0.57/0.56	WORST_CASE(?,O(n^1))  
0.57/0.56	
0.57/0.56	Preprocessing Cost Relations
0.57/0.56	=====================================
0.57/0.56	
0.57/0.56	#### Computed strongly connected components 
0.57/0.56	0. recursive  : [eval_Configure_11/4,eval_Configure_12/5,eval_Configure_bb7_in/4,eval_Configure_bb8_in/4,eval_Configure_bb9_in/5]
0.57/0.56	1. recursive  : [eval_Configure__critedge_in/8,eval_Configure_bb10_in/8]
0.57/0.56	2. recursive  : [eval_Configure_3/3,eval_Configure_4/4,eval_Configure_7/4,eval_Configure_8/5,eval_Configure__critedge_in_loop_cont/4,eval_Configure_bb2_in/3,eval_Configure_bb3_in/3,eval_Configure_bb4_in/4,eval_Configure_bb5_in/4,eval_Configure_bb6_in/5,eval_Configure_bb7_in_loop_cont/9]
0.57/0.56	3. non_recursive  : [eval_Configure_stop/1]
0.57/0.56	4. non_recursive  : [eval_Configure_bb11_in/1]
0.57/0.56	5. non_recursive  : [eval_Configure_bb2_in_loop_cont/2]
0.57/0.56	6. non_recursive  : [eval_Configure_1/3]
0.57/0.56	7. non_recursive  : [eval_Configure_0/2]
0.57/0.56	8. non_recursive  : [eval_Configure_bb1_in/2]
0.57/0.56	9. non_recursive  : [eval_Configure_bb0_in/2]
0.57/0.56	10. non_recursive  : [eval_Configure_start/2]
0.57/0.56	
0.57/0.56	#### Obtained direct recursion through partial evaluation 
0.57/0.56	0. SCC is partially evaluated into eval_Configure_bb7_in/4
0.57/0.56	1. SCC is partially evaluated into eval_Configure__critedge_in/8
0.57/0.56	2. SCC is partially evaluated into eval_Configure_bb2_in/3
0.57/0.56	3. SCC is completely evaluated into other SCCs
0.57/0.56	4. SCC is completely evaluated into other SCCs
0.57/0.56	5. SCC is completely evaluated into other SCCs
0.57/0.56	6. SCC is partially evaluated into eval_Configure_1/3
0.57/0.56	7. SCC is completely evaluated into other SCCs
0.57/0.56	8. SCC is completely evaluated into other SCCs
0.57/0.56	9. SCC is partially evaluated into eval_Configure_bb0_in/2
0.57/0.56	10. SCC is partially evaluated into eval_Configure_start/2
0.57/0.56	
0.57/0.56	Control-Flow Refinement of Cost Relations
0.57/0.56	=====================================
0.57/0.56	
0.57/0.56	### Specialization of cost equations eval_Configure_bb7_in/4 
0.57/0.56	* CE 12 is refined into CE [17] 
0.57/0.56	* CE 14 is refined into CE [18] 
0.57/0.56	* CE 13 is refined into CE [19] 
0.57/0.56	
0.57/0.56	
0.57/0.56	### Cost equations --> "Loop" of eval_Configure_bb7_in/4 
0.57/0.56	* CEs [19] --> Loop 16 
0.57/0.56	* CEs [17] --> Loop 17 
0.57/0.56	* CEs [18] --> Loop 18 
0.57/0.56	
0.57/0.56	### Ranking functions of CR eval_Configure_bb7_in(V_ac,V_NumberParams_0,B,C) 
0.57/0.56	* RF of phase [16]: [V_ac-V_NumberParams_0]
0.57/0.56	
0.57/0.56	#### Partial ranking functions of CR eval_Configure_bb7_in(V_ac,V_NumberParams_0,B,C) 
0.57/0.56	* Partial RF of phase [16]:
0.57/0.56	  - RF of loop [16:1]:
0.57/0.56	    V_ac-V_NumberParams_0
0.57/0.56	
0.57/0.56	
0.57/0.56	### Specialization of cost equations eval_Configure__critedge_in/8 
0.57/0.56	* CE 16 is refined into CE [20] 
0.57/0.56	* CE 15 is refined into CE [21] 
0.57/0.56	
0.57/0.56	
0.57/0.56	### Cost equations --> "Loop" of eval_Configure__critedge_in/8 
0.57/0.56	* CEs [21] --> Loop 19 
0.57/0.56	* CEs [20] --> Loop 20 
0.57/0.56	
0.57/0.56	### Ranking functions of CR eval_Configure__critedge_in(V_CLcount_2,V_4,V_7,V_9,V_NumberParams_0,V_CLcount_3,B,C) 
0.57/0.56	* RF of phase [19]: [V_NumberParams_0-V_CLcount_3]
0.57/0.56	
0.57/0.56	#### Partial ranking functions of CR eval_Configure__critedge_in(V_CLcount_2,V_4,V_7,V_9,V_NumberParams_0,V_CLcount_3,B,C) 
0.57/0.56	* Partial RF of phase [19]:
0.57/0.56	  - RF of loop [19:1]:
0.57/0.56	    V_NumberParams_0-V_CLcount_3
0.57/0.56	
0.57/0.56	
0.57/0.56	### Specialization of cost equations eval_Configure_bb2_in/3 
0.57/0.56	* CE 7 is refined into CE [22] 
0.57/0.56	* CE 11 is refined into CE [23] 
0.57/0.56	* CE 8 is refined into CE [24,25,26,27] 
0.57/0.56	* CE 9 is refined into CE [28,29,30,31] 
0.57/0.56	* CE 10 is refined into CE [32] 
0.57/0.56	
0.57/0.56	
0.57/0.56	### Cost equations --> "Loop" of eval_Configure_bb2_in/3 
0.57/0.56	* CEs [27,31] --> Loop 21 
0.57/0.56	* CEs [26,30] --> Loop 22 
0.57/0.56	* CEs [32] --> Loop 23 
0.57/0.56	* CEs [25,29] --> Loop 24 
0.57/0.56	* CEs [24,28] --> Loop 25 
0.57/0.56	* CEs [22] --> Loop 26 
0.57/0.56	* CEs [23] --> Loop 27 
0.57/0.56	
0.57/0.56	### Ranking functions of CR eval_Configure_bb2_in(V_ac,V_CLcount_2,B) 
0.57/0.56	* RF of phase [21,22,23]: [V_ac-V_CLcount_2]
0.57/0.56	
0.57/0.56	#### Partial ranking functions of CR eval_Configure_bb2_in(V_ac,V_CLcount_2,B) 
0.57/0.56	* Partial RF of phase [21,22,23]:
0.57/0.56	  - RF of loop [21:1]:
0.57/0.56	    V_ac/2-V_CLcount_2/2-1
0.57/0.56	  - RF of loop [22:1]:
0.57/0.56	    V_ac-V_CLcount_2-1
0.57/0.56	  - RF of loop [23:1]:
0.57/0.56	    V_ac/2-V_CLcount_2/2
0.57/0.56	
0.57/0.56	
0.57/0.56	### Specialization of cost equations eval_Configure_1/3 
0.57/0.56	* CE 5 is refined into CE [33,34,35,36,37] 
0.57/0.56	* CE 4 is refined into CE [38,39,40,41,42] 
0.57/0.56	* CE 6 is refined into CE [43,44,45] 
0.57/0.56	
0.57/0.56	
0.57/0.56	### Cost equations --> "Loop" of eval_Configure_1/3 
0.57/0.56	* CEs [37] --> Loop 28 
0.57/0.56	* CEs [36] --> Loop 29 
0.57/0.56	* CEs [35] --> Loop 30 
0.57/0.56	* CEs [42] --> Loop 31 
0.57/0.56	* CEs [41] --> Loop 32 
0.57/0.56	* CEs [40] --> Loop 33 
0.57/0.56	* CEs [45] --> Loop 34 
0.57/0.56	* CEs [43,44] --> Loop 35 
0.57/0.56	* CEs [33] --> Loop 36 
0.57/0.56	* CEs [38] --> Loop 37 
0.57/0.56	* CEs [34] --> Loop 38 
0.57/0.56	* CEs [39] --> Loop 39 
0.57/0.56	
0.57/0.56	### Ranking functions of CR eval_Configure_1(V_ac,V_1,B) 
0.57/0.56	
0.57/0.56	#### Partial ranking functions of CR eval_Configure_1(V_ac,V_1,B) 
0.57/0.56	
0.57/0.56	
0.57/0.56	### Specialization of cost equations eval_Configure_bb0_in/2 
0.57/0.56	* CE 2 is refined into CE [46,47,48,49,50,51,52,53,54,55,56,57] 
0.57/0.56	* CE 3 is refined into CE [58,59,60] 
0.57/0.56	
0.57/0.56	
0.57/0.56	### Cost equations --> "Loop" of eval_Configure_bb0_in/2 
0.57/0.56	* CEs [54,57] --> Loop 40 
0.57/0.56	* CEs [53,56] --> Loop 41 
0.57/0.56	* CEs [51,52,55] --> Loop 42 
0.57/0.56	* CEs [50] --> Loop 43 
0.57/0.56	* CEs [59] --> Loop 44 
0.57/0.56	* CEs [48,49] --> Loop 45 
0.57/0.56	* CEs [46,47] --> Loop 46 
0.57/0.56	* CEs [58,60] --> Loop 47 
0.57/0.56	
0.57/0.56	### Ranking functions of CR eval_Configure_bb0_in(V_ac,B) 
0.57/0.56	
0.57/0.56	#### Partial ranking functions of CR eval_Configure_bb0_in(V_ac,B) 
0.57/0.56	
0.57/0.56	
0.57/0.56	### Specialization of cost equations eval_Configure_start/2 
0.57/0.56	* CE 1 is refined into CE [61,62,63,64,65,66,67,68] 
0.57/0.56	
0.57/0.56	
0.57/0.56	### Cost equations --> "Loop" of eval_Configure_start/2 
0.57/0.56	* CEs [68] --> Loop 48 
0.57/0.56	* CEs [67] --> Loop 49 
0.57/0.56	* CEs [66] --> Loop 50 
0.57/0.56	* CEs [65] --> Loop 51 
0.57/0.56	* CEs [64] --> Loop 52 
0.57/0.56	* CEs [63] --> Loop 53 
0.57/0.56	* CEs [62] --> Loop 54 
0.57/0.56	* CEs [61] --> Loop 55 
0.57/0.56	
0.57/0.56	### Ranking functions of CR eval_Configure_start(V_ac,B) 
0.57/0.56	
0.57/0.56	#### Partial ranking functions of CR eval_Configure_start(V_ac,B) 
0.57/0.56	
0.57/0.56	
0.57/0.56	Computing Bounds
0.57/0.56	=====================================
0.57/0.56	
0.57/0.56	#### Cost of chains of eval_Configure_bb7_in(V_ac,V_NumberParams_0,B,C):
0.57/0.56	* Chain [[16],18]: 1*it(16)+0
0.57/0.56	  Such that:it(16) =< V_ac-V_NumberParams_0
0.57/0.56	
0.57/0.56	  with precondition: [B=3,V_ac=C,V_ac>=V_NumberParams_0+1] 
0.57/0.56	
0.57/0.56	* Chain [[16],17]: 1*it(16)+0
0.57/0.56	  Such that:it(16) =< -V_NumberParams_0+C
0.57/0.56	
0.57/0.56	  with precondition: [B=3,C>=V_NumberParams_0+1,V_ac>=C+1] 
0.57/0.56	
0.57/0.56	* Chain [18]: 0
0.57/0.56	  with precondition: [B=3,V_NumberParams_0=V_ac,V_NumberParams_0=C] 
0.57/0.56	
0.57/0.56	* Chain [17]: 0
0.57/0.56	  with precondition: [B=3,V_NumberParams_0=C,V_ac>=V_NumberParams_0+1] 
0.57/0.56	
0.57/0.56	
0.57/0.56	#### Cost of chains of eval_Configure__critedge_in(V_CLcount_2,V_4,V_7,V_9,V_NumberParams_0,V_CLcount_3,B,C):
0.57/0.56	* Chain [[19],20]: 1*it(19)+0
0.57/0.56	  Such that:it(19) =< V_NumberParams_0-V_CLcount_3
0.57/0.56	
0.57/0.56	  with precondition: [V_4=0,B=2,V_CLcount_2+1=V_9,V_NumberParams_0=C,V_CLcount_3>=V_CLcount_2+1,V_NumberParams_0>=V_CLcount_3+1] 
0.57/0.56	
0.57/0.56	* Chain [20]: 0
0.57/0.56	  with precondition: [V_4=0,B=2,V_9=V_CLcount_2+1,V_CLcount_3=C,V_CLcount_3>=V_9,V_CLcount_3>=V_NumberParams_0] 
0.57/0.56	
0.57/0.56	
0.57/0.56	#### Cost of chains of eval_Configure_bb2_in(V_ac,V_CLcount_2,B):
0.57/0.56	* Chain [[21,22,23],27]: 2*it(21)+1*it(22)+4*s(7)+0
0.57/0.56	  Such that:aux(4) =< V_ac-V_CLcount_2
0.57/0.56	aux(5) =< V_ac-V_CLcount_2+1
0.57/0.56	aux(6) =< V_ac/2-V_CLcount_2/2
0.57/0.56	aux(7) =< V_ac/2-V_CLcount_2/2+1/2
0.57/0.56	it(21) =< aux(4)
0.57/0.56	it(22) =< aux(4)
0.57/0.56	s(8) =< aux(4)
0.57/0.56	it(21) =< aux(5)
0.57/0.56	it(22) =< aux(5)
0.57/0.56	s(8) =< aux(5)
0.57/0.56	it(21) =< aux(6)
0.57/0.56	it(21) =< aux(7)
0.57/0.56	s(7) =< s(8)
0.57/0.56	
0.57/0.56	  with precondition: [B=4,V_CLcount_2>=1,V_ac>=V_CLcount_2+1] 
0.57/0.56	
0.57/0.56	* Chain [[21,22,23],26]: 2*it(21)+5*it(22)+0
0.57/0.56	  Such that:aux(8) =< V_ac-V_CLcount_2
0.57/0.56	aux(9) =< V_ac/2-V_CLcount_2/2
0.57/0.56	it(21) =< aux(8)
0.57/0.56	it(22) =< aux(8)
0.57/0.56	it(21) =< aux(9)
0.57/0.56	
0.57/0.56	  with precondition: [B=4,V_CLcount_2>=1,V_ac>=V_CLcount_2+2] 
0.57/0.56	
0.57/0.56	* Chain [[21,22,23],25,27]: 2*it(21)+5*it(22)+1
0.57/0.56	  Such that:aux(10) =< V_ac-V_CLcount_2
0.57/0.56	aux(11) =< V_ac/2-V_CLcount_2/2
0.57/0.56	it(21) =< aux(10)
0.57/0.56	it(22) =< aux(10)
0.57/0.56	it(21) =< aux(11)
0.57/0.56	
0.57/0.56	  with precondition: [B=4,V_CLcount_2>=1,V_ac>=V_CLcount_2+2] 
0.57/0.56	
0.57/0.56	* Chain [[21,22,23],24,27]: 2*it(21)+9*it(22)+1
0.57/0.56	  Such that:aux(15) =< V_ac-V_CLcount_2
0.57/0.56	aux(16) =< V_ac/2-V_CLcount_2/2
0.57/0.56	aux(7) =< aux(15)
0.57/0.56	aux(7) =< aux(16)
0.57/0.56	it(22) =< aux(15)
0.57/0.56	it(21) =< aux(15)
0.57/0.56	it(21) =< aux(16)
0.57/0.56	it(21) =< aux(7)
0.57/0.56	
0.57/0.56	  with precondition: [B=4,V_CLcount_2>=1,V_ac>=V_CLcount_2+3] 
0.57/0.56	
0.57/0.56	* Chain [27]: 0
0.57/0.56	  with precondition: [B=4,V_CLcount_2>=1,V_CLcount_2>=V_ac] 
0.57/0.56	
0.57/0.56	* Chain [26]: 0
0.57/0.56	  with precondition: [B=4,V_CLcount_2>=1,V_ac>=V_CLcount_2+1] 
0.57/0.56	
0.57/0.56	* Chain [25,27]: 1
0.57/0.56	  with precondition: [B=4,V_CLcount_2+1=V_ac,V_CLcount_2>=1] 
0.57/0.56	
0.57/0.56	* Chain [24,27]: 4*s(9)+1
0.57/0.56	  Such that:aux(14) =< V_ac-V_CLcount_2
0.57/0.56	s(9) =< aux(14)
0.57/0.56	
0.57/0.56	  with precondition: [B=4,V_CLcount_2>=1,V_ac>=V_CLcount_2+2] 
0.57/0.56	
0.57/0.56	
0.57/0.56	#### Cost of chains of eval_Configure_1(V_ac,V_1,B):
0.57/0.56	* Chain [39]: 0
0.57/0.56	  with precondition: [V_ac=3,0>=V_1+1] 
0.57/0.56	
0.57/0.56	* Chain [38]: 0
0.57/0.56	  with precondition: [V_ac=3,V_1>=1] 
0.57/0.56	
0.57/0.56	* Chain [37]: 1
0.57/0.56	  with precondition: [V_ac=4,0>=V_1+1] 
0.57/0.56	
0.57/0.56	* Chain [36]: 1
0.57/0.56	  with precondition: [V_ac=4,V_1>=1] 
0.57/0.56	
0.57/0.56	* Chain [35]: 6*s(35)+19*s(36)+1
0.57/0.56	  Such that:aux(21) =< V_ac
0.57/0.56	aux(22) =< V_ac/2
0.57/0.56	s(35) =< aux(21)
0.57/0.56	s(36) =< aux(21)
0.57/0.56	s(35) =< aux(22)
0.57/0.56	
0.57/0.56	  with precondition: [V_1=0,V_ac>=3] 
0.57/0.56	
0.57/0.56	* Chain [34]: 9*s(46)+2*s(47)+1
0.57/0.56	  Such that:s(43) =< V_ac
0.57/0.56	s(44) =< V_ac/2
0.57/0.56	s(45) =< s(43)
0.57/0.56	s(45) =< s(44)
0.57/0.56	s(46) =< s(43)
0.57/0.56	s(47) =< s(43)
0.57/0.56	s(47) =< s(44)
0.57/0.56	s(47) =< s(45)
0.57/0.56	
0.57/0.56	  with precondition: [V_1=0,V_ac>=4] 
0.57/0.56	
0.57/0.56	* Chain [33]: 2*s(52)+5*s(53)+0
0.57/0.56	  Such that:aux(23) =< V_ac
0.57/0.56	aux(24) =< V_ac/2
0.57/0.56	s(52) =< aux(23)
0.57/0.56	s(53) =< aux(23)
0.57/0.56	s(52) =< aux(24)
0.57/0.56	
0.57/0.56	  with precondition: [0>=V_1+1,V_ac>=4] 
0.57/0.56	
0.57/0.56	* Chain [32]: 14*s(58)+4*s(59)+1
0.57/0.56	  Such that:s(56) =< V_ac
0.57/0.56	s(57) =< V_ac/2
0.57/0.56	s(58) =< s(56)
0.57/0.56	s(59) =< s(56)
0.57/0.56	s(59) =< s(57)
0.57/0.56	
0.57/0.56	  with precondition: [0>=V_1+1,V_ac>=5] 
0.57/0.56	
0.57/0.56	* Chain [31]: 9*s(63)+2*s(64)+1
0.57/0.56	  Such that:s(60) =< V_ac
0.57/0.56	s(61) =< V_ac/2
0.57/0.56	s(62) =< s(60)
0.57/0.56	s(62) =< s(61)
0.57/0.56	s(63) =< s(60)
0.57/0.56	s(64) =< s(60)
0.57/0.56	s(64) =< s(61)
0.57/0.56	s(64) =< s(62)
0.57/0.56	
0.57/0.56	  with precondition: [0>=V_1+1,V_ac>=6] 
0.57/0.56	
0.57/0.56	* Chain [30]: 2*s(69)+5*s(70)+0
0.57/0.56	  Such that:aux(25) =< V_ac
0.57/0.56	aux(26) =< V_ac/2
0.57/0.56	s(69) =< aux(25)
0.57/0.56	s(70) =< aux(25)
0.57/0.56	s(69) =< aux(26)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=4,V_1>=1] 
0.57/0.56	
0.57/0.56	* Chain [29]: 14*s(75)+4*s(76)+1
0.57/0.56	  Such that:s(73) =< V_ac
0.57/0.56	s(74) =< V_ac/2
0.57/0.56	s(75) =< s(73)
0.57/0.56	s(76) =< s(73)
0.57/0.56	s(76) =< s(74)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=5,V_1>=1] 
0.57/0.56	
0.57/0.56	* Chain [28]: 9*s(80)+2*s(81)+1
0.57/0.56	  Such that:s(77) =< V_ac
0.57/0.56	s(78) =< V_ac/2
0.57/0.56	s(79) =< s(77)
0.57/0.56	s(79) =< s(78)
0.57/0.56	s(80) =< s(77)
0.57/0.56	s(81) =< s(77)
0.57/0.56	s(81) =< s(78)
0.57/0.56	s(81) =< s(79)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=6,V_1>=1] 
0.57/0.56	
0.57/0.56	
0.57/0.56	#### Cost of chains of eval_Configure_bb0_in(V_ac,B):
0.57/0.56	* Chain [47]: 8
0.57/0.56	  with precondition: [V_ac=2] 
0.57/0.56	
0.57/0.56	* Chain [46]: 0
0.57/0.56	  with precondition: [V_ac=3] 
0.57/0.56	
0.57/0.56	* Chain [45]: 1
0.57/0.56	  with precondition: [V_ac=4] 
0.57/0.56	
0.57/0.56	* Chain [44]: 0
0.57/0.56	  with precondition: [1>=V_ac] 
0.57/0.56	
0.57/0.56	* Chain [43]: 6*s(92)+19*s(93)+1
0.57/0.56	  Such that:s(90) =< V_ac
0.57/0.56	s(91) =< V_ac/2
0.57/0.56	s(92) =< s(90)
0.57/0.56	s(93) =< s(90)
0.57/0.56	s(92) =< s(91)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=3] 
0.57/0.56	
0.57/0.56	* Chain [42]: 19*s(97)+2*s(98)+4*s(101)+1
0.57/0.56	  Such that:aux(28) =< V_ac
0.57/0.56	aux(29) =< V_ac/2
0.57/0.56	s(96) =< aux(28)
0.57/0.56	s(96) =< aux(29)
0.57/0.56	s(97) =< aux(28)
0.57/0.56	s(98) =< aux(28)
0.57/0.56	s(98) =< aux(29)
0.57/0.56	s(98) =< s(96)
0.57/0.56	s(101) =< aux(28)
0.57/0.56	s(101) =< aux(29)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=4] 
0.57/0.56	
0.57/0.56	* Chain [41]: 28*s(109)+8*s(110)+1
0.57/0.56	  Such that:aux(30) =< V_ac
0.57/0.56	aux(31) =< V_ac/2
0.57/0.56	s(109) =< aux(30)
0.57/0.56	s(110) =< aux(30)
0.57/0.56	s(110) =< aux(31)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=5] 
0.57/0.56	
0.57/0.56	* Chain [40]: 18*s(118)+4*s(119)+1
0.57/0.56	  Such that:aux(32) =< V_ac
0.57/0.56	aux(33) =< V_ac/2
0.57/0.56	s(117) =< aux(32)
0.57/0.56	s(117) =< aux(33)
0.57/0.56	s(118) =< aux(32)
0.57/0.56	s(119) =< aux(32)
0.57/0.56	s(119) =< aux(33)
0.57/0.56	s(119) =< s(117)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=6] 
0.57/0.56	
0.57/0.56	
0.57/0.56	#### Cost of chains of eval_Configure_start(V_ac,B):
0.57/0.56	* Chain [55]: 8
0.57/0.56	  with precondition: [V_ac=2] 
0.57/0.56	
0.57/0.56	* Chain [54]: 0
0.57/0.56	  with precondition: [V_ac=3] 
0.57/0.56	
0.57/0.56	* Chain [53]: 1
0.57/0.56	  with precondition: [V_ac=4] 
0.57/0.56	
0.57/0.56	* Chain [52]: 0
0.57/0.56	  with precondition: [1>=V_ac] 
0.57/0.56	
0.57/0.56	* Chain [51]: 6*s(127)+19*s(128)+1
0.57/0.56	  Such that:s(125) =< V_ac
0.57/0.56	s(126) =< V_ac/2
0.57/0.56	s(127) =< s(125)
0.57/0.56	s(128) =< s(125)
0.57/0.56	s(127) =< s(126)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=3] 
0.57/0.56	
0.57/0.56	* Chain [50]: 19*s(132)+2*s(133)+4*s(134)+1
0.57/0.56	  Such that:s(129) =< V_ac
0.57/0.56	s(130) =< V_ac/2
0.57/0.56	s(131) =< s(129)
0.57/0.56	s(131) =< s(130)
0.57/0.56	s(132) =< s(129)
0.57/0.56	s(133) =< s(129)
0.57/0.56	s(133) =< s(130)
0.57/0.56	s(133) =< s(131)
0.57/0.56	s(134) =< s(129)
0.57/0.56	s(134) =< s(130)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=4] 
0.57/0.56	
0.57/0.56	* Chain [49]: 28*s(137)+8*s(138)+1
0.57/0.56	  Such that:s(135) =< V_ac
0.57/0.56	s(136) =< V_ac/2
0.57/0.56	s(137) =< s(135)
0.57/0.56	s(138) =< s(135)
0.57/0.56	s(138) =< s(136)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=5] 
0.57/0.56	
0.57/0.56	* Chain [48]: 18*s(142)+4*s(143)+1
0.57/0.56	  Such that:s(139) =< V_ac
0.57/0.56	s(140) =< V_ac/2
0.57/0.56	s(141) =< s(139)
0.57/0.56	s(141) =< s(140)
0.57/0.56	s(142) =< s(139)
0.57/0.56	s(143) =< s(139)
0.57/0.56	s(143) =< s(140)
0.57/0.56	s(143) =< s(141)
0.57/0.56	
0.57/0.56	  with precondition: [V_ac>=6] 
0.57/0.56	
0.57/0.56	
0.57/0.56	Closed-form bounds of eval_Configure_start(V_ac,B): 
0.57/0.56	-------------------------------------
0.57/0.56	* Chain [55] with precondition: [V_ac=2] 
0.57/0.56	    - Upper bound: 8 
0.57/0.56	    - Complexity: constant 
0.57/0.56	* Chain [54] with precondition: [V_ac=3] 
0.57/0.56	    - Upper bound: 0 
0.57/0.56	    - Complexity: constant 
0.57/0.56	* Chain [53] with precondition: [V_ac=4] 
0.57/0.56	    - Upper bound: 1 
0.57/0.56	    - Complexity: constant 
0.57/0.56	* Chain [52] with precondition: [1>=V_ac] 
0.57/0.56	    - Upper bound: 0 
0.57/0.56	    - Complexity: constant 
0.57/0.56	* Chain [51] with precondition: [V_ac>=3] 
0.57/0.56	    - Upper bound: 25*V_ac+1 
0.57/0.56	    - Complexity: n 
0.57/0.56	* Chain [50] with precondition: [V_ac>=4] 
0.57/0.56	    - Upper bound: 25*V_ac+1 
0.57/0.56	    - Complexity: n 
0.57/0.56	* Chain [49] with precondition: [V_ac>=5] 
0.57/0.56	    - Upper bound: 36*V_ac+1 
0.57/0.56	    - Complexity: n 
0.57/0.56	* Chain [48] with precondition: [V_ac>=6] 
0.57/0.56	    - Upper bound: 22*V_ac+1 
0.57/0.56	    - Complexity: n 
0.57/0.56	
0.57/0.56	### Maximum cost of eval_Configure_start(V_ac,B): max([8,nat(V_ac)*36+1]) 
0.57/0.56	Asymptotic class: n 
0.57/0.56	* Total analysis performed in 450 ms.
0.57/0.56	
0.58/0.66	EOF