0.004 * [progress]: [Phase 1 of 3] Setting up. 0.005 * * * [progress]: [1/2] Preparing points 0.008 * * * * [points]: Sampling 256 additional inputs, on iter 0 have 0 / 256 0.013 * * * * [points]: Computing exacts on every 16 of 256 points to ramp up precision 0.102 * * * * [points]: Setting MPFR precision to 64 0.107 * * * * [points]: Setting MPFR precision to 320 0.111 * * * * [points]: Computing exacts on every 8 of 256 points to ramp up precision 0.113 * * * * [points]: Setting MPFR precision to 64 0.116 * * * * [points]: Setting MPFR precision to 320 0.119 * * * * [points]: Computing exacts on every 4 of 256 points to ramp up precision 0.120 * * * * [points]: Setting MPFR precision to 64 0.125 * * * * [points]: Setting MPFR precision to 320 0.130 * * * * [points]: Computing exacts on every 2 of 256 points to ramp up precision 0.132 * * * * [points]: Setting MPFR precision to 64 0.140 * * * * [points]: Setting MPFR precision to 320 0.149 * * * * [points]: Computing exacts for 256 points 0.150 * * * * [points]: Setting MPFR precision to 64 0.200 * * * * [points]: Setting MPFR precision to 320 0.252 * * * * [points]: Filtering points with unrepresentable outputs 0.253 * * * * [points]: Sampling 112 additional inputs, on iter 1 have 144 / 256 0.255 * * * * [points]: Computing exacts on every 7 of 112 points to ramp up precision 0.258 * * * * [points]: Setting MPFR precision to 64 0.261 * * * * [points]: Setting MPFR precision to 320 0.264 * * * * [points]: Computing exacts on every 3 of 112 points to ramp up precision 0.267 * * * * [points]: Setting MPFR precision to 64 0.333 * * * * [points]: Setting MPFR precision to 320 0.344 * * * * [points]: Computing exacts for 112 points 0.347 * * * * [points]: Setting MPFR precision to 64 0.364 * * * * [points]: Setting MPFR precision to 320 0.386 * * * * [points]: Filtering points with unrepresentable outputs 0.386 * * * * [points]: Sampling 50 additional inputs, on iter 2 have 206 / 256 0.387 * * * * [points]: Computing exacts on every 3 of 50 points to ramp up precision 0.390 * * * * [points]: Setting MPFR precision to 64 0.392 * * * * [points]: Setting MPFR precision to 320 0.394 * * * * [points]: Computing exacts for 50 points 0.397 * * * * [points]: Setting MPFR precision to 64 0.406 * * * * [points]: Setting MPFR precision to 320 0.415 * * * * [points]: Filtering points with unrepresentable outputs 0.415 * * * * [points]: Sampling 21 additional inputs, on iter 3 have 235 / 256 0.416 * * * * [points]: Computing exacts for 21 points 0.418 * * * * [points]: Setting MPFR precision to 64 0.422 * * * * [points]: Setting MPFR precision to 320 0.426 * * * * [points]: Filtering points with unrepresentable outputs 0.426 * * * * [points]: Sampling 8 additional inputs, on iter 4 have 248 / 256 0.426 * * * * [points]: Computing exacts for 8 points 0.429 * * * * [points]: Setting MPFR precision to 64 0.430 * * * * [points]: Setting MPFR precision to 320 0.432 * * * * [points]: Filtering points with unrepresentable outputs 0.432 * * * * [points]: Sampling 4 additional inputs, on iter 5 have 252 / 256 0.432 * * * * [points]: Computing exacts for 4 points 0.435 * * * * [points]: Setting MPFR precision to 64 0.436 * * * * [points]: Setting MPFR precision to 320 0.436 * * * * [points]: Filtering points with unrepresentable outputs 0.436 * * * * [points]: Sampling 4 additional inputs, on iter 6 have 255 / 256 0.437 * * * * [points]: Computing exacts for 4 points 0.439 * * * * [points]: Setting MPFR precision to 64 0.440 * * * * [points]: Setting MPFR precision to 320 0.441 * * * * [points]: Filtering points with unrepresentable outputs 0.441 * * * * [points]: Sampled 258 points with exact outputs 0.442 * * * [progress]: [2/2] Setting up program. 0.448 * [progress]: [Phase 2 of 3] Improving. 0.449 * * * * [progress]: [ 1 / 1 ] simplifiying candidate # 0.450 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))) 0.452 * * [simplify]: iters left: 6 (12 enodes) 0.464 * * [simplify]: iters left: 5 (26 enodes) 0.472 * * [simplify]: iters left: 4 (30 enodes) 0.482 * * [simplify]: Extracting #0: cost 1 inf + 0 0.482 * * [simplify]: Extracting #1: cost 3 inf + 0 0.482 * * [simplify]: Extracting #2: cost 5 inf + 0 0.482 * * [simplify]: Extracting #3: cost 9 inf + 0 0.483 * * [simplify]: Extracting #4: cost 8 inf + 4 0.483 * * [simplify]: Extracting #5: cost 12 inf + 4 0.483 * * [simplify]: Extracting #6: cost 11 inf + 47 0.483 * * [simplify]: Extracting #7: cost 4 inf + 478 0.483 * * [simplify]: Extracting #8: cost 1 inf + 2268 0.484 * * [simplify]: Extracting #9: cost 0 inf + 3012 0.485 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))) 0.485 * [simplify]: Simplified (2) to (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))) 0.493 * * [progress]: iteration 1 / 4 0.494 * * * [progress]: picking best candidate 0.498 * * * * [pick]: Picked # 0.499 * * * [progress]: localizing error 0.629 * * * [progress]: generating rewritten candidates 0.629 * * * * [progress]: [ 1 / 4 ] rewriting at (2 1 1) 0.632 * * * * [progress]: [ 2 / 4 ] rewriting at (2 1 1 1) 0.632 * * * * [progress]: [ 3 / 4 ] rewriting at (2 1 1 2) 0.632 * * * * [progress]: [ 4 / 4 ] rewriting at (2 1) 0.636 * * * [progress]: generating series expansions 0.637 * * * * [progress]: [ 1 / 4 ] generating series at (2 1 1) 0.637 * * * * [progress]: [ 2 / 4 ] generating series at (2 1 1 1) 0.637 * * * * [progress]: [ 3 / 4 ] generating series at (2 1 1 2) 0.637 * * * * [progress]: [ 4 / 4 ] generating series at (2 1) 0.637 * * * [progress]: simplifying candidates 0.637 * * * * [progress]: [ 1 / 6 ] simplifiying candidate # 0.637 * * * * [progress]: [ 2 / 6 ] simplifiying candidate # 0.637 * * * * [progress]: [ 3 / 6 ] simplifiying candidate # 0.637 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))) 0.637 * * [simplify]: iters left: 6 (12 enodes) 0.640 * * [simplify]: iters left: 5 (26 enodes) 0.645 * * [simplify]: iters left: 4 (30 enodes) 0.650 * * [simplify]: Extracting #0: cost 1 inf + 0 0.650 * * [simplify]: Extracting #1: cost 3 inf + 0 0.650 * * [simplify]: Extracting #2: cost 5 inf + 0 0.650 * * [simplify]: Extracting #3: cost 9 inf + 0 0.650 * * [simplify]: Extracting #4: cost 8 inf + 4 0.650 * * [simplify]: Extracting #5: cost 12 inf + 4 0.650 * * [simplify]: Extracting #6: cost 11 inf + 47 0.650 * * [simplify]: Extracting #7: cost 4 inf + 478 0.651 * * [simplify]: Extracting #8: cost 1 inf + 2268 0.651 * * [simplify]: Extracting #9: cost 0 inf + 3012 0.651 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))) 0.651 * [simplify]: Simplified (2) to (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))) 0.651 * * * * [progress]: [ 4 / 6 ] simplifiying candidate # 0.652 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))) 0.652 * * [simplify]: iters left: 6 (12 enodes) 0.673 * * [simplify]: iters left: 5 (26 enodes) 0.681 * * [simplify]: iters left: 4 (30 enodes) 0.691 * * [simplify]: Extracting #0: cost 1 inf + 0 0.691 * * [simplify]: Extracting #1: cost 3 inf + 0 0.691 * * [simplify]: Extracting #2: cost 5 inf + 0 0.691 * * [simplify]: Extracting #3: cost 9 inf + 0 0.691 * * [simplify]: Extracting #4: cost 8 inf + 4 0.691 * * [simplify]: Extracting #5: cost 12 inf + 4 0.691 * * [simplify]: Extracting #6: cost 11 inf + 47 0.691 * * [simplify]: Extracting #7: cost 4 inf + 478 0.692 * * [simplify]: Extracting #8: cost 1 inf + 2268 0.692 * * [simplify]: Extracting #9: cost 0 inf + 3012 0.692 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))) 0.692 * [simplify]: Simplified (2) to (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))) 0.692 * * * * [progress]: [ 5 / 6 ] simplifiying candidate # 0.692 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))) 0.693 * * [simplify]: iters left: 6 (12 enodes) 0.695 * * [simplify]: iters left: 5 (26 enodes) 0.700 * * [simplify]: iters left: 4 (30 enodes) 0.705 * * [simplify]: Extracting #0: cost 1 inf + 0 0.705 * * [simplify]: Extracting #1: cost 3 inf + 0 0.705 * * [simplify]: Extracting #2: cost 5 inf + 0 0.705 * * [simplify]: Extracting #3: cost 9 inf + 0 0.705 * * [simplify]: Extracting #4: cost 8 inf + 4 0.705 * * [simplify]: Extracting #5: cost 12 inf + 4 0.705 * * [simplify]: Extracting #6: cost 11 inf + 47 0.705 * * [simplify]: Extracting #7: cost 4 inf + 478 0.705 * * [simplify]: Extracting #8: cost 1 inf + 2268 0.706 * * [simplify]: Extracting #9: cost 0 inf + 3012 0.706 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))) 0.706 * [simplify]: Simplified (2) to (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))) 0.706 * * * * [progress]: [ 6 / 6 ] simplifiying candidate # 0.706 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))) 0.706 * * [simplify]: iters left: 6 (12 enodes) 0.709 * * [simplify]: iters left: 5 (26 enodes) 0.713 * * [simplify]: iters left: 4 (30 enodes) 0.718 * * [simplify]: Extracting #0: cost 1 inf + 0 0.718 * * [simplify]: Extracting #1: cost 3 inf + 0 0.718 * * [simplify]: Extracting #2: cost 5 inf + 0 0.718 * * [simplify]: Extracting #3: cost 9 inf + 0 0.718 * * [simplify]: Extracting #4: cost 8 inf + 4 0.718 * * [simplify]: Extracting #5: cost 12 inf + 4 0.718 * * [simplify]: Extracting #6: cost 11 inf + 47 0.718 * * [simplify]: Extracting #7: cost 4 inf + 478 0.719 * * [simplify]: Extracting #8: cost 1 inf + 2268 0.719 * * [simplify]: Extracting #9: cost 0 inf + 3012 0.719 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))) 0.719 * [simplify]: Simplified (2) to (λ (xre xim) (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0)))) 0.719 * * * [progress]: adding candidates to table 0.760 * [progress]: [Phase 3 of 3] Extracting. 0.765 * [simplify]: Simplifying (re (/.c (+.c (exp.c (complex xre xim)) (exp.c (neg.c (complex xre xim)))) (complex 2 0))) 0.765 * * [simplify]: iters left: 6 (12 enodes) 0.767 * * [simplify]: iters left: 5 (13 enodes) 0.768 * * [simplify]: Extracting #0: cost 1 inf + 0 0.768 * * [simplify]: Extracting #1: cost 2 inf + 0 0.768 * * [simplify]: Extracting #2: cost 4 inf + 0 0.768 * * [simplify]: Extracting #3: cost 8 inf + 0 0.768 * * [simplify]: Extracting #4: cost 7 inf + 4 0.768 * * [simplify]: Extracting #5: cost 9 inf + 4 0.768 * * [simplify]: Extracting #6: cost 7 inf + 6 0.769 * * [simplify]: Extracting #7: cost 0 inf + 2104 0.769 * [simplify]: Simplified to (re (/.c (+.c (exp.c (neg.c (complex xre xim))) (exp.c (complex xre xim))) (complex 2 0))) 0.769 * * * * [points]: Sampling 8000 additional inputs, on iter 0 have 0 / 8000 0.888 * * * * [points]: Computing exacts on every 500 of 8000 points to ramp up precision 0.891 * * * * [points]: Setting MPFR precision to 64 0.899 * * * * [points]: Setting MPFR precision to 320 0.901 * * * * [points]: Computing exacts on every 250 of 8000 points to ramp up precision 0.904 * * * * [points]: Setting MPFR precision to 64 0.907 * * * * [points]: Setting MPFR precision to 320 0.910 * * * * [points]: Computing exacts on every 125 of 8000 points to ramp up precision 0.912 * * * * [points]: Setting MPFR precision to 64 0.918 * * * * [points]: Setting MPFR precision to 320 0.925 * * * * [points]: Computing exacts on every 62 of 8000 points to ramp up precision 0.928 * * * * [points]: Setting MPFR precision to 64 0.948 * * * * [points]: Setting MPFR precision to 320 0.961 * * * * [points]: Computing exacts on every 31 of 8000 points to ramp up precision 0.963 * * * * [points]: Setting MPFR precision to 64 0.989 * * * * [points]: Setting MPFR precision to 320 1.013 * * * * [points]: Computing exacts on every 15 of 8000 points to ramp up precision 1.015 * * * * [points]: Setting MPFR precision to 64 1.132 * * * * [points]: Setting MPFR precision to 320 1.207 * * * * [points]: Computing exacts on every 7 of 8000 points to ramp up precision 1.209 * * * * [points]: Setting MPFR precision to 64 1.397 * * * * [points]: Setting MPFR precision to 320 1.616 * * * * [points]: Computing exacts on every 3 of 8000 points to ramp up precision 1.620 * * * * [points]: Setting MPFR precision to 64 1.936 * * * * [points]: Setting MPFR precision to 320 2.695 * * * * [points]: Computing exacts for 8000 points 2.698 * * * * [points]: Setting MPFR precision to 64 4.130 * * * * [points]: Setting MPFR precision to 320 6.000 * * * * [points]: Filtering points with unrepresentable outputs 6.007 * * * * [points]: Sampling 3863 additional inputs, on iter 1 have 4137 / 8000 6.065 * * * * [points]: Computing exacts on every 241 of 3863 points to ramp up precision 6.068 * * * * [points]: Setting MPFR precision to 64 6.071 * * * * [points]: Setting MPFR precision to 320 6.074 * * * * [points]: Computing exacts on every 120 of 3863 points to ramp up precision 6.076 * * * * [points]: Setting MPFR precision to 64 6.082 * * * * [points]: Setting MPFR precision to 320 6.088 * * * * [points]: Computing exacts on every 60 of 3863 points to ramp up precision 6.090 * * * * [points]: Setting MPFR precision to 64 6.130 * * * * [points]: Setting MPFR precision to 320 6.144 * * * * [points]: Computing exacts on every 30 of 3863 points to ramp up precision 6.147 * * * * [points]: Setting MPFR precision to 64 6.164 * * * * [points]: Setting MPFR precision to 320 6.176 * * * * [points]: Computing exacts on every 15 of 3863 points to ramp up precision 6.177 * * * * [points]: Setting MPFR precision to 64 6.207 * * * * [points]: Setting MPFR precision to 320 6.245 * * * * [points]: Computing exacts on every 7 of 3863 points to ramp up precision 6.247 * * * * [points]: Setting MPFR precision to 64 6.362 * * * * [points]: Setting MPFR precision to 320 6.467 * * * * [points]: Computing exacts on every 3 of 3863 points to ramp up precision 6.471 * * * * [points]: Setting MPFR precision to 64 6.638 * * * * [points]: Setting MPFR precision to 320 6.831 * * * * [points]: Computing exacts for 3863 points 6.834 * * * * [points]: Setting MPFR precision to 64 7.947 * * * * [points]: Setting MPFR precision to 320 8.757 * * * * [points]: Filtering points with unrepresentable outputs 8.760 * * * * [points]: Sampling 1909 additional inputs, on iter 2 have 6091 / 8000 8.789 * * * * [points]: Computing exacts on every 119 of 1909 points to ramp up precision 8.792 * * * * [points]: Setting MPFR precision to 64 8.795 * * * * [points]: Setting MPFR precision to 320 8.798 * * * * [points]: Computing exacts on every 59 of 1909 points to ramp up precision 8.800 * * * * [points]: Setting MPFR precision to 64 8.802 * * * * [points]: Setting MPFR precision to 320 8.805 * * * * [points]: Computing exacts on every 29 of 1909 points to ramp up precision 8.807 * * * * [points]: Setting MPFR precision to 64 8.813 * * * * [points]: Setting MPFR precision to 320 8.820 * * * * [points]: Computing exacts on every 14 of 1909 points to ramp up precision 8.822 * * * * [points]: Setting MPFR precision to 64 8.866 * * * * [points]: Setting MPFR precision to 320 8.886 * * * * [points]: Computing exacts on every 7 of 1909 points to ramp up precision 8.889 * * * * [points]: Setting MPFR precision to 64 8.910 * * * * [points]: Setting MPFR precision to 320 8.946 * * * * [points]: Computing exacts on every 3 of 1909 points to ramp up precision 8.949 * * * * [points]: Setting MPFR precision to 64 9.010 * * * * [points]: Setting MPFR precision to 320 9.147 * * * * [points]: Computing exacts for 1909 points 9.150 * * * * [points]: Setting MPFR precision to 64 9.451 * * * * [points]: Setting MPFR precision to 320 9.826 * * * * [points]: Filtering points with unrepresentable outputs 9.828 * * * * [points]: Sampling 910 additional inputs, on iter 3 have 7090 / 8000 9.841 * * * * [points]: Computing exacts on every 56 of 910 points to ramp up precision 9.844 * * * * [points]: Setting MPFR precision to 64 9.847 * * * * [points]: Setting MPFR precision to 320 9.850 * * * * [points]: Computing exacts on every 28 of 910 points to ramp up precision 9.853 * * * * [points]: Setting MPFR precision to 64 9.858 * * * * [points]: Setting MPFR precision to 320 9.864 * * * * [points]: Computing exacts on every 14 of 910 points to ramp up precision 9.866 * * * * [points]: Setting MPFR precision to 64 9.877 * * * * [points]: Setting MPFR precision to 320 9.889 * * * * [points]: Computing exacts on every 7 of 910 points to ramp up precision 9.892 * * * * [points]: Setting MPFR precision to 64 9.911 * * * * [points]: Setting MPFR precision to 320 9.924 * * * * [points]: Computing exacts on every 3 of 910 points to ramp up precision 9.925 * * * * [points]: Setting MPFR precision to 64 10.372 * * * * [points]: Setting MPFR precision to 320 10.394 * * * * [points]: Computing exacts for 910 points 10.395 * * * * [points]: Setting MPFR precision to 64 10.548 * * * * [points]: Setting MPFR precision to 320 10.730 * * * * [points]: Filtering points with unrepresentable outputs 10.731 * * * * [points]: Sampling 430 additional inputs, on iter 4 have 7570 / 8000 10.737 * * * * [points]: Computing exacts on every 26 of 430 points to ramp up precision 10.740 * * * * [points]: Setting MPFR precision to 64 10.743 * * * * [points]: Setting MPFR precision to 320 10.746 * * * * [points]: Computing exacts on every 13 of 430 points to ramp up precision 10.749 * * * * [points]: Setting MPFR precision to 64 10.754 * * * * [points]: Setting MPFR precision to 320 10.797 * * * * [points]: Computing exacts on every 6 of 430 points to ramp up precision 10.800 * * * * [points]: Setting MPFR precision to 64 10.816 * * * * [points]: Setting MPFR precision to 320 10.826 * * * * [points]: Computing exacts on every 3 of 430 points to ramp up precision 10.829 * * * * [points]: Setting MPFR precision to 64 10.846 * * * * [points]: Setting MPFR precision to 320 10.867 * * * * [points]: Computing exacts for 430 points 10.869 * * * * [points]: Setting MPFR precision to 64 10.940 * * * * [points]: Setting MPFR precision to 320 11.038 * * * * [points]: Filtering points with unrepresentable outputs 11.038 * * * * [points]: Sampling 198 additional inputs, on iter 5 have 7802 / 8000 11.040 * * * * [points]: Computing exacts on every 12 of 198 points to ramp up precision 11.042 * * * * [points]: Setting MPFR precision to 64 11.043 * * * * [points]: Setting MPFR precision to 320 11.045 * * * * [points]: Computing exacts on every 6 of 198 points to ramp up precision 11.050 * * * * [points]: Setting MPFR precision to 64 11.052 * * * * [points]: Setting MPFR precision to 320 11.055 * * * * [points]: Computing exacts on every 3 of 198 points to ramp up precision 11.057 * * * * [points]: Setting MPFR precision to 64 11.061 * * * * [points]: Setting MPFR precision to 320 11.070 * * * * [points]: Computing exacts for 198 points 11.073 * * * * [points]: Setting MPFR precision to 64 11.109 * * * * [points]: Setting MPFR precision to 320 11.147 * * * * [points]: Filtering points with unrepresentable outputs 11.148 * * * * [points]: Sampling 94 additional inputs, on iter 6 have 7906 / 8000 11.149 * * * * [points]: Computing exacts on every 5 of 94 points to ramp up precision 11.152 * * * * [points]: Setting MPFR precision to 64 11.155 * * * * [points]: Setting MPFR precision to 320 11.158 * * * * [points]: Computing exacts on every 2 of 94 points to ramp up precision 11.160 * * * * [points]: Setting MPFR precision to 64 11.162 * * * * [points]: Setting MPFR precision to 320 11.166 * * * * [points]: Computing exacts for 94 points 11.167 * * * * [points]: Setting MPFR precision to 64 11.175 * * * * [points]: Setting MPFR precision to 320 11.185 * * * * [points]: Filtering points with unrepresentable outputs 11.185 * * * * [points]: Sampling 47 additional inputs, on iter 7 have 7953 / 8000 11.185 * * * * [points]: Computing exacts on every 2 of 47 points to ramp up precision 11.187 * * * * [points]: Setting MPFR precision to 64 11.189 * * * * [points]: Setting MPFR precision to 320 11.190 * * * * [points]: Computing exacts for 47 points 11.192 * * * * [points]: Setting MPFR precision to 64 11.252 * * * * [points]: Setting MPFR precision to 320 11.267 * * * * [points]: Filtering points with unrepresentable outputs 11.267 * * * * [points]: Sampling 24 additional inputs, on iter 8 have 7976 / 8000 11.268 * * * * [points]: Computing exacts for 24 points 11.271 * * * * [points]: Setting MPFR precision to 64 11.275 * * * * [points]: Setting MPFR precision to 320 11.279 * * * * [points]: Filtering points with unrepresentable outputs 11.279 * * * * [points]: Sampling 8 additional inputs, on iter 9 have 7992 / 8000 11.280 * * * * [points]: Computing exacts for 8 points 11.282 * * * * [points]: Setting MPFR precision to 64 11.284 * * * * [points]: Setting MPFR precision to 320 11.285 * * * * [points]: Filtering points with unrepresentable outputs 11.285 * * * * [points]: Sampling 6 additional inputs, on iter 10 have 7994 / 8000 11.286 * * * * [points]: Computing exacts for 6 points 11.288 * * * * [points]: Setting MPFR precision to 64 11.290 * * * * [points]: Setting MPFR precision to 320 11.291 * * * * [points]: Filtering points with unrepresentable outputs 11.291 * * * * [points]: Sampling 4 additional inputs, on iter 11 have 7998 / 8000 11.291 * * * * [points]: Computing exacts for 4 points 11.292 * * * * [points]: Setting MPFR precision to 64 11.293 * * * * [points]: Setting MPFR precision to 320 11.293 * * * * [points]: Filtering points with unrepresentable outputs 11.293 * * * * [points]: Sampled 8000 points with exact outputs 11.492 * [regime-testing]: Baseline error score: 0.01175 11.496 * [regime-testing]: Oracle error score: 0.01175 11.497 * [regime-testing]: End program error score: 0.01175