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I'm working out the recurrence relation

T(n) = T(3/4 * n) + O(1)

It's coming out to be O(log(n)), but I was told before hand that the solution is O(n). I can't find where I'm going wrong - this looks just like the recurrence relation for binary search. Any suggestions?

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Or potentially, the answer I was pre-given is wrong, just trying to find out which. –  sparkFinder Dec 5 '10 at 18:23
    
Try some examples! –  Gareth Rees Dec 5 '10 at 21:27

2 Answers 2

up vote 1 down vote accepted

Try substituting T(n) = c*n or T(n) = c * log n into the equation and solving. One of the two equations will be solvable.

You can also check your answer by evaluating the function for different values of n.

-- Define T in your preferred language
t n | n <= 1 = 1 | otherwise = t (3/4 * n) + 1

-- If it's O(log n), then T(n)/log(n) should be asymptotically constant
-- If it's O(n), then T(n)/n should be asymptotically constant
check1 n = t n / log n
check2 n = t n / n

print [check1 1e10, check1 1e11, check1 1e12, check1 1e13]
print [check2 1e10, check2 1e11, check2 1e12, check2 1e13]

One of these will converge to a small positive number, the other will go to zero or infinity.

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T(n) = T(3/4 * n) + O(1) ...............(1) in above eq. T(3/4 * n) is unknown term if you are asking about the solution of this recurrence, then i want to say that we can solve this eq. using substitution method. in this we have to find out the value of T(3n/4) from main eq. and substitute in the eq. recursively. As this recurrence is depends on recursion. n=3n/4 T(3n/4)=T((3/4)^2 * n)+ c ...............(2) notation O replaced by constant c. now substitute T(3n/4) in (1) T(n)= T((3/4)^2 * n) +2c ................(3) now put n=((3/4)^2 * n) in (1) T((3/4)^2 * n)=T((3/4)^3 * n)+c Substitute T(n)= T((3/4)^3 * n)+3c ...............(4)

After kth step eq. will be T(n)=T((3/4)^k * n)+kc ................(5) at this step n will be 2 or 1(input size) (3/4)^k * n= 1 n=(4/3)^k by taking log on both side. log(n)=k*log(4/3) k=log(n) .............. place value in eq. (5) T(n)=T(1)+log(n) * c ..............(6) T(n)= O(log n)

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