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Complexity_ITS 2019-03-21 04.46 pair #429990161
details
property
value
status
complete
benchmark
spctrm.c.i.spctrm.pl.t2.fixed.koat
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n156.star.cs.uiowa.edu
space
T2
run statistics
property
value
solver
CoFloCo 2018
configuration
its
runtime (wallclock)
80.6498 seconds
cpu usage
80.5834
user time
80.3783
system time
0.205096
max virtual memory
455724.0
max residence set size
152172.0
stage attributes
key
value
starexec-result
WORST_CASE(?,O(n^1))
output
80.37/80.45 WORST_CASE(?,O(n^1)) 80.37/80.45 WARNING: Excluded non-linear constraints:[1>=A*J1,A*J1+J1>=2,1>=A*K1,A*K1+K1>=2] 80.37/80.45 WARNING: Excluded non-linear constraints:[J=I*I] 80.37/80.45 WARNING: Excluded non-linear constraints:[J=I*I] 80.37/80.45 WARNING: Excluded non-linear constraints:[V=D*D] 80.37/80.45 WARNING: Excluded non-linear constraints:[V=D*D] 80.37/80.45 WARNING: Excluded non-linear constraints:[U=D*D] 80.37/80.45 WARNING: Excluded non-linear constraints:[U=D*D] 80.37/80.45 WARNING: Excluded non-linear constraints:[W=V*V] 80.37/80.45 WARNING: Excluded non-linear constraints:[W=V*V] 80.37/80.45 WARNING: Excluded non-linear constraints:[V=D*D] 80.37/80.45 WARNING: Excluded non-linear constraints:[V=D*D] 80.37/80.45 WARNING: Excluded non-linear constraints:[U=B*D] 80.37/80.45 WARNING: Excluded non-linear constraints:[V1=F*F] 80.37/80.45 WARNING: Excluded non-linear constraints:[V1=F*F] 80.37/80.45 WARNING: Excluded non-linear constraints:[N=A+1-2*M+M*M,O=1-2*M+M*M] 80.37/80.45 WARNING: Excluded non-linear constraints:[N=A+1-2*M+M*M,O=1-2*M+M*M] 80.37/80.45 80.37/80.45 Preprocessing Cost Relations 80.37/80.45 ===================================== 80.37/80.45 80.37/80.45 #### Computed strongly connected components 80.37/80.45 0. recursive : [f13/12] 80.37/80.45 1. non_recursive : [exit_location/1] 80.37/80.45 2. recursive : [f24/6] 80.37/80.45 3. recursive : [f31/4] 80.37/80.45 4. recursive : [f44/4] 80.37/80.45 5. recursive : [f50/6] 80.37/80.45 6. recursive : [f57/6] 80.37/80.45 7. recursive : [f64/6] 80.37/80.45 8. recursive : [f40/11,f44_loop_cont/12,f50_loop_cont/12,f57_loop_cont/12,f64_loop_cont/12] 80.37/80.45 9. recursive : [f71/14] 80.37/80.45 10. recursive : [f103/20,f107/20,f91/20,f99/20] 80.37/80.45 11. recursive : [f37/37,f40_loop_cont/38,f71_loop_cont/38,f86/37,f91_loop_cont/38] 80.37/80.45 12. recursive : [f118/4] 80.37/80.45 13. non_recursive : [f1/28] 80.37/80.45 14. non_recursive : [f118_loop_cont/29] 80.37/80.45 15. non_recursive : [f37_loop_cont/29] 80.37/80.45 16. non_recursive : [f31_loop_cont/29] 80.37/80.45 17. non_recursive : [f24_loop_cont/29] 80.37/80.45 18. non_recursive : [f13_loop_cont/29] 80.37/80.45 19. non_recursive : [f2/28] 80.37/80.45 80.37/80.45 #### Obtained direct recursion through partial evaluation 80.37/80.45 0. SCC is partially evaluated into f13/12 80.37/80.45 1. SCC is completely evaluated into other SCCs 80.37/80.45 2. SCC is partially evaluated into f24/6 80.37/80.45 3. SCC is partially evaluated into f31/4 80.37/80.45 4. SCC is partially evaluated into f44/4 80.37/80.45 5. SCC is partially evaluated into f50/6 80.37/80.45 6. SCC is partially evaluated into f57/6 80.37/80.45 7. SCC is partially evaluated into f64/6 80.37/80.45 8. SCC is partially evaluated into f40/11 80.37/80.45 9. SCC is partially evaluated into f71/14 80.37/80.45 10. SCC is partially evaluated into f91/20 80.37/80.45 11. SCC is partially evaluated into f37/37 80.37/80.45 12. SCC is partially evaluated into f118/4 80.37/80.45 13. SCC is completely evaluated into other SCCs 80.37/80.45 14. SCC is partially evaluated into f118_loop_cont/29 80.37/80.45 15. SCC is partially evaluated into f37_loop_cont/29 80.37/80.45 16. SCC is partially evaluated into f31_loop_cont/29 80.37/80.45 17. SCC is partially evaluated into f24_loop_cont/29 80.37/80.45 18. SCC is partially evaluated into f13_loop_cont/29 80.37/80.45 19. SCC is partially evaluated into f2/28 80.37/80.45 80.37/80.45 Control-Flow Refinement of Cost Relations 80.37/80.45 ===================================== 80.37/80.45 80.37/80.45 ### Specialization of cost equations f13/12 80.37/80.45 * CE 5 is refined into CE [71] 80.37/80.45 * CE 6 is refined into CE [72] 80.37/80.45 * CE 3 is refined into CE [73] 80.37/80.45 * CE 4 is refined into CE [74] 80.37/80.45 * CE 2 is refined into CE [75] 80.37/80.45 80.37/80.45 80.37/80.45 ### Cost equations --> "Loop" of f13/12 80.37/80.45 * CEs [73] --> Loop 62 80.37/80.45 * CEs [74] --> Loop 63 80.37/80.45 * CEs [75] --> Loop 64 80.37/80.45 * CEs [71] --> Loop 65 80.37/80.45 * CEs [72] --> Loop 66 80.37/80.45 80.37/80.45 ### Ranking functions of CR f13(B,D,J,K,L,M,E1,F1,G1,H1,I1,J1) 80.37/80.45 * RF of phase [62,63,64]: [D-J+1] 80.37/80.45 80.37/80.45 #### Partial ranking functions of CR f13(B,D,J,K,L,M,E1,F1,G1,H1,I1,J1) 80.37/80.45 * Partial RF of phase [62,63,64]: 80.37/80.45 - RF of loop [62:1,63:1,64:1]: 80.37/80.45 D-J+1 80.37/80.45 80.37/80.45 80.37/80.45 ### Specialization of cost equations f24/6 80.37/80.45 * CE 11 is refined into CE [76] 80.37/80.45 * CE 10 is refined into CE [77] 80.37/80.45 * CE 13 is refined into CE [78] 80.37/80.45 * CE 12 is refined into CE [79] 80.37/80.45 * CE 9 is refined into CE [80] 80.37/80.45 80.37/80.45
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