0.002 * [progress]: [Phase 1 of 3] Setting up.
0.002 * * * [progress]: [1/2] Preparing points
0.003 * * * * [points]: Sampling 256 additional inputs, on iter 0 have 0 / 256
0.005 * * * * [points]: Computing exacts on every 16 of 256 points to ramp up precision
0.010 * * * * [points]: Setting MPFR precision to 64
0.013 * * * * [points]: Setting MPFR precision to 320
0.015 * * * * [points]: Computing exacts on every 8 of 256 points to ramp up precision
0.022 * * * * [points]: Setting MPFR precision to 64
0.026 * * * * [points]: Setting MPFR precision to 320
0.036 * * * * [points]: Computing exacts on every 4 of 256 points to ramp up precision
0.043 * * * * [points]: Setting MPFR precision to 64
0.050 * * * * [points]: Setting MPFR precision to 320
0.057 * * * * [points]: Computing exacts on every 2 of 256 points to ramp up precision
0.066 * * * * [points]: Setting MPFR precision to 64
0.077 * * * * [points]: Setting MPFR precision to 320
0.089 * * * * [points]: Computing exacts for 256 points
0.096 * * * * [points]: Setting MPFR precision to 64
0.130 * * * * [points]: Setting MPFR precision to 320
0.163 * * * * [points]: Filtering points with unrepresentable outputs
0.164 * * * * [points]: Sampling 226 additional inputs, on iter 1 have 30 / 256
0.166 * * * * [points]: Computing exacts on every 14 of 226 points to ramp up precision
0.173 * * * * [points]: Setting MPFR precision to 64
0.175 * * * * [points]: Setting MPFR precision to 320
0.177 * * * * [points]: Computing exacts on every 7 of 226 points to ramp up precision
0.184 * * * * [points]: Setting MPFR precision to 64
0.188 * * * * [points]: Setting MPFR precision to 320
0.192 * * * * [points]: Computing exacts on every 3 of 226 points to ramp up precision
0.199 * * * * [points]: Setting MPFR precision to 64
0.205 * * * * [points]: Setting MPFR precision to 320
0.209 * * * * [points]: Computing exacts for 226 points
0.234 * * * * [points]: Setting MPFR precision to 64
0.251 * * * * [points]: Setting MPFR precision to 320
0.268 * * * * [points]: Filtering points with unrepresentable outputs
0.268 * * * * [points]: Sampling 207 additional inputs, on iter 2 have 49 / 256
0.269 * * * * [points]: Computing exacts on every 12 of 207 points to ramp up precision
0.273 * * * * [points]: Setting MPFR precision to 64
0.274 * * * * [points]: Setting MPFR precision to 320
0.275 * * * * [points]: Computing exacts on every 6 of 207 points to ramp up precision
0.279 * * * * [points]: Setting MPFR precision to 64
0.281 * * * * [points]: Setting MPFR precision to 320
0.283 * * * * [points]: Computing exacts on every 3 of 207 points to ramp up precision
0.287 * * * * [points]: Setting MPFR precision to 64
0.291 * * * * [points]: Setting MPFR precision to 320
0.294 * * * * [points]: Computing exacts for 207 points
0.298 * * * * [points]: Setting MPFR precision to 64
0.314 * * * * [points]: Setting MPFR precision to 320
0.330 * * * * [points]: Filtering points with unrepresentable outputs
0.330 * * * * [points]: Sampling 174 additional inputs, on iter 3 have 82 / 256
0.331 * * * * [points]: Computing exacts on every 10 of 174 points to ramp up precision
0.335 * * * * [points]: Setting MPFR precision to 64
0.336 * * * * [points]: Setting MPFR precision to 320
0.367 * * * * [points]: Computing exacts on every 5 of 174 points to ramp up precision
0.371 * * * * [points]: Setting MPFR precision to 64
0.373 * * * * [points]: Setting MPFR precision to 320
0.375 * * * * [points]: Computing exacts on every 2 of 174 points to ramp up precision
0.381 * * * * [points]: Setting MPFR precision to 64
0.385 * * * * [points]: Setting MPFR precision to 320
0.389 * * * * [points]: Computing exacts for 174 points
0.393 * * * * [points]: Setting MPFR precision to 64
0.406 * * * * [points]: Setting MPFR precision to 320
0.419 * * * * [points]: Filtering points with unrepresentable outputs
0.419 * * * * [points]: Sampling 156 additional inputs, on iter 4 have 100 / 256
0.419 * * * * [points]: Computing exacts on every 9 of 156 points to ramp up precision
0.423 * * * * [points]: Setting MPFR precision to 64
0.424 * * * * [points]: Setting MPFR precision to 320
0.426 * * * * [points]: Computing exacts on every 4 of 156 points to ramp up precision
0.429 * * * * [points]: Setting MPFR precision to 64
0.432 * * * * [points]: Setting MPFR precision to 320
0.434 * * * * [points]: Computing exacts on every 2 of 156 points to ramp up precision
0.438 * * * * [points]: Setting MPFR precision to 64
0.441 * * * * [points]: Setting MPFR precision to 320
0.445 * * * * [points]: Computing exacts for 156 points
0.449 * * * * [points]: Setting MPFR precision to 64
0.460 * * * * [points]: Setting MPFR precision to 320
0.494 * * * * [points]: Filtering points with unrepresentable outputs
0.494 * * * * [points]: Sampling 133 additional inputs, on iter 5 have 123 / 256
0.495 * * * * [points]: Computing exacts on every 8 of 133 points to ramp up precision
0.500 * * * * [points]: Setting MPFR precision to 64
0.502 * * * * [points]: Setting MPFR precision to 320
0.503 * * * * [points]: Computing exacts on every 4 of 133 points to ramp up precision
0.506 * * * * [points]: Setting MPFR precision to 64
0.508 * * * * [points]: Setting MPFR precision to 320
0.510 * * * * [points]: Computing exacts on every 2 of 133 points to ramp up precision
0.514 * * * * [points]: Setting MPFR precision to 64
0.517 * * * * [points]: Setting MPFR precision to 320
0.521 * * * * [points]: Computing exacts for 133 points
0.524 * * * * [points]: Setting MPFR precision to 64
0.534 * * * * [points]: Setting MPFR precision to 320
0.544 * * * * [points]: Filtering points with unrepresentable outputs
0.544 * * * * [points]: Sampling 120 additional inputs, on iter 6 have 136 / 256
0.545 * * * * [points]: Computing exacts on every 7 of 120 points to ramp up precision
0.549 * * * * [points]: Setting MPFR precision to 64
0.550 * * * * [points]: Setting MPFR precision to 320
0.551 * * * * [points]: Computing exacts on every 3 of 120 points to ramp up precision
0.555 * * * * [points]: Setting MPFR precision to 64
0.557 * * * * [points]: Setting MPFR precision to 320
0.559 * * * * [points]: Computing exacts for 120 points
0.563 * * * * [points]: Setting MPFR precision to 64
0.574 * * * * [points]: Setting MPFR precision to 320
0.583 * * * * [points]: Filtering points with unrepresentable outputs
0.583 * * * * [points]: Sampling 100 additional inputs, on iter 7 have 156 / 256
0.583 * * * * [points]: Computing exacts on every 6 of 100 points to ramp up precision
0.608 * * * * [points]: Setting MPFR precision to 64
0.609 * * * * [points]: Setting MPFR precision to 320
0.610 * * * * [points]: Computing exacts on every 3 of 100 points to ramp up precision
0.614 * * * * [points]: Setting MPFR precision to 64
0.618 * * * * [points]: Setting MPFR precision to 320
0.620 * * * * [points]: Computing exacts for 100 points
0.623 * * * * [points]: Setting MPFR precision to 64
0.630 * * * * [points]: Setting MPFR precision to 320
0.637 * * * * [points]: Filtering points with unrepresentable outputs
0.637 * * * * [points]: Sampling 89 additional inputs, on iter 8 have 167 / 256
0.638 * * * * [points]: Computing exacts on every 5 of 89 points to ramp up precision
0.641 * * * * [points]: Setting MPFR precision to 64
0.643 * * * * [points]: Setting MPFR precision to 320
0.644 * * * * [points]: Computing exacts on every 2 of 89 points to ramp up precision
0.647 * * * * [points]: Setting MPFR precision to 64
0.649 * * * * [points]: Setting MPFR precision to 320
0.651 * * * * [points]: Computing exacts for 89 points
0.655 * * * * [points]: Setting MPFR precision to 64
0.661 * * * * [points]: Setting MPFR precision to 320
0.668 * * * * [points]: Filtering points with unrepresentable outputs
0.668 * * * * [points]: Sampling 77 additional inputs, on iter 9 have 179 / 256
0.668 * * * * [points]: Computing exacts on every 4 of 77 points to ramp up precision
0.672 * * * * [points]: Setting MPFR precision to 64
0.673 * * * * [points]: Setting MPFR precision to 320
0.674 * * * * [points]: Computing exacts on every 2 of 77 points to ramp up precision
0.678 * * * * [points]: Setting MPFR precision to 64
0.680 * * * * [points]: Setting MPFR precision to 320
0.682 * * * * [points]: Computing exacts for 77 points
0.685 * * * * [points]: Setting MPFR precision to 64
0.691 * * * * [points]: Setting MPFR precision to 320
0.697 * * * * [points]: Filtering points with unrepresentable outputs
0.697 * * * * [points]: Sampling 67 additional inputs, on iter 10 have 189 / 256
0.697 * * * * [points]: Computing exacts on every 4 of 67 points to ramp up precision
0.725 * * * * [points]: Setting MPFR precision to 64
0.726 * * * * [points]: Setting MPFR precision to 320
0.727 * * * * [points]: Computing exacts on every 2 of 67 points to ramp up precision
0.730 * * * * [points]: Setting MPFR precision to 64
0.734 * * * * [points]: Setting MPFR precision to 320
0.736 * * * * [points]: Computing exacts for 67 points
0.739 * * * * [points]: Setting MPFR precision to 64
0.744 * * * * [points]: Setting MPFR precision to 320
0.749 * * * * [points]: Filtering points with unrepresentable outputs
0.749 * * * * [points]: Sampling 58 additional inputs, on iter 11 have 198 / 256
0.749 * * * * [points]: Computing exacts on every 3 of 58 points to ramp up precision
0.753 * * * * [points]: Setting MPFR precision to 64
0.754 * * * * [points]: Setting MPFR precision to 320
0.755 * * * * [points]: Computing exacts for 58 points
0.759 * * * * [points]: Setting MPFR precision to 64
0.763 * * * * [points]: Setting MPFR precision to 320
0.767 * * * * [points]: Filtering points with unrepresentable outputs
0.767 * * * * [points]: Sampling 47 additional inputs, on iter 12 have 209 / 256
0.767 * * * * [points]: Computing exacts on every 2 of 47 points to ramp up precision
0.771 * * * * [points]: Setting MPFR precision to 64
0.772 * * * * [points]: Setting MPFR precision to 320
0.773 * * * * [points]: Computing exacts for 47 points
0.777 * * * * [points]: Setting MPFR precision to 64
0.781 * * * * [points]: Setting MPFR precision to 320
0.784 * * * * [points]: Filtering points with unrepresentable outputs
0.784 * * * * [points]: Sampling 42 additional inputs, on iter 13 have 214 / 256
0.784 * * * * [points]: Computing exacts on every 2 of 42 points to ramp up precision
0.789 * * * * [points]: Setting MPFR precision to 64
0.790 * * * * [points]: Setting MPFR precision to 320
0.791 * * * * [points]: Computing exacts for 42 points
0.796 * * * * [points]: Setting MPFR precision to 64
0.799 * * * * [points]: Setting MPFR precision to 320
0.802 * * * * [points]: Filtering points with unrepresentable outputs
0.802 * * * * [points]: Sampling 38 additional inputs, on iter 14 have 218 / 256
0.802 * * * * [points]: Computing exacts on every 2 of 38 points to ramp up precision
0.806 * * * * [points]: Setting MPFR precision to 64
0.807 * * * * [points]: Setting MPFR precision to 320
0.808 * * * * [points]: Computing exacts for 38 points
0.846 * * * * [points]: Setting MPFR precision to 64
0.854 * * * * [points]: Setting MPFR precision to 320
0.860 * * * * [points]: Filtering points with unrepresentable outputs
0.860 * * * * [points]: Sampling 33 additional inputs, on iter 15 have 223 / 256
0.860 * * * * [points]: Computing exacts on every 2 of 33 points to ramp up precision
0.867 * * * * [points]: Setting MPFR precision to 64
0.869 * * * * [points]: Setting MPFR precision to 320
0.871 * * * * [points]: Computing exacts for 33 points
0.878 * * * * [points]: Setting MPFR precision to 64
0.883 * * * * [points]: Setting MPFR precision to 320
0.887 * * * * [points]: Filtering points with unrepresentable outputs
0.887 * * * * [points]: Sampling 26 additional inputs, on iter 16 have 230 / 256
0.888 * * * * [points]: Computing exacts for 26 points
0.895 * * * * [points]: Setting MPFR precision to 64
0.898 * * * * [points]: Setting MPFR precision to 320
0.902 * * * * [points]: Filtering points with unrepresentable outputs
0.902 * * * * [points]: Sampling 22 additional inputs, on iter 17 have 234 / 256
0.902 * * * * [points]: Computing exacts for 22 points
0.909 * * * * [points]: Setting MPFR precision to 64
0.912 * * * * [points]: Setting MPFR precision to 320
0.915 * * * * [points]: Filtering points with unrepresentable outputs
0.915 * * * * [points]: Sampling 22 additional inputs, on iter 18 have 234 / 256
0.915 * * * * [points]: Computing exacts for 22 points
0.922 * * * * [points]: Setting MPFR precision to 64
0.925 * * * * [points]: Setting MPFR precision to 320
0.928 * * * * [points]: Filtering points with unrepresentable outputs
0.928 * * * * [points]: Sampling 19 additional inputs, on iter 19 have 237 / 256
0.928 * * * * [points]: Computing exacts for 19 points
0.935 * * * * [points]: Setting MPFR precision to 64
0.938 * * * * [points]: Setting MPFR precision to 320
0.940 * * * * [points]: Filtering points with unrepresentable outputs
0.940 * * * * [points]: Sampling 14 additional inputs, on iter 20 have 242 / 256
0.941 * * * * [points]: Computing exacts for 14 points
0.947 * * * * [points]: Setting MPFR precision to 64
0.949 * * * * [points]: Setting MPFR precision to 320
0.951 * * * * [points]: Filtering points with unrepresentable outputs
0.951 * * * * [points]: Sampling 9 additional inputs, on iter 21 have 247 / 256
0.952 * * * * [points]: Computing exacts for 9 points
0.959 * * * * [points]: Setting MPFR precision to 64
0.960 * * * * [points]: Setting MPFR precision to 320
0.961 * * * * [points]: Filtering points with unrepresentable outputs
0.961 * * * * [points]: Sampling 9 additional inputs, on iter 22 have 247 / 256
0.961 * * * * [points]: Computing exacts for 9 points
0.968 * * * * [points]: Setting MPFR precision to 64
0.969 * * * * [points]: Setting MPFR precision to 320
0.970 * * * * [points]: Filtering points with unrepresentable outputs
0.971 * * * * [points]: Sampling 9 additional inputs, on iter 23 have 247 / 256
0.971 * * * * [points]: Computing exacts for 9 points
0.977 * * * * [points]: Setting MPFR precision to 64
0.978 * * * * [points]: Setting MPFR precision to 320
0.979 * * * * [points]: Filtering points with unrepresentable outputs
0.980 * * * * [points]: Sampling 9 additional inputs, on iter 24 have 247 / 256
0.980 * * * * [points]: Computing exacts for 9 points
0.986 * * * * [points]: Setting MPFR precision to 64
0.987 * * * * [points]: Setting MPFR precision to 320
0.988 * * * * [points]: Filtering points with unrepresentable outputs
0.988 * * * * [points]: Sampling 8 additional inputs, on iter 25 have 248 / 256
0.988 * * * * [points]: Computing exacts for 8 points
1.323 * * * * [points]: Setting MPFR precision to 64
1.323 * * * * [points]: Setting MPFR precision to 320
1.324 * * * * [points]: Filtering points with unrepresentable outputs
1.324 * * * * [points]: Sampling 7 additional inputs, on iter 26 have 249 / 256
1.324 * * * * [points]: Computing exacts for 7 points
1.328 * * * * [points]: Setting MPFR precision to 64
1.328 * * * * [points]: Setting MPFR precision to 320
1.329 * * * * [points]: Filtering points with unrepresentable outputs
1.329 * * * * [points]: Sampling 6 additional inputs, on iter 27 have 250 / 256
1.329 * * * * [points]: Computing exacts for 6 points
1.334 * * * * [points]: Setting MPFR precision to 64
1.335 * * * * [points]: Setting MPFR precision to 320
1.336 * * * * [points]: Filtering points with unrepresentable outputs
1.336 * * * * [points]: Sampling 4 additional inputs, on iter 28 have 252 / 256
1.336 * * * * [points]: Computing exacts for 4 points
1.339 * * * * [points]: Setting MPFR precision to 64
1.340 * * * * [points]: Setting MPFR precision to 320
1.340 * * * * [points]: Filtering points with unrepresentable outputs
1.340 * * * * [points]: Sampling 4 additional inputs, on iter 29 have 252 / 256
1.340 * * * * [points]: Computing exacts for 4 points
1.344 * * * * [points]: Setting MPFR precision to 64
1.344 * * * * [points]: Setting MPFR precision to 320
1.345 * * * * [points]: Filtering points with unrepresentable outputs
1.345 * * * * [points]: Sampling 4 additional inputs, on iter 30 have 252 / 256
1.345 * * * * [points]: Computing exacts for 4 points
1.348 * * * * [points]: Setting MPFR precision to 64
1.349 * * * * [points]: Setting MPFR precision to 320
1.349 * * * * [points]: Filtering points with unrepresentable outputs
1.349 * * * * [points]: Sampling 4 additional inputs, on iter 31 have 252 / 256
1.349 * * * * [points]: Computing exacts for 4 points
1.352 * * * * [points]: Setting MPFR precision to 64
1.353 * * * * [points]: Setting MPFR precision to 320
1.353 * * * * [points]: Filtering points with unrepresentable outputs
1.353 * * * * [points]: Sampling 4 additional inputs, on iter 32 have 253 / 256
1.353 * * * * [points]: Computing exacts for 4 points
1.357 * * * * [points]: Setting MPFR precision to 64
1.357 * * * * [points]: Setting MPFR precision to 320
1.358 * * * * [points]: Filtering points with unrepresentable outputs
1.358 * * * * [points]: Sampling 4 additional inputs, on iter 33 have 253 / 256
1.358 * * * * [points]: Computing exacts for 4 points
1.361 * * * * [points]: Setting MPFR precision to 64
1.362 * * * * [points]: Setting MPFR precision to 320
1.362 * * * * [points]: Filtering points with unrepresentable outputs
1.362 * * * * [points]: Sampling 4 additional inputs, on iter 34 have 253 / 256
1.362 * * * * [points]: Computing exacts for 4 points
1.365 * * * * [points]: Setting MPFR precision to 64
1.366 * * * * [points]: Setting MPFR precision to 320
1.366 * * * * [points]: Filtering points with unrepresentable outputs
1.366 * * * * [points]: Sampling 4 additional inputs, on iter 35 have 254 / 256
1.366 * * * * [points]: Computing exacts for 4 points
1.370 * * * * [points]: Setting MPFR precision to 64
1.370 * * * * [points]: Setting MPFR precision to 320
1.370 * * * * [points]: Filtering points with unrepresentable outputs
1.370 * * * * [points]: Sampled 256 points with exact outputs
1.371 * * * [progress]: [2/2] Setting up program.
1.382 * [progress]: [Phase 2 of 3] Improving.
1.382 * * * * [progress]: [ 1 / 1 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
1.382 * [simplify]: Simplifying (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))
1.382 * * [simplify]: iters left: 6 (15 enodes)
1.386 * * [simplify]: iters left: 5 (54 enodes)
1.397 * * [simplify]: iters left: 4 (174 enodes)
1.548 * * [simplify]: Extracting #0: cost 1 inf + 0
1.548 * * [simplify]: Extracting #1: cost 2 inf + 0
1.548 * * [simplify]: Extracting #2: cost 52 inf + 0
1.549 * * [simplify]: Extracting #3: cost 218 inf + 0
1.551 * * [simplify]: Extracting #4: cost 350 inf + 488
1.560 * * [simplify]: Extracting #5: cost 271 inf + 83278
1.588 * * [simplify]: Extracting #6: cost 99 inf + 301152
1.636 * * [simplify]: Extracting #7: cost 13 inf + 445414
1.689 * * [simplify]: Extracting #8: cost 0 inf + 471346
1.745 * [simplify]: Simplified to (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) c)))
1.746 * [simplify]: Simplified (2) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) c))))
1.770 * * [progress]: iteration 1 / 4
1.770 * * * [progress]: picking best candidate
1.792 * * * * [pick]: Picked  #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
1.792 * * * [progress]: localizing error
2.182 * * * [progress]: generating rewritten candidates
2.183 * * * * [progress]: [ 1 / 4 ] rewriting at (2 1 1 1 2)
2.229 * * * * [progress]: [ 2 / 4 ] rewriting at (2 1 2)
2.273 * * * * [progress]: [ 3 / 4 ] rewriting at (2 1 1 2)
2.319 * * * * [progress]: [ 4 / 4 ] rewriting at (2 1 1)
2.371 * * * [progress]: generating series expansions
2.371 * * * * [progress]: [ 1 / 4 ] generating series at (2 1 1 1 2)
2.371 * * * * [progress]: [ 2 / 4 ] generating series at (2 1 2)
2.372 * * * * [progress]: [ 3 / 4 ] generating series at (2 1 1 2)
2.372 * * * * [progress]: [ 4 / 4 ] generating series at (2 1 1)
2.372 * * * [progress]: simplifying candidates
2.372 * * * * [progress]: [ 1 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (neg.p16 a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
2.372 * * * * [progress]: [ 2 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
2.372 * * * * [progress]: [ 3 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (neg.p16 c)))))>
2.372 * * * * [progress]: [ 4 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
2.372 * * * * [progress]: [ 5 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (neg.p16 b))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
2.372 * * * * [progress]: [ 6 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
2.372 * * * * [progress]: [ 7 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (+.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (neg.p16 b))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
2.373 * [simplify]: Simplifying (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (neg.p16 b))
2.373 * * [simplify]: iters left: 6 (12 enodes)
2.379 * * [simplify]: iters left: 5 (36 enodes)
2.392 * * [simplify]: iters left: 4 (88 enodes)
2.439 * * [simplify]: iters left: 3 (326 enodes)
2.730 * * [simplify]: Extracting #0: cost 1 inf + 0
2.730 * * [simplify]: Extracting #1: cost 40 inf + 0
2.731 * * [simplify]: Extracting #2: cost 278 inf + 0
2.737 * * [simplify]: Extracting #3: cost 408 inf + 33268
2.767 * * [simplify]: Extracting #4: cost 142 inf + 348993
2.830 * * [simplify]: Extracting #5: cost 45 inf + 538814
2.898 * * [simplify]: Extracting #6: cost 1 inf + 608045
2.940 * * [simplify]: Extracting #7: cost 0 inf + 611129
3.006 * [simplify]: Simplified to (*.p16 (neg.p16 b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))))
3.006 * [simplify]: Simplified (2 1 1 2) to (λ (a b c) (sqrt.p16 (*.p16 (+.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (neg.p16 b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
3.006 * * * * [progress]: [ 8 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (*.p16 (neg.p16 b) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
3.006 * [simplify]: Simplifying (*.p16 (neg.p16 b) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)))
3.007 * * [simplify]: iters left: 6 (12 enodes)
3.012 * * [simplify]: iters left: 5 (36 enodes)
3.023 * * [simplify]: iters left: 4 (94 enodes)
3.047 * * [simplify]: iters left: 3 (374 enodes)
3.352 * * [simplify]: Extracting #0: cost 1 inf + 0
3.352 * * [simplify]: Extracting #1: cost 43 inf + 0
3.354 * * [simplify]: Extracting #2: cost 305 inf + 0
3.360 * * [simplify]: Extracting #3: cost 439 inf + 32487
3.401 * * [simplify]: Extracting #4: cost 120 inf + 424195
3.449 * * [simplify]: Extracting #5: cost 24 inf + 622782
3.490 * * [simplify]: Extracting #6: cost 0 inf + 657198
3.540 * [simplify]: Simplified to (*.p16 (neg.p16 b) (*.p16 (/.p16 (+.p16 c (+.p16 a b)) (real->posit16 2)) (-.p16 (/.p16 (+.p16 c (+.p16 a b)) (real->posit16 2)) a)))
3.540 * [simplify]: Simplified (2 1 1 2) to (λ (a b c) (sqrt.p16 (*.p16 (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (*.p16 (neg.p16 b) (*.p16 (/.p16 (+.p16 c (+.p16 a b)) (real->posit16 2)) (-.p16 (/.p16 (+.p16 c (+.p16 a b)) (real->posit16 2)) a)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
3.540 * * * * [progress]: [ 9 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
3.540 * [simplify]: Simplifying (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))
3.540 * * [simplify]: iters left: 3 (8 enodes)
3.542 * * [simplify]: iters left: 2 (19 enodes)
3.546 * * [simplify]: iters left: 1 (25 enodes)
3.550 * * [simplify]: Extracting #0: cost 1 inf + 0
3.550 * * [simplify]: Extracting #1: cost 3 inf + 0
3.550 * * [simplify]: Extracting #2: cost 10 inf + 0
3.550 * * [simplify]: Extracting #3: cost 5 inf + 46
3.550 * * [simplify]: Extracting #4: cost 0 inf + 738
3.550 * [simplify]: Simplified to (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2))
3.550 * [simplify]: Simplified (2 1 1 1) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
3.550 * * * * [progress]: [ 10 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
3.551 * [simplify]: Simplifying (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)
3.551 * * [simplify]: iters left: 4 (9 enodes)
3.554 * * [simplify]: iters left: 3 (21 enodes)
3.557 * * [simplify]: iters left: 2 (27 enodes)
3.561 * * [simplify]: iters left: 1 (28 enodes)
3.565 * * [simplify]: Extracting #0: cost 1 inf + 0
3.566 * * [simplify]: Extracting #1: cost 3 inf + 0
3.566 * * [simplify]: Extracting #2: cost 4 inf + 1
3.566 * * [simplify]: Extracting #3: cost 10 inf + 1
3.566 * * [simplify]: Extracting #4: cost 5 inf + 47
3.566 * * [simplify]: Extracting #5: cost 1 inf + 738
3.566 * * [simplify]: Extracting #6: cost 0 inf + 1302
3.566 * [simplify]: Simplified to (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)
3.566 * [simplify]: Simplified (2 1 1 2) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
3.566 * * * * [progress]: [ 11 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
3.566 * [simplify]: Simplifying (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b))
3.567 * * [simplify]: iters left: 6 (14 enodes)
3.570 * * [simplify]: iters left: 5 (51 enodes)
3.580 * * [simplify]: iters left: 4 (173 enodes)
3.684 * * [simplify]: Extracting #0: cost 1 inf + 0
3.685 * * [simplify]: Extracting #1: cost 48 inf + 0
3.685 * * [simplify]: Extracting #2: cost 196 inf + 0
3.690 * * [simplify]: Extracting #3: cost 238 inf + 48206
3.716 * * [simplify]: Extracting #4: cost 92 inf + 288054
3.765 * * [simplify]: Extracting #5: cost 7 inf + 410909
3.812 * * [simplify]: Extracting #6: cost 0 inf + 425608
3.838 * * [simplify]: Extracting #7: cost 0 inf + 425528
3.872 * [simplify]: Simplified to (*.p16 (*.p16 (+.p16 a (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a)) (*.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b)))
3.872 * [simplify]: Simplified (2 1 1 1) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (+.p16 a (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a)) (*.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
3.873 * * * * [progress]: [ 12 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (+.p16 (+.p16 a b) c) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
3.873 * [simplify]: Simplifying (*.p16 (*.p16 (+.p16 (+.p16 a b) c) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b))
3.873 * * [simplify]: iters left: 6 (12 enodes)
3.879 * * [simplify]: iters left: 5 (40 enodes)
3.895 * * [simplify]: iters left: 4 (117 enodes)
3.978 * * [simplify]: Extracting #0: cost 1 inf + 0
3.978 * * [simplify]: Extracting #1: cost 45 inf + 0
3.978 * * [simplify]: Extracting #2: cost 164 inf + 0
3.979 * * [simplify]: Extracting #3: cost 241 inf + 1094
3.982 * * [simplify]: Extracting #4: cost 183 inf + 54639
3.993 * * [simplify]: Extracting #5: cost 31 inf + 243256
4.010 * * [simplify]: Extracting #6: cost 5 inf + 280996
4.026 * * [simplify]: Extracting #7: cost 0 inf + 291976
4.042 * [simplify]: Simplified to (*.p16 (*.p16 (+.p16 (+.p16 b a) c) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a))
4.042 * [simplify]: Simplified (2 1 1 1) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (+.p16 (+.p16 b a) c) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a)) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
4.042 * * * * [progress]: [ 13 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
4.042 * * * * [progress]: [ 14 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
4.043 * [simplify]: Simplifying (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))
4.043 * * [simplify]: iters left: 6 (15 enodes)
4.046 * * [simplify]: iters left: 5 (54 enodes)
4.057 * * [simplify]: iters left: 4 (174 enodes)
4.146 * * [simplify]: Extracting #0: cost 1 inf + 0
4.146 * * [simplify]: Extracting #1: cost 2 inf + 0
4.146 * * [simplify]: Extracting #2: cost 52 inf + 0
4.147 * * [simplify]: Extracting #3: cost 218 inf + 0
4.149 * * [simplify]: Extracting #4: cost 350 inf + 488
4.155 * * [simplify]: Extracting #5: cost 271 inf + 83278
4.173 * * [simplify]: Extracting #6: cost 99 inf + 301152
4.197 * * [simplify]: Extracting #7: cost 13 inf + 445414
4.224 * * [simplify]: Extracting #8: cost 0 inf + 471346
4.256 * [simplify]: Simplified to (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) c)))
4.256 * [simplify]: Simplified (2) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) c))))
4.256 * * * * [progress]: [ 15 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
4.256 * [simplify]: Simplifying (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))
4.256 * * [simplify]: iters left: 6 (15 enodes)
4.260 * * [simplify]: iters left: 5 (54 enodes)
4.280 * * [simplify]: iters left: 4 (174 enodes)
4.363 * * [simplify]: Extracting #0: cost 1 inf + 0
4.363 * * [simplify]: Extracting #1: cost 2 inf + 0
4.363 * * [simplify]: Extracting #2: cost 52 inf + 0
4.364 * * [simplify]: Extracting #3: cost 218 inf + 0
4.366 * * [simplify]: Extracting #4: cost 350 inf + 488
4.373 * * [simplify]: Extracting #5: cost 271 inf + 83278
4.390 * * [simplify]: Extracting #6: cost 99 inf + 301152
4.415 * * [simplify]: Extracting #7: cost 13 inf + 445414
4.458 * * [simplify]: Extracting #8: cost 0 inf + 471346
4.485 * [simplify]: Simplified to (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) c)))
4.485 * [simplify]: Simplified (2) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) c))))
4.485 * * * * [progress]: [ 16 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
4.485 * [simplify]: Simplifying (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))
4.485 * * [simplify]: iters left: 6 (15 enodes)
4.489 * * [simplify]: iters left: 5 (54 enodes)
4.501 * * [simplify]: iters left: 4 (174 enodes)
4.587 * * [simplify]: Extracting #0: cost 1 inf + 0
4.587 * * [simplify]: Extracting #1: cost 2 inf + 0
4.587 * * [simplify]: Extracting #2: cost 52 inf + 0
4.588 * * [simplify]: Extracting #3: cost 218 inf + 0
4.589 * * [simplify]: Extracting #4: cost 350 inf + 488
4.593 * * [simplify]: Extracting #5: cost 271 inf + 83278
4.617 * * [simplify]: Extracting #6: cost 99 inf + 301152
4.646 * * [simplify]: Extracting #7: cost 13 inf + 445414
4.679 * * [simplify]: Extracting #8: cost 0 inf + 471346
4.711 * [simplify]: Simplified to (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) c)))
4.711 * [simplify]: Simplified (2) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) c))))
4.711 * * * * [progress]: [ 17 / 17 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
4.711 * [simplify]: Simplifying (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))
4.711 * * [simplify]: iters left: 6 (15 enodes)
4.715 * * [simplify]: iters left: 5 (54 enodes)
4.725 * * [simplify]: iters left: 4 (174 enodes)
4.854 * * [simplify]: Extracting #0: cost 1 inf + 0
4.854 * * [simplify]: Extracting #1: cost 2 inf + 0
4.854 * * [simplify]: Extracting #2: cost 52 inf + 0
4.855 * * [simplify]: Extracting #3: cost 218 inf + 0
4.857 * * [simplify]: Extracting #4: cost 350 inf + 488
4.861 * * [simplify]: Extracting #5: cost 271 inf + 83278
4.875 * * [simplify]: Extracting #6: cost 99 inf + 301152
4.899 * * [simplify]: Extracting #7: cost 13 inf + 445414
4.926 * * [simplify]: Extracting #8: cost 0 inf + 471346
4.957 * [simplify]: Simplified to (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) c)))
4.957 * [simplify]: Simplified (2) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) c))))
4.957 * * * [progress]: adding candidates to table
5.633 * * [progress]: iteration 2 / 4
5.634 * * * [progress]: picking best candidate
5.746 * * * * [pick]: Picked  #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
5.746 * * * [progress]: localizing error
6.228 * * * [progress]: generating rewritten candidates
6.228 * * * * [progress]: [ 1 / 4 ] rewriting at (2 1 2)
6.339 * * * * [progress]: [ 2 / 4 ] rewriting at (2 1 1 1 2)
6.382 * * * * [progress]: [ 3 / 4 ] rewriting at (2 1 2 1)
6.387 * * * * [progress]: [ 4 / 4 ] rewriting at (2 1 1 2)
6.416 * * * [progress]: generating series expansions
6.416 * * * * [progress]: [ 1 / 4 ] generating series at (2 1 2)
6.416 * * * * [progress]: [ 2 / 4 ] generating series at (2 1 1 1 2)
6.416 * * * * [progress]: [ 3 / 4 ] generating series at (2 1 2 1)
6.416 * * * * [progress]: [ 4 / 4 ] generating series at (2 1 1 2)
6.416 * * * [progress]: simplifying candidates
6.416 * * * * [progress]: [ 1 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (/.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))))>
6.416 * [simplify]: Simplifying (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)
6.416 * * [simplify]: iters left: 4 (9 enodes)
6.418 * * [simplify]: iters left: 3 (21 enodes)
6.422 * * [simplify]: iters left: 2 (27 enodes)
6.425 * * [simplify]: iters left: 1 (28 enodes)
6.429 * * [simplify]: Extracting #0: cost 1 inf + 0
6.429 * * [simplify]: Extracting #1: cost 3 inf + 0
6.429 * * [simplify]: Extracting #2: cost 4 inf + 1
6.429 * * [simplify]: Extracting #3: cost 10 inf + 1
6.429 * * [simplify]: Extracting #4: cost 5 inf + 47
6.429 * * [simplify]: Extracting #5: cost 1 inf + 738
6.429 * * [simplify]: Extracting #6: cost 0 inf + 1302
6.429 * [simplify]: Simplified to (+.p16 c (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)))
6.429 * [simplify]: Simplified (2 1 2 1) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (+.p16 c (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2))) (/.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))))
6.429 * * * * [progress]: [ 2 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 c c) (*.p16 c c))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)))))))>
6.430 * [simplify]: Simplifying (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 c c) (*.p16 c c)))
6.430 * * [simplify]: iters left: 6 (13 enodes)
6.433 * * [simplify]: iters left: 5 (46 enodes)
6.442 * * [simplify]: iters left: 4 (130 enodes)
6.479 * * [simplify]: Extracting #0: cost 1 inf + 0
6.479 * * [simplify]: Extracting #1: cost 25 inf + 0
6.480 * * [simplify]: Extracting #2: cost 62 inf + 0
6.480 * * [simplify]: Extracting #3: cost 154 inf + 82
6.481 * * [simplify]: Extracting #4: cost 155 inf + 19368
6.486 * * [simplify]: Extracting #5: cost 49 inf + 150527
6.497 * * [simplify]: Extracting #6: cost 3 inf + 233588
6.509 * * [simplify]: Extracting #7: cost 0 inf + 242680
6.521 * [simplify]: Simplified to (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)) (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2))) (*.p16 (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)) (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)))) (*.p16 (*.p16 c c) (*.p16 c c)))
6.521 * [simplify]: Simplified (2 1 2 1) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)) (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2))) (*.p16 (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)) (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)))) (*.p16 (*.p16 c c) (*.p16 c c))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)))))))
6.521 * * * * [progress]: [ 3 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (neg.p16 a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.521 * * * * [progress]: [ 4 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.521 * * * * [progress]: [ 5 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.521 * [simplify]: Simplifying (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)
6.521 * * [simplify]: iters left: 4 (9 enodes)
6.523 * * [simplify]: iters left: 3 (21 enodes)
6.526 * * [simplify]: iters left: 2 (27 enodes)
6.530 * * [simplify]: iters left: 1 (28 enodes)
6.534 * * [simplify]: Extracting #0: cost 1 inf + 0
6.534 * * [simplify]: Extracting #1: cost 3 inf + 0
6.534 * * [simplify]: Extracting #2: cost 4 inf + 1
6.534 * * [simplify]: Extracting #3: cost 10 inf + 1
6.534 * * [simplify]: Extracting #4: cost 5 inf + 47
6.534 * * [simplify]: Extracting #5: cost 1 inf + 738
6.534 * * [simplify]: Extracting #6: cost 0 inf + 1302
6.534 * [simplify]: Simplified to (+.p16 c (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)))
6.534 * [simplify]: Simplified (2 1 2 1 1) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (*.p16 (+.p16 c (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))
6.534 * [simplify]: Simplifying (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)
6.534 * * [simplify]: iters left: 4 (9 enodes)
6.536 * * [simplify]: iters left: 3 (27 enodes)
6.541 * * [simplify]: iters left: 2 (47 enodes)
6.549 * * [simplify]: iters left: 1 (123 enodes)
6.581 * * [simplify]: Extracting #0: cost 1 inf + 0
6.581 * * [simplify]: Extracting #1: cost 15 inf + 0
6.581 * * [simplify]: Extracting #2: cost 52 inf + 82
6.581 * * [simplify]: Extracting #3: cost 87 inf + 1044
6.582 * * [simplify]: Extracting #4: cost 139 inf + 5615
6.583 * * [simplify]: Extracting #5: cost 117 inf + 19272
6.586 * * [simplify]: Extracting #6: cost 57 inf + 78981
6.594 * * [simplify]: Extracting #7: cost 8 inf + 157057
6.604 * * [simplify]: Extracting #8: cost 0 inf + 176049
6.613 * [simplify]: Simplified to (-.p16 (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)) c)
6.614 * [simplify]: Simplified (2 1 2 1 2) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (-.p16 (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)) c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))
6.614 * * * * [progress]: [ 6 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (neg.p16 (*.p16 c c))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.614 * * * * [progress]: [ 7 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 c c) (*.p16 c c))) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.614 * * * * [progress]: [ 8 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (neg.p16 b))) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.614 * * * * [progress]: [ 9 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b))) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.614 * * * * [progress]: [ 10 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.614 * * * * [progress]: [ 11 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.614 * * * * [progress]: [ 12 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.614 * * * * [progress]: [ 13 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
6.614 * * * [progress]: adding candidates to table
6.937 * * [progress]: iteration 3 / 4
6.937 * * * [progress]: picking best candidate
6.980 * * * * [pick]: Picked  #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
6.980 * * * [progress]: localizing error
7.443 * * * [progress]: generating rewritten candidates
7.443 * * * * [progress]: [ 1 / 4 ] rewriting at (2 1 1 1 2)
7.562 * * * * [progress]: [ 2 / 4 ] rewriting at (2 1 1 1 2 1)
7.568 * * * * [progress]: [ 3 / 4 ] rewriting at (2 1 2)
7.609 * * * * [progress]: [ 4 / 4 ] rewriting at (2 1 1 2)
7.638 * * * [progress]: generating series expansions
7.638 * * * * [progress]: [ 1 / 4 ] generating series at (2 1 1 1 2)
7.639 * * * * [progress]: [ 2 / 4 ] generating series at (2 1 1 1 2 1)
7.639 * * * * [progress]: [ 3 / 4 ] generating series at (2 1 2)
7.639 * * * * [progress]: [ 4 / 4 ] generating series at (2 1 1 2)
7.639 * * * [progress]: simplifying candidates
7.639 * * * * [progress]: [ 1 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (/.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.639 * [simplify]: Simplifying (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)
7.639 * * [simplify]: iters left: 4 (9 enodes)
7.641 * * [simplify]: iters left: 3 (21 enodes)
7.645 * * [simplify]: iters left: 2 (27 enodes)
7.649 * * [simplify]: iters left: 1 (28 enodes)
7.652 * * [simplify]: Extracting #0: cost 1 inf + 0
7.652 * * [simplify]: Extracting #1: cost 3 inf + 0
7.652 * * [simplify]: Extracting #2: cost 4 inf + 1
7.652 * * [simplify]: Extracting #3: cost 10 inf + 1
7.652 * * [simplify]: Extracting #4: cost 1 inf + 738
7.653 * * [simplify]: Extracting #5: cost 0 inf + 1302
7.653 * [simplify]: Simplified to (+.p16 a (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))
7.653 * [simplify]: Simplified (2 1 1 1 2 1) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 a (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (/.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
7.653 * * * * [progress]: [ 2 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 a a) (*.p16 a a))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.653 * [simplify]: Simplifying (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 a a) (*.p16 a a)))
7.653 * * [simplify]: iters left: 6 (13 enodes)
7.656 * * [simplify]: iters left: 5 (46 enodes)
7.665 * * [simplify]: iters left: 4 (130 enodes)
7.702 * * [simplify]: Extracting #0: cost 1 inf + 0
7.702 * * [simplify]: Extracting #1: cost 25 inf + 0
7.703 * * [simplify]: Extracting #2: cost 62 inf + 0
7.703 * * [simplify]: Extracting #3: cost 155 inf + 1
7.704 * * [simplify]: Extracting #4: cost 156 inf + 18688
7.710 * * [simplify]: Extracting #5: cost 41 inf + 165081
7.721 * * [simplify]: Extracting #6: cost 3 inf + 231747
7.734 * * [simplify]: Extracting #7: cost 0 inf + 241279
7.747 * [simplify]: Simplified to (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (*.p16 (*.p16 a a) (*.p16 a a)))
7.747 * [simplify]: Simplified (2 1 1 1 2 1) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (*.p16 (*.p16 a a) (*.p16 a a))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
7.747 * * * * [progress]: [ 3 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.747 * [simplify]: Simplifying (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)
7.747 * * [simplify]: iters left: 4 (9 enodes)
7.750 * * [simplify]: iters left: 3 (21 enodes)
7.753 * * [simplify]: iters left: 2 (27 enodes)
7.756 * * [simplify]: iters left: 1 (28 enodes)
7.760 * * [simplify]: Extracting #0: cost 1 inf + 0
7.760 * * [simplify]: Extracting #1: cost 3 inf + 0
7.760 * * [simplify]: Extracting #2: cost 4 inf + 1
7.760 * * [simplify]: Extracting #3: cost 10 inf + 1
7.760 * * [simplify]: Extracting #4: cost 1 inf + 738
7.760 * * [simplify]: Extracting #5: cost 0 inf + 1302
7.760 * [simplify]: Simplified to (+.p16 a (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))
7.760 * [simplify]: Simplified (2 1 1 1 2 1 1) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (*.p16 (+.p16 a (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
7.761 * [simplify]: Simplifying (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)
7.761 * * [simplify]: iters left: 4 (9 enodes)
7.763 * * [simplify]: iters left: 3 (27 enodes)
7.767 * * [simplify]: iters left: 2 (47 enodes)
7.778 * * [simplify]: iters left: 1 (123 enodes)
7.809 * * [simplify]: Extracting #0: cost 1 inf + 0
7.809 * * [simplify]: Extracting #1: cost 15 inf + 0
7.809 * * [simplify]: Extracting #2: cost 53 inf + 1
7.809 * * [simplify]: Extracting #3: cost 87 inf + 1044
7.810 * * [simplify]: Extracting #4: cost 138 inf + 5657
7.811 * * [simplify]: Extracting #5: cost 115 inf + 19438
7.814 * * [simplify]: Extracting #6: cost 57 inf + 78981
7.822 * * [simplify]: Extracting #7: cost 8 inf + 157057
7.831 * * [simplify]: Extracting #8: cost 0 inf + 176049
7.840 * [simplify]: Simplified to (-.p16 (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)) a)
7.840 * [simplify]: Simplified (2 1 1 1 2 1 2) to (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (-.p16 (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)) a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
7.840 * * * * [progress]: [ 4 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (neg.p16 (*.p16 a a))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.840 * * * * [progress]: [ 5 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 a a) (*.p16 a a))) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.841 * * * * [progress]: [ 6 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (neg.p16 c)))))>
7.841 * * * * [progress]: [ 7 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
7.841 * * * * [progress]: [ 8 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (neg.p16 b))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.841 * * * * [progress]: [ 9 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.841 * * * * [progress]: [ 10 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.841 * * * * [progress]: [ 11 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.841 * * * * [progress]: [ 12 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.841 * * * * [progress]: [ 13 / 13 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
7.841 * * * [progress]: adding candidates to table
8.261 * * [progress]: iteration 4 / 4
8.261 * * * [progress]: picking best candidate
8.310 * * * * [pick]: Picked  #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
8.310 * * * [progress]: localizing error
8.741 * * * [progress]: generating rewritten candidates
8.741 * * * * [progress]: [ 1 / 4 ] rewriting at (2 1 1)
8.801 * * * * [progress]: [ 2 / 4 ] rewriting at (2 1 1 1 1 2)
8.833 * * * * [progress]: [ 3 / 4 ] rewriting at (2 1 1 1 2)
8.838 * * * * [progress]: [ 4 / 4 ] rewriting at (2 1 2)
8.877 * * * [progress]: generating series expansions
8.877 * * * * [progress]: [ 1 / 4 ] generating series at (2 1 1)
8.877 * * * * [progress]: [ 2 / 4 ] generating series at (2 1 1 1 1 2)
8.877 * * * * [progress]: [ 3 / 4 ] generating series at (2 1 1 1 2)
8.877 * * * * [progress]: [ 4 / 4 ] generating series at (2 1 2)
8.877 * * * [progress]: simplifying candidates
8.877 * * * * [progress]: [ 1 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (/.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
8.878 * [simplify]: Simplifying (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))
8.878 * * [simplify]: iters left: 5 (10 enodes)
8.882 * * [simplify]: iters left: 4 (31 enodes)
8.891 * * [simplify]: iters left: 3 (69 enodes)
8.912 * * [simplify]: iters left: 2 (236 enodes)
9.015 * * [simplify]: Extracting #0: cost 1 inf + 0
9.015 * * [simplify]: Extracting #1: cost 28 inf + 0
9.016 * * [simplify]: Extracting #2: cost 177 inf + 0
9.018 * * [simplify]: Extracting #3: cost 283 inf + 4676
9.025 * * [simplify]: Extracting #4: cost 222 inf + 71591
9.052 * * [simplify]: Extracting #5: cost 74 inf + 271572
9.097 * * [simplify]: Extracting #6: cost 0 inf + 386691
9.139 * * [simplify]: Extracting #7: cost 0 inf + 386051
9.179 * [simplify]: Simplified to (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))
9.180 * [simplify]: Simplified (2 1 1 1) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (/.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
9.180 * * * * [progress]: [ 2 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 b b) (*.p16 b b)))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
9.180 * [simplify]: Simplifying (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 b b) (*.p16 b b))))
9.180 * * [simplify]: iters left: 6 (16 enodes)
9.188 * * [simplify]: iters left: 5 (61 enodes)
9.212 * * [simplify]: iters left: 4 (216 enodes)
9.315 * * [simplify]: Extracting #0: cost 1 inf + 0
9.315 * * [simplify]: Extracting #1: cost 48 inf + 0
9.315 * * [simplify]: Extracting #2: cost 223 inf + 0
9.319 * * [simplify]: Extracting #3: cost 263 inf + 69049
9.338 * * [simplify]: Extracting #4: cost 150 inf + 380736
9.371 * * [simplify]: Extracting #5: cost 3 inf + 627261
9.426 * * [simplify]: Extracting #6: cost 0 inf + 635593
9.470 * [simplify]: Simplified to (*.p16 (*.p16 (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (*.p16 b b)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (*.p16 b b))) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))))
9.470 * [simplify]: Simplified (2 1 1 1) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (*.p16 b b)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))) (*.p16 b b))) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
9.471 * * * * [progress]: [ 3 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
9.471 * [simplify]: Simplifying (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))
9.471 * * [simplify]: iters left: 6 (15 enodes)
9.479 * * [simplify]: iters left: 5 (55 enodes)
9.501 * * [simplify]: iters left: 4 (194 enodes)
9.588 * * [simplify]: Extracting #0: cost 1 inf + 0
9.589 * * [simplify]: Extracting #1: cost 59 inf + 0
9.589 * * [simplify]: Extracting #2: cost 262 inf + 0
9.592 * * [simplify]: Extracting #3: cost 306 inf + 47598
9.610 * * [simplify]: Extracting #4: cost 150 inf + 352982
9.647 * * [simplify]: Extracting #5: cost 10 inf + 577466
9.686 * * [simplify]: Extracting #6: cost 0 inf + 595542
9.742 * [simplify]: Simplified to (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (+.p16 a (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))))
9.742 * [simplify]: Simplified (2 1 1 1) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)))) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a) (+.p16 a (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2))))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
9.743 * * * * [progress]: [ 4 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (+.p16 (+.p16 a b) c) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (real->posit16 2))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
9.743 * [simplify]: Simplifying (*.p16 (*.p16 (+.p16 (+.p16 a b) c) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))
9.743 * * [simplify]: iters left: 6 (14 enodes)
9.749 * * [simplify]: iters left: 5 (49 enodes)
9.767 * * [simplify]: iters left: 4 (169 enodes)
9.860 * * [simplify]: Extracting #0: cost 1 inf + 0
9.860 * * [simplify]: Extracting #1: cost 57 inf + 0
9.861 * * [simplify]: Extracting #2: cost 236 inf + 0
9.863 * * [simplify]: Extracting #3: cost 335 inf + 695
9.870 * * [simplify]: Extracting #4: cost 268 inf + 84470
9.887 * * [simplify]: Extracting #5: cost 93 inf + 311002
9.916 * * [simplify]: Extracting #6: cost 21 inf + 436169
9.952 * * [simplify]: Extracting #7: cost 1 inf + 484889
9.994 * * [simplify]: Extracting #8: cost 0 inf + 488053
10.040 * [simplify]: Simplified to (*.p16 (+.p16 (+.p16 b a) c) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a))))
10.040 * [simplify]: Simplified (2 1 1 1) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (+.p16 (+.p16 b a) c) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (*.p16 (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) b) (-.p16 (/.p16 (+.p16 (+.p16 b a) c) (real->posit16 2)) a)))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (real->posit16 2))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
10.040 * * * * [progress]: [ 5 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (neg.p16 a))) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
10.040 * * * * [progress]: [ 6 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
10.040 * * * * [progress]: [ 7 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
10.040 * [simplify]: Simplifying (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)
10.041 * * [simplify]: iters left: 4 (9 enodes)
10.044 * * [simplify]: iters left: 3 (21 enodes)
10.049 * * [simplify]: iters left: 2 (27 enodes)
10.053 * * [simplify]: iters left: 1 (28 enodes)
10.060 * * [simplify]: Extracting #0: cost 1 inf + 0
10.060 * * [simplify]: Extracting #1: cost 3 inf + 0
10.060 * * [simplify]: Extracting #2: cost 4 inf + 1
10.060 * * [simplify]: Extracting #3: cost 10 inf + 1
10.060 * * [simplify]: Extracting #4: cost 5 inf + 47
10.060 * * [simplify]: Extracting #5: cost 1 inf + 738
10.060 * * [simplify]: Extracting #6: cost 0 inf + 1302
10.061 * [simplify]: Simplified to (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)
10.061 * [simplify]: Simplified (2 1 1 1 2 1) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (*.p16 (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
10.061 * [simplify]: Simplifying (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)
10.061 * * [simplify]: iters left: 4 (9 enodes)
10.065 * * [simplify]: iters left: 3 (27 enodes)
10.073 * * [simplify]: iters left: 2 (47 enodes)
10.087 * * [simplify]: iters left: 1 (123 enodes)
10.141 * * [simplify]: Extracting #0: cost 1 inf + 0
10.141 * * [simplify]: Extracting #1: cost 15 inf + 0
10.141 * * [simplify]: Extracting #2: cost 52 inf + 82
10.141 * * [simplify]: Extracting #3: cost 87 inf + 1044
10.142 * * [simplify]: Extracting #4: cost 139 inf + 5615
10.143 * * [simplify]: Extracting #5: cost 117 inf + 19352
10.146 * * [simplify]: Extracting #6: cost 58 inf + 77497
10.155 * * [simplify]: Extracting #7: cost 8 inf + 157057
10.164 * * [simplify]: Extracting #8: cost 0 inf + 176049
10.173 * [simplify]: Simplified to (-.p16 (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)) b)
10.173 * [simplify]: Simplified (2 1 1 1 2 2) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (-.p16 (/.p16 (+.p16 b (+.p16 a c)) (real->posit16 2)) b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
10.173 * * * * [progress]: [ 8 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (neg.p16 (*.p16 b b)))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
10.173 * * * * [progress]: [ 9 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 b b) (*.p16 b b))) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
10.173 * * * * [progress]: [ 10 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (neg.p16 c)))))>
10.173 * * * * [progress]: [ 11 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))>
10.173 * * * * [progress]: [ 12 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
10.173 * [simplify]: Simplifying (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)
10.173 * * [simplify]: iters left: 4 (9 enodes)
10.176 * * [simplify]: iters left: 3 (21 enodes)
10.179 * * [simplify]: iters left: 2 (27 enodes)
10.182 * * [simplify]: iters left: 1 (28 enodes)
10.186 * * [simplify]: Extracting #0: cost 1 inf + 0
10.186 * * [simplify]: Extracting #1: cost 3 inf + 0
10.186 * * [simplify]: Extracting #2: cost 4 inf + 1
10.186 * * [simplify]: Extracting #3: cost 10 inf + 1
10.186 * * [simplify]: Extracting #4: cost 5 inf + 47
10.186 * * [simplify]: Extracting #5: cost 1 inf + 738
10.186 * * [simplify]: Extracting #6: cost 0 inf + 1302
10.187 * [simplify]: Simplified to (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)
10.187 * [simplify]: Simplified (2 1 1 2) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
10.187 * * * * [progress]: [ 13 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
10.187 * [simplify]: Simplifying (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)
10.187 * * [simplify]: iters left: 4 (9 enodes)
10.189 * * [simplify]: iters left: 3 (21 enodes)
10.194 * * [simplify]: iters left: 2 (27 enodes)
10.198 * * [simplify]: iters left: 1 (28 enodes)
10.201 * * [simplify]: Extracting #0: cost 1 inf + 0
10.201 * * [simplify]: Extracting #1: cost 3 inf + 0
10.201 * * [simplify]: Extracting #2: cost 4 inf + 1
10.202 * * [simplify]: Extracting #3: cost 10 inf + 1
10.202 * * [simplify]: Extracting #4: cost 5 inf + 47
10.202 * * [simplify]: Extracting #5: cost 1 inf + 738
10.202 * * [simplify]: Extracting #6: cost 0 inf + 1302
10.202 * [simplify]: Simplified to (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)
10.202 * [simplify]: Simplified (2 1 1 2) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
10.202 * * * * [progress]: [ 14 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
10.203 * [simplify]: Simplifying (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)
10.203 * * [simplify]: iters left: 4 (9 enodes)
10.205 * * [simplify]: iters left: 3 (21 enodes)
10.208 * * [simplify]: iters left: 2 (27 enodes)
10.211 * * [simplify]: iters left: 1 (28 enodes)
10.215 * * [simplify]: Extracting #0: cost 1 inf + 0
10.215 * * [simplify]: Extracting #1: cost 3 inf + 0
10.215 * * [simplify]: Extracting #2: cost 4 inf + 1
10.215 * * [simplify]: Extracting #3: cost 10 inf + 1
10.215 * * [simplify]: Extracting #4: cost 5 inf + 47
10.215 * * [simplify]: Extracting #5: cost 1 inf + 738
10.215 * * [simplify]: Extracting #6: cost 0 inf + 1302
10.215 * [simplify]: Simplified to (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)
10.215 * [simplify]: Simplified (2 1 1 2) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
10.215 * * * * [progress]: [ 15 / 15 ] simplifiying candidate #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>
10.216 * [simplify]: Simplifying (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)
10.216 * * [simplify]: iters left: 4 (9 enodes)
10.218 * * [simplify]: iters left: 3 (21 enodes)
10.221 * * [simplify]: iters left: 2 (27 enodes)
10.224 * * [simplify]: iters left: 1 (28 enodes)
10.231 * * [simplify]: Extracting #0: cost 1 inf + 0
10.231 * * [simplify]: Extracting #1: cost 3 inf + 0
10.231 * * [simplify]: Extracting #2: cost 4 inf + 1
10.231 * * [simplify]: Extracting #3: cost 10 inf + 1
10.231 * * [simplify]: Extracting #4: cost 5 inf + 47
10.231 * * [simplify]: Extracting #5: cost 1 inf + 738
10.231 * * [simplify]: Extracting #6: cost 0 inf + 1302
10.232 * [simplify]: Simplified to (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)
10.232 * [simplify]: Simplified (2 1 1 2) to (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 a (+.p16 c b)) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
10.232 * * * [progress]: adding candidates to table
10.679 * [progress]: [Phase 3 of 3] Extracting.
10.679 * * [regime]: Finding splitpoints for: (#<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 b b) (*.p16 b b)))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 c c) (*.p16 c c))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)))))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 a a) (*.p16 a a))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>)
10.685 * * * [regime-changes]: Trying 3 branch expressions: (c b a)
10.685 * * * * [regimes]: Trying to branch on c from (#<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 b b) (*.p16 b b)))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 c c) (*.p16 c c))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)))))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 a a) (*.p16 a a))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>)
10.850 * * * * [regimes]: Trying to branch on b from (#<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 b b) (*.p16 b b)))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 c c) (*.p16 c c))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)))))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 a a) (*.p16 a a))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>)
11.033 * * * * [regimes]: Trying to branch on a from (#<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 b b) (*.p16 b b)))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b)))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 c c) (*.p16 c c))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)))))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c)))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (-.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)))) (*.p16 (*.p16 a a) (*.p16 a a))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a) (+.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))> #<alt (λ (a b c) (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 a a))) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (*.p16 (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a))) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))>)
11.227 * * * [regime]: Found split indices: #<option (#s(si 3 256))>
11.228 * [simplify]: Simplifying (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
11.228 * * [simplify]: iters left: 6 (22 enodes)
11.230 * * [simplify]: Extracting #0: cost 1 inf + 0
11.230 * * [simplify]: Extracting #1: cost 2 inf + 0
11.230 * * [simplify]: Extracting #2: cost 4 inf + 0
11.230 * * [simplify]: Extracting #3: cost 8 inf + 0
11.230 * * [simplify]: Extracting #4: cost 15 inf + 0
11.230 * * [simplify]: Extracting #5: cost 17 inf + 2
11.230 * * [simplify]: Extracting #6: cost 18 inf + 644
11.230 * * [simplify]: Extracting #7: cost 16 inf + 646
11.231 * * [simplify]: Extracting #8: cost 12 inf + 1296
11.231 * * [simplify]: Extracting #9: cost 4 inf + 10448
11.232 * * [simplify]: Extracting #10: cost 1 inf + 17060
11.233 * * [simplify]: Extracting #11: cost 0 inf + 20744
11.234 * [simplify]: Simplified to (sqrt.p16 (*.p16 (/.p16 (*.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (-.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) a)) (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 b b))) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) b)) (/.p16 (-.p16 (*.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2))) (*.p16 c c)) (+.p16 (/.p16 (+.p16 (+.p16 a b) c) (real->posit16 2)) c))))
11.234 * * * * [points]: Sampling 8000 additional inputs, on iter 0 have 0 / 8000
11.285 * * * * [points]: Computing exacts on every 500 of 8000 points to ramp up precision
11.292 * * * * [points]: Setting MPFR precision to 64
11.303 * * * * [points]: Setting MPFR precision to 320
11.305 * * * * [points]: Computing exacts on every 250 of 8000 points to ramp up precision
11.311 * * * * [points]: Setting MPFR precision to 64
11.315 * * * * [points]: Setting MPFR precision to 320
11.318 * * * * [points]: Computing exacts on every 125 of 8000 points to ramp up precision
11.324 * * * * [points]: Setting MPFR precision to 64
11.332 * * * * [points]: Setting MPFR precision to 320
11.339 * * * * [points]: Computing exacts on every 62 of 8000 points to ramp up precision
11.345 * * * * [points]: Setting MPFR precision to 64
11.359 * * * * [points]: Setting MPFR precision to 320
11.373 * * * * [points]: Computing exacts on every 31 of 8000 points to ramp up precision
11.379 * * * * [points]: Setting MPFR precision to 64
11.407 * * * * [points]: Setting MPFR precision to 320
11.435 * * * * [points]: Computing exacts on every 15 of 8000 points to ramp up precision
11.441 * * * * [points]: Setting MPFR precision to 64
11.528 * * * * [points]: Setting MPFR precision to 320
11.584 * * * * [points]: Computing exacts on every 7 of 8000 points to ramp up precision
11.590 * * * * [points]: Setting MPFR precision to 64
11.733 * * * * [points]: Setting MPFR precision to 320
11.839 * * * * [points]: Computing exacts on every 3 of 8000 points to ramp up precision
11.843 * * * * [points]: Setting MPFR precision to 64
12.147 * * * * [points]: Setting MPFR precision to 320
12.422 * * * * [points]: Computing exacts for 8000 points
12.429 * * * * [points]: Setting MPFR precision to 64
13.717 * * * * [points]: Setting MPFR precision to 320
14.839 * * * * [points]: Filtering points with unrepresentable outputs
14.846 * * * * [points]: Sampling 6989 additional inputs, on iter 1 have 1011 / 8000
14.923 * * * * [points]: Computing exacts on every 436 of 6989 points to ramp up precision
14.930 * * * * [points]: Setting MPFR precision to 64
14.932 * * * * [points]: Setting MPFR precision to 320
14.934 * * * * [points]: Computing exacts on every 218 of 6989 points to ramp up precision
14.940 * * * * [points]: Setting MPFR precision to 64
14.944 * * * * [points]: Setting MPFR precision to 320
14.947 * * * * [points]: Computing exacts on every 109 of 6989 points to ramp up precision
14.953 * * * * [points]: Setting MPFR precision to 64
14.960 * * * * [points]: Setting MPFR precision to 320
14.967 * * * * [points]: Computing exacts on every 54 of 6989 points to ramp up precision
14.973 * * * * [points]: Setting MPFR precision to 64
14.986 * * * * [points]: Setting MPFR precision to 320
15.001 * * * * [points]: Computing exacts on every 27 of 6989 points to ramp up precision
15.006 * * * * [points]: Setting MPFR precision to 64
15.033 * * * * [points]: Setting MPFR precision to 320
15.091 * * * * [points]: Computing exacts on every 13 of 6989 points to ramp up precision
15.097 * * * * [points]: Setting MPFR precision to 64
15.146 * * * * [points]: Setting MPFR precision to 320
15.195 * * * * [points]: Computing exacts on every 6 of 6989 points to ramp up precision
15.201 * * * * [points]: Setting MPFR precision to 64
15.321 * * * * [points]: Setting MPFR precision to 320
15.430 * * * * [points]: Computing exacts on every 3 of 6989 points to ramp up precision
15.475 * * * * [points]: Setting MPFR precision to 64
15.686 * * * * [points]: Setting MPFR precision to 320
15.906 * * * * [points]: Computing exacts for 6989 points
15.912 * * * * [points]: Setting MPFR precision to 64
17.047 * * * * [points]: Setting MPFR precision to 320
17.942 * * * * [points]: Filtering points with unrepresentable outputs
17.947 * * * * [points]: Sampling 6095 additional inputs, on iter 2 have 1905 / 8000
17.977 * * * * [points]: Computing exacts on every 380 of 6095 points to ramp up precision
17.982 * * * * [points]: Setting MPFR precision to 64
17.983 * * * * [points]: Setting MPFR precision to 320
17.984 * * * * [points]: Computing exacts on every 190 of 6095 points to ramp up precision
17.987 * * * * [points]: Setting MPFR precision to 64
17.991 * * * * [points]: Setting MPFR precision to 320
17.995 * * * * [points]: Computing exacts on every 95 of 6095 points to ramp up precision
18.001 * * * * [points]: Setting MPFR precision to 64
18.009 * * * * [points]: Setting MPFR precision to 320
18.016 * * * * [points]: Computing exacts on every 47 of 6095 points to ramp up precision
18.023 * * * * [points]: Setting MPFR precision to 64
18.038 * * * * [points]: Setting MPFR precision to 320
18.053 * * * * [points]: Computing exacts on every 23 of 6095 points to ramp up precision
18.059 * * * * [points]: Setting MPFR precision to 64
18.122 * * * * [points]: Setting MPFR precision to 320
18.149 * * * * [points]: Computing exacts on every 11 of 6095 points to ramp up precision
18.155 * * * * [points]: Setting MPFR precision to 64
18.212 * * * * [points]: Setting MPFR precision to 320
18.269 * * * * [points]: Computing exacts on every 5 of 6095 points to ramp up precision
18.275 * * * * [points]: Setting MPFR precision to 64
18.429 * * * * [points]: Setting MPFR precision to 320
18.568 * * * * [points]: Computing exacts on every 2 of 6095 points to ramp up precision
18.572 * * * * [points]: Setting MPFR precision to 64
18.816 * * * * [points]: Setting MPFR precision to 320
19.105 * * * * [points]: Computing exacts for 6095 points
19.111 * * * * [points]: Setting MPFR precision to 64
20.159 * * * * [points]: Setting MPFR precision to 320
21.035 * * * * [points]: Filtering points with unrepresentable outputs
21.041 * * * * [points]: Sampling 5313 additional inputs, on iter 3 have 2687 / 8000
21.080 * * * * [points]: Computing exacts on every 332 of 5313 points to ramp up precision
21.085 * * * * [points]: Setting MPFR precision to 64
21.086 * * * * [points]: Setting MPFR precision to 320
21.087 * * * * [points]: Computing exacts on every 166 of 5313 points to ramp up precision
21.091 * * * * [points]: Setting MPFR precision to 64
21.122 * * * * [points]: Setting MPFR precision to 320
21.124 * * * * [points]: Computing exacts on every 83 of 5313 points to ramp up precision
21.128 * * * * [points]: Setting MPFR precision to 64
21.134 * * * * [points]: Setting MPFR precision to 320
21.139 * * * * [points]: Computing exacts on every 41 of 5313 points to ramp up precision
21.143 * * * * [points]: Setting MPFR precision to 64
21.152 * * * * [points]: Setting MPFR precision to 320
21.161 * * * * [points]: Computing exacts on every 20 of 5313 points to ramp up precision
21.165 * * * * [points]: Setting MPFR precision to 64
21.183 * * * * [points]: Setting MPFR precision to 320
21.200 * * * * [points]: Computing exacts on every 10 of 5313 points to ramp up precision
21.204 * * * * [points]: Setting MPFR precision to 64
21.277 * * * * [points]: Setting MPFR precision to 320
21.337 * * * * [points]: Computing exacts on every 5 of 5313 points to ramp up precision
21.344 * * * * [points]: Setting MPFR precision to 64
21.414 * * * * [points]: Setting MPFR precision to 320
21.510 * * * * [points]: Computing exacts on every 2 of 5313 points to ramp up precision
21.514 * * * * [points]: Setting MPFR precision to 64
21.677 * * * * [points]: Setting MPFR precision to 320
21.917 * * * * [points]: Computing exacts for 5313 points
21.921 * * * * [points]: Setting MPFR precision to 64
22.522 * * * * [points]: Setting MPFR precision to 320
23.453 * * * * [points]: Filtering points with unrepresentable outputs
23.457 * * * * [points]: Sampling 4650 additional inputs, on iter 4 have 3350 / 8000
23.476 * * * * [points]: Computing exacts on every 290 of 4650 points to ramp up precision
23.480 * * * * [points]: Setting MPFR precision to 64
23.482 * * * * [points]: Setting MPFR precision to 320
23.483 * * * * [points]: Computing exacts on every 145 of 4650 points to ramp up precision
23.486 * * * * [points]: Setting MPFR precision to 64
23.489 * * * * [points]: Setting MPFR precision to 320
23.491 * * * * [points]: Computing exacts on every 72 of 4650 points to ramp up precision
23.494 * * * * [points]: Setting MPFR precision to 64
23.523 * * * * [points]: Setting MPFR precision to 320
23.528 * * * * [points]: Computing exacts on every 36 of 4650 points to ramp up precision
23.532 * * * * [points]: Setting MPFR precision to 64
23.543 * * * * [points]: Setting MPFR precision to 320
23.552 * * * * [points]: Computing exacts on every 18 of 4650 points to ramp up precision
23.556 * * * * [points]: Setting MPFR precision to 64
23.587 * * * * [points]: Setting MPFR precision to 320
23.619 * * * * [points]: Computing exacts on every 9 of 4650 points to ramp up precision
23.627 * * * * [points]: Setting MPFR precision to 64
23.686 * * * * [points]: Setting MPFR precision to 320
23.793 * * * * [points]: Computing exacts on every 4 of 4650 points to ramp up precision
23.801 * * * * [points]: Setting MPFR precision to 64
23.898 * * * * [points]: Setting MPFR precision to 320
24.055 * * * * [points]: Computing exacts on every 2 of 4650 points to ramp up precision
24.062 * * * * [points]: Setting MPFR precision to 64
24.292 * * * * [points]: Setting MPFR precision to 320
24.529 * * * * [points]: Computing exacts for 4650 points
24.537 * * * * [points]: Setting MPFR precision to 64
25.290 * * * * [points]: Setting MPFR precision to 320
26.056 * * * * [points]: Filtering points with unrepresentable outputs
26.058 * * * * [points]: Sampling 4089 additional inputs, on iter 5 have 3911 / 8000
26.075 * * * * [points]: Computing exacts on every 255 of 4089 points to ramp up precision
26.079 * * * * [points]: Setting MPFR precision to 64
26.080 * * * * [points]: Setting MPFR precision to 320
26.081 * * * * [points]: Computing exacts on every 127 of 4089 points to ramp up precision
26.085 * * * * [points]: Setting MPFR precision to 64
26.089 * * * * [points]: Setting MPFR precision to 320
26.093 * * * * [points]: Computing exacts on every 63 of 4089 points to ramp up precision
26.100 * * * * [points]: Setting MPFR precision to 64
26.108 * * * * [points]: Setting MPFR precision to 320
26.116 * * * * [points]: Computing exacts on every 31 of 4089 points to ramp up precision
26.123 * * * * [points]: Setting MPFR precision to 64
26.167 * * * * [points]: Setting MPFR precision to 320
26.186 * * * * [points]: Computing exacts on every 15 of 4089 points to ramp up precision
26.193 * * * * [points]: Setting MPFR precision to 64
26.228 * * * * [points]: Setting MPFR precision to 320
26.260 * * * * [points]: Computing exacts on every 7 of 4089 points to ramp up precision
26.267 * * * * [points]: Setting MPFR precision to 64
26.329 * * * * [points]: Setting MPFR precision to 320
26.414 * * * * [points]: Computing exacts on every 3 of 4089 points to ramp up precision
26.418 * * * * [points]: Setting MPFR precision to 64
26.490 * * * * [points]: Setting MPFR precision to 320
26.645 * * * * [points]: Computing exacts for 4089 points
26.653 * * * * [points]: Setting MPFR precision to 64
27.734 * * * * [points]: Setting MPFR precision to 320
28.251 * * * * [points]: Filtering points with unrepresentable outputs
28.255 * * * * [points]: Sampling 3544 additional inputs, on iter 6 have 4456 / 8000
28.281 * * * * [points]: Computing exacts on every 221 of 3544 points to ramp up precision
28.288 * * * * [points]: Setting MPFR precision to 64
28.291 * * * * [points]: Setting MPFR precision to 320
28.293 * * * * [points]: Computing exacts on every 110 of 3544 points to ramp up precision
28.300 * * * * [points]: Setting MPFR precision to 64
28.304 * * * * [points]: Setting MPFR precision to 320
28.308 * * * * [points]: Computing exacts on every 55 of 3544 points to ramp up precision
28.354 * * * * [points]: Setting MPFR precision to 64
28.366 * * * * [points]: Setting MPFR precision to 320
28.374 * * * * [points]: Computing exacts on every 27 of 3544 points to ramp up precision
28.381 * * * * [points]: Setting MPFR precision to 64
28.398 * * * * [points]: Setting MPFR precision to 320
28.415 * * * * [points]: Computing exacts on every 13 of 3544 points to ramp up precision
28.422 * * * * [points]: Setting MPFR precision to 64
28.456 * * * * [points]: Setting MPFR precision to 320
28.491 * * * * [points]: Computing exacts on every 6 of 3544 points to ramp up precision
28.498 * * * * [points]: Setting MPFR precision to 64
28.612 * * * * [points]: Setting MPFR precision to 320
28.680 * * * * [points]: Computing exacts on every 3 of 3544 points to ramp up precision
28.687 * * * * [points]: Setting MPFR precision to 64
28.805 * * * * [points]: Setting MPFR precision to 320
28.977 * * * * [points]: Computing exacts for 3544 points
28.984 * * * * [points]: Setting MPFR precision to 64
29.558 * * * * [points]: Setting MPFR precision to 320
30.182 * * * * [points]: Filtering points with unrepresentable outputs
30.188 * * * * [points]: Sampling 3106 additional inputs, on iter 7 have 4894 / 8000
30.212 * * * * [points]: Computing exacts on every 194 of 3106 points to ramp up precision
30.219 * * * * [points]: Setting MPFR precision to 64
30.221 * * * * [points]: Setting MPFR precision to 320
30.223 * * * * [points]: Computing exacts on every 97 of 3106 points to ramp up precision
30.230 * * * * [points]: Setting MPFR precision to 64
30.234 * * * * [points]: Setting MPFR precision to 320
30.239 * * * * [points]: Computing exacts on every 48 of 3106 points to ramp up precision
30.245 * * * * [points]: Setting MPFR precision to 64
30.253 * * * * [points]: Setting MPFR precision to 320
30.262 * * * * [points]: Computing exacts on every 24 of 3106 points to ramp up precision
30.269 * * * * [points]: Setting MPFR precision to 64
30.286 * * * * [points]: Setting MPFR precision to 320
30.302 * * * * [points]: Computing exacts on every 12 of 3106 points to ramp up precision
30.309 * * * * [points]: Setting MPFR precision to 64
30.340 * * * * [points]: Setting MPFR precision to 320
30.411 * * * * [points]: Computing exacts on every 6 of 3106 points to ramp up precision
30.421 * * * * [points]: Setting MPFR precision to 64
30.480 * * * * [points]: Setting MPFR precision to 320
30.538 * * * * [points]: Computing exacts on every 3 of 3106 points to ramp up precision
30.546 * * * * [points]: Setting MPFR precision to 64
30.700 * * * * [points]: Setting MPFR precision to 320
30.801 * * * * [points]: Computing exacts for 3106 points
30.808 * * * * [points]: Setting MPFR precision to 64
31.590 * * * * [points]: Setting MPFR precision to 320
32.019 * * * * [points]: Filtering points with unrepresentable outputs
32.020 * * * * [points]: Sampling 2717 additional inputs, on iter 8 have 5283 / 8000
32.032 * * * * [points]: Computing exacts on every 169 of 2717 points to ramp up precision
32.035 * * * * [points]: Setting MPFR precision to 64
32.037 * * * * [points]: Setting MPFR precision to 320
32.038 * * * * [points]: Computing exacts on every 84 of 2717 points to ramp up precision
32.041 * * * * [points]: Setting MPFR precision to 64
32.044 * * * * [points]: Setting MPFR precision to 320
32.046 * * * * [points]: Computing exacts on every 42 of 2717 points to ramp up precision
32.050 * * * * [points]: Setting MPFR precision to 64
32.054 * * * * [points]: Setting MPFR precision to 320
32.059 * * * * [points]: Computing exacts on every 21 of 2717 points to ramp up precision
32.063 * * * * [points]: Setting MPFR precision to 64
32.097 * * * * [points]: Setting MPFR precision to 320
32.107 * * * * [points]: Computing exacts on every 10 of 2717 points to ramp up precision
32.112 * * * * [points]: Setting MPFR precision to 64
32.130 * * * * [points]: Setting MPFR precision to 320
32.147 * * * * [points]: Computing exacts on every 5 of 2717 points to ramp up precision
32.151 * * * * [points]: Setting MPFR precision to 64
32.183 * * * * [points]: Setting MPFR precision to 320
32.245 * * * * [points]: Computing exacts on every 2 of 2717 points to ramp up precision
32.249 * * * * [points]: Setting MPFR precision to 64
32.314 * * * * [points]: Setting MPFR precision to 320
32.410 * * * * [points]: Computing exacts for 2717 points
32.414 * * * * [points]: Setting MPFR precision to 64
32.637 * * * * [points]: Setting MPFR precision to 320
32.895 * * * * [points]: Filtering points with unrepresentable outputs
32.896 * * * * [points]: Sampling 2399 additional inputs, on iter 9 have 5601 / 8000
32.906 * * * * [points]: Computing exacts on every 149 of 2399 points to ramp up precision
32.910 * * * * [points]: Setting MPFR precision to 64
32.912 * * * * [points]: Setting MPFR precision to 320
32.913 * * * * [points]: Computing exacts on every 74 of 2399 points to ramp up precision
32.916 * * * * [points]: Setting MPFR precision to 64
32.919 * * * * [points]: Setting MPFR precision to 320
32.921 * * * * [points]: Computing exacts on every 37 of 2399 points to ramp up precision
32.949 * * * * [points]: Setting MPFR precision to 64
32.954 * * * * [points]: Setting MPFR precision to 320
32.960 * * * * [points]: Computing exacts on every 18 of 2399 points to ramp up precision
32.964 * * * * [points]: Setting MPFR precision to 64
32.973 * * * * [points]: Setting MPFR precision to 320
32.983 * * * * [points]: Computing exacts on every 9 of 2399 points to ramp up precision
32.987 * * * * [points]: Setting MPFR precision to 64
33.005 * * * * [points]: Setting MPFR precision to 320
33.023 * * * * [points]: Computing exacts on every 4 of 2399 points to ramp up precision
33.026 * * * * [points]: Setting MPFR precision to 64
33.086 * * * * [points]: Setting MPFR precision to 320
33.122 * * * * [points]: Computing exacts on every 2 of 2399 points to ramp up precision
33.126 * * * * [points]: Setting MPFR precision to 64
33.184 * * * * [points]: Setting MPFR precision to 320
33.274 * * * * [points]: Computing exacts for 2399 points
33.278 * * * * [points]: Setting MPFR precision to 64
33.478 * * * * [points]: Setting MPFR precision to 320
33.833 * * * * [points]: Filtering points with unrepresentable outputs
33.835 * * * * [points]: Sampling 2123 additional inputs, on iter 10 have 5877 / 8000
33.852 * * * * [points]: Computing exacts on every 132 of 2123 points to ramp up precision
33.859 * * * * [points]: Setting MPFR precision to 64
33.862 * * * * [points]: Setting MPFR precision to 320
33.864 * * * * [points]: Computing exacts on every 66 of 2123 points to ramp up precision
33.870 * * * * [points]: Setting MPFR precision to 64
33.875 * * * * [points]: Setting MPFR precision to 320
33.879 * * * * [points]: Computing exacts on every 33 of 2123 points to ramp up precision
33.886 * * * * [points]: Setting MPFR precision to 64
33.894 * * * * [points]: Setting MPFR precision to 320
33.902 * * * * [points]: Computing exacts on every 16 of 2123 points to ramp up precision
33.909 * * * * [points]: Setting MPFR precision to 64
33.925 * * * * [points]: Setting MPFR precision to 320
33.942 * * * * [points]: Computing exacts on every 8 of 2123 points to ramp up precision
33.987 * * * * [points]: Setting MPFR precision to 64
34.022 * * * * [points]: Setting MPFR precision to 320
34.052 * * * * [points]: Computing exacts on every 4 of 2123 points to ramp up precision
34.059 * * * * [points]: Setting MPFR precision to 64
34.112 * * * * [points]: Setting MPFR precision to 320
34.168 * * * * [points]: Computing exacts on every 2 of 2123 points to ramp up precision
34.175 * * * * [points]: Setting MPFR precision to 64
34.745 * * * * [points]: Setting MPFR precision to 320
34.833 * * * * [points]: Computing exacts for 2123 points
34.841 * * * * [points]: Setting MPFR precision to 64
35.223 * * * * [points]: Setting MPFR precision to 320
35.539 * * * * [points]: Filtering points with unrepresentable outputs
35.540 * * * * [points]: Sampling 1882 additional inputs, on iter 11 have 6118 / 8000
35.554 * * * * [points]: Computing exacts on every 117 of 1882 points to ramp up precision
35.560 * * * * [points]: Setting MPFR precision to 64
35.562 * * * * [points]: Setting MPFR precision to 320
35.564 * * * * [points]: Computing exacts on every 58 of 1882 points to ramp up precision
35.570 * * * * [points]: Setting MPFR precision to 64
35.574 * * * * [points]: Setting MPFR precision to 320
35.578 * * * * [points]: Computing exacts on every 29 of 1882 points to ramp up precision
35.585 * * * * [points]: Setting MPFR precision to 64
35.592 * * * * [points]: Setting MPFR precision to 320
35.600 * * * * [points]: Computing exacts on every 14 of 1882 points to ramp up precision
35.607 * * * * [points]: Setting MPFR precision to 64
35.657 * * * * [points]: Setting MPFR precision to 320
35.674 * * * * [points]: Computing exacts on every 7 of 1882 points to ramp up precision
35.681 * * * * [points]: Setting MPFR precision to 64
35.709 * * * * [points]: Setting MPFR precision to 320
35.736 * * * * [points]: Computing exacts on every 3 of 1882 points to ramp up precision
35.743 * * * * [points]: Setting MPFR precision to 64
35.798 * * * * [points]: Setting MPFR precision to 320
35.899 * * * * [points]: Computing exacts for 1882 points
35.906 * * * * [points]: Setting MPFR precision to 64
36.117 * * * * [points]: Setting MPFR precision to 320
36.333 * * * * [points]: Filtering points with unrepresentable outputs
36.334 * * * * [points]: Sampling 1641 additional inputs, on iter 12 have 6359 / 8000
36.340 * * * * [points]: Computing exacts on every 102 of 1641 points to ramp up precision
36.344 * * * * [points]: Setting MPFR precision to 64
36.345 * * * * [points]: Setting MPFR precision to 320
36.347 * * * * [points]: Computing exacts on every 51 of 1641 points to ramp up precision
36.350 * * * * [points]: Setting MPFR precision to 64
36.353 * * * * [points]: Setting MPFR precision to 320
36.355 * * * * [points]: Computing exacts on every 25 of 1641 points to ramp up precision
36.360 * * * * [points]: Setting MPFR precision to 64
36.369 * * * * [points]: Setting MPFR precision to 320
36.377 * * * * [points]: Computing exacts on every 12 of 1641 points to ramp up precision
36.384 * * * * [points]: Setting MPFR precision to 64
36.401 * * * * [points]: Setting MPFR precision to 320
36.447 * * * * [points]: Computing exacts on every 6 of 1641 points to ramp up precision
36.457 * * * * [points]: Setting MPFR precision to 64
36.486 * * * * [points]: Setting MPFR precision to 320
36.513 * * * * [points]: Computing exacts on every 3 of 1641 points to ramp up precision
36.520 * * * * [points]: Setting MPFR precision to 64
36.572 * * * * [points]: Setting MPFR precision to 320
36.625 * * * * [points]: Computing exacts for 1641 points
36.633 * * * * [points]: Setting MPFR precision to 64
36.796 * * * * [points]: Setting MPFR precision to 320
36.989 * * * * [points]: Filtering points with unrepresentable outputs
36.991 * * * * [points]: Sampling 1431 additional inputs, on iter 13 have 6569 / 8000
37.005 * * * * [points]: Computing exacts on every 89 of 1431 points to ramp up precision
37.011 * * * * [points]: Setting MPFR precision to 64
37.013 * * * * [points]: Setting MPFR precision to 320
37.014 * * * * [points]: Computing exacts on every 44 of 1431 points to ramp up precision
37.018 * * * * [points]: Setting MPFR precision to 64
37.020 * * * * [points]: Setting MPFR precision to 320
37.023 * * * * [points]: Computing exacts on every 22 of 1431 points to ramp up precision
37.027 * * * * [points]: Setting MPFR precision to 64
37.031 * * * * [points]: Setting MPFR precision to 320
37.037 * * * * [points]: Computing exacts on every 11 of 1431 points to ramp up precision
37.041 * * * * [points]: Setting MPFR precision to 64
37.053 * * * * [points]: Setting MPFR precision to 320
37.069 * * * * [points]: Computing exacts on every 5 of 1431 points to ramp up precision
37.076 * * * * [points]: Setting MPFR precision to 64
37.107 * * * * [points]: Setting MPFR precision to 320
37.127 * * * * [points]: Computing exacts on every 2 of 1431 points to ramp up precision
37.153 * * * * [points]: Setting MPFR precision to 64
37.194 * * * * [points]: Setting MPFR precision to 320
37.235 * * * * [points]: Computing exacts for 1431 points
37.238 * * * * [points]: Setting MPFR precision to 64
37.373 * * * * [points]: Setting MPFR precision to 320
37.511 * * * * [points]: Filtering points with unrepresentable outputs
37.512 * * * * [points]: Sampling 1243 additional inputs, on iter 14 have 6757 / 8000
37.518 * * * * [points]: Computing exacts on every 77 of 1243 points to ramp up precision
37.523 * * * * [points]: Setting MPFR precision to 64
37.524 * * * * [points]: Setting MPFR precision to 320
37.525 * * * * [points]: Computing exacts on every 38 of 1243 points to ramp up precision
37.529 * * * * [points]: Setting MPFR precision to 64
37.531 * * * * [points]: Setting MPFR precision to 320
37.534 * * * * [points]: Computing exacts on every 19 of 1243 points to ramp up precision
37.537 * * * * [points]: Setting MPFR precision to 64
37.542 * * * * [points]: Setting MPFR precision to 320
37.546 * * * * [points]: Computing exacts on every 9 of 1243 points to ramp up precision
37.550 * * * * [points]: Setting MPFR precision to 64
37.558 * * * * [points]: Setting MPFR precision to 320
37.567 * * * * [points]: Computing exacts on every 4 of 1243 points to ramp up precision
37.595 * * * * [points]: Setting MPFR precision to 64
37.613 * * * * [points]: Setting MPFR precision to 320
37.630 * * * * [points]: Computing exacts on every 2 of 1243 points to ramp up precision
37.634 * * * * [points]: Setting MPFR precision to 64
37.665 * * * * [points]: Setting MPFR precision to 320
37.693 * * * * [points]: Computing exacts for 1243 points
37.697 * * * * [points]: Setting MPFR precision to 64
38.075 * * * * [points]: Setting MPFR precision to 320
38.196 * * * * [points]: Filtering points with unrepresentable outputs
38.197 * * * * [points]: Sampling 1082 additional inputs, on iter 15 have 6918 / 8000
38.201 * * * * [points]: Computing exacts on every 67 of 1082 points to ramp up precision
38.205 * * * * [points]: Setting MPFR precision to 64
38.206 * * * * [points]: Setting MPFR precision to 320
38.207 * * * * [points]: Computing exacts on every 33 of 1082 points to ramp up precision
38.211 * * * * [points]: Setting MPFR precision to 64
38.213 * * * * [points]: Setting MPFR precision to 320
38.216 * * * * [points]: Computing exacts on every 16 of 1082 points to ramp up precision
38.219 * * * * [points]: Setting MPFR precision to 64
38.224 * * * * [points]: Setting MPFR precision to 320
38.228 * * * * [points]: Computing exacts on every 8 of 1082 points to ramp up precision
38.232 * * * * [points]: Setting MPFR precision to 64
38.241 * * * * [points]: Setting MPFR precision to 320
38.277 * * * * [points]: Computing exacts on every 4 of 1082 points to ramp up precision
38.281 * * * * [points]: Setting MPFR precision to 64
38.298 * * * * [points]: Setting MPFR precision to 320
38.315 * * * * [points]: Computing exacts on every 2 of 1082 points to ramp up precision
38.318 * * * * [points]: Setting MPFR precision to 64
38.343 * * * * [points]: Setting MPFR precision to 320
38.368 * * * * [points]: Computing exacts for 1082 points
38.372 * * * * [points]: Setting MPFR precision to 64
38.476 * * * * [points]: Setting MPFR precision to 320
38.588 * * * * [points]: Filtering points with unrepresentable outputs
38.589 * * * * [points]: Sampling 951 additional inputs, on iter 16 have 7049 / 8000
38.593 * * * * [points]: Computing exacts on every 59 of 951 points to ramp up precision
38.597 * * * * [points]: Setting MPFR precision to 64
38.598 * * * * [points]: Setting MPFR precision to 320
38.599 * * * * [points]: Computing exacts on every 29 of 951 points to ramp up precision
38.603 * * * * [points]: Setting MPFR precision to 64
38.605 * * * * [points]: Setting MPFR precision to 320
38.607 * * * * [points]: Computing exacts on every 14 of 951 points to ramp up precision
38.611 * * * * [points]: Setting MPFR precision to 64
38.615 * * * * [points]: Setting MPFR precision to 320
38.620 * * * * [points]: Computing exacts on every 7 of 951 points to ramp up precision
38.623 * * * * [points]: Setting MPFR precision to 64
38.632 * * * * [points]: Setting MPFR precision to 320
38.640 * * * * [points]: Computing exacts on every 3 of 951 points to ramp up precision
38.643 * * * * [points]: Setting MPFR precision to 64
38.659 * * * * [points]: Setting MPFR precision to 320
38.705 * * * * [points]: Computing exacts for 951 points
38.709 * * * * [points]: Setting MPFR precision to 64
38.773 * * * * [points]: Setting MPFR precision to 320
38.874 * * * * [points]: Filtering points with unrepresentable outputs
38.874 * * * * [points]: Sampling 844 additional inputs, on iter 17 have 7156 / 8000
38.878 * * * * [points]: Computing exacts on every 52 of 844 points to ramp up precision
38.882 * * * * [points]: Setting MPFR precision to 64
38.883 * * * * [points]: Setting MPFR precision to 320
38.884 * * * * [points]: Computing exacts on every 26 of 844 points to ramp up precision
38.888 * * * * [points]: Setting MPFR precision to 64
38.890 * * * * [points]: Setting MPFR precision to 320
38.892 * * * * [points]: Computing exacts on every 13 of 844 points to ramp up precision
38.896 * * * * [points]: Setting MPFR precision to 64
38.900 * * * * [points]: Setting MPFR precision to 320
38.905 * * * * [points]: Computing exacts on every 6 of 844 points to ramp up precision
38.908 * * * * [points]: Setting MPFR precision to 64
38.917 * * * * [points]: Setting MPFR precision to 320
38.925 * * * * [points]: Computing exacts on every 3 of 844 points to ramp up precision
38.929 * * * * [points]: Setting MPFR precision to 64
38.969 * * * * [points]: Setting MPFR precision to 320
38.987 * * * * [points]: Computing exacts for 844 points
38.990 * * * * [points]: Setting MPFR precision to 64
39.049 * * * * [points]: Setting MPFR precision to 320
39.146 * * * * [points]: Filtering points with unrepresentable outputs
39.146 * * * * [points]: Sampling 744 additional inputs, on iter 18 have 7256 / 8000
39.150 * * * * [points]: Computing exacts on every 46 of 744 points to ramp up precision
39.153 * * * * [points]: Setting MPFR precision to 64
39.155 * * * * [points]: Setting MPFR precision to 320
39.156 * * * * [points]: Computing exacts on every 23 of 744 points to ramp up precision
39.159 * * * * [points]: Setting MPFR precision to 64
39.162 * * * * [points]: Setting MPFR precision to 320
39.164 * * * * [points]: Computing exacts on every 11 of 744 points to ramp up precision
39.167 * * * * [points]: Setting MPFR precision to 64
39.172 * * * * [points]: Setting MPFR precision to 320
39.177 * * * * [points]: Computing exacts on every 5 of 744 points to ramp up precision
39.180 * * * * [points]: Setting MPFR precision to 64
39.190 * * * * [points]: Setting MPFR precision to 320
39.198 * * * * [points]: Computing exacts on every 2 of 744 points to ramp up precision
39.202 * * * * [points]: Setting MPFR precision to 64
39.244 * * * * [points]: Setting MPFR precision to 320
39.264 * * * * [points]: Computing exacts for 744 points
39.268 * * * * [points]: Setting MPFR precision to 64
39.319 * * * * [points]: Setting MPFR precision to 320
39.406 * * * * [points]: Filtering points with unrepresentable outputs
39.407 * * * * [points]: Sampling 650 additional inputs, on iter 19 have 7350 / 8000
39.409 * * * * [points]: Computing exacts on every 40 of 650 points to ramp up precision
39.413 * * * * [points]: Setting MPFR precision to 64
39.414 * * * * [points]: Setting MPFR precision to 320
39.415 * * * * [points]: Computing exacts on every 20 of 650 points to ramp up precision
39.419 * * * * [points]: Setting MPFR precision to 64
39.421 * * * * [points]: Setting MPFR precision to 320
39.423 * * * * [points]: Computing exacts on every 10 of 650 points to ramp up precision
39.427 * * * * [points]: Setting MPFR precision to 64
39.431 * * * * [points]: Setting MPFR precision to 320
39.436 * * * * [points]: Computing exacts on every 5 of 650 points to ramp up precision
39.440 * * * * [points]: Setting MPFR precision to 64
39.447 * * * * [points]: Setting MPFR precision to 320
39.455 * * * * [points]: Computing exacts on every 2 of 650 points to ramp up precision
39.459 * * * * [points]: Setting MPFR precision to 64
39.474 * * * * [points]: Setting MPFR precision to 320
39.514 * * * * [points]: Computing exacts for 650 points
39.518 * * * * [points]: Setting MPFR precision to 64
39.565 * * * * [points]: Setting MPFR precision to 320
39.611 * * * * [points]: Filtering points with unrepresentable outputs
39.611 * * * * [points]: Sampling 568 additional inputs, on iter 20 have 7432 / 8000
39.613 * * * * [points]: Computing exacts on every 35 of 568 points to ramp up precision
39.617 * * * * [points]: Setting MPFR precision to 64
39.618 * * * * [points]: Setting MPFR precision to 320
39.619 * * * * [points]: Computing exacts on every 17 of 568 points to ramp up precision
39.651 * * * * [points]: Setting MPFR precision to 64
39.654 * * * * [points]: Setting MPFR precision to 320
39.656 * * * * [points]: Computing exacts on every 8 of 568 points to ramp up precision
39.661 * * * * [points]: Setting MPFR precision to 64
39.666 * * * * [points]: Setting MPFR precision to 320
39.670 * * * * [points]: Computing exacts on every 4 of 568 points to ramp up precision
39.674 * * * * [points]: Setting MPFR precision to 64
39.682 * * * * [points]: Setting MPFR precision to 320
39.690 * * * * [points]: Computing exacts on every 2 of 568 points to ramp up precision
39.694 * * * * [points]: Setting MPFR precision to 64
39.707 * * * * [points]: Setting MPFR precision to 320
39.720 * * * * [points]: Computing exacts for 568 points
39.724 * * * * [points]: Setting MPFR precision to 64
39.793 * * * * [points]: Setting MPFR precision to 320
39.833 * * * * [points]: Filtering points with unrepresentable outputs
39.833 * * * * [points]: Sampling 506 additional inputs, on iter 21 have 7494 / 8000
39.835 * * * * [points]: Computing exacts on every 31 of 506 points to ramp up precision
39.839 * * * * [points]: Setting MPFR precision to 64
39.840 * * * * [points]: Setting MPFR precision to 320
39.841 * * * * [points]: Computing exacts on every 15 of 506 points to ramp up precision
39.845 * * * * [points]: Setting MPFR precision to 64
39.847 * * * * [points]: Setting MPFR precision to 320
39.849 * * * * [points]: Computing exacts on every 7 of 506 points to ramp up precision
39.853 * * * * [points]: Setting MPFR precision to 64
39.857 * * * * [points]: Setting MPFR precision to 320
39.862 * * * * [points]: Computing exacts on every 3 of 506 points to ramp up precision
39.865 * * * * [points]: Setting MPFR precision to 64
39.874 * * * * [points]: Setting MPFR precision to 320
39.883 * * * * [points]: Computing exacts for 506 points
39.911 * * * * [points]: Setting MPFR precision to 64
39.949 * * * * [points]: Setting MPFR precision to 320
39.985 * * * * [points]: Filtering points with unrepresentable outputs
39.985 * * * * [points]: Sampling 461 additional inputs, on iter 22 have 7539 / 8000
39.987 * * * * [points]: Computing exacts on every 28 of 461 points to ramp up precision
39.991 * * * * [points]: Setting MPFR precision to 64
39.992 * * * * [points]: Setting MPFR precision to 320
39.993 * * * * [points]: Computing exacts on every 14 of 461 points to ramp up precision
39.997 * * * * [points]: Setting MPFR precision to 64
39.999 * * * * [points]: Setting MPFR precision to 320
40.001 * * * * [points]: Computing exacts on every 7 of 461 points to ramp up precision
40.005 * * * * [points]: Setting MPFR precision to 64
40.009 * * * * [points]: Setting MPFR precision to 320
40.013 * * * * [points]: Computing exacts on every 3 of 461 points to ramp up precision
40.043 * * * * [points]: Setting MPFR precision to 64
40.053 * * * * [points]: Setting MPFR precision to 320
40.061 * * * * [points]: Computing exacts for 461 points
40.065 * * * * [points]: Setting MPFR precision to 64
40.096 * * * * [points]: Setting MPFR precision to 320
40.127 * * * * [points]: Filtering points with unrepresentable outputs
40.127 * * * * [points]: Sampling 396 additional inputs, on iter 23 have 7604 / 8000
40.129 * * * * [points]: Computing exacts on every 24 of 396 points to ramp up precision
40.132 * * * * [points]: Setting MPFR precision to 64
40.134 * * * * [points]: Setting MPFR precision to 320
40.135 * * * * [points]: Computing exacts on every 12 of 396 points to ramp up precision
40.138 * * * * [points]: Setting MPFR precision to 64
40.140 * * * * [points]: Setting MPFR precision to 320
40.167 * * * * [points]: Computing exacts on every 6 of 396 points to ramp up precision
40.172 * * * * [points]: Setting MPFR precision to 64
40.178 * * * * [points]: Setting MPFR precision to 320
40.183 * * * * [points]: Computing exacts on every 3 of 396 points to ramp up precision
40.187 * * * * [points]: Setting MPFR precision to 64
40.194 * * * * [points]: Setting MPFR precision to 320
40.201 * * * * [points]: Computing exacts for 396 points
40.205 * * * * [points]: Setting MPFR precision to 64
40.231 * * * * [points]: Setting MPFR precision to 320
40.258 * * * * [points]: Filtering points with unrepresentable outputs
40.259 * * * * [points]: Sampling 347 additional inputs, on iter 24 have 7653 / 8000
40.260 * * * * [points]: Computing exacts on every 21 of 347 points to ramp up precision
40.264 * * * * [points]: Setting MPFR precision to 64
40.265 * * * * [points]: Setting MPFR precision to 320
40.266 * * * * [points]: Computing exacts on every 10 of 347 points to ramp up precision
40.568 * * * * [points]: Setting MPFR precision to 64
40.570 * * * * [points]: Setting MPFR precision to 320
40.572 * * * * [points]: Computing exacts on every 5 of 347 points to ramp up precision
40.578 * * * * [points]: Setting MPFR precision to 64
40.582 * * * * [points]: Setting MPFR precision to 320
40.587 * * * * [points]: Computing exacts on every 2 of 347 points to ramp up precision
40.591 * * * * [points]: Setting MPFR precision to 64
40.600 * * * * [points]: Setting MPFR precision to 320
40.608 * * * * [points]: Computing exacts for 347 points
40.612 * * * * [points]: Setting MPFR precision to 64
40.635 * * * * [points]: Setting MPFR precision to 320
40.659 * * * * [points]: Filtering points with unrepresentable outputs
40.660 * * * * [points]: Sampling 298 additional inputs, on iter 25 have 7702 / 8000
40.661 * * * * [points]: Computing exacts on every 18 of 298 points to ramp up precision
40.665 * * * * [points]: Setting MPFR precision to 64
40.666 * * * * [points]: Setting MPFR precision to 320
40.667 * * * * [points]: Computing exacts on every 9 of 298 points to ramp up precision
40.691 * * * * [points]: Setting MPFR precision to 64
40.694 * * * * [points]: Setting MPFR precision to 320
40.696 * * * * [points]: Computing exacts on every 4 of 298 points to ramp up precision
40.701 * * * * [points]: Setting MPFR precision to 64
40.705 * * * * [points]: Setting MPFR precision to 320
40.710 * * * * [points]: Computing exacts on every 2 of 298 points to ramp up precision
40.713 * * * * [points]: Setting MPFR precision to 64
40.721 * * * * [points]: Setting MPFR precision to 320
40.728 * * * * [points]: Computing exacts for 298 points
40.732 * * * * [points]: Setting MPFR precision to 64
40.753 * * * * [points]: Setting MPFR precision to 320
40.773 * * * * [points]: Filtering points with unrepresentable outputs
40.773 * * * * [points]: Sampling 261 additional inputs, on iter 26 have 7739 / 8000
40.774 * * * * [points]: Computing exacts on every 16 of 261 points to ramp up precision
40.778 * * * * [points]: Setting MPFR precision to 64
40.779 * * * * [points]: Setting MPFR precision to 320
40.780 * * * * [points]: Computing exacts on every 8 of 261 points to ramp up precision
40.784 * * * * [points]: Setting MPFR precision to 64
40.786 * * * * [points]: Setting MPFR precision to 320
40.788 * * * * [points]: Computing exacts on every 4 of 261 points to ramp up precision
40.813 * * * * [points]: Setting MPFR precision to 64
40.817 * * * * [points]: Setting MPFR precision to 320
40.822 * * * * [points]: Computing exacts on every 2 of 261 points to ramp up precision
40.826 * * * * [points]: Setting MPFR precision to 64
40.832 * * * * [points]: Setting MPFR precision to 320
40.838 * * * * [points]: Computing exacts for 261 points
40.842 * * * * [points]: Setting MPFR precision to 64
40.860 * * * * [points]: Setting MPFR precision to 320
40.878 * * * * [points]: Filtering points with unrepresentable outputs
40.878 * * * * [points]: Sampling 231 additional inputs, on iter 27 have 7769 / 8000
40.879 * * * * [points]: Computing exacts on every 14 of 231 points to ramp up precision
40.883 * * * * [points]: Setting MPFR precision to 64
40.884 * * * * [points]: Setting MPFR precision to 320
40.885 * * * * [points]: Computing exacts on every 7 of 231 points to ramp up precision
40.888 * * * * [points]: Setting MPFR precision to 64
40.890 * * * * [points]: Setting MPFR precision to 320
40.892 * * * * [points]: Computing exacts on every 3 of 231 points to ramp up precision
40.896 * * * * [points]: Setting MPFR precision to 64
40.900 * * * * [points]: Setting MPFR precision to 320
40.904 * * * * [points]: Computing exacts for 231 points
40.929 * * * * [points]: Setting MPFR precision to 64
40.947 * * * * [points]: Setting MPFR precision to 320
40.962 * * * * [points]: Filtering points with unrepresentable outputs
40.962 * * * * [points]: Sampling 204 additional inputs, on iter 28 have 7796 / 8000
40.963 * * * * [points]: Computing exacts on every 12 of 204 points to ramp up precision
40.967 * * * * [points]: Setting MPFR precision to 64
40.968 * * * * [points]: Setting MPFR precision to 320
40.969 * * * * [points]: Computing exacts on every 6 of 204 points to ramp up precision
40.973 * * * * [points]: Setting MPFR precision to 64
40.975 * * * * [points]: Setting MPFR precision to 320
40.977 * * * * [points]: Computing exacts on every 3 of 204 points to ramp up precision
40.981 * * * * [points]: Setting MPFR precision to 64
40.985 * * * * [points]: Setting MPFR precision to 320
40.989 * * * * [points]: Computing exacts for 204 points
40.992 * * * * [points]: Setting MPFR precision to 64
41.006 * * * * [points]: Setting MPFR precision to 320
41.020 * * * * [points]: Filtering points with unrepresentable outputs
41.020 * * * * [points]: Sampling 183 additional inputs, on iter 29 have 7817 / 8000
41.021 * * * * [points]: Computing exacts on every 11 of 183 points to ramp up precision
41.025 * * * * [points]: Setting MPFR precision to 64
41.044 * * * * [points]: Setting MPFR precision to 320
41.046 * * * * [points]: Computing exacts on every 5 of 183 points to ramp up precision
41.049 * * * * [points]: Setting MPFR precision to 64
41.051 * * * * [points]: Setting MPFR precision to 320
41.055 * * * * [points]: Computing exacts on every 2 of 183 points to ramp up precision
41.058 * * * * [points]: Setting MPFR precision to 64
41.062 * * * * [points]: Setting MPFR precision to 320
41.067 * * * * [points]: Computing exacts for 183 points
41.070 * * * * [points]: Setting MPFR precision to 64
41.082 * * * * [points]: Setting MPFR precision to 320
41.095 * * * * [points]: Filtering points with unrepresentable outputs
41.096 * * * * [points]: Sampling 159 additional inputs, on iter 30 have 7841 / 8000
41.096 * * * * [points]: Computing exacts on every 9 of 159 points to ramp up precision
41.100 * * * * [points]: Setting MPFR precision to 64
41.101 * * * * [points]: Setting MPFR precision to 320
41.102 * * * * [points]: Computing exacts on every 4 of 159 points to ramp up precision
41.105 * * * * [points]: Setting MPFR precision to 64
41.108 * * * * [points]: Setting MPFR precision to 320
41.110 * * * * [points]: Computing exacts on every 2 of 159 points to ramp up precision
41.113 * * * * [points]: Setting MPFR precision to 64
41.117 * * * * [points]: Setting MPFR precision to 320
41.120 * * * * [points]: Computing exacts for 159 points
41.124 * * * * [points]: Setting MPFR precision to 64
41.155 * * * * [points]: Setting MPFR precision to 320
41.168 * * * * [points]: Filtering points with unrepresentable outputs
41.168 * * * * [points]: Sampling 138 additional inputs, on iter 31 have 7862 / 8000
41.169 * * * * [points]: Computing exacts on every 8 of 138 points to ramp up precision
41.172 * * * * [points]: Setting MPFR precision to 64
41.174 * * * * [points]: Setting MPFR precision to 320
41.175 * * * * [points]: Computing exacts on every 4 of 138 points to ramp up precision
41.178 * * * * [points]: Setting MPFR precision to 64
41.180 * * * * [points]: Setting MPFR precision to 320
41.182 * * * * [points]: Computing exacts on every 2 of 138 points to ramp up precision
41.186 * * * * [points]: Setting MPFR precision to 64
41.189 * * * * [points]: Setting MPFR precision to 320
41.192 * * * * [points]: Computing exacts for 138 points
41.196 * * * * [points]: Setting MPFR precision to 64
41.205 * * * * [points]: Setting MPFR precision to 320
41.214 * * * * [points]: Filtering points with unrepresentable outputs
41.214 * * * * [points]: Sampling 119 additional inputs, on iter 32 have 7881 / 8000
41.215 * * * * [points]: Computing exacts on every 7 of 119 points to ramp up precision
41.219 * * * * [points]: Setting MPFR precision to 64
41.220 * * * * [points]: Setting MPFR precision to 320
41.221 * * * * [points]: Computing exacts on every 3 of 119 points to ramp up precision
41.224 * * * * [points]: Setting MPFR precision to 64
41.227 * * * * [points]: Setting MPFR precision to 320
41.229 * * * * [points]: Computing exacts for 119 points
41.232 * * * * [points]: Setting MPFR precision to 64
41.240 * * * * [points]: Setting MPFR precision to 320
41.271 * * * * [points]: Filtering points with unrepresentable outputs
41.271 * * * * [points]: Sampling 107 additional inputs, on iter 33 have 7893 / 8000
41.271 * * * * [points]: Computing exacts on every 6 of 107 points to ramp up precision
41.275 * * * * [points]: Setting MPFR precision to 64
41.276 * * * * [points]: Setting MPFR precision to 320
41.277 * * * * [points]: Computing exacts on every 3 of 107 points to ramp up precision
41.283 * * * * [points]: Setting MPFR precision to 64
41.285 * * * * [points]: Setting MPFR precision to 320
41.287 * * * * [points]: Computing exacts for 107 points
41.290 * * * * [points]: Setting MPFR precision to 64
41.298 * * * * [points]: Setting MPFR precision to 320
41.305 * * * * [points]: Filtering points with unrepresentable outputs
41.305 * * * * [points]: Sampling 91 additional inputs, on iter 34 have 7909 / 8000
41.305 * * * * [points]: Computing exacts on every 5 of 91 points to ramp up precision
41.309 * * * * [points]: Setting MPFR precision to 64
41.310 * * * * [points]: Setting MPFR precision to 320
41.311 * * * * [points]: Computing exacts on every 2 of 91 points to ramp up precision
41.315 * * * * [points]: Setting MPFR precision to 64
41.317 * * * * [points]: Setting MPFR precision to 320
41.319 * * * * [points]: Computing exacts for 91 points
41.323 * * * * [points]: Setting MPFR precision to 64
41.329 * * * * [points]: Setting MPFR precision to 320
41.335 * * * * [points]: Filtering points with unrepresentable outputs
41.336 * * * * [points]: Sampling 79 additional inputs, on iter 35 have 7921 / 8000
41.336 * * * * [points]: Computing exacts on every 4 of 79 points to ramp up precision
41.340 * * * * [points]: Setting MPFR precision to 64
41.341 * * * * [points]: Setting MPFR precision to 320
41.342 * * * * [points]: Computing exacts on every 2 of 79 points to ramp up precision
41.346 * * * * [points]: Setting MPFR precision to 64
41.348 * * * * [points]: Setting MPFR precision to 320
41.350 * * * * [points]: Computing exacts for 79 points
41.354 * * * * [points]: Setting MPFR precision to 64
41.359 * * * * [points]: Setting MPFR precision to 320
41.382 * * * * [points]: Filtering points with unrepresentable outputs
41.382 * * * * [points]: Sampling 74 additional inputs, on iter 36 have 7926 / 8000
41.383 * * * * [points]: Computing exacts on every 4 of 74 points to ramp up precision
41.387 * * * * [points]: Setting MPFR precision to 64
41.388 * * * * [points]: Setting MPFR precision to 320
41.389 * * * * [points]: Computing exacts on every 2 of 74 points to ramp up precision
41.393 * * * * [points]: Setting MPFR precision to 64
41.394 * * * * [points]: Setting MPFR precision to 320
41.396 * * * * [points]: Computing exacts for 74 points
41.399 * * * * [points]: Setting MPFR precision to 64
41.404 * * * * [points]: Setting MPFR precision to 320
41.409 * * * * [points]: Filtering points with unrepresentable outputs
41.409 * * * * [points]: Sampling 67 additional inputs, on iter 37 have 7933 / 8000
41.409 * * * * [points]: Computing exacts on every 4 of 67 points to ramp up precision
41.413 * * * * [points]: Setting MPFR precision to 64
41.414 * * * * [points]: Setting MPFR precision to 320
41.415 * * * * [points]: Computing exacts on every 2 of 67 points to ramp up precision
41.418 * * * * [points]: Setting MPFR precision to 64
41.420 * * * * [points]: Setting MPFR precision to 320
41.421 * * * * [points]: Computing exacts for 67 points
41.425 * * * * [points]: Setting MPFR precision to 64
41.429 * * * * [points]: Setting MPFR precision to 320
41.433 * * * * [points]: Filtering points with unrepresentable outputs
41.434 * * * * [points]: Sampling 59 additional inputs, on iter 38 have 7941 / 8000
41.434 * * * * [points]: Computing exacts on every 3 of 59 points to ramp up precision
41.437 * * * * [points]: Setting MPFR precision to 64
41.438 * * * * [points]: Setting MPFR precision to 320
41.439 * * * * [points]: Computing exacts for 59 points
41.443 * * * * [points]: Setting MPFR precision to 64
41.447 * * * * [points]: Setting MPFR precision to 320
41.451 * * * * [points]: Filtering points with unrepresentable outputs
41.451 * * * * [points]: Sampling 55 additional inputs, on iter 39 have 7945 / 8000
41.451 * * * * [points]: Computing exacts on every 3 of 55 points to ramp up precision
41.454 * * * * [points]: Setting MPFR precision to 64
41.455 * * * * [points]: Setting MPFR precision to 320
41.456 * * * * [points]: Computing exacts for 55 points
41.478 * * * * [points]: Setting MPFR precision to 64
41.482 * * * * [points]: Setting MPFR precision to 320
41.485 * * * * [points]: Filtering points with unrepresentable outputs
41.486 * * * * [points]: Sampling 51 additional inputs, on iter 40 have 7949 / 8000
41.486 * * * * [points]: Computing exacts on every 3 of 51 points to ramp up precision
41.491 * * * * [points]: Setting MPFR precision to 64
41.492 * * * * [points]: Setting MPFR precision to 320
41.493 * * * * [points]: Computing exacts for 51 points
41.496 * * * * [points]: Setting MPFR precision to 64
41.500 * * * * [points]: Setting MPFR precision to 320
41.504 * * * * [points]: Filtering points with unrepresentable outputs
41.504 * * * * [points]: Sampling 41 additional inputs, on iter 41 have 7959 / 8000
41.504 * * * * [points]: Computing exacts on every 2 of 41 points to ramp up precision
41.508 * * * * [points]: Setting MPFR precision to 64
41.509 * * * * [points]: Setting MPFR precision to 320
41.510 * * * * [points]: Computing exacts for 41 points
41.513 * * * * [points]: Setting MPFR precision to 64
41.516 * * * * [points]: Setting MPFR precision to 320
41.519 * * * * [points]: Filtering points with unrepresentable outputs
41.519 * * * * [points]: Sampling 38 additional inputs, on iter 42 have 7962 / 8000
41.519 * * * * [points]: Computing exacts on every 2 of 38 points to ramp up precision
41.523 * * * * [points]: Setting MPFR precision to 64
41.523 * * * * [points]: Setting MPFR precision to 320
41.524 * * * * [points]: Computing exacts for 38 points
41.528 * * * * [points]: Setting MPFR precision to 64
41.530 * * * * [points]: Setting MPFR precision to 320
41.533 * * * * [points]: Filtering points with unrepresentable outputs
41.533 * * * * [points]: Sampling 36 additional inputs, on iter 43 have 7964 / 8000
41.533 * * * * [points]: Computing exacts on every 2 of 36 points to ramp up precision
41.537 * * * * [points]: Setting MPFR precision to 64
41.537 * * * * [points]: Setting MPFR precision to 320
41.538 * * * * [points]: Computing exacts for 36 points
41.542 * * * * [points]: Setting MPFR precision to 64
41.544 * * * * [points]: Setting MPFR precision to 320
41.547 * * * * [points]: Filtering points with unrepresentable outputs
41.547 * * * * [points]: Sampling 31 additional inputs, on iter 44 have 7969 / 8000
41.547 * * * * [points]: Computing exacts for 31 points
41.550 * * * * [points]: Setting MPFR precision to 64
41.553 * * * * [points]: Setting MPFR precision to 320
41.555 * * * * [points]: Filtering points with unrepresentable outputs
41.555 * * * * [points]: Sampling 28 additional inputs, on iter 45 have 7972 / 8000
41.555 * * * * [points]: Computing exacts for 28 points
41.558 * * * * [points]: Setting MPFR precision to 64
41.560 * * * * [points]: Setting MPFR precision to 320
41.577 * * * * [points]: Filtering points with unrepresentable outputs
41.577 * * * * [points]: Sampling 27 additional inputs, on iter 46 have 7973 / 8000
41.577 * * * * [points]: Computing exacts for 27 points
41.582 * * * * [points]: Setting MPFR precision to 64
41.585 * * * * [points]: Setting MPFR precision to 320
41.587 * * * * [points]: Filtering points with unrepresentable outputs
41.587 * * * * [points]: Sampling 25 additional inputs, on iter 47 have 7975 / 8000
41.587 * * * * [points]: Computing exacts for 25 points
41.591 * * * * [points]: Setting MPFR precision to 64
41.593 * * * * [points]: Setting MPFR precision to 320
41.595 * * * * [points]: Filtering points with unrepresentable outputs
41.595 * * * * [points]: Sampling 23 additional inputs, on iter 48 have 7977 / 8000
41.595 * * * * [points]: Computing exacts for 23 points
41.599 * * * * [points]: Setting MPFR precision to 64
41.601 * * * * [points]: Setting MPFR precision to 320
41.603 * * * * [points]: Filtering points with unrepresentable outputs
41.603 * * * * [points]: Sampling 22 additional inputs, on iter 49 have 7978 / 8000
41.603 * * * * [points]: Computing exacts for 22 points
41.607 * * * * [points]: Setting MPFR precision to 64
41.608 * * * * [points]: Setting MPFR precision to 320
41.610 * * * * [points]: Filtering points with unrepresentable outputs
41.610 * * * * [points]: Sampling 18 additional inputs, on iter 50 have 7982 / 8000
41.610 * * * * [points]: Computing exacts for 18 points
41.613 * * * * [points]: Setting MPFR precision to 64
41.615 * * * * [points]: Setting MPFR precision to 320
41.616 * * * * [points]: Filtering points with unrepresentable outputs
41.616 * * * * [points]: Sampling 14 additional inputs, on iter 51 have 7986 / 8000
41.616 * * * * [points]: Computing exacts for 14 points
41.620 * * * * [points]: Setting MPFR precision to 64
41.621 * * * * [points]: Setting MPFR precision to 320
41.622 * * * * [points]: Filtering points with unrepresentable outputs
41.622 * * * * [points]: Sampling 14 additional inputs, on iter 52 have 7986 / 8000
41.622 * * * * [points]: Computing exacts for 14 points
41.626 * * * * [points]: Setting MPFR precision to 64
41.627 * * * * [points]: Setting MPFR precision to 320
41.628 * * * * [points]: Filtering points with unrepresentable outputs
41.628 * * * * [points]: Sampling 12 additional inputs, on iter 53 have 7988 / 8000
41.628 * * * * [points]: Computing exacts for 12 points
41.632 * * * * [points]: Setting MPFR precision to 64
41.633 * * * * [points]: Setting MPFR precision to 320
41.633 * * * * [points]: Filtering points with unrepresentable outputs
41.633 * * * * [points]: Sampling 12 additional inputs, on iter 54 have 7988 / 8000
41.634 * * * * [points]: Computing exacts for 12 points
41.637 * * * * [points]: Setting MPFR precision to 64
41.638 * * * * [points]: Setting MPFR precision to 320
41.639 * * * * [points]: Filtering points with unrepresentable outputs
41.639 * * * * [points]: Sampling 10 additional inputs, on iter 55 have 7990 / 8000
41.639 * * * * [points]: Computing exacts for 10 points
41.642 * * * * [points]: Setting MPFR precision to 64
41.643 * * * * [points]: Setting MPFR precision to 320
41.644 * * * * [points]: Filtering points with unrepresentable outputs
41.644 * * * * [points]: Sampling 6 additional inputs, on iter 56 have 7994 / 8000
41.644 * * * * [points]: Computing exacts for 6 points
41.647 * * * * [points]: Setting MPFR precision to 64
41.648 * * * * [points]: Setting MPFR precision to 320
41.648 * * * * [points]: Filtering points with unrepresentable outputs
41.648 * * * * [points]: Sampling 6 additional inputs, on iter 57 have 7994 / 8000
41.648 * * * * [points]: Computing exacts for 6 points
41.652 * * * * [points]: Setting MPFR precision to 64
41.652 * * * * [points]: Setting MPFR precision to 320
41.653 * * * * [points]: Filtering points with unrepresentable outputs
41.653 * * * * [points]: Sampling 5 additional inputs, on iter 58 have 7995 / 8000
41.653 * * * * [points]: Computing exacts for 5 points
41.669 * * * * [points]: Setting MPFR precision to 64
41.670 * * * * [points]: Setting MPFR precision to 320
41.671 * * * * [points]: Filtering points with unrepresentable outputs
41.671 * * * * [points]: Sampling 4 additional inputs, on iter 59 have 7996 / 8000
41.671 * * * * [points]: Computing exacts for 4 points
41.674 * * * * [points]: Setting MPFR precision to 64
41.675 * * * * [points]: Setting MPFR precision to 320
41.675 * * * * [points]: Filtering points with unrepresentable outputs
41.675 * * * * [points]: Sampling 4 additional inputs, on iter 60 have 7996 / 8000
41.675 * * * * [points]: Computing exacts for 4 points
41.678 * * * * [points]: Setting MPFR precision to 64
41.679 * * * * [points]: Setting MPFR precision to 320
41.679 * * * * [points]: Filtering points with unrepresentable outputs
41.679 * * * * [points]: Sampling 4 additional inputs, on iter 61 have 7998 / 8000
41.679 * * * * [points]: Computing exacts for 4 points
41.683 * * * * [points]: Setting MPFR precision to 64
41.683 * * * * [points]: Setting MPFR precision to 320
41.683 * * * * [points]: Filtering points with unrepresentable outputs
41.683 * * * * [points]: Sampling 4 additional inputs, on iter 62 have 7998 / 8000
41.683 * * * * [points]: Computing exacts for 4 points
41.687 * * * * [points]: Setting MPFR precision to 64
41.687 * * * * [points]: Setting MPFR precision to 320
41.687 * * * * [points]: Filtering points with unrepresentable outputs
41.687 * * * * [points]: Sampling 4 additional inputs, on iter 63 have 7998 / 8000
41.687 * * * * [points]: Computing exacts for 4 points
41.691 * * * * [points]: Setting MPFR precision to 64
41.691 * * * * [points]: Setting MPFR precision to 320
41.691 * * * * [points]: Filtering points with unrepresentable outputs
41.691 * * * * [points]: Sampling 4 additional inputs, on iter 64 have 7999 / 8000
41.692 * * * * [points]: Computing exacts for 4 points
41.695 * * * * [points]: Setting MPFR precision to 64
41.695 * * * * [points]: Setting MPFR precision to 320
41.696 * * * * [points]: Filtering points with unrepresentable outputs
41.696 * * * * [points]: Sampled 8000 points with exact outputs
44.189 * [regime-testing]: Baseline error score: 64.0
44.192 * [regime-testing]: Oracle error score: 64.0
44.199 * [regime-testing]: End program error score: 0.25552944202215794