].
% 1.42/1.76  2405 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(2393,d,1295,c),merge(d),merge(e)].
% 1.42/1.76  2406 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | -greater(zero,growth_rate(first_movers,f1(c1))).  [para(1291(c,1),2405(d,2,2)),merge(c),merge(d)].
% 1.42/1.76  2431 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))).  [resolve(2344,e,2406,d),merge(e),merge(f),merge(g)].
% 1.42/1.76  2442 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(2431,d,1320,c),merge(d),merge(e)].
% 1.42/1.76  2454 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | growth_rate(efficient_producers,f1(c1)) = zero.  [resolve(2442,d,2406,d),merge(d),merge(e),merge(f)].
% 1.42/1.76  2459 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(2454(c,1),1296(c,1)),merge(c),merge(d)].
% 1.42/1.76  2460 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(2454(c,1),1295(c,1)),merge(c),merge(d),unit_del(c,53)].
% 1.42/1.76  2511 f2(c1) = equilibrium(c1) | f2(c1) = f1(c1).  [resolve(2460,c,2459,c),merge(c),merge(d)].
% 1.42/1.76  2524 f2(c1) = equilibrium(c1) | greater(growth_rate(efficient_producers,f3(f2(c1))),growth_rate(first_movers,f3(f2(c1)))).  [para(2511(b,1),84(a,1,1)),unit_del(b,56)].
% 1.42/1.76  2594 f2(c1) = equilibrium(c1) | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(2524,b,167,d),merge(c)].
% 1.42/1.76  2595 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(2524,b,158,d),merge(c)].
% 1.42/1.76  2596 f2(c1) = equilibrium(c1) | growth_rate(first_movers,f3(f2(c1))) = zero | greater(growth_rate(efficient_producers,f3(f2(c1))),zero) | f3(f2(c1)) = f2(c1).  [resolve(2524,b,149,e),merge(d)].
% 1.42/1.76  2600 f2(c1) = equilibrium(c1) | greater_or_equal(growth_rate(efficient_producers,f3(f2(c1))),growth_rate(first_movers,f3(f2(c1)))).  [resolve(2524,b,27,b)].
% 1.42/1.76  2710 f2(c1) = equilibrium(c1) | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | greater_or_equal(growth_rate(efficient_producers,f3(f2(c1))),zero).  [resolve(2596,c,27,b)].
% 1.42/1.76  2726 f2(c1) = equilibrium(c1) | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(2710,d,83,a)].
% 1.42/1.76  2748 f2(c1) = equilibrium(c1) | growth_rate(first_movers,f3(f2(c1))) = zero | f3(f2(c1)) = f2(c1).  [resolve(2726,d,2594,d),merge(d),merge(e),merge(f)].
% 1.42/1.76  2752 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(growth_rate(efficient_producers,f3(f2(c1))),zero).  [para(2748(b,1),2524(b,2)),merge(c)].
% 1.42/1.76  2753 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater_or_equal(growth_rate(efficient_producers,f3(f2(c1))),zero).  [para(2748(b,1),2600(b,2)),merge(c)].
% 1.42/1.76  2765 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [resolve(2753,c,83,a)].
% 1.42/1.76  2774 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | growth_rate(efficient_producers,f3(f2(c1))) = zero.  [resolve(2765,c,2595,d),merge(c),merge(e)].
% 1.42/1.76  2775 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | -greater(zero,zero).  [para(2748(b,1),2765(c,2)),merge(c),merge(d)].
% 1.42/1.76  2783 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1) | greater(zero,zero).  [para(2774(c,1),2752(c,1)),merge(c),merge(d)].
% 1.42/1.76  2788 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f2(c1).  [resolve(2783,c,2775,c),merge(c),merge(d)].
% 1.42/1.76  2791 f2(c1) = equilibrium(c1) | subpopulations(first_movers,efficient_producers,c1,f2(c1)).  [para(2788(b,1),59(a,4))].
% 1.42/1.76  2792 f2(c1) = equilibrium(c1) | -greater_or_equal(growth_rate(efficient_producers,f2(c1)),zero) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [para(2788(b,1),83(a,1,2))].
% 1.42/1.76  2801 f2(c1) = equilibrium(c1) | f3(f1(c1)) = f2(c1).  [para(2511(b,1),2788(b,1,1)),merge(b)].
% 1.42/1.76  2802 f2(c1) = equilibrium(c1) | f3(f2(c1)) = f1(c1).  [para(2511(b,1),2788(b,2)),merge(b)].
% 1.42/1.76  2803 f2(c1) = equilibrium(c1) | greater(growth_rate(efficient_producers,f2(c1)),growth_rate(first_movers,f3(f2(c1)))).  [para(2788(b,1),2524(b,1,2)),merge(b)].
% 1.42/1.76  2822 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(zero,growth_rate(efficient_producers,f2(c1))) | greater(zero,growth_rate(first_movers,f2(c1))).  [resolve(2791,b,52,a),unit_del(b,39)].
% 1.42/1.76  2825 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(growth_rate(first_movers,f2(c1)),zero) | greater(growth_rate(efficient_producers,f2(c1)),zero).  [resolve(2791,b,49,a),unit_del(b,39)].
% 1.42/1.76  2833 f2(c1) = equilibrium(c1) | -greater_or_equal(growth_rate(efficient_producers,f2(c1)),zero) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(2801(b,1),73(a,1,2))].
% 1.42/1.76  2844 f2(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1).  [para(2511(b,1),2801(b,2)),merge(b)].
% 1.42/1.76  2881 f2(c1) = equilibrium(c1) | greater(growth_rate(efficient_producers,f2(c1)),growth_rate(first_movers,f2(c1))).  [para(2788(b,1),2803(b,2,2)),merge(b)].
% 1.42/1.76  2882 f2(c1) = equilibrium(c1) | greater(growth_rate(efficient_producers,f2(c1)),growth_rate(first_movers,f1(c1))).  [para(2802(b,1),2803(b,2,2)),merge(b)].
% 1.42/1.76  2890 f2(c1) = equilibrium(c1) | -greater(growth_rate(first_movers,f2(c1)),A) | greater(growth_rate(efficient_producers,f2(c1)),A).  [resolve(2881,b,30,a)].
% 1.42/1.76  2893 f2(c1) = equilibrium(c1) | -greater(A,growth_rate(efficient_producers,f2(c1))) | greater(A,growth_rate(first_movers,f1(c1))).  [resolve(2882,b,30,b)].
% 1.42/1.76  2961 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(growth_rate(efficient_producers,f2(c1)),zero).  [resolve(2825,c,2890,b),merge(d),merge(e)].
% 1.42/1.76  2964 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater_or_equal(growth_rate(efficient_producers,f2(c1)),zero).  [resolve(2961,c,27,b)].
% 1.42/1.76  2966 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f2(c1)) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(2964,c,2833,b),merge(c)].
% 1.42/1.76  2976 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f2(c1)) = zero | -greater(zero,growth_rate(first_movers,f2(c1))).  [para(2801(b,1),2966(c,2,2)),merge(b)].
% 1.42/1.76  2977 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f2(c1)) = zero | -greater(zero,growth_rate(first_movers,f1(c1))).  [para(2844(b,1),2966(c,2,2)),merge(b)].
% 1.42/1.76  2983 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(zero,growth_rate(efficient_producers,f2(c1))).  [resolve(2976,c,2822,d),merge(c),merge(d)].
% 1.42/1.76  2984 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f2(c1)) = zero | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(2983,c,2893,b),merge(c)].
% 1.42/1.76  2992 f2(c1) = equilibrium(c1) | growth_rate(efficient_producers,f2(c1)) = zero.  [resolve(2984,c,2977,c),merge(c),merge(d)].
% 1.42/1.76  3004 f2(c1) = equilibrium(c1) | -greater(zero,growth_rate(first_movers,f3(f2(c1)))).  [para(2992(b,1),2792(b,1)),merge(b),unit_del(b,53)].
% 1.42/1.76  3006 f2(c1) = equilibrium(c1) | greater(zero,growth_rate(first_movers,f2(c1))).  [para(2992(b,1),2881(b,1)),merge(b)].
% 1.42/1.76  3026 f2(c1) = equilibrium(c1) | -greater(zero,growth_rate(first_movers,f2(c1))).  [para(2788(b,1),3004(b,2,2)),merge(b)].
% 1.42/1.76  3028 f2(c1) = equilibrium(c1).  [resolve(3026,b,3006,b),merge(b)].
% 1.42/1.76  3040 f3(equilibrium(c1)) = equilibrium(c1) | -greater(equilibrium(c1),A) | greater(f3(equilibrium(c1)),A).  [back_rewrite(94),rewrite([3028(2),3028(5),3028(8),3028(11)])].
% 1.42/1.76  3042 greater(f1(c1),equilibrium(c1)) | f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)).  [back_rewrite(85),rewrite([3028(4),3028(7),3028(12)]),flip(b)].
% 1.42/1.76  3043 -greater_or_equal(f3(equilibrium(c1)),f1(c1)) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [back_rewrite(84),rewrite([3028(2),3028(9),3028(14)])].
% 1.42/1.76  3044 -greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),zero) | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [back_rewrite(83),rewrite([3028(3),3028(11)])].
% 1.42/1.76  3045 -greater_or_equal(f3(equilibrium(c1)),equilibrium(c1)) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(growth_rate(first_movers,f3(equilibrium(c1))),zero) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_rewrite(82),rewrite([3028(2),3028(9),3028(16),3028(23)])].
% 1.42/1.76  3047 -greater_or_equal(f3(equilibrium(c1)),equilibrium(c1)) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_rewrite(80),rewrite([3028(2),3028(9),3028(17),3028(23)])].
% 1.42/1.76  3048 -greater_or_equal(f3(equilibrium(c1)),equilibrium(c1)) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [back_rewrite(79),rewrite([3028(2),3028(9),3028(17),3028(24)])].
% 1.42/1.76  3049 -greater_or_equal(f3(equilibrium(c1)),equilibrium(c1)) | growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(growth_rate(first_movers,f3(equilibrium(c1))),zero) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_rewrite(78),rewrite([3028(2),3028(9),3028(16),3028(23)])].
% 1.42/1.76  3051 -greater_or_equal(f3(equilibrium(c1)),equilibrium(c1)) | growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_rewrite(76),rewrite([3028(2),3028(9),3028(17),3028(23)])].
% 1.42/1.76  3052 -greater_or_equal(f3(equilibrium(c1)),equilibrium(c1)) | growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [back_rewrite(75),rewrite([3028(2),3028(9),3028(17),3028(24)])].
% 1.42/1.76  3055 greater_or_equal(f3(equilibrium(c1)),equilibrium(c1)).  [back_rewrite(60),rewrite([3028(2),3028(5)])].
% 1.42/1.76  3056 subpopulations(first_movers,efficient_producers,c1,f3(equilibrium(c1))).  [back_rewrite(59),rewrite([3028(5)])].
% 1.42/1.76  3059 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [back_unit_del(3052),unit_del(a,3055)].
% 1.42/1.76  3060 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_unit_del(3051),unit_del(a,3055)].
% 1.42/1.76  3062 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(growth_rate(first_movers,f3(equilibrium(c1))),zero) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_unit_del(3049),unit_del(a,3055)].
% 1.42/1.76  3063 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [back_unit_del(3048),unit_del(a,3055)].
% 1.42/1.76  3064 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_unit_del(3047),unit_del(a,3055)].
% 1.42/1.76  3066 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(growth_rate(first_movers,f3(equilibrium(c1))),zero) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_unit_del(3045),unit_del(a,3055)].
% 1.42/1.76  3067 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | greater(f3(f1(c1)),equilibrium(c1)).  [resolve(3042,a,92,b)].
% 1.42/1.76  3070 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | greater_or_equal(f1(c1),equilibrium(c1)).  [resolve(3042,a,27,b)].
% 1.42/1.76  3077 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [resolve(3060,c,27,b)].
% 1.42/1.76  3083 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero) | -greater(A,growth_rate(first_movers,f3(equilibrium(c1)))) | greater(A,zero).  [resolve(3062,b,30,b)].
% 1.42/1.76  3086 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero) | -greater(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [factor(3083,b,d)].
% 1.42/1.76  3093 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [resolve(3064,c,27,b)].
% 1.42/1.76  3099 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero) | -greater(A,growth_rate(first_movers,f3(equilibrium(c1)))) | greater(A,zero).  [resolve(3066,b,30,b)].
% 1.42/1.76  3102 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero) | -greater(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [factor(3099,b,d)].
% 1.42/1.76  3103 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3077,c,3044,a)].
% 1.42/1.76  3104 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))) | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3093,c,3044,a)].
% 1.42/1.76  3106 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))).  [resolve(3103,c,3059,c),merge(c),merge(d)].
% 1.42/1.76  3109 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | -greater(growth_rate(efficient_producers,f3(equilibrium(c1))),A) | greater(zero,A).  [resolve(3106,b,30,a)].
% 1.42/1.76  3117 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | greater_or_equal(f3(f1(c1)),equilibrium(c1)).  [resolve(3067,d,27,b)].
% 1.42/1.76  3118 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(equilibrium(c1)))).  [resolve(3104,c,3063,c),merge(c),merge(d)].
% 1.42/1.76  3121 growth_rate(first_movers,f3(equilibrium(c1))) = zero | -greater(growth_rate(efficient_producers,f3(equilibrium(c1))),A) | greater(zero,A).  [resolve(3118,b,30,a)].
% 1.42/1.76  3125 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(growth_rate(first_movers,f3(f1(c1))),zero) | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(3117,d,72,a)].
% 1.42/1.76  3128 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(3117,d,69,a)].
% 1.42/1.76  3129 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(growth_rate(first_movers,f3(f1(c1))),zero) | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(3117,d,68,a)].
% 1.42/1.76  3132 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(3117,d,65,a)].
% 1.42/1.76  3173 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(3125,e,89,a),merge(f)].
% 1.42/1.76  3189 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(3129,e,89,a),merge(f)].
% 1.42/1.76  3201 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(3173,e,27,b)].
% 1.42/1.76  3206 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero).  [resolve(3189,e,27,b)].
% 1.42/1.76  3232 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(3201,e,73,a)].
% 1.42/1.76  3233 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(3206,e,73,a)].
% 1.42/1.76  3244 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))).  [resolve(3232,e,3128,f),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3245 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(efficient_producers,f3(f1(c1)))).  [resolve(3233,e,3132,f),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3266 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(3244,e,88,a)].
% 1.42/1.76  3274 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(3245,e,88,a)].
% 1.42/1.76  3279 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero.  [resolve(3266,e,3232,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3284 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | greater(f3(equilibrium(c1)),f1(c1)).  [resolve(3279,b,3040,b)].
% 1.42/1.76  3291 f1(c1) = equilibrium(c1) | greater(equilibrium(c1),f1(c1)) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(3274,e,3233,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3296 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | greater(f3(equilibrium(c1)),f1(c1)).  [resolve(3291,b,3040,b)].
% 1.42/1.76  3299 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater_or_equal(equilibrium(c1),f1(c1)).  [resolve(3291,b,27,b)].
% 1.42/1.76  3302 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | greater_or_equal(f3(equilibrium(c1)),f1(c1)).  [resolve(3284,e,27,b)].
% 1.42/1.76  3305 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | greater_or_equal(f3(equilibrium(c1)),f1(c1)).  [resolve(3296,e,27,b)].
% 1.42/1.76  3306 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3302,e,3043,a)].
% 1.42/1.76  3307 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3305,e,3043,a)].
% 1.42/1.76  3319 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3306,e,3121,b)].
% 1.42/1.76  3321 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [resolve(3306,e,3102,c)].
% 1.42/1.76  3335 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3307,e,3109,b)].
% 1.42/1.76  3336 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [resolve(3307,e,3102,c)].
% 1.42/1.76  3340 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3307,e,27,b)].
% 1.42/1.76  3373 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [resolve(3321,f,27,b)].
% 1.42/1.76  3391 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,zero).  [resolve(3336,f,3121,b),merge(f)].
% 1.42/1.76  3415 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3373,f,3044,a)].
% 1.42/1.76  3436 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(first_movers,f3(f1(c1))) = zero | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero.  [resolve(3415,f,3319,f),merge(f),merge(g),merge(h),merge(i),merge(j)].
% 1.42/1.76  3444 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(f1(c1))),zero).  [para(3436(c,1),90(a,2))].
% 1.42/1.76  3453 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(3444,e,73,a)].
% 1.42/1.76  3455 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | -greater(zero,zero).  [para(3436(c,1),3453(e,2)),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3457 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(3455,e,3391,f),merge(e),merge(f),merge(h),merge(i)].
% 1.42/1.76  3464 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [para(3457(d,1),3307(e,2)),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3466 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [para(3457(d,1),3340(e,2)),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3470 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3466,e,3044,a)].
% 1.42/1.76  3471 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | growth_rate(efficient_producers,f3(equilibrium(c1))) = zero.  [resolve(3470,e,3335,f),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3475 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(3471(d,1),73(a,1)),unit_del(e,53)].
% 1.42/1.76  3476 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(3471(d,1),74(a,1))].
% 1.42/1.76  3484 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f3(equilibrium(c1))) = zero.  [resolve(3476,e,3475,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3487 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [para(3484(d,1),3044(a,1)),unit_del(d,53)].
% 1.42/1.76  3491 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,zero).  [para(3484(d,1),3118(b,2))].
% 1.42/1.76  3497 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater(zero,zero).  [para(3484(d,1),3464(e,1)),merge(d),merge(e),merge(f)].
% 1.42/1.76  3498 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(first_movers,f3(equilibrium(c1))) = zero.  [resolve(3491,e,3455,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3505 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | -greater(zero,zero).  [para(3498(d,1),3487(d,2)),merge(d),merge(e),merge(f)].
% 1.42/1.76  3506 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(3497,e,3505,d),merge(e),merge(f),merge(g)].
% 1.42/1.76  3509 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(3506(d,1),73(a,1)),unit_del(d,53)].
% 1.42/1.76  3510 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(3506(d,1),74(a,1))].
% 1.42/1.76  3513 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | f3(equilibrium(c1)) = equilibrium(c1).  [resolve(3510,d,3509,d),merge(d),merge(e),merge(f)].
% 1.42/1.76  3516 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | subpopulations(first_movers,efficient_producers,c1,f1(c1)).  [para(3513(b,1),55(a,4))].
% 1.42/1.76  3517 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | -greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(3513(b,1),73(a,1,2))].
% 1.42/1.76  3518 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | greater(growth_rate(efficient_producers,f1(c1)),growth_rate(first_movers,f3(f1(c1)))).  [para(3513(b,1),74(a,1,2))].
% 1.42/1.76  3532 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | -greater_or_equal(f1(c1),equilibrium(c1)) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(3516,c,52,a)].
% 1.42/1.76  3535 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | -greater_or_equal(f1(c1),equilibrium(c1)) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(3516,c,49,a)].
% 1.42/1.76  3541 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | greater(growth_rate(efficient_producers,f1(c1)),growth_rate(first_movers,f1(c1))).  [resolve(3516,c,43,a),unit_del(c,53)].
% 1.42/1.76  3542 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | -greater(A,growth_rate(efficient_producers,f1(c1))) | greater(A,growth_rate(first_movers,f1(c1))).  [resolve(3541,c,30,b)].
% 1.42/1.76  3543 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | -greater(growth_rate(first_movers,f1(c1)),A) | greater(growth_rate(efficient_producers,f1(c1)),A).  [resolve(3541,c,30,a)].
% 1.42/1.76  3552 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))) | greater(equilibrium(c1),f1(c1)).  [resolve(3532,c,3070,c),merge(f)].
% 1.42/1.76  3564 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero) | greater(equilibrium(c1),f1(c1)).  [resolve(3535,c,3070,c),merge(f)].
% 1.42/1.76  3603 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,f1(c1)),zero) | greater(equilibrium(c1),f1(c1)).  [resolve(3564,d,3543,c),merge(f),merge(g),merge(h)].
% 1.42/1.76  3608 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)) | greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(3603,d,27,b)].
% 1.42/1.76  3610 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(3608,e,3517,c),merge(e),merge(f)].
% 1.42/1.76  3611 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)) | -greater(zero,growth_rate(first_movers,f1(c1))).  [para(3513(b,1),3610(e,2,2)),merge(c),merge(d)].
% 1.42/1.76  3615 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)) | greater(zero,growth_rate(efficient_producers,f1(c1))).  [resolve(3611,e,3552,e),merge(e),merge(f),merge(g),merge(i)].
% 1.42/1.76  3616 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(3615,e,3542,c),merge(e),merge(f)].
% 1.42/1.76  3625 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)).  [resolve(3616,e,3611,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3630 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(f3(equilibrium(c1)),f1(c1)).  [resolve(3625,d,3040,b),merge(d)].
% 1.42/1.76  3639 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater_or_equal(f3(equilibrium(c1)),f1(c1)).  [resolve(3630,d,27,b)].
% 1.42/1.76  3640 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3639,d,3043,a)].
% 1.42/1.76  3652 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3640,d,3121,b)].
% 1.42/1.76  3653 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3640,d,3109,b)].
% 1.42/1.76  3654 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [resolve(3640,d,3102,c)].
% 1.42/1.76  3658 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3640,d,27,b)].
% 1.42/1.76  3679 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [resolve(3654,e,27,b)].
% 1.42/1.76  3697 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(equilibrium(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3679,e,3044,a)].
% 1.42/1.76  3704 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,f3(equilibrium(c1))) = zero.  [resolve(3697,e,3652,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.76  3710 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [para(3704(d,1),3640(d,2)),merge(d),merge(e),merge(f)].
% 1.42/1.76  3711 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [para(3704(d,1),3658(d,2)),merge(d),merge(e),merge(f)].
% 1.42/1.76  3718 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3711,d,3044,a)].
% 1.42/1.76  3719 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(efficient_producers,f3(equilibrium(c1))) = zero.  [resolve(3718,d,3653,e),merge(d),merge(e),merge(f)].
% 1.42/1.76  3720 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | -greater(zero,zero).  [para(3704(d,1),3718(d,2)),merge(d),merge(e),merge(f)].
% 1.42/1.76  3731 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,zero).  [para(3719(d,1),3710(d,1)),merge(d),merge(e),merge(f)].
% 1.42/1.76  3732 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero.  [resolve(3731,d,3720,d),merge(d),merge(e),merge(f)].
% 1.42/1.76  3737 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(3732(c,1),3518(c,1)),merge(c),merge(d)].
% 1.42/1.76  3738 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(3732(c,1),3517(c,1)),merge(c),merge(d),unit_del(c,53)].
% 1.42/1.76  3762 f1(c1) = equilibrium(c1) | f3(equilibrium(c1)) = equilibrium(c1).  [resolve(3738,c,3737,c),merge(c),merge(d)].
% 1.42/1.76  3765 f1(c1) = equilibrium(c1) | -greater_or_equal(growth_rate(efficient_producers,equilibrium(c1)),zero) | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [para(3762(b,1),3044(a,1,2))].
% 1.42/1.76  3766 f1(c1) = equilibrium(c1) | subpopulations(first_movers,efficient_producers,c1,equilibrium(c1)).  [para(3762(b,1),3056(a,4))].
% 1.42/1.76  3767 f1(c1) = equilibrium(c1) | -greater_or_equal(equilibrium(c1),f1(c1)) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [para(3762(b,1),3043(a,1))].
% 1.42/1.76  3814 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))) | greater(zero,growth_rate(first_movers,equilibrium(c1))).  [resolve(3766,b,52,a),unit_del(b,53)].
% 1.42/1.76  3815 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))) | greater(growth_rate(efficient_producers,equilibrium(c1)),zero).  [resolve(3766,b,51,a),unit_del(b,53)].
% 1.42/1.76  3817 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(growth_rate(first_movers,equilibrium(c1)),zero) | greater(growth_rate(efficient_producers,equilibrium(c1)),zero).  [resolve(3766,b,49,a),unit_del(b,53)].
% 1.42/1.76  3818 f1(c1) = equilibrium(c1) | growth_rate(first_movers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))) | greater(zero,growth_rate(first_movers,equilibrium(c1))).  [resolve(3766,b,48,a),unit_del(b,53)].
% 1.42/1.76  3819 f1(c1) = equilibrium(c1) | growth_rate(first_movers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))) | greater(growth_rate(efficient_producers,equilibrium(c1)),zero).  [resolve(3766,b,47,a),unit_del(b,53)].
% 1.42/1.76  3821 f1(c1) = equilibrium(c1) | growth_rate(first_movers,equilibrium(c1)) = zero | greater(growth_rate(first_movers,equilibrium(c1)),zero) | greater(growth_rate(efficient_producers,equilibrium(c1)),zero).  [resolve(3766,b,45,a),unit_del(b,53)].
% 1.42/1.76  3823 f1(c1) = equilibrium(c1) | -greater_or_equal(equilibrium(c1),f1(c1)) | greater(growth_rate(efficient_producers,equilibrium(c1)),growth_rate(first_movers,equilibrium(c1))).  [resolve(3766,b,43,a)].
% 1.42/1.76  3825 f1(c1) = equilibrium(c1) | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(3767,b,3299,d),merge(c)].
% 1.42/1.76  3829 f1(c1) = equilibrium(c1) | greater(growth_rate(efficient_producers,equilibrium(c1)),growth_rate(first_movers,equilibrium(c1))) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(3823,b,3299,d),merge(c)].
% 1.42/1.76  3908 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))) | greater_or_equal(growth_rate(efficient_producers,equilibrium(c1)),zero).  [resolve(3815,d,27,b)].
% 1.42/1.76  3922 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(growth_rate(efficient_producers,equilibrium(c1)),zero) | -greater(A,growth_rate(first_movers,equilibrium(c1))) | greater(A,zero).  [resolve(3817,c,30,b)].
% 1.42/1.76  3943 f1(c1) = equilibrium(c1) | growth_rate(first_movers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))) | greater_or_equal(growth_rate(efficient_producers,equilibrium(c1)),zero).  [resolve(3819,d,27,b)].
% 1.42/1.76  3957 f1(c1) = equilibrium(c1) | growth_rate(first_movers,equilibrium(c1)) = zero | greater(growth_rate(efficient_producers,equilibrium(c1)),zero) | -greater(A,growth_rate(first_movers,equilibrium(c1))) | greater(A,zero).  [resolve(3821,c,30,b)].
% 1.42/1.76  3960 f1(c1) = equilibrium(c1) | growth_rate(first_movers,equilibrium(c1)) = zero | greater(growth_rate(efficient_producers,equilibrium(c1)),zero) | -greater(growth_rate(efficient_producers,equilibrium(c1)),growth_rate(first_movers,equilibrium(c1))).  [factor(3957,c,e)].
% 1.42/1.76  4000 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))) | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3908,d,3765,b),merge(d)].
% 1.42/1.76  4024 f1(c1) = equilibrium(c1) | growth_rate(first_movers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))) | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(3943,d,3765,b),merge(d)].
% 1.42/1.76  4147 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))) | -greater(zero,growth_rate(first_movers,equilibrium(c1))).  [para(3762(b,1),4000(d,2,2)),merge(b)].
% 1.42/1.76  4149 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))).  [resolve(4147,d,3814,d),merge(d),merge(e),merge(f)].
% 1.42/1.76  4151 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | -greater(growth_rate(efficient_producers,equilibrium(c1)),A) | greater(zero,A).  [resolve(4149,c,30,a)].
% 1.42/1.76  4157 f1(c1) = equilibrium(c1) | growth_rate(first_movers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))) | -greater(zero,growth_rate(first_movers,equilibrium(c1))).  [para(3762(b,1),4024(d,2,2)),merge(b)].
% 1.42/1.76  4158 f1(c1) = equilibrium(c1) | growth_rate(first_movers,equilibrium(c1)) = zero | greater(zero,growth_rate(efficient_producers,equilibrium(c1))).  [resolve(4157,d,3818,d),merge(d),merge(e),merge(f)].
% 1.42/1.76  4161 f1(c1) = equilibrium(c1) | growth_rate(first_movers,equilibrium(c1)) = zero | -greater(growth_rate(efficient_producers,equilibrium(c1)),A) | greater(zero,A).  [resolve(4158,c,30,a)].
% 1.42/1.76  4267 f1(c1) = equilibrium(c1) | greater(growth_rate(efficient_producers,equilibrium(c1)),growth_rate(first_movers,f3(equilibrium(c1)))) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [para(3762(b,1),3825(b,1,2)),merge(b)].
% 1.42/1.76  4305 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(growth_rate(efficient_producers,equilibrium(c1)),zero) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(3922,d,3829,b),merge(d),merge(e)].
% 1.42/1.76  4337 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(4267,b,4151,c),merge(d)].
% 1.42/1.77  4399 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,equilibrium(c1)),zero).  [resolve(4305,c,27,b)].
% 1.42/1.77  4451 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(4399,e,3765,b),merge(e)].
% 1.42/1.77  4546 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(4451,e,4337,e),merge(e),merge(f),merge(g),merge(h)].
% 1.42/1.77  4549 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | f3(f1(c1)) = f1(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(4546(d,1),73(a,1)),unit_del(d,53)].
% 1.42/1.77  4550 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | f3(f1(c1)) = f1(c1) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(4546(d,1),74(a,1))].
% 1.42/1.77  4561 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | f3(f1(c1)) = f1(c1).  [resolve(4550,d,4549,d),merge(d),merge(e),merge(f)].
% 1.42/1.77  4564 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [para(4561(b,1),3765(b,1)),merge(c),unit_del(c,53)].
% 1.42/1.77  4575 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | greater(zero,growth_rate(first_movers,equilibrium(c1))) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [para(4561(b,1),3829(b,1)),merge(c),merge(e)].
% 1.42/1.77  4596 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | -greater(zero,growth_rate(first_movers,equilibrium(c1))).  [para(3762(b,1),4564(c,2,2)),merge(b)].
% 1.42/1.77  4635 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | growth_rate(efficient_producers,f3(f1(c1))) = zero.  [resolve(4575,c,4596,c),merge(d),merge(e)].
% 1.42/1.77  4638 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(4635(c,1),73(a,1)),unit_del(c,53)].
% 1.42/1.77  4639 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(4635(c,1),74(a,1))].
% 1.42/1.77  4645 f1(c1) = equilibrium(c1) | f3(f1(c1)) = f1(c1).  [resolve(4639,c,4638,c),merge(c),merge(d)].
% 1.42/1.77  4648 f1(c1) = equilibrium(c1) | subpopulations(first_movers,efficient_producers,c1,f1(c1)).  [para(4645(b,1),55(a,4))].
% 1.42/1.77  4649 f1(c1) = equilibrium(c1) | -greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(4645(b,1),73(a,1,2))].
% 1.42/1.77  4650 f1(c1) = equilibrium(c1) | greater(growth_rate(efficient_producers,f1(c1)),growth_rate(first_movers,f3(f1(c1)))).  [para(4645(b,1),74(a,1,2))].
% 1.42/1.77  4664 f1(c1) = equilibrium(c1) | -greater_or_equal(f1(c1),equilibrium(c1)) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(4648,b,52,a)].
% 1.42/1.77  4667 f1(c1) = equilibrium(c1) | -greater_or_equal(f1(c1),equilibrium(c1)) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(4648,b,49,a)].
% 1.42/1.77  4673 f1(c1) = equilibrium(c1) | greater(growth_rate(efficient_producers,f1(c1)),growth_rate(first_movers,f1(c1))).  [resolve(4648,b,43,a),unit_del(b,53)].
% 1.42/1.77  4674 f1(c1) = equilibrium(c1) | -greater(A,growth_rate(efficient_producers,f1(c1))) | greater(A,growth_rate(first_movers,f1(c1))).  [resolve(4673,b,30,b)].
% 1.42/1.77  4675 f1(c1) = equilibrium(c1) | -greater(growth_rate(first_movers,f1(c1)),A) | greater(growth_rate(efficient_producers,f1(c1)),A).  [resolve(4673,b,30,a)].
% 1.42/1.77  4688 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,growth_rate(efficient_producers,f1(c1))) | greater(zero,growth_rate(first_movers,f1(c1))) | greater(equilibrium(c1),f1(c1)).  [resolve(4664,b,3070,c),merge(e)].
% 1.42/1.77  4708 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(first_movers,f1(c1)),zero) | greater(growth_rate(efficient_producers,f1(c1)),zero) | greater(equilibrium(c1),f1(c1)).  [resolve(4667,b,3070,c),merge(e)].
% 1.42/1.77  4773 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,f1(c1)),zero) | greater(equilibrium(c1),f1(c1)).  [resolve(4708,c,4675,b),merge(e),merge(f)].
% 1.42/1.77  4782 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)) | greater_or_equal(growth_rate(efficient_producers,f1(c1)),zero).  [resolve(4773,c,27,b)].
% 1.42/1.77  4784 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [resolve(4782,d,4649,b),merge(d)].
% 1.42/1.77  4785 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)) | -greater(zero,growth_rate(first_movers,f1(c1))).  [para(4645(b,1),4784(d,2,2)),merge(b)].
% 1.42/1.77  4791 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)) | greater(zero,growth_rate(efficient_producers,f1(c1))).  [resolve(4785,d,4688,d),merge(d),merge(e),merge(g)].
% 1.42/1.77  4792 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)) | greater(zero,growth_rate(first_movers,f1(c1))).  [resolve(4791,d,4674,b),merge(d)].
% 1.42/1.77  4807 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(equilibrium(c1),f1(c1)).  [resolve(4792,d,4785,d),merge(d),merge(e),merge(f)].
% 1.42/1.77  4818 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater_or_equal(equilibrium(c1),f1(c1)).  [resolve(4807,c,27,b)].
% 1.42/1.77  4824 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,equilibrium(c1)),growth_rate(first_movers,equilibrium(c1))).  [resolve(4818,c,3823,b),merge(c)].
% 1.42/1.77  4825 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(4818,c,3767,b),merge(c)].
% 1.42/1.77  4846 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,equilibrium(c1)) = zero | greater(growth_rate(efficient_producers,equilibrium(c1)),zero).  [resolve(4824,c,3960,d),merge(c)].
% 1.42/1.77  4854 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater_or_equal(growth_rate(efficient_producers,equilibrium(c1)),growth_rate(first_movers,equilibrium(c1))).  [resolve(4824,c,27,b)].
% 1.42/1.77  4878 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,equilibrium(c1)),growth_rate(first_movers,f3(equilibrium(c1)))).  [para(3762(b,1),4825(c,1,2)),merge(b)].
% 1.42/1.77  4880 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,equilibrium(c1)) = zero | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(4878,c,4161,c),merge(c)].
% 1.42/1.77  4881 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(4878,c,4151,c),merge(c)].
% 1.42/1.77  4929 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,equilibrium(c1)) = zero | greater_or_equal(growth_rate(efficient_producers,equilibrium(c1)),zero).  [resolve(4846,d,27,b)].
% 1.42/1.77  4948 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,equilibrium(c1)) = zero | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(4929,d,3765,b),merge(d)].
% 1.42/1.77  4986 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(first_movers,equilibrium(c1)) = zero.  [resolve(4948,d,4880,d),merge(d),merge(e),merge(f)].
% 1.42/1.77  4999 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(growth_rate(efficient_producers,equilibrium(c1)),zero).  [para(4986(c,1),4824(c,2)),merge(c),merge(d)].
% 1.42/1.77  5000 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater_or_equal(growth_rate(efficient_producers,equilibrium(c1)),zero).  [para(4986(c,1),4854(c,2)),merge(c),merge(d)].
% 1.42/1.77  5013 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(5000,c,3765,b),merge(c)].
% 1.42/1.77  5016 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | growth_rate(efficient_producers,equilibrium(c1)) = zero.  [resolve(5013,c,4881,d),merge(c),merge(d)].
% 1.42/1.77  5017 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | -greater(zero,growth_rate(first_movers,equilibrium(c1))).  [para(3762(b,1),5013(c,2,2)),merge(b)].
% 1.42/1.77  5027 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(5016(b,1),4650(b,1)),merge(c)].
% 1.42/1.77  5028 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(5016(b,1),4649(b,1)),merge(c),unit_del(c,53)].
% 1.42/1.77  5035 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | -greater(zero,zero).  [para(4986(c,1),5017(c,2)),merge(c),merge(d)].
% 1.42/1.77  5074 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,equilibrium(c1)) = zero.  [resolve(5028,c,5027,c),merge(c),merge(d)].
% 1.42/1.77  5096 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero | greater(zero,zero).  [para(5074(b,1),4999(c,1)),merge(b)].
% 1.42/1.77  5103 f1(c1) = equilibrium(c1) | growth_rate(efficient_producers,f1(c1)) = zero.  [resolve(5096,c,5035,c),merge(c),merge(d)].
% 1.42/1.77  5112 f1(c1) = equilibrium(c1) | greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(5103(b,1),4650(b,1)),merge(b)].
% 1.42/1.77  5113 f1(c1) = equilibrium(c1) | -greater(zero,growth_rate(first_movers,f3(f1(c1)))).  [para(5103(b,1),4649(b,1)),merge(b),unit_del(b,53)].
% 1.42/1.77  5141 f1(c1) = equilibrium(c1).  [resolve(5113,b,5112,b),merge(b)].
% 1.42/1.77  5142 greater(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [back_rewrite(3043),rewrite([5141(5)]),unit_del(a,3055)].
% 1.42/1.77  5143 greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),growth_rate(first_movers,f3(equilibrium(c1)))).  [back_rewrite(90),rewrite([5141(3),5141(8)])].
% 1.42/1.77  5147 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_unit_del(3102),unit_del(c,5142)].
% 1.42/1.77  5148 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_unit_del(3086),unit_del(c,5142)].
% 1.42/1.77  5153 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(5142,a,3121,b)].
% 1.42/1.77  5159 growth_rate(first_movers,f3(equilibrium(c1))) = zero | greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [resolve(5147,b,27,b)].
% 1.42/1.77  5160 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero | greater(zero,zero).  [resolve(5148,b,3109,b),merge(b)].
% 1.42/1.77  5171 growth_rate(first_movers,f3(equilibrium(c1))) = zero | -greater(zero,growth_rate(first_movers,f3(equilibrium(c1)))).  [resolve(5159,b,3044,a)].
% 1.42/1.77  5174 growth_rate(first_movers,f3(equilibrium(c1))) = zero.  [resolve(5171,b,5153,b),merge(b)].
% 1.42/1.77  5178 greater_or_equal(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_rewrite(5143),rewrite([5174(10)])].
% 1.42/1.77  5179 greater(growth_rate(efficient_producers,f3(equilibrium(c1))),zero).  [back_rewrite(5142),rewrite([5174(10)])].
% 1.42/1.77  5180 -greater(zero,zero).  [back_rewrite(3044),rewrite([5174(13)]),unit_del(a,5178)].
% 1.42/1.77  5181 growth_rate(efficient_producers,f3(equilibrium(c1))) = zero.  [back_unit_del(5160),unit_del(b,5180)].
% 1.42/1.77  5182 $F.  [back_rewrite(5179),rewrite([5181(5)]),unit_del(a,5180)].
% 1.42/1.77  
% 1.42/1.77  % SZS output end Refutation
% 1.42/1.77  ============================== end of proof ==========================
% 1.42/1.77  
% 1.42/1.77  ============================== STATISTICS ============================
% 1.42/1.77  
% 1.42/1.77  Given=2247. Generated=14089. Kept=5153. proofs=1.
% 1.42/1.77  Usable=32. Sos=5. Demods=4. Limbo=1, Disabled=5155. Hints=0.
% 1.42/1.77  Megabytes=5.29.
% 1.42/1.77  User_CPU=0.78, System_CPU=0.02, Wall_clock=1.
% 1.42/1.77  
% 1.42/1.77  ============================== end of statistics =====================
% 1.42/1.77  
% 1.42/1.77  ============================== end of search =========================
% 1.42/1.77  
% 1.42/1.77  THEOREM PROVED
% 1.42/1.77  % SZS status Theorem
% 1.42/1.77  
% 1.42/1.77  Exiting with 1 proof.
% 1.42/1.77  
% 1.42/1.77  Process 12163 exit (max_proofs) Thu Jun  9 11:11:09 2022
% 1.42/1.77  Prover9 interrupted
%------------------------------------------------------------------------------