* [misc]progress:  [Phase 1 of 3] Setting up.
* * * [misc]progress:  [1/2] Preparing points
* * * * [misc]points:  Sampling 256 additional inputs, on iter 0 have 0 / 256
* * * * [misc]points:  Computing exacts on every 16 of 256 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 8 of 256 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 4 of 256 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 2 of 256 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts for 256 points
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 107 additional inputs, on iter 1 have 149 / 256
* * * * [misc]points:  Computing exacts on every 6 of 107 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 3 of 107 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts for 107 points
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 46 additional inputs, on iter 2 have 210 / 256
* * * * [misc]points:  Computing exacts on every 2 of 46 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts for 46 points
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 19 additional inputs, on iter 3 have 237 / 256
* * * * [misc]points:  Computing exacts for 19 points
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 9 additional inputs, on iter 4 have 247 / 256
* * * * [misc]points:  Computing exacts for 9 points
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 4 additional inputs, on iter 5 have 252 / 256
* * * * [misc]points:  Computing exacts for 4 points
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 4 additional inputs, on iter 6 have 254 / 256
* * * * [misc]points:  Computing exacts for 4 points
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [exit]points:  Sampled 258 points with exact outputs
* * * [misc]progress:  [2/2] Setting up program.
* [misc]progress:  [Phase 2 of 3] Improving.
* [enter]simplify:  Simplifying (fabs (* (/ 1 (sqrt PI)) (+ (+ (+ (* 2 (fabs x)) (* (/ 2 3) (* (* (fabs x) (fabs x)) (fabs x)))) (* (/ 1 5) (* (* (* (* (fabs x) (fabs x)) (fabs x)) (fabs x)) (fabs x)))) (* (/ 1 21) (* (* (* (* (* (* (fabs x) (fabs x)) (fabs x)) (fabs x)) (fabs x)) (fabs x)) (fabs x))))))
* * [misc]simplify:  iters left: 6 (28 enodes)
* * [misc]simplify:  iters left: 5 (75 enodes)
* * [misc]simplify:  iters left: 4 (261 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]progress:  iteration 1 / 4
* * * [misc]progress:  picking best candidate
* * * * [misc]pick:  Picked  #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * [misc]progress:  localizing error
* * * [misc]progress:  generating rewritten candidates
* * * * [misc]progress:  [ 1 / 4 ] rewriting at (2 1 3 1 1)
* * * * [misc]progress:  [ 2 / 4 ] rewriting at (2 1 3 1 1 2)
* * * * [misc]progress:  [ 3 / 4 ] rewriting at (2 1 1 2)
* * * * [misc]progress:  [ 4 / 4 ] rewriting at (2 1 2 1 1)
* * * [misc]progress:  generating series expansions
* * * * [misc]progress:  [ 1 / 4 ] generating series at (2 1 3 1 1)
* * * * [misc]progress:  [ 2 / 4 ] generating series at (2 1 3 1 1 2)
* * * * [misc]progress:  [ 3 / 4 ] generating series at (2 1 1 2)
* * * * [misc]progress:  [ 4 / 4 ] generating series at (2 1 2 1 1)
* [misc]approximate:  Taking taylor expansion of (* 1/5 (fabs x)) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs x)) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs x) in x
* [misc]backup-simplify:  Simplify (fabs x) into (fabs x)
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs x)) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs x) in x
* [misc]backup-simplify:  Simplify (fabs x) into (fabs x)
* [misc]backup-simplify:  Simplify (* 1/5 (fabs x)) into (* 1/5 (fabs x))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs x)) into (* 1/5 (fabs x))
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (* 0 (fabs x))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (* 0 (fabs x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 1/5 (fabs x)) into (* 1/5 (fabs x))
* [misc]approximate:  Taking taylor expansion of (* 1/5 (fabs (/ 1 x))) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 x))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 x)) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 x)) into (fabs (/ 1 x))
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 x))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 x)) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 x)) into (fabs (/ 1 x))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ 1 x))) into (* 1/5 (fabs (/ 1 x)))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ 1 x))) into (* 1/5 (fabs (/ 1 x)))
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (* 0 (fabs (/ 1 x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ 1 (/ 1 x)))) into (* 1/5 (fabs x))
* [misc]approximate:  Taking taylor expansion of (* 1/5 (fabs (/ 1 (- x)))) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 (- x)))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 (- x))) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 (- x))) into (fabs (/ -1 x))
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 (- x)))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 (- x))) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 (- x))) into (fabs (/ -1 x))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ -1 x))) into (* 1/5 (fabs (/ -1 x)))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ -1 x))) into (* 1/5 (fabs (/ -1 x)))
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (* 0 (fabs (/ -1 x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ -1 (/ 1 (- x))))) into (* 1/5 (fabs x))
* * * [misc]progress:  simplifying candidates
* * * * [misc]progress:  [ 1 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (log1p (expm1 (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (expm1 (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (expm1 (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (expm1 (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 2 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (expm1 (log1p (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log1p (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (log1p (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (log1p (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 3 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (pow (/ 1/21 (sqrt PI)) 1) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 4 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (8 enodes)
* * [misc]simplify:  iters left: 2 (10 enodes)
* * [misc]simplify:  iters left: 1 (11 enodes)
* [exit]simplify:  Simplified to (log (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (log (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 5 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (log (exp (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (exp (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (exp (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 6 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI)))) (cbrt (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* [exit]simplify:  Simplified to (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))
* [exit]simplify:  Simplified to (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))
* [enter]simplify:  Simplifying (cbrt (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (cbrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (cbrt (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 7 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (cbrt (* (* (/ 1/21 (sqrt PI)) (/ 1/21 (sqrt PI))) (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (* (/ 1/21 (sqrt PI)) (/ 1/21 (sqrt PI))) (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (13 enodes)
* * [misc]simplify:  iters left: 4 (32 enodes)
* * [misc]simplify:  iters left: 3 (52 enodes)
* * [misc]simplify:  iters left: 2 (94 enodes)
* * [misc]simplify:  iters left: 1 (141 enodes)
* [exit]simplify:  Simplified to (/ (/ 1/9261 PI) (sqrt PI))
* [exit]simplify:  Simplified to (/ (/ 1/9261 PI) (sqrt PI))
* * * * [misc]progress:  [ 8 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* (sqrt (/ 1/21 (sqrt PI))) (sqrt (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (sqrt (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [enter]simplify:  Simplifying (sqrt (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 9 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ (- 1/21) (- (sqrt PI))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (- 1/21)
* * [misc]simplify:  iters left: 2 (2 enodes)
* * [misc]simplify:  iters left: 1 (3 enodes)
* [exit]simplify:  Simplified to -1/21
* [exit]simplify:  Simplified to -1/21
* [enter]simplify:  Simplifying (- (sqrt PI))
* * [misc]simplify:  iters left: 3 (3 enodes)
* [exit]simplify:  Simplified to (- (sqrt PI))
* [exit]simplify:  Simplified to (- (sqrt PI))
* * * * [misc]progress:  [ 10 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* 1 (/ 1/21 (sqrt PI))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 11 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* 1/21 (/ 1 (sqrt PI))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (/ 1 (sqrt PI))
* * [misc]simplify:  iters left: 3 (4 enodes)
* * [misc]simplify:  iters left: 2 (6 enodes)
* [exit]simplify:  Simplified to (/ 1 (sqrt PI))
* [exit]simplify:  Simplified to (/ 1 (sqrt PI))
* * * * [misc]progress:  [ 12 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1 (/ (sqrt PI) 1/21)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (/ (sqrt PI) 1/21)
* * [misc]simplify:  iters left: 3 (4 enodes)
* [exit]simplify:  Simplified to (/ (sqrt PI) 1/21)
* [exit]simplify:  Simplified to (/ (sqrt PI) 1/21)
* * * * [misc]progress:  [ 13 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ (/ 1/21 (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))) (cbrt (sqrt PI))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (/ 1/21 (* (cbrt (sqrt PI)) (cbrt (sqrt PI))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (8 enodes)
* [exit]simplify:  Simplified to (/ (/ 1/21 (cbrt (sqrt PI))) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (/ (/ 1/21 (cbrt (sqrt PI))) (cbrt (sqrt PI)))
* * * * [misc]progress:  [ 14 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ (/ 1/21 (sqrt (sqrt PI))) (sqrt (sqrt PI))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (/ 1/21 (sqrt (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (/ 1/21 (sqrt (sqrt PI)))
* [exit]simplify:  Simplified to (/ 1/21 (sqrt (sqrt PI)))
* * * * [misc]progress:  [ 15 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ (/ 1/21 1) (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (/ 1/21 1)
* * [misc]simplify:  iters left: 2 (3 enodes)
* * [misc]simplify:  iters left: 1 (5 enodes)
* [exit]simplify:  Simplified to 1/21
* [exit]simplify:  Simplified to 1/21
* * * * [misc]progress:  [ 16 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (log1p (expm1 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (expm1 (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* * * * [misc]progress:  [ 17 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (expm1 (log1p (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log1p (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* * * * [misc]progress:  [ 18 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (pow PI 1/2)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 19 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (pow (sqrt PI) 1)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 20 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (exp (log (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log (sqrt PI))
* [exit]simplify:  Simplified to (log (sqrt PI))
* * * * [misc]progress:  [ 21 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (log (exp (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (exp (sqrt PI))
* [exit]simplify:  Simplified to (exp (sqrt PI))
* * * * [misc]progress:  [ 22 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (* (* (cbrt (sqrt PI)) (cbrt (sqrt PI))) (cbrt (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* * [misc]simplify:  iters left: 4 (4 enodes)
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [enter]simplify:  Simplifying (cbrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* * * * [misc]progress:  [ 23 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (cbrt (* (* (sqrt PI) (sqrt PI)) (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (* (sqrt PI) (sqrt PI)) (sqrt PI))
* * [misc]simplify:  iters left: 5 (4 enodes)
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* * * * [misc]progress:  [ 24 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (* (sqrt (sqrt PI)) (sqrt (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* * * * [misc]progress:  [ 25 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (* 1 (sqrt PI))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 26 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (log1p (expm1 (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (expm1 (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* * * * [misc]progress:  [ 27 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (expm1 (log1p (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log1p (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* * * * [misc]progress:  [ 28 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (pow PI 1/2)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 29 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (pow (sqrt PI) 1)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 30 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (exp (log (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log (sqrt PI))
* [exit]simplify:  Simplified to (log (sqrt PI))
* * * * [misc]progress:  [ 31 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (log (exp (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (exp (sqrt PI))
* [exit]simplify:  Simplified to (exp (sqrt PI))
* * * * [misc]progress:  [ 32 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* (* (cbrt (sqrt PI)) (cbrt (sqrt PI))) (cbrt (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* * [misc]simplify:  iters left: 4 (4 enodes)
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [enter]simplify:  Simplifying (cbrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* * * * [misc]progress:  [ 33 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (cbrt (* (* (sqrt PI) (sqrt PI)) (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (* (sqrt PI) (sqrt PI)) (sqrt PI))
* * [misc]simplify:  iters left: 5 (4 enodes)
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* * * * [misc]progress:  [ 34 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* (sqrt (sqrt PI)) (sqrt (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* * * * [misc]progress:  [ 35 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* 1 (sqrt PI))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 36 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (log1p (expm1 (* 1/5 (fabs x)))) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (expm1 (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (expm1 (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (expm1 (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 37 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (expm1 (log1p (* 1/5 (fabs x)))) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log1p (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (log1p (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (log1p (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 38 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (pow (* 1/5 (fabs x)) 1) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 39 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (exp (log (* 1/5 (fabs x)))) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (9 enodes)
* * [misc]simplify:  iters left: 2 (10 enodes)
* [exit]simplify:  Simplified to (log (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (log (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 40 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (log (exp (* 1/5 (fabs x)))) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (8 enodes)
* [exit]simplify:  Simplified to (pow (exp 1/5) (fabs x))
* [exit]simplify:  Simplified to (pow (exp 1/5) (fabs x))
* * * * [misc]progress:  [ 41 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x)))) (cbrt (* 1/5 (fabs x)))) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (7 enodes)
* [exit]simplify:  Simplified to (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x))))
* [exit]simplify:  Simplified to (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x))))
* [enter]simplify:  Simplifying (cbrt (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (cbrt (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (cbrt (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 42 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (cbrt (* (* (* 1/5 (fabs x)) (* 1/5 (fabs x))) (* 1/5 (fabs x)))) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (* (* 1/5 (fabs x)) (* 1/5 (fabs x))) (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (14 enodes)
* * [misc]simplify:  iters left: 4 (31 enodes)
* * [misc]simplify:  iters left: 3 (57 enodes)
* * [misc]simplify:  iters left: 2 (92 enodes)
* * [misc]simplify:  iters left: 1 (100 enodes)
* [exit]simplify:  Simplified to (* (* (fabs x) 1/125) (* (fabs x) (fabs x)))
* [exit]simplify:  Simplified to (* (* (fabs x) 1/125) (* (fabs x) (fabs x)))
* * * * [misc]progress:  [ 43 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* (sqrt (* 1/5 (fabs x))) (sqrt (* 1/5 (fabs x)))) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (sqrt (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* [enter]simplify:  Simplifying (sqrt (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 44 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1 (* 1/5 (fabs x))) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 45 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x)))) (cbrt (fabs x))) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (9 enodes)
* * [misc]simplify:  iters left: 4 (11 enodes)
* [exit]simplify:  Simplified to (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x))))
* [exit]simplify:  Simplified to (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x))))
* * * * [misc]progress:  [ 46 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* (* 1/5 (sqrt (fabs x))) (sqrt (fabs x))) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* 1/5 (sqrt (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (* (sqrt (fabs x)) 1/5)
* [exit]simplify:  Simplified to (* (sqrt (fabs x)) 1/5)
* * * * [misc]progress:  [ 47 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* (* 1/5 1) (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* 1/5 1)
* * [misc]simplify:  iters left: 2 (3 enodes)
* * [misc]simplify:  iters left: 1 (5 enodes)
* [exit]simplify:  Simplified to 1/5
* [exit]simplify:  Simplified to 1/5
* * * * [misc]progress:  [ 48 / 60 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* (fabs x) 1/5) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 49 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 50 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 51 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 52 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 53 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 54 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 55 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 56 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 57 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 58 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 59 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * * [misc]progress:  [ 60 / 60 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (50 enodes)
* * [misc]simplify:  iters left: 4 (124 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * * [misc]progress:  adding candidates to table
* * [misc]progress:  iteration 2 / 4
* * * [misc]progress:  picking best candidate
* * * * [misc]pick:  Picked  #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * [misc]progress:  localizing error
* * * [misc]progress:  generating rewritten candidates
* * * * [misc]progress:  [ 1 / 4 ] rewriting at (2 1 3 2 1)
* * * * [misc]progress:  [ 2 / 4 ] rewriting at (2 1 1 2)
* * * * [misc]progress:  [ 3 / 4 ] rewriting at (2 1 2 2 2)
* * * * [misc]progress:  [ 4 / 4 ] rewriting at (2 1 2 2 3)
* * * [misc]progress:  generating series expansions
* * * * [misc]progress:  [ 1 / 4 ] generating series at (2 1 3 2 1)
* * * * [misc]progress:  [ 2 / 4 ] generating series at (2 1 1 2)
* * * * [misc]progress:  [ 3 / 4 ] generating series at (2 1 2 2 2)
* [misc]approximate:  Taking taylor expansion of (* 1/5 (fabs x)) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs x)) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs x) in x
* [misc]backup-simplify:  Simplify (fabs x) into (fabs x)
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs x)) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs x) in x
* [misc]backup-simplify:  Simplify (fabs x) into (fabs x)
* [misc]backup-simplify:  Simplify (* 1/5 (fabs x)) into (* 1/5 (fabs x))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs x)) into (* 1/5 (fabs x))
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (* 0 (fabs x))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (* 0 (fabs x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 1/5 (fabs x)) into (* 1/5 (fabs x))
* [misc]approximate:  Taking taylor expansion of (* 1/5 (fabs (/ 1 x))) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 x))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 x)) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 x)) into (fabs (/ 1 x))
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 x))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 x)) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 x)) into (fabs (/ 1 x))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ 1 x))) into (* 1/5 (fabs (/ 1 x)))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ 1 x))) into (* 1/5 (fabs (/ 1 x)))
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (* 0 (fabs (/ 1 x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ 1 (/ 1 x)))) into (* 1/5 (fabs x))
* [misc]approximate:  Taking taylor expansion of (* 1/5 (fabs (/ 1 (- x)))) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 (- x)))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 (- x))) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 (- x))) into (fabs (/ -1 x))
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 (- x)))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 (- x))) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 (- x))) into (fabs (/ -1 x))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ -1 x))) into (* 1/5 (fabs (/ -1 x)))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ -1 x))) into (* 1/5 (fabs (/ -1 x)))
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (* 0 (fabs (/ -1 x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ -1 (/ 1 (- x))))) into (* 1/5 (fabs x))
* * * * [misc]progress:  [ 4 / 4 ] generating series at (2 1 2 2 3)
* [misc]approximate:  Taking taylor expansion of (* 2/3 (fabs x)) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 2/3 (fabs x)) in x
* [misc]taylor:  Taking taylor expansion of 2/3 in x
* [misc]backup-simplify:  Simplify 2/3 into 2/3
* [misc]taylor:  Taking taylor expansion of (fabs x) in x
* [misc]backup-simplify:  Simplify (fabs x) into (fabs x)
* [misc]taylor:  Taking taylor expansion of (* 2/3 (fabs x)) in x
* [misc]taylor:  Taking taylor expansion of 2/3 in x
* [misc]backup-simplify:  Simplify 2/3 into 2/3
* [misc]taylor:  Taking taylor expansion of (fabs x) in x
* [misc]backup-simplify:  Simplify (fabs x) into (fabs x)
* [misc]backup-simplify:  Simplify (* 2/3 (fabs x)) into (* 2/3 (fabs x))
* [misc]backup-simplify:  Simplify (* 2/3 (fabs x)) into (* 2/3 (fabs x))
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (* 0 (fabs x))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (* 0 (fabs x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 2/3 (fabs x)) into (* 2/3 (fabs x))
* [misc]approximate:  Taking taylor expansion of (* 2/3 (fabs (/ 1 x))) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 2/3 (fabs (/ 1 x))) in x
* [misc]taylor:  Taking taylor expansion of 2/3 in x
* [misc]backup-simplify:  Simplify 2/3 into 2/3
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 x)) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 x)) into (fabs (/ 1 x))
* [misc]taylor:  Taking taylor expansion of (* 2/3 (fabs (/ 1 x))) in x
* [misc]taylor:  Taking taylor expansion of 2/3 in x
* [misc]backup-simplify:  Simplify 2/3 into 2/3
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 x)) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 x)) into (fabs (/ 1 x))
* [misc]backup-simplify:  Simplify (* 2/3 (fabs (/ 1 x))) into (* 2/3 (fabs (/ 1 x)))
* [misc]backup-simplify:  Simplify (* 2/3 (fabs (/ 1 x))) into (* 2/3 (fabs (/ 1 x)))
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (* 0 (fabs (/ 1 x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 2/3 (fabs (/ 1 (/ 1 x)))) into (* 2/3 (fabs x))
* [misc]approximate:  Taking taylor expansion of (* 2/3 (fabs (/ 1 (- x)))) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 2/3 (fabs (/ 1 (- x)))) in x
* [misc]taylor:  Taking taylor expansion of 2/3 in x
* [misc]backup-simplify:  Simplify 2/3 into 2/3
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 (- x))) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 (- x))) into (fabs (/ -1 x))
* [misc]taylor:  Taking taylor expansion of (* 2/3 (fabs (/ 1 (- x)))) in x
* [misc]taylor:  Taking taylor expansion of 2/3 in x
* [misc]backup-simplify:  Simplify 2/3 into 2/3
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 (- x))) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 (- x))) into (fabs (/ -1 x))
* [misc]backup-simplify:  Simplify (* 2/3 (fabs (/ -1 x))) into (* 2/3 (fabs (/ -1 x)))
* [misc]backup-simplify:  Simplify (* 2/3 (fabs (/ -1 x))) into (* 2/3 (fabs (/ -1 x)))
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (* 0 (fabs (/ -1 x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 2/3 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 2/3 (fabs (/ -1 (/ 1 (- x))))) into (* 2/3 (fabs x))
* * * [misc]progress:  simplifying candidates
* * * * [misc]progress:  [ 1 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (log1p (expm1 (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (expm1 (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* * * * [misc]progress:  [ 2 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log1p (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* * * * [misc]progress:  [ 3 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (pow PI 1/2) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 4 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (pow (sqrt PI) 1) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 5 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (exp (log (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log (sqrt PI))
* [exit]simplify:  Simplified to (log (sqrt PI))
* * * * [misc]progress:  [ 6 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (log (exp (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (exp (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (exp (sqrt PI))
* [exit]simplify:  Simplified to (exp (sqrt PI))
* * * * [misc]progress:  [ 7 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (* (* (cbrt (sqrt PI)) (cbrt (sqrt PI))) (cbrt (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* * [misc]simplify:  iters left: 4 (4 enodes)
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [enter]simplify:  Simplifying (cbrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* * * * [misc]progress:  [ 8 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (cbrt (* (* (sqrt PI) (sqrt PI)) (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (* (sqrt PI) (sqrt PI)) (sqrt PI))
* * [misc]simplify:  iters left: 5 (4 enodes)
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* * * * [misc]progress:  [ 9 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (* (sqrt (sqrt PI)) (sqrt (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* * * * [misc]progress:  [ 10 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (* 1 (sqrt PI)) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 11 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (log1p (expm1 (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (expm1 (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* * * * [misc]progress:  [ 12 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (expm1 (log1p (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log1p (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* * * * [misc]progress:  [ 13 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (pow PI 1/2)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 14 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (pow (sqrt PI) 1)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 15 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (exp (log (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log (sqrt PI))
* [exit]simplify:  Simplified to (log (sqrt PI))
* * * * [misc]progress:  [ 16 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (log (exp (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (exp (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (exp (sqrt PI))
* [exit]simplify:  Simplified to (exp (sqrt PI))
* * * * [misc]progress:  [ 17 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* (* (cbrt (sqrt PI)) (cbrt (sqrt PI))) (cbrt (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* * [misc]simplify:  iters left: 4 (4 enodes)
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [enter]simplify:  Simplifying (cbrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* * * * [misc]progress:  [ 18 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (cbrt (* (* (sqrt PI) (sqrt PI)) (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (* (sqrt PI) (sqrt PI)) (sqrt PI))
* * [misc]simplify:  iters left: 5 (4 enodes)
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* * * * [misc]progress:  [ 19 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* (sqrt (sqrt PI)) (sqrt (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* * * * [misc]progress:  [ 20 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* 1 (sqrt PI))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 21 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (log1p (expm1 (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (expm1 (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (expm1 (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (expm1 (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 22 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (expm1 (log1p (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log1p (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (log1p (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (log1p (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 23 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (pow (* 1/5 (fabs x)) 1) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 24 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (exp (log (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (9 enodes)
* * [misc]simplify:  iters left: 2 (10 enodes)
* [exit]simplify:  Simplified to (log (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (log (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 25 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (log (exp (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (exp (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (8 enodes)
* [exit]simplify:  Simplified to (pow (exp 1/5) (fabs x))
* [exit]simplify:  Simplified to (pow (exp 1/5) (fabs x))
* * * * [misc]progress:  [ 26 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x)))) (cbrt (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (7 enodes)
* [exit]simplify:  Simplified to (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x))))
* [exit]simplify:  Simplified to (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x))))
* [enter]simplify:  Simplifying (cbrt (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (cbrt (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (cbrt (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 27 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (cbrt (* (* (* 1/5 (fabs x)) (* 1/5 (fabs x))) (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (* (* 1/5 (fabs x)) (* 1/5 (fabs x))) (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (14 enodes)
* * [misc]simplify:  iters left: 4 (31 enodes)
* * [misc]simplify:  iters left: 3 (57 enodes)
* * [misc]simplify:  iters left: 2 (92 enodes)
* * [misc]simplify:  iters left: 1 (100 enodes)
* [exit]simplify:  Simplified to (* (* (fabs x) 1/125) (* (fabs x) (fabs x)))
* [exit]simplify:  Simplified to (* (* (fabs x) 1/125) (* (fabs x) (fabs x)))
* * * * [misc]progress:  [ 28 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (sqrt (* 1/5 (fabs x))) (sqrt (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (sqrt (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* [enter]simplify:  Simplifying (sqrt (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 29 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1 (* 1/5 (fabs x))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 30 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x)))) (cbrt (fabs x))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (9 enodes)
* * [misc]simplify:  iters left: 4 (11 enodes)
* [exit]simplify:  Simplified to (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x))))
* [exit]simplify:  Simplified to (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x))))
* * * * [misc]progress:  [ 31 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (* 1/5 (sqrt (fabs x))) (sqrt (fabs x))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* 1/5 (sqrt (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (* (sqrt (fabs x)) 1/5)
* [exit]simplify:  Simplified to (* (sqrt (fabs x)) 1/5)
* * * * [misc]progress:  [ 32 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (* 1/5 1) (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* 1/5 1)
* * [misc]simplify:  iters left: 2 (3 enodes)
* * [misc]simplify:  iters left: 1 (5 enodes)
* [exit]simplify:  Simplified to 1/5
* [exit]simplify:  Simplified to 1/5
* * * * [misc]progress:  [ 33 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 34 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (log1p (expm1 (* 2/3 (fabs x))))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (expm1 (* 2/3 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (expm1 (* 2/3 (fabs x)))
* [exit]simplify:  Simplified to (expm1 (* 2/3 (fabs x)))
* * * * [misc]progress:  [ 35 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (expm1 (log1p (* 2/3 (fabs x))))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log1p (* 2/3 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (log1p (* 2/3 (fabs x)))
* [exit]simplify:  Simplified to (log1p (* 2/3 (fabs x)))
* * * * [misc]progress:  [ 36 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (pow (* 2/3 (fabs x)) 1)) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 37 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (exp (log (* 2/3 (fabs x))))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log (* 2/3 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (9 enodes)
* * [misc]simplify:  iters left: 2 (10 enodes)
* [exit]simplify:  Simplified to (log (* 2/3 (fabs x)))
* [exit]simplify:  Simplified to (log (* 2/3 (fabs x)))
* * * * [misc]progress:  [ 38 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (log (exp (* 2/3 (fabs x))))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (exp (* 2/3 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (8 enodes)
* [exit]simplify:  Simplified to (pow (exp 2/3) (fabs x))
* [exit]simplify:  Simplified to (pow (exp 2/3) (fabs x))
* * * * [misc]progress:  [ 39 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* (* (cbrt (* 2/3 (fabs x))) (cbrt (* 2/3 (fabs x)))) (cbrt (* 2/3 (fabs x))))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (cbrt (* 2/3 (fabs x))) (cbrt (* 2/3 (fabs x))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (7 enodes)
* [exit]simplify:  Simplified to (* (cbrt (* 2/3 (fabs x))) (cbrt (* 2/3 (fabs x))))
* [exit]simplify:  Simplified to (* (cbrt (* 2/3 (fabs x))) (cbrt (* 2/3 (fabs x))))
* [enter]simplify:  Simplifying (cbrt (* 2/3 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (cbrt (* 2/3 (fabs x)))
* [exit]simplify:  Simplified to (cbrt (* 2/3 (fabs x)))
* * * * [misc]progress:  [ 40 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (cbrt (* (* (* 2/3 (fabs x)) (* 2/3 (fabs x))) (* 2/3 (fabs x))))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (* (* 2/3 (fabs x)) (* 2/3 (fabs x))) (* 2/3 (fabs x)))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (14 enodes)
* * [misc]simplify:  iters left: 4 (31 enodes)
* * [misc]simplify:  iters left: 3 (57 enodes)
* * [misc]simplify:  iters left: 2 (92 enodes)
* * [misc]simplify:  iters left: 1 (100 enodes)
* [exit]simplify:  Simplified to (* (* (fabs x) 8/27) (* (fabs x) (fabs x)))
* [exit]simplify:  Simplified to (* (* (fabs x) 8/27) (* (fabs x) (fabs x)))
* * * * [misc]progress:  [ 41 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* (sqrt (* 2/3 (fabs x))) (sqrt (* 2/3 (fabs x))))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (sqrt (* 2/3 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (sqrt (* 2/3 (fabs x)))
* [exit]simplify:  Simplified to (sqrt (* 2/3 (fabs x)))
* [enter]simplify:  Simplifying (sqrt (* 2/3 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (sqrt (* 2/3 (fabs x)))
* [exit]simplify:  Simplified to (sqrt (* 2/3 (fabs x)))
* * * * [misc]progress:  [ 42 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 1 (* 2/3 (fabs x)))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 43 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* (* 2/3 (* (cbrt (fabs x)) (cbrt (fabs x)))) (cbrt (fabs x)))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* 2/3 (* (cbrt (fabs x)) (cbrt (fabs x))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (9 enodes)
* * [misc]simplify:  iters left: 4 (11 enodes)
* [exit]simplify:  Simplified to (* 2/3 (* (cbrt (fabs x)) (cbrt (fabs x))))
* [exit]simplify:  Simplified to (* 2/3 (* (cbrt (fabs x)) (cbrt (fabs x))))
* * * * [misc]progress:  [ 44 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* (* 2/3 (sqrt (fabs x))) (sqrt (fabs x)))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* 2/3 (sqrt (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (* (sqrt (fabs x)) 2/3)
* [exit]simplify:  Simplified to (* (sqrt (fabs x)) 2/3)
* * * * [misc]progress:  [ 45 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* (* 2/3 1) (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* 2/3 1)
* * [misc]simplify:  iters left: 2 (3 enodes)
* * [misc]simplify:  iters left: 1 (5 enodes)
* [exit]simplify:  Simplified to 2/3
* [exit]simplify:  Simplified to 2/3
* * * * [misc]progress:  [ 46 / 58 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* (fabs x) 2/3)) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 47 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 48 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 49 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 50 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 51 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 52 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 53 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 54 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 55 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 56 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 57 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * * [misc]progress:  [ 58 / 58 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (23 enodes)
* * [misc]simplify:  iters left: 5 (41 enodes)
* * [misc]simplify:  iters left: 4 (84 enodes)
* * [misc]simplify:  iters left: 3 (257 enodes)
* [exit]simplify:  Simplified to (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* 1/21 (pow (fabs x) 6)) (/ (sqrt PI) (fabs x)))))
* * * [misc]progress:  adding candidates to table
* * [misc]progress:  iteration 3 / 4
* * * [misc]progress:  picking best candidate
* * * * [misc]pick:  Picked  #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * [misc]progress:  localizing error
* * * [misc]progress:  generating rewritten candidates
* * * * [misc]progress:  [ 1 / 4 ] rewriting at (2 1 3 1 1)
* * * * [misc]progress:  [ 2 / 4 ] rewriting at (2 1 3 1 1 1 1)
* * * * [misc]progress:  [ 3 / 4 ] rewriting at (2 1 3 1 1 1 1 2)
* * * * [misc]progress:  [ 4 / 4 ] rewriting at (2 1 1 2)
* * * [misc]progress:  generating series expansions
* * * * [misc]progress:  [ 1 / 4 ] generating series at (2 1 3 1 1)
* * * * [misc]progress:  [ 2 / 4 ] generating series at (2 1 3 1 1 1 1)
* * * * [misc]progress:  [ 3 / 4 ] generating series at (2 1 3 1 1 1 1 2)
* * * * [misc]progress:  [ 4 / 4 ] generating series at (2 1 1 2)
* * * [misc]progress:  simplifying candidates
* * * * [misc]progress:  [ 1 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (log1p (expm1 (exp (log (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (expm1 (exp (log (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* * [misc]simplify:  iters left: 5 (10 enodes)
* * [misc]simplify:  iters left: 4 (15 enodes)
* * [misc]simplify:  iters left: 3 (20 enodes)
* * [misc]simplify:  iters left: 2 (29 enodes)
* * [misc]simplify:  iters left: 1 (43 enodes)
* [exit]simplify:  Simplified to (expm1 (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (expm1 (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 2 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (expm1 (log1p (exp (log (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log1p (exp (log (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* * [misc]simplify:  iters left: 5 (10 enodes)
* * [misc]simplify:  iters left: 4 (15 enodes)
* * [misc]simplify:  iters left: 3 (20 enodes)
* * [misc]simplify:  iters left: 2 (29 enodes)
* * [misc]simplify:  iters left: 1 (43 enodes)
* [exit]simplify:  Simplified to (log1p (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (log1p (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 3 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (pow (exp (log (/ 1/21 (sqrt PI)))) 1) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 4 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (pow (exp 1) (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp 1)
* * [misc]simplify:  iters left: 1 (2 enodes)
* [exit]simplify:  Simplified to E
* [exit]simplify:  Simplified to E
* * * * [misc]progress:  [ 5 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (pow (exp (* (cbrt (log (/ 1/21 (sqrt PI)))) (cbrt (log (/ 1/21 (sqrt PI)))))) (cbrt (log (/ 1/21 (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (* (cbrt (log (/ 1/21 (sqrt PI)))) (cbrt (log (/ 1/21 (sqrt PI))))))
* * [misc]simplify:  iters left: 6 (8 enodes)
* * [misc]simplify:  iters left: 5 (13 enodes)
* * [misc]simplify:  iters left: 4 (15 enodes)
* * [misc]simplify:  iters left: 3 (16 enodes)
* [exit]simplify:  Simplified to (exp (* (cbrt (log (/ 1/21 (sqrt PI)))) (cbrt (log (/ 1/21 (sqrt PI))))))
* [exit]simplify:  Simplified to (exp (* (cbrt (log (/ 1/21 (sqrt PI)))) (cbrt (log (/ 1/21 (sqrt PI))))))
* * * * [misc]progress:  [ 6 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (pow (exp (sqrt (log (/ 1/21 (sqrt PI))))) (sqrt (log (/ 1/21 (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (sqrt (log (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* * [misc]simplify:  iters left: 5 (10 enodes)
* * [misc]simplify:  iters left: 4 (12 enodes)
* * [misc]simplify:  iters left: 3 (13 enodes)
* [exit]simplify:  Simplified to (exp (sqrt (log (/ 1/21 (sqrt PI)))))
* [exit]simplify:  Simplified to (exp (sqrt (log (/ 1/21 (sqrt PI)))))
* * * * [misc]progress:  [ 7 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (pow (exp 1) (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp 1)
* * [misc]simplify:  iters left: 1 (2 enodes)
* [exit]simplify:  Simplified to E
* [exit]simplify:  Simplified to E
* * * * [misc]progress:  [ 8 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* (exp (log (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI)))))) (exp (log (cbrt (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (log (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))))
* * [misc]simplify:  iters left: 6 (8 enodes)
* * [misc]simplify:  iters left: 5 (10 enodes)
* * [misc]simplify:  iters left: 4 (12 enodes)
* [exit]simplify:  Simplified to (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))
* [exit]simplify:  Simplified to (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))
* [enter]simplify:  Simplifying (exp (log (cbrt (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* [exit]simplify:  Simplified to (cbrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (cbrt (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 9 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* (exp (log (sqrt (/ 1/21 (sqrt PI))))) (exp (log (sqrt (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (log (sqrt (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [enter]simplify:  Simplifying (exp (log (sqrt (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 10 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* (exp (log 1)) (exp (log (/ 1/21 (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (log 1))
* * [misc]simplify:  iters left: 2 (3 enodes)
* * [misc]simplify:  iters left: 1 (5 enodes)
* [exit]simplify:  Simplified to 1
* [exit]simplify:  Simplified to 1
* [enter]simplify:  Simplifying (exp (log (/ 1/21 (sqrt PI))))
* * [misc]simplify:  iters left: 5 (6 enodes)
* * [misc]simplify:  iters left: 4 (9 enodes)
* * [misc]simplify:  iters left: 3 (14 enodes)
* * [misc]simplify:  iters left: 2 (19 enodes)
* * [misc]simplify:  iters left: 1 (29 enodes)
* [exit]simplify:  Simplified to (/ 1/21 (sqrt PI))
* [exit]simplify:  Simplified to (/ 1/21 (sqrt PI))
* * * * [misc]progress:  [ 11 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* (exp (log 1/21)) (exp (log (/ 1 (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (log 1/21))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to 1/21
* [exit]simplify:  Simplified to 1/21
* [enter]simplify:  Simplifying (exp (log (/ 1 (sqrt PI))))
* * [misc]simplify:  iters left: 5 (6 enodes)
* * [misc]simplify:  iters left: 4 (12 enodes)
* * [misc]simplify:  iters left: 3 (14 enodes)
* * [misc]simplify:  iters left: 2 (15 enodes)
* * [misc]simplify:  iters left: 1 (20 enodes)
* [exit]simplify:  Simplified to (/ 1 (sqrt PI))
* [exit]simplify:  Simplified to (/ 1 (sqrt PI))
* * * * [misc]progress:  [ 12 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ (exp (log 1/21)) (exp (log (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (log 1/21))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to 1/21
* [exit]simplify:  Simplified to 1/21
* [enter]simplify:  Simplifying (exp (log (sqrt PI)))
* * [misc]simplify:  iters left: 3 (4 enodes)
* [exit]simplify:  Simplified to (sqrt PI)
* [exit]simplify:  Simplified to (sqrt PI)
* * * * [misc]progress:  [ 13 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (/ 1/21 (sqrt PI)) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 14 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (exp (log (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log (exp (log (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* * [misc]simplify:  iters left: 5 (10 enodes)
* * [misc]simplify:  iters left: 4 (15 enodes)
* * [misc]simplify:  iters left: 3 (20 enodes)
* * [misc]simplify:  iters left: 2 (29 enodes)
* * [misc]simplify:  iters left: 1 (43 enodes)
* [exit]simplify:  Simplified to (log (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (log (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 15 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (log (exp (exp (log (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (exp (log (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* * [misc]simplify:  iters left: 5 (10 enodes)
* * [misc]simplify:  iters left: 4 (15 enodes)
* * [misc]simplify:  iters left: 3 (20 enodes)
* * [misc]simplify:  iters left: 2 (31 enodes)
* * [misc]simplify:  iters left: 1 (45 enodes)
* [exit]simplify:  Simplified to (exp (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (exp (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 16 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* (* (cbrt (exp (log (/ 1/21 (sqrt PI))))) (cbrt (exp (log (/ 1/21 (sqrt PI)))))) (cbrt (exp (log (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (cbrt (exp (log (/ 1/21 (sqrt PI))))) (cbrt (exp (log (/ 1/21 (sqrt PI))))))
* * [misc]simplify:  iters left: 6 (8 enodes)
* * [misc]simplify:  iters left: 5 (11 enodes)
* * [misc]simplify:  iters left: 4 (16 enodes)
* * [misc]simplify:  iters left: 3 (21 enodes)
* * [misc]simplify:  iters left: 2 (30 enodes)
* * [misc]simplify:  iters left: 1 (44 enodes)
* [exit]simplify:  Simplified to (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))
* [exit]simplify:  Simplified to (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))
* [enter]simplify:  Simplifying (cbrt (exp (log (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* * [misc]simplify:  iters left: 5 (10 enodes)
* * [misc]simplify:  iters left: 4 (15 enodes)
* * [misc]simplify:  iters left: 3 (20 enodes)
* * [misc]simplify:  iters left: 2 (29 enodes)
* * [misc]simplify:  iters left: 1 (43 enodes)
* [exit]simplify:  Simplified to (cbrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (cbrt (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 17 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (cbrt (* (* (exp (log (/ 1/21 (sqrt PI)))) (exp (log (/ 1/21 (sqrt PI))))) (exp (log (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (* (exp (log (/ 1/21 (sqrt PI)))) (exp (log (/ 1/21 (sqrt PI))))) (exp (log (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (8 enodes)
* * [misc]simplify:  iters left: 5 (14 enodes)
* * [misc]simplify:  iters left: 4 (37 enodes)
* * [misc]simplify:  iters left: 3 (82 enodes)
* * [misc]simplify:  iters left: 2 (245 enodes)
* [exit]simplify:  Simplified to (/ 1/9261 (* PI (sqrt PI)))
* [exit]simplify:  Simplified to (/ 1/9261 (* PI (sqrt PI)))
* * * * [misc]progress:  [ 18 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* (sqrt (exp (log (/ 1/21 (sqrt PI))))) (sqrt (exp (log (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (sqrt (exp (log (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* * [misc]simplify:  iters left: 5 (10 enodes)
* * [misc]simplify:  iters left: 4 (15 enodes)
* * [misc]simplify:  iters left: 3 (20 enodes)
* * [misc]simplify:  iters left: 2 (29 enodes)
* * [misc]simplify:  iters left: 1 (43 enodes)
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [enter]simplify:  Simplifying (sqrt (exp (log (/ 1/21 (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (7 enodes)
* * [misc]simplify:  iters left: 5 (10 enodes)
* * [misc]simplify:  iters left: 4 (15 enodes)
* * [misc]simplify:  iters left: 3 (20 enodes)
* * [misc]simplify:  iters left: 2 (29 enodes)
* * [misc]simplify:  iters left: 1 (43 enodes)
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 19 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* 1 (exp (log (/ 1/21 (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 20 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (log1p (expm1 (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (expm1 (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (expm1 (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (expm1 (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 21 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (expm1 (log1p (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log1p (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (log1p (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (log1p (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 22 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (pow (/ 1/21 (sqrt PI)) 1))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 23 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (exp (log (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (8 enodes)
* * [misc]simplify:  iters left: 2 (10 enodes)
* * [misc]simplify:  iters left: 1 (11 enodes)
* [exit]simplify:  Simplified to (log (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (log (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 24 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (log (exp (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (exp (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (exp (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 25 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (* (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI)))) (cbrt (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* [exit]simplify:  Simplified to (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))
* [exit]simplify:  Simplified to (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI))))
* [enter]simplify:  Simplifying (cbrt (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (cbrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (cbrt (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 26 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (cbrt (* (* (/ 1/21 (sqrt PI)) (/ 1/21 (sqrt PI))) (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (* (/ 1/21 (sqrt PI)) (/ 1/21 (sqrt PI))) (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (13 enodes)
* * [misc]simplify:  iters left: 4 (32 enodes)
* * [misc]simplify:  iters left: 3 (52 enodes)
* * [misc]simplify:  iters left: 2 (94 enodes)
* * [misc]simplify:  iters left: 1 (141 enodes)
* [exit]simplify:  Simplified to (/ (/ 1/9261 PI) (sqrt PI))
* [exit]simplify:  Simplified to (/ (/ 1/9261 PI) (sqrt PI))
* * * * [misc]progress:  [ 27 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (* (sqrt (/ 1/21 (sqrt PI))) (sqrt (/ 1/21 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (sqrt (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [enter]simplify:  Simplifying (sqrt (/ 1/21 (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* [exit]simplify:  Simplified to (sqrt (/ 1/21 (sqrt PI)))
* * * * [misc]progress:  [ 28 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ (- 1/21) (- (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (- 1/21)
* * [misc]simplify:  iters left: 2 (2 enodes)
* * [misc]simplify:  iters left: 1 (3 enodes)
* [exit]simplify:  Simplified to -1/21
* [exit]simplify:  Simplified to -1/21
* [enter]simplify:  Simplifying (- (sqrt PI))
* * [misc]simplify:  iters left: 3 (3 enodes)
* [exit]simplify:  Simplified to (- (sqrt PI))
* [exit]simplify:  Simplified to (- (sqrt PI))
* * * * [misc]progress:  [ 29 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (* 1 (/ 1/21 (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 30 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (* 1/21 (/ 1 (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (/ 1 (sqrt PI))
* * [misc]simplify:  iters left: 3 (4 enodes)
* * [misc]simplify:  iters left: 2 (6 enodes)
* [exit]simplify:  Simplified to (/ 1 (sqrt PI))
* [exit]simplify:  Simplified to (/ 1 (sqrt PI))
* * * * [misc]progress:  [ 31 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1 (/ (sqrt PI) 1/21)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (/ (sqrt PI) 1/21)
* * [misc]simplify:  iters left: 3 (4 enodes)
* [exit]simplify:  Simplified to (/ (sqrt PI) 1/21)
* [exit]simplify:  Simplified to (/ (sqrt PI) 1/21)
* * * * [misc]progress:  [ 32 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ (/ 1/21 (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))) (cbrt (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (/ 1/21 (* (cbrt (sqrt PI)) (cbrt (sqrt PI))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (8 enodes)
* [exit]simplify:  Simplified to (/ (/ 1/21 (cbrt (sqrt PI))) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (/ (/ 1/21 (cbrt (sqrt PI))) (cbrt (sqrt PI)))
* * * * [misc]progress:  [ 33 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ (/ 1/21 (sqrt (sqrt PI))) (sqrt (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (/ 1/21 (sqrt (sqrt PI)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (/ 1/21 (sqrt (sqrt PI)))
* [exit]simplify:  Simplified to (/ 1/21 (sqrt (sqrt PI)))
* * * * [misc]progress:  [ 34 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ (/ 1/21 1) (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (/ 1/21 1)
* * [misc]simplify:  iters left: 2 (3 enodes)
* * [misc]simplify:  iters left: 1 (5 enodes)
* [exit]simplify:  Simplified to 1/21
* [exit]simplify:  Simplified to 1/21
* * * * [misc]progress:  [ 35 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (log1p (expm1 (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (expm1 (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* * * * [misc]progress:  [ 36 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (expm1 (log1p (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log1p (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* * * * [misc]progress:  [ 37 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (pow PI 1/2)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 38 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (pow (sqrt PI) 1)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 39 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (exp (log (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log (sqrt PI))
* [exit]simplify:  Simplified to (log (sqrt PI))
* * * * [misc]progress:  [ 40 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (log (exp (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (exp (sqrt PI))
* [exit]simplify:  Simplified to (exp (sqrt PI))
* * * * [misc]progress:  [ 41 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (* (* (cbrt (sqrt PI)) (cbrt (sqrt PI))) (cbrt (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* * [misc]simplify:  iters left: 4 (4 enodes)
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [enter]simplify:  Simplifying (cbrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* * * * [misc]progress:  [ 42 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (cbrt (* (* (sqrt PI) (sqrt PI)) (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (* (sqrt PI) (sqrt PI)) (sqrt PI))
* * [misc]simplify:  iters left: 5 (4 enodes)
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* * * * [misc]progress:  [ 43 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (* (sqrt (sqrt PI)) (sqrt (sqrt PI)))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* * * * [misc]progress:  [ 44 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (* 1 (sqrt PI))))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 45 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (log1p (expm1 (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (expm1 (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* * * * [misc]progress:  [ 46 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (expm1 (log1p (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log1p (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* * * * [misc]progress:  [ 47 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (pow PI 1/2)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 48 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (pow (sqrt PI) 1)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 49 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (exp (log (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (log (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log (sqrt PI))
* [exit]simplify:  Simplified to (log (sqrt PI))
* * * * [misc]progress:  [ 50 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (log (exp (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (exp (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (exp (sqrt PI))
* [exit]simplify:  Simplified to (exp (sqrt PI))
* * * * [misc]progress:  [ 51 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* (* (cbrt (sqrt PI)) (cbrt (sqrt PI))) (cbrt (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* * [misc]simplify:  iters left: 4 (4 enodes)
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [enter]simplify:  Simplifying (cbrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* * * * [misc]progress:  [ 52 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (cbrt (* (* (sqrt PI) (sqrt PI)) (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (* (* (sqrt PI) (sqrt PI)) (sqrt PI))
* * [misc]simplify:  iters left: 5 (4 enodes)
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* * * * [misc]progress:  [ 53 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* (sqrt (sqrt PI)) (sqrt (sqrt PI)))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* * * * [misc]progress:  [ 54 / 66 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* 1 (sqrt PI))) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* * * * [misc]progress:  [ 55 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 56 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 57 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 58 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 59 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 60 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 61 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 62 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 63 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 64 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 65 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * * [misc]progress:  [ 66 / 66 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3)))))
* * [misc]simplify:  iters left: 6 (27 enodes)
* * [misc]simplify:  iters left: 5 (53 enodes)
* * [misc]simplify:  iters left: 4 (126 enodes)
* * [misc]simplify:  iters left: 3 (369 enodes)
* [exit]simplify:  Simplified to (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI))))))
* * * [misc]progress:  adding candidates to table
* * [misc]progress:  iteration 4 / 4
* * * [misc]progress:  picking best candidate
* * * * [misc]pick:  Picked  #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* * * [misc]progress:  localizing error
* * * [misc]progress:  generating rewritten candidates
* * * * [misc]progress:  [ 1 / 4 ] rewriting at (2 1 3 2 1)
* * * * [misc]progress:  [ 2 / 4 ] rewriting at (2 1 3 2 1 1 1)
* * * * [misc]progress:  [ 3 / 4 ] rewriting at (2 1 1 2)
* * * * [misc]progress:  [ 4 / 4 ] rewriting at (2 1 2 2 2)
* * * [misc]progress:  generating series expansions
* * * * [misc]progress:  [ 1 / 4 ] generating series at (2 1 3 2 1)
* * * * [misc]progress:  [ 2 / 4 ] generating series at (2 1 3 2 1 1 1)
* * * * [misc]progress:  [ 3 / 4 ] generating series at (2 1 1 2)
* * * * [misc]progress:  [ 4 / 4 ] generating series at (2 1 2 2 2)
* [misc]approximate:  Taking taylor expansion of (* 1/5 (fabs x)) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs x)) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs x) in x
* [misc]backup-simplify:  Simplify (fabs x) into (fabs x)
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs x)) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs x) in x
* [misc]backup-simplify:  Simplify (fabs x) into (fabs x)
* [misc]backup-simplify:  Simplify (* 1/5 (fabs x)) into (* 1/5 (fabs x))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs x)) into (* 1/5 (fabs x))
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (* 0 (fabs x))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (* 0 (fabs x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 1/5 (fabs x)) into (* 1/5 (fabs x))
* [misc]approximate:  Taking taylor expansion of (* 1/5 (fabs (/ 1 x))) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 x))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 x)) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 x)) into (fabs (/ 1 x))
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 x))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 x)) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 x)) into (fabs (/ 1 x))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ 1 x))) into (* 1/5 (fabs (/ 1 x)))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ 1 x))) into (* 1/5 (fabs (/ 1 x)))
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (* 0 (fabs (/ 1 x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ 1 x))))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ 1 (/ 1 x)))) into (* 1/5 (fabs x))
* [misc]approximate:  Taking taylor expansion of (* 1/5 (fabs (/ 1 (- x)))) in (x) around 0
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 (- x)))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 (- x))) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 (- x))) into (fabs (/ -1 x))
* [misc]taylor:  Taking taylor expansion of (* 1/5 (fabs (/ 1 (- x)))) in x
* [misc]taylor:  Taking taylor expansion of 1/5 in x
* [misc]backup-simplify:  Simplify 1/5 into 1/5
* [misc]taylor:  Taking taylor expansion of (fabs (/ 1 (- x))) in x
* [misc]backup-simplify:  Simplify (fabs (/ 1 (- x))) into (fabs (/ -1 x))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ -1 x))) into (* 1/5 (fabs (/ -1 x)))
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ -1 x))) into (* 1/5 (fabs (/ -1 x)))
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (* 0 (fabs (/ -1 x)))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x)))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x)))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (+ (* 1/5 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (+ (* 0 0) (* 0 (fabs (/ -1 x))))))))) into 0
* [misc]backup-simplify:  Simplify 0 into 0
* [misc]backup-simplify:  Simplify (* 1/5 (fabs (/ -1 (/ 1 (- x))))) into (* 1/5 (fabs x))
* * * [misc]progress:  simplifying candidates
* * * * [misc]progress:  [ 1 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (- (exp (log1p (sqrt PI))) 1) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (exp (log1p (sqrt PI)))
* * [misc]simplify:  iters left: 3 (4 enodes)
* [exit]simplify:  Simplified to (exp (log1p (sqrt PI)))
* [exit]simplify:  Simplified to (exp (log1p (sqrt PI)))
* * * * [misc]progress:  [ 2 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (log1p (expm1 (expm1 (log1p (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (expm1 (expm1 (log1p (sqrt PI))))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* * * * [misc]progress:  [ 3 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (expm1 (log1p (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log1p (expm1 (log1p (sqrt PI))))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* * * * [misc]progress:  [ 4 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 5 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (pow (expm1 (log1p (sqrt PI))) 1) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 6 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (exp (log (expm1 (log1p (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log (expm1 (log1p (sqrt PI))))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (log (sqrt PI))
* [exit]simplify:  Simplified to (log (sqrt PI))
* * * * [misc]progress:  [ 7 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (log (exp (expm1 (log1p (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (exp (expm1 (log1p (sqrt PI))))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (exp (sqrt PI))
* [exit]simplify:  Simplified to (exp (sqrt PI))
* * * * [misc]progress:  [ 8 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (* (* (cbrt (expm1 (log1p (sqrt PI)))) (cbrt (expm1 (log1p (sqrt PI))))) (cbrt (expm1 (log1p (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (cbrt (expm1 (log1p (sqrt PI)))) (cbrt (expm1 (log1p (sqrt PI)))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [enter]simplify:  Simplifying (cbrt (expm1 (log1p (sqrt PI))))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* * * * [misc]progress:  [ 9 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (cbrt (* (* (expm1 (log1p (sqrt PI))) (expm1 (log1p (sqrt PI)))) (expm1 (log1p (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (* (expm1 (log1p (sqrt PI))) (expm1 (log1p (sqrt PI)))) (expm1 (log1p (sqrt PI))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (7 enodes)
* * [misc]simplify:  iters left: 4 (9 enodes)
* [exit]simplify:  Simplified to (* (sqrt PI) PI)
* [exit]simplify:  Simplified to (* (sqrt PI) PI)
* * * * [misc]progress:  [ 10 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (* (sqrt (expm1 (log1p (sqrt PI)))) (sqrt (expm1 (log1p (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (sqrt (expm1 (log1p (sqrt PI))))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [enter]simplify:  Simplifying (sqrt (expm1 (log1p (sqrt PI))))
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* * * * [misc]progress:  [ 11 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (* 1 (expm1 (log1p (sqrt PI)))) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 12 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (log1p (expm1 (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (expm1 (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* * * * [misc]progress:  [ 13 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (expm1 (log1p (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log1p (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* * * * [misc]progress:  [ 14 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (pow PI 1/2))) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 15 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (pow (sqrt PI) 1))) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 16 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (exp (log (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log (sqrt PI))
* [exit]simplify:  Simplified to (log (sqrt PI))
* * * * [misc]progress:  [ 17 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (log (exp (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (exp (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (exp (sqrt PI))
* [exit]simplify:  Simplified to (exp (sqrt PI))
* * * * [misc]progress:  [ 18 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (* (* (cbrt (sqrt PI)) (cbrt (sqrt PI))) (cbrt (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* * [misc]simplify:  iters left: 4 (4 enodes)
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [enter]simplify:  Simplifying (cbrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* * * * [misc]progress:  [ 19 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (cbrt (* (* (sqrt PI) (sqrt PI)) (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (* (sqrt PI) (sqrt PI)) (sqrt PI))
* * [misc]simplify:  iters left: 5 (4 enodes)
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* * * * [misc]progress:  [ 20 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (* (sqrt (sqrt PI)) (sqrt (sqrt PI))))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* * * * [misc]progress:  [ 21 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (* 1 (sqrt PI)))) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 22 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (log1p (expm1 (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (expm1 (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* [exit]simplify:  Simplified to (expm1 (sqrt PI))
* * * * [misc]progress:  [ 23 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (expm1 (log1p (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log1p (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* [exit]simplify:  Simplified to (log1p (sqrt PI))
* * * * [misc]progress:  [ 24 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (pow PI 1/2)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 25 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (pow (sqrt PI) 1)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 26 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (exp (log (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (log (sqrt PI))
* [exit]simplify:  Simplified to (log (sqrt PI))
* * * * [misc]progress:  [ 27 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (log (exp (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (exp (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (exp (sqrt PI))
* [exit]simplify:  Simplified to (exp (sqrt PI))
* * * * [misc]progress:  [ 28 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* (* (cbrt (sqrt PI)) (cbrt (sqrt PI))) (cbrt (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* * [misc]simplify:  iters left: 4 (4 enodes)
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [exit]simplify:  Simplified to (* (cbrt (sqrt PI)) (cbrt (sqrt PI)))
* [enter]simplify:  Simplifying (cbrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* [exit]simplify:  Simplified to (cbrt (sqrt PI))
* * * * [misc]progress:  [ 29 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (cbrt (* (* (sqrt PI) (sqrt PI)) (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (* (sqrt PI) (sqrt PI)) (sqrt PI))
* * [misc]simplify:  iters left: 5 (4 enodes)
* * [misc]simplify:  iters left: 4 (5 enodes)
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* [exit]simplify:  Simplified to (* PI (sqrt PI))
* * * * [misc]progress:  [ 30 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* (sqrt (sqrt PI)) (sqrt (sqrt PI)))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [enter]simplify:  Simplifying (sqrt (sqrt PI))
* * [misc]simplify:  iters left: 2 (3 enodes)
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* [exit]simplify:  Simplified to (sqrt (sqrt PI))
* * * * [misc]progress:  [ 31 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (* 1 (sqrt PI))) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 32 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (log1p (expm1 (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (expm1 (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (expm1 (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (expm1 (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 33 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (expm1 (log1p (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log1p (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (log1p (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (log1p (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 34 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (pow (* 1/5 (fabs x)) 1) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 35 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (exp (log (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (log (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (9 enodes)
* * [misc]simplify:  iters left: 2 (10 enodes)
* [exit]simplify:  Simplified to (log (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (log (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 36 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (log (exp (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (exp (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (8 enodes)
* [exit]simplify:  Simplified to (pow (exp 1/5) (fabs x))
* [exit]simplify:  Simplified to (pow (exp 1/5) (fabs x))
* * * * [misc]progress:  [ 37 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x)))) (cbrt (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (7 enodes)
* [exit]simplify:  Simplified to (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x))))
* [exit]simplify:  Simplified to (* (cbrt (* 1/5 (fabs x))) (cbrt (* 1/5 (fabs x))))
* [enter]simplify:  Simplifying (cbrt (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (cbrt (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (cbrt (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 38 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (cbrt (* (* (* 1/5 (fabs x)) (* 1/5 (fabs x))) (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* (* (* 1/5 (fabs x)) (* 1/5 (fabs x))) (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (14 enodes)
* * [misc]simplify:  iters left: 4 (31 enodes)
* * [misc]simplify:  iters left: 3 (57 enodes)
* * [misc]simplify:  iters left: 2 (92 enodes)
* * [misc]simplify:  iters left: 1 (100 enodes)
* [exit]simplify:  Simplified to (* (* (fabs x) 1/125) (* (fabs x) (fabs x)))
* [exit]simplify:  Simplified to (* (* (fabs x) 1/125) (* (fabs x) (fabs x)))
* * * * [misc]progress:  [ 39 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (sqrt (* 1/5 (fabs x))) (sqrt (* 1/5 (fabs x)))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (sqrt (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* [enter]simplify:  Simplifying (sqrt (* 1/5 (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* [exit]simplify:  Simplified to (sqrt (* 1/5 (fabs x)))
* * * * [misc]progress:  [ 40 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1 (* 1/5 (fabs x))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 41 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x)))) (cbrt (fabs x))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x))))
* * [misc]simplify:  iters left: 6 (6 enodes)
* * [misc]simplify:  iters left: 5 (9 enodes)
* * [misc]simplify:  iters left: 4 (11 enodes)
* [exit]simplify:  Simplified to (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x))))
* [exit]simplify:  Simplified to (* 1/5 (* (cbrt (fabs x)) (cbrt (fabs x))))
* * * * [misc]progress:  [ 42 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (* 1/5 (sqrt (fabs x))) (sqrt (fabs x))) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* 1/5 (sqrt (fabs x)))
* * [misc]simplify:  iters left: 4 (5 enodes)
* * [misc]simplify:  iters left: 3 (6 enodes)
* [exit]simplify:  Simplified to (* (sqrt (fabs x)) 1/5)
* [exit]simplify:  Simplified to (* (sqrt (fabs x)) 1/5)
* * * * [misc]progress:  [ 43 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (* 1/5 1) (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (* 1/5 1)
* * [misc]simplify:  iters left: 2 (3 enodes)
* * [misc]simplify:  iters left: 1 (5 enodes)
* [exit]simplify:  Simplified to 1/5
* [exit]simplify:  Simplified to 1/5
* * * * [misc]progress:  [ 44 / 56 ] simplifiying candidate #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* * * * [misc]progress:  [ 45 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 46 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 47 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 48 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 49 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 50 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 51 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 52 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 53 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 54 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 55 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * * [misc]progress:  [ 56 / 56 ] simplifiying candidate #<alt-event (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))>
* [enter]simplify:  Simplifying (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x))))))
* * [misc]simplify:  iters left: 6 (25 enodes)
* * [misc]simplify:  iters left: 5 (43 enodes)
* * [misc]simplify:  iters left: 4 (86 enodes)
* * [misc]simplify:  iters left: 3 (260 enodes)
* [exit]simplify:  Simplified to (fabs (fma (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ 1 (sqrt PI)) (/ 1/21 (/ (/ (sqrt PI) (fabs x)) (pow (fabs x) 6)))))
* * * [misc]progress:  adding candidates to table
* [misc]progress:  [Phase 3 of 3] Extracting.
* * [misc]regime-changes:  Finding splitpoints for: (#<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (expm1 (log1p (sqrt PI))) (* (fabs x) (fabs x)))))))> #<alt-event (λ (x) (fabs (* (/ 1 (sqrt PI)) (+ (+ (+ (* 2 (fabs x)) (* (/ 2 3) (* (* (fabs x) (fabs x)) (fabs x)))) (* (/ 1 5) (* (* (* (* (fabs x) (fabs x)) (fabs x)) (fabs x)) (fabs x)))) (* (/ 1 21) (* (* (* (* (* (* (fabs x) (fabs x)) (fabs x)) (fabs x)) (fabs x)) (fabs x)) (fabs x)))))))> #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))> #<alt-delta (λ (x) (fabs (+ (/ (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x))) (sqrt PI)) (fma (/ (pow (fabs x) 5) (/ (sqrt PI) 1/21)) (* (fabs x) (fabs x)) (* (pow (fabs x) 5) (/ 1/5 (sqrt PI)))))))> #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (* (* (cbrt (/ 1/21 (sqrt PI))) (cbrt (/ 1/21 (sqrt PI)))) (cbrt (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))> #<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (* 1/5 (fabs x)) (* (fabs x) (fabs x))) (* (fabs x) (fabs x)) (fma (* 2/3 (fabs x)) (* (fabs x) (fabs x)) (* 2 (fabs x)))) (* (* (exp (log (/ 1/21 (sqrt PI)))) (fabs x)) (* (pow (fabs x) 3) (pow (fabs x) 3))))))>)
* [misc]regimes:  Found splitpoints: (#s(sp 0 (fabs (* (/ 1 (sqrt PI)) (+ (+ (+ (* 2 (fabs x)) (* (/ 2 3) (* (* (fabs x) (fabs x)) (fabs x)))) (* (/ 1 5) (* (* (* (* (fabs x) (fabs x)) (fabs x)) (fabs x)) (fabs x)))) (* (/ 1 21) (* (* (* (* (* (* (fabs x) (fabs x)) (fabs x)) (fabs x)) (fabs x)) (fabs x)) (fabs x)))))) +nan.0)) , with alts (#<alt-delta (λ (x) (fabs (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))))>)
* [enter]simplify:  Simplifying (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* 1/5 (fabs x)) (* 2/3 (fabs x))) (* (fabs x) 2)) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))
* * [misc]simplify:  iters left: 6 (22 enodes)
* * [misc]simplify:  iters left: 5 (28 enodes)
* [exit]simplify:  Simplified to (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))
* [exit]simplify:  Simplified to (fma (/ 1 (sqrt PI)) (fma (* (fabs x) (fabs x)) (fma (* (fabs x) (fabs x)) (* (fabs x) 1/5) (* 2/3 (fabs x))) (* 2 (fabs x))) (/ (* (pow (fabs x) 5) 1/21) (/ (sqrt PI) (* (fabs x) (fabs x)))))
* * * * [misc]points:  Sampling 8000 additional inputs, on iter 0 have 0 / 8000
* * * * [misc]points:  Computing exacts on every 500 of 8000 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 250 of 8000 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 125 of 8000 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 62 of 8000 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 31 of 8000 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 15 of 8000 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 7 of 8000 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts on every 3 of 8000 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Computing exacts for 8000 points
* * * * [misc]points:  Setting MPFR precision to 64
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 3469 additional inputs, on iter 1 have 4531 / 8000
* * * * [misc]points:  Computing exacts on every 216 of 3469 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 108 of 3469 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 54 of 3469 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 27 of 3469 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 13 of 3469 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 6 of 3469 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 3 of 3469 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts for 3469 points
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 1504 additional inputs, on iter 2 have 6496 / 8000
* * * * [misc]points:  Computing exacts on every 94 of 1504 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 47 of 1504 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 23 of 1504 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 11 of 1504 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 5 of 1504 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 2 of 1504 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts for 1504 points
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 636 additional inputs, on iter 3 have 7364 / 8000
* * * * [misc]points:  Computing exacts on every 39 of 636 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 19 of 636 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 9 of 636 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 4 of 636 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 2 of 636 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts for 636 points
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 239 additional inputs, on iter 4 have 7761 / 8000
* * * * [misc]points:  Computing exacts on every 14 of 239 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 7 of 239 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 3 of 239 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts for 239 points
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 101 additional inputs, on iter 5 have 7899 / 8000
* * * * [misc]points:  Computing exacts on every 6 of 101 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts on every 3 of 101 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts for 101 points
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 40 additional inputs, on iter 6 have 7960 / 8000
* * * * [misc]points:  Computing exacts on every 2 of 40 points to ramp up precision
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Computing exacts for 40 points
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 11 additional inputs, on iter 7 have 7989 / 8000
* * * * [misc]points:  Computing exacts for 11 points
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 4 additional inputs, on iter 8 have 7996 / 8000
* * * * [misc]points:  Computing exacts for 4 points
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [misc]points:  Sampling 4 additional inputs, on iter 9 have 7998 / 8000
* * * * [misc]points:  Computing exacts for 4 points
* * * * [misc]points:  Setting MPFR precision to 320
* * * * [misc]points:  Setting MPFR precision to 576
* * * * [misc]points:  Filtering points with unrepresentable outputs
* * * * [exit]points:  Sampled 8002 points with exact outputs