Initial Problem

Start: eval_speed_popl10_fig2_2_start
Program_Vars: X₀, X₁, X₂, X₃, X₄
Temp_Vars:
Locations: eval_speed_popl10_fig2_2_bb0_in, eval_speed_popl10_fig2_2_bb1_in, eval_speed_popl10_fig2_2_bb2_in, eval_speed_popl10_fig2_2_bb3_in, eval_speed_popl10_fig2_2_start, eval_speed_popl10_fig2_2_stop
Transitions:
t₁: eval_speed_popl10_fig2_2_bb0_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb1_in(X₃, X₄, X₂, X₃, X₄)
t₂: eval_speed_popl10_fig2_2_bb1_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) :|: 1+X₀ ≤ X₂
t₃: eval_speed_popl10_fig2_2_bb1_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb3_in(X₀, X₁, X₂, X₃, X₄) :|: X₂ ≤ X₀
t₄: eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb1_in(1+X₀, X₁, X₂, X₃, X₄) :|: 1+X₀ ≤ X₁
t₅: eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb1_in(X₀, X₁, X₂, X₃, X₄) :|: 1+X₀ ≤ X₁ ∧ X₁ ≤ X₀
t₆: eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb1_in(1+X₀, 1+X₁, X₂, X₃, X₄) :|: 1+X₀ ≤ X₁ ∧ X₁ ≤ X₀
t₇: eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb1_in(X₀, 1+X₁, X₂, X₃, X₄) :|: X₁ ≤ X₀
t₈: eval_speed_popl10_fig2_2_bb3_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_stop(X₀, X₁, X₂, X₃, X₄)
t₀: eval_speed_popl10_fig2_2_start(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb0_in(X₀, X₁, X₂, X₃, X₄)

Preprocessing

Cut unsatisfiable transition [t₅: eval_speed_popl10_fig2_2_bb2_in→eval_speed_popl10_fig2_2_bb1_in; t₆: eval_speed_popl10_fig2_2_bb2_in→eval_speed_popl10_fig2_2_bb1_in]

Found invariant X₄ ≤ X₁ ∧ X₃ ≤ X₀ for location eval_speed_popl10_fig2_2_bb1_in

Found invariant X₄ ≤ X₁ ∧ X₃ ≤ X₀ ∧ X₂ ≤ X₀ for location eval_speed_popl10_fig2_2_bb3_in

Found invariant X₄ ≤ X₁ ∧ X₃ ≤ X₀ ∧ X₂ ≤ X₀ for location eval_speed_popl10_fig2_2_stop

Found invariant X₄ ≤ X₁ ∧ 1+X₃ ≤ X₂ ∧ X₃ ≤ X₀ ∧ 1+X₀ ≤ X₂ for location eval_speed_popl10_fig2_2_bb2_in

Problem after Preprocessing

Start: eval_speed_popl10_fig2_2_start
Program_Vars: X₀, X₁, X₂, X₃, X₄
Temp_Vars:
Locations: eval_speed_popl10_fig2_2_bb0_in, eval_speed_popl10_fig2_2_bb1_in, eval_speed_popl10_fig2_2_bb2_in, eval_speed_popl10_fig2_2_bb3_in, eval_speed_popl10_fig2_2_start, eval_speed_popl10_fig2_2_stop
Transitions:
t₁: eval_speed_popl10_fig2_2_bb0_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb1_in(X₃, X₄, X₂, X₃, X₄)
t₂: eval_speed_popl10_fig2_2_bb1_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) :|: 1+X₀ ≤ X₂ ∧ X₃ ≤ X₀ ∧ X₄ ≤ X₁
t₃: eval_speed_popl10_fig2_2_bb1_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb3_in(X₀, X₁, X₂, X₃, X₄) :|: X₂ ≤ X₀ ∧ X₃ ≤ X₀ ∧ X₄ ≤ X₁
t₄: eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb1_in(1+X₀, X₁, X₂, X₃, X₄) :|: 1+X₀ ≤ X₁ ∧ 1+X₀ ≤ X₂ ∧ 1+X₃ ≤ X₂ ∧ X₃ ≤ X₀ ∧ X₄ ≤ X₁
t₇: eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb1_in(X₀, 1+X₁, X₂, X₃, X₄) :|: X₁ ≤ X₀ ∧ 1+X₀ ≤ X₂ ∧ 1+X₃ ≤ X₂ ∧ X₃ ≤ X₀ ∧ X₄ ≤ X₁
t₈: eval_speed_popl10_fig2_2_bb3_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_stop(X₀, X₁, X₂, X₃, X₄) :|: X₂ ≤ X₀ ∧ X₃ ≤ X₀ ∧ X₄ ≤ X₁
t₀: eval_speed_popl10_fig2_2_start(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb0_in(X₀, X₁, X₂, X₃, X₄)

MPRF for transition t₄: eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb1_in(1+X₀, X₁, X₂, X₃, X₄) :|: 1+X₀ ≤ X₁ ∧ 1+X₀ ≤ X₂ ∧ 1+X₃ ≤ X₂ ∧ X₃ ≤ X₀ ∧ X₄ ≤ X₁ of depth 1:

new bound:

X₂+X₃ {O(n)}

• eval_speed_popl10_fig2_2_bb1_in: [X₂-X₀]
• eval_speed_popl10_fig2_2_bb2_in: [X₂-X₀]

MPRF for transition t₇: eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb1_in(X₀, 1+X₁, X₂, X₃, X₄) :|: X₁ ≤ X₀ ∧ 1+X₀ ≤ X₂ ∧ 1+X₃ ≤ X₂ ∧ X₃ ≤ X₀ ∧ X₄ ≤ X₁ of depth 1:

new bound:

X₂+X₄ {O(n)}

• eval_speed_popl10_fig2_2_bb1_in: [X₂-X₁]
• eval_speed_popl10_fig2_2_bb2_in: [X₂-X₁]

knowledge_propagation leads to new time bound 2⋅X₂+X₃+X₄+1 {O(n)} for transition t₂: eval_speed_popl10_fig2_2_bb1_in(X₀, X₁, X₂, X₃, X₄) → eval_speed_popl10_fig2_2_bb2_in(X₀, X₁, X₂, X₃, X₄) :|: 1+X₀ ≤ X₂ ∧ X₃ ≤ X₀ ∧ X₄ ≤ X₁

All Bounds

Timebounds

Overall timebound:2⋅X₃+2⋅X₄+4⋅X₂+5 {O(n)}
t₀: 1 {O(1)}
t₁: 1 {O(1)}
t₂: 2⋅X₂+X₃+X₄+1 {O(n)}
t₃: 1 {O(1)}
t₄: X₂+X₃ {O(n)}
t₇: X₂+X₄ {O(n)}
t₈: 1 {O(1)}

Costbounds

Overall costbound: 2⋅X₃+2⋅X₄+4⋅X₂+5 {O(n)}
t₀: 1 {O(1)}
t₁: 1 {O(1)}
t₂: 2⋅X₂+X₃+X₄+1 {O(n)}
t₃: 1 {O(1)}
t₄: X₂+X₃ {O(n)}
t₇: X₂+X₄ {O(n)}
t₈: 1 {O(1)}

Sizebounds

t₀, X₀: X₀ {O(n)}
t₀, X₁: X₁ {O(n)}
t₀, X₂: X₂ {O(n)}
t₀, X₃: X₃ {O(n)}
t₀, X₄: X₄ {O(n)}
t₁, X₀: X₃ {O(n)}
t₁, X₁: X₄ {O(n)}
t₁, X₂: X₂ {O(n)}
t₁, X₃: X₃ {O(n)}
t₁, X₄: X₄ {O(n)}
t₂, X₀: 2⋅X₃+X₂ {O(n)}
t₂, X₁: 2⋅X₄+X₂ {O(n)}
t₂, X₂: X₂ {O(n)}
t₂, X₃: X₃ {O(n)}
t₂, X₄: X₄ {O(n)}
t₃, X₀: 3⋅X₃+X₂ {O(n)}
t₃, X₁: 3⋅X₄+X₂ {O(n)}
t₃, X₂: 2⋅X₂ {O(n)}
t₃, X₃: 2⋅X₃ {O(n)}
t₃, X₄: 2⋅X₄ {O(n)}
t₄, X₀: 2⋅X₃+X₂ {O(n)}
t₄, X₁: 2⋅X₄+X₂ {O(n)}
t₄, X₂: X₂ {O(n)}
t₄, X₃: X₃ {O(n)}
t₄, X₄: X₄ {O(n)}
t₇, X₀: 2⋅X₃+X₂ {O(n)}
t₇, X₁: 2⋅X₄+X₂ {O(n)}
t₇, X₂: X₂ {O(n)}
t₇, X₃: X₃ {O(n)}
t₇, X₄: X₄ {O(n)}
t₈, X₀: 3⋅X₃+X₂ {O(n)}
t₈, X₁: 3⋅X₄+X₂ {O(n)}
t₈, X₂: 2⋅X₂ {O(n)}
t₈, X₃: 2⋅X₃ {O(n)}
t₈, X₄: 2⋅X₄ {O(n)}