Ackermann's Function is a recursive function that is not 'primitive recursive.'
The first argument drives the value extremely fast.
A(m, n) =
- n + 1 if m = 0
- A(m − 1, 1) if m > 0 and n = 0
- A(m − 1,A(m, n − 1)) if m > 0 and n > 0
A(2,4)=A(1,A(2,3)) = ... = 11.
% Range of cases % m=0 n=0:1024 % m=1 n=0:1024 % m=2 n=0:128 % m=3 n=0:6 % m=4 n=0:1
There is some deep recusion.
Input: m,n
Out: Ackerman value
Ackermann(2,4) = 11
Practical application of Ackermann's function is determining compiler recursion performance.
Solution Stats
Problem Comments
2 Comments
Solution Comments
Show comments
Loading...
Problem Recent Solvers81
Suggested Problems
-
2251 Solvers
-
2609 Solvers
-
Flag largest magnitude swings as they occur
692 Solvers
-
Implement a bubble sort technique and output the number of swaps required
398 Solvers
-
Return fibonacci sequence do not use loop and condition
870 Solvers
More from this Author306
Problem Tags
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Solution 15 is, to me, a novel cell array index implementation.
Efficiently to crash my Matlab.