**0**

votes

**0**answers

13 views

### Amortized runtime for insertion in scapegoat tree

I am working on the following problem, from a problem set for a course I am self studying.
I have solved the first part. I'm stuck on the second. These are my thoughts so far. I think that the ...

**0**

votes

**1**answer

35 views

### Constant amortized complexity for implementing a queue using two stacks

METHOD: Maintain two stacks A and B. Push into A. To pop look at B. If B is empty then pop A completely and push it into B and then pop from B. Otherwise simply pop from B.
QUESTION : 1)What is the ...

**2**

votes

**2**answers

45 views

### Data structure that deletes all elements of a set less than or equal to x in O(1) time

I am self studying for an algorithms course, and I am trying to solve the following problem:
Describe a data structure to store a set of real numbers, which can perform each of the following ...

**-1**

votes

**1**answer

46 views

### Randomized Algorithm

i'm get trouble in one randomized problem :)
For example a randomized algorithm A, want to determine the input X is prim number or not?
at first run
1- if x is prime --> algorithm ...

**1**

vote

**0**answers

77 views

### Implementing Deque using 3 Stacks (Amortized time O(1))

I have this question for howmework:
Implement a Deque using 3 Stacks. The Deque have those operations : InsertHead, InsertTail, DeleteHead,DeleteTail. Prove that the amortized time for each operation ...

**0**

votes

**0**answers

24 views

### Is it wrong to account for malloc in an amortized analysis of a dynamic array?

I had points docked on a homework assignment for calculating the wrong total cost in an amortized analysis of a dynamic array. I think the grader probably only looked at the total and not the steps I ...

**0**

votes

**0**answers

82 views

### W.C Complexity red black tree with operations insert-max and delete-min

I have a question in data structures:
assuming we have a red black tree with pointers to the
minimum and maximum, and 2 operations as the following:
Insert-Max: insert a node which has a bigger ...

**0**

votes

**0**answers

22 views

### excerise from Introduction to Algorithm

http://i.imgur.com/cshje4w.gif
Hi, I can't deal with it. I'm asking you for help-hand. It is too hard
I read a lot of about amortized-analysis but I have no idea.
Thanks in advance.

**0**

votes

**0**answers

35 views

### computing amortized cost, I dont understand solution

Consider a data structure where n operations are performed. The ith
operation costs i if i is an exact power of two and 1 otherwise.
Determine the amortized cost of each operation using the ...

**0**

votes

**0**answers

27 views

### Amortized Analysis for Addition

How can we add n positive integers with binary expansion l_1, l_2,...l_n bits so that the total complexity is O (\sum l_i) for i = {1,...,n} ? More importantly, how can show this complexity using ...

**-1**

votes

**1**answer

168 views

### Amortized and Average runtime complexity [closed]

this is not homework, I am studying Amortized analysis. There are something confuse me .I can't totally understand the meaning between Amortized and Average complexity. Not sure this is right or not. ...

**0**

votes

**1**answer

62 views

### Updating maximum sum subinteral in an array in sublinear time when an adjacent transposition is applied

I asked this question for general transpositions and it seemed too hard, I only got one answer which didn't seem to give a guaranteed asymptotic speed-up. So suppose we apply a sequence of adjacent ...

**4**

votes

**2**answers

92 views

### Find the amortized complexity of a Hash function

I was studying for my final when I ran into this problem.
For 1a, I think its O(1) for amortized complexity, because it does x mod N which is sparse enough and linear probing incase it fails
However ...

**2**

votes

**1**answer

367 views

### Efficiency of growing a dynamic array by a fixed constant each time?

So when a dynamic array is doubled in size each time an element is added, I understand how the time complexity for expanding is O(n) n being the elements. What about if the the array is copied and ...

**0**

votes

**2**answers

113 views

### Finding amortized time complexity [closed]

So I wrote a function push_back for a vector class, and I'm now trying to figure out the amortized time complexity. I'm pretty new to the theoretical side of programming, so if someone could walk me ...

**0**

votes

**0**answers

214 views

### is the amortized cost for increment and decrement binary counter the same?

is the amortized cost for increment and decrement binary counter the same?
i.e O(n) for n increments or decrements?
Also can somebody explain how to calculate the amortised cost of a binary decrement ...

**-1**

votes

**1**answer

216 views

### doubling and incremental strategy while implementing stack using linked list and arrays?

What is difference between amortized and average complexity?
Also what is doubling and incremental strategy while implementing stack using linked list and arrays?

**0**

votes

**4**answers

131 views

### StringBuffer and amortization

In ArrayList the add operation is amortized operation. So while reading StringBuffer it came to my mind why the StringBuffer is not amortized. Suppose I use append operation on a string buffer ...

**1**

vote

**0**answers

269 views

### What data structure could this be?

I have the following question that I haven't been able to answer:
design a data structure that support the following features:
Insertion will be made to the first empty slot
Access to an object with ...

**1**

vote

**2**answers

145 views

### How to analyze of the complexity of this code?

I am solving a problem from codeforces. According to the editorial, the complexity of the following code should be O(n).
for(int i = n - 1; i >= 0; --i) {
r[i] = i + 1;
while (r[i] < n ...

**2**

votes

**1**answer

180 views

### Amortized Analysis for Re-sizing Array for Stack

Proposition . In the resizing array implementation of Stack,
the average number of array accesses for any sequence of operations starting from
an empty data structure is constant in the worst case.
...

**0**

votes

**3**answers

274 views

### Amortized complexity of a balanced binary search tree

I'm not entirely sure what amortized complexity means. Take a balanced binary search tree data structure (e.g. a red-black tree). The cost of a normal search is naturally log(N) where N is the number ...

**10**

votes

**6**answers

2k views

### Amortized complexity in layman's terms?

Can someone explain amortized complexity in layman's terms? I've been having a hard time finding a precise definition online and I don't know how it entirely relates to the analysis of algorithms. ...

**0**

votes

**0**answers

1k views

### Best case, average case, worst case, and amortized case analysis

I am looking of an understanding of how things work, not just the answer. I'm giving what I've though the answer is, but I'm not really sure and the text doesn't have much on this kind of analysis.
I ...

**2**

votes

**2**answers

2k views

### Amortized Analysis of Algorithms

I am currently reading amortized analysis. I am not able to fully understand how it is different from normal analysis we perform to calculate average or worst case behaviour of algorithms. Can someone ...

**1**

vote

**2**answers

717 views

### What is the amortized cost of a sequence of n insertion in a binary search tree?

How do I calculate the amortized cost of a sequence of n insertions in a binary search tree? The input sequence is random and each insert adds one node.

**0**

votes

**1**answer

310 views

### Binary Counter Amortized Analysis

I guess you already know that if all the entries in the Array starts at 0 and at each step we increment the counter by 1 (by flipping 0's and 1's) then the amortized cost for k increments is O(k).
...

**0**

votes

**0**answers

244 views

### n-bit counter amortized analysis

Suppose we have a binary counter that supports two operations: incrementing and resetting all bits to zero. If the modification or examination of a single bit takes Theta(1) time, how can a counter be ...

**3**

votes

**4**answers

726 views

### Aggregate analysis for a sequence of n operations

I'm trying to find the amortized cost per operation in a sequence of n operations on a data structure in which the ith operation costs i if i is an exact power of 2, and 1 otherwise.
I think I need ...

**11**

votes

**1**answer

313 views

### Haskell collections with guaranteed worst-case bounds for every single operation?

Such structures are necessary for real-time applications - for example user interfaces. (Users don't care if clicking a button takes 0.1s or 0.2s, but they do care if the 100th click forces an ...

**0**

votes

**2**answers

291 views

### Big-O: Getting all of the keys in a Java HashMap

Anyone know what the amortized analysis is of keySet in Java HashMap? O(1)?
Is iterating through them O(n)?

**0**

votes

**1**answer

205 views

### Connection between amortized complexity and worst case time complexity

I have a set of n consecutive operations which each one runs in O(1) amortized complexity.
Can I say that the whole set runs in O(n) worst case time complexity?
How do I prove it ?

**24**

votes

**6**answers

6k views

### What is amortized analysis of algorithms?

How is it different from asymptotic analysis? When do you use it, and why?
I've read some articles that SEEM to have been written well like these:
...

**-1**

votes

**1**answer

49 views

### Amortized Analysis: Find the Rate of Travel

A biker can travel at 24kms per hour with the flow of the wind, but only 12kms per hour against the wind. Assuming the biker starts and finishes at the same point.
What is the rider's amortized rate ...

**1**

vote

**2**answers

483 views

### Amortized Time Cost using Accounting Method

I written an algorithm to calculate the next lexicographic permutation of an array of integers (ex. 123, 132, 213, 231, 312,323). I dont think the code is necessary but I included it below.
I think ...

**4**

votes

**1**answer

162 views

### Equivalent data structures with same bounds in worst case (vs. amortized)

I could not make my title very descriptive, apologies!
Is it the case that for every data structure, supporting some operations with certain amortized running times, another data structure supporting ...

**1**

vote

**1**answer

546 views

### Questions on the design and analysis of Fibonacci heaps

Fibonacci heaps are proving tricky to understand - even though CLRS has made a
really good attempt to make it understand how it works. But some questions
are really unclear to me:
Why would you ...

**1**

vote

**0**answers

195 views

### Fibonacci Heaps without array indexing?

Friends, my professor covered Fibonacci heaps and gave a home work. The requirement is usually after a extract, we need to compress the root list by linking roots of same degree. We use array indexing ...

**3**

votes

**1**answer

279 views

### How can I ensure amortized O(n) concatenation from Data.Vector?

I have an application where it is efficient to use Vectors for one part of the code. However, during the computation I need to keep track of some of the elements. I have heard that you can get O(n) ...

**3**

votes

**1**answer

737 views

### need to find the amortized cost of a sequence using the potential function method

There is a sequence of n operations, The ith operation costs 2i if i is an exact power of 2, costs 3i if i is an exact power of 3, and 1 for all other operations.Hi first up I want to say that it is ...

**12**

votes

**3**answers

2k views

### Amortized analysis of std::vector insertion

How do we do the analysis of insertion at the back (push_back) in a std::vector? It's amortized time is O(1) per insertion. In particular in a video in channel9 by Stephan T Lavavej and in this ( ...

**6**

votes

**1**answer

413 views

### amortized cost of splay tree : cost + P(tf) - P(ti) ≤ 3(rankf(x) - ranki(x)) explanation

While reading about splay trees I found some expression about the rank of the splay node 'X' and the amortized cost in wikipedia. It is given as,
{
We can bound the amortized cost of any zig-zig or ...

**3**

votes

**2**answers

1k views

### Amortized time of dynamic array

As a simple example, in a specific implementation of the dynamic array, we double the size of the array each time it fills up.
Because of this, array reallocation may be required, and in the worst ...

**0**

votes

**0**answers

159 views

### Amortized constant vs average constant algorithms

Which one would be better: an algorithm which takes an amortized constant time, or an algorithm which, in the average case, takes a constant amount of time?
Considering we execute the algorithm a ...

**7**

votes

**2**answers

2k views

### Union/find algorithm without union by rank for disjoint-set forests data structure

Here's a breakdown on the union/find algorithm for disjoint set forests on wikipedia:
Barebone disjoint-set forests... (O(n))
... with union by rank ... (now improved to O(log(n))
... with path ...

**3**

votes

**6**answers

778 views

### Is amortization ever really desirable?

For instance, suppose I have an algorithm that's O(n) and an algorithm that's an amortized O(n). Is it fair to say that in strictly big oh terms, the non-amortized algorithm will always be as fast or ...

**1**

vote

**3**answers

453 views

### Amortized time per operation using disjoint sets

I happened to read on Wikipedia that the amortized time per operation on a disjoint set (union two elements, find parent of a specific element) is O(a(n)), where a(n) is the inverse Ackermann ...

**3**

votes

**4**answers

1k views

### Design a stack that can also dequeue in O(1) amortized time?

I have an abstract data type that can be viewed as a list stored left to right, with the following possible operations:
Push: add a new item to the left end of the list
Pop: remove the item on the ...