Asymptotic Analysis Last Updated : 23 Jul, 2025 Comments Improve Suggest changes Like Article Like Report Given two algorithms for a task, how do we find out which one is better? One naive way of doing this is - to implement both the algorithms and run the two programs on your computer for different inputs and see which one takes less time. There are many problems with this approach for the analysis of algorithms. It might be possible that for some inputs, the first algorithm performs better than the second. And for some inputs second performs better. It might also be possible that for some inputs, the first algorithm performs better on one machine, and the second works better on another machine for some other inputs.Asymptotic Analysis is the big idea that handles the above issues in analyzing algorithms. In Asymptotic Analysis, we evaluate the performance of an algorithm in terms of input size (we don't measure the actual running time). We calculate, order of growth of time taken (or space) by an algorithm in terms of input size. For example linear search grows linearly and Binary Search grows logarithmically in terms of input size.For example, let us consider the search problem (searching a given item) in a sorted array. The solution to above search problem includes: Linear Search (order of growth is linear) Binary Search (order of growth is logarithmic). To understand how Asymptotic Analysis solves the problems mentioned above in analyzing algorithms, let us say: We run the Linear Search on computer A and Binary Search on computer B and For small values of input array size n, computer A may take less time. But, after a certain value of input array size, the Binary Search will definitely start taking less time compared to the Linear Search even though the Binary Search is being run on a slow machine. Why? After certain value, the machine specific factors would not matter as the value of input would become large.The reason is the order of growth of Binary Search with respect to input size is logarithmic while the order of growth of Linear Search is linear. So the machine-dependent constants can always be ignored after a certain value of input size. Let’s say the constant for machine A is 0.2 and the constant for B is 1000 which means that A is 5000 times more powerful than B. Input SizeRunning time on ARunning time on B102 sec~ 1 h 10020 sec~ 1.8 h10^6 ~ 55.5 h~ 5.5 h10^9~ 6.3 years ~ 8.3 hRunning times for this example: Linear Search running time in seconds on A: 0.2 * n Binary Search running time in seconds on B: 1000*log(n) Does Asymptotic Analysis always work? Asymptotic Analysis is not perfect, but that's the best way available for analyzing algorithms. For example, say there are two sorting algorithms that take 1000nLogn and 2nLogn time respectively on a machine. Both of these algorithms are asymptotically the same (order of growth is nLogn). So, With Asymptotic Analysis, we can't judge which one is better as we ignore constants in Asymptotic Analysis. For example, asymptotically Heap Sort is better than Quick Sort, but Quick Sort takes less time in practice.Also, in Asymptotic analysis, we always talk about input sizes larger than a constant value. It might be possible that those large inputs are never given to your software and an asymptotically slower algorithm always performs better for your particular situation. So, you may end up choosing an algorithm that is Asymptotically slower but faster for your software. Order of Growth Visit Course Comment More infoAdvertise with us K kartik Follow Improve Article Tags : DSA Complexity-analysis Similar Reads Basics & PrerequisitesLogic Building ProblemsLogic building is about creating clear, step-by-step methods to solve problems using simple rules and principles. 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