In computer science, the time complexity of an algorithm quantifies the amount of time taken by an algorithm to run as a function of the length of the String (computer science)|string representing the input. The time complexity of an algorithm is commonly expressed using big O notation, which excludes coefficients and lower order terms. When expressed this way, the time complexity is said to be described asymptotically, i.e., as the input size goes to infinity. For example, if the time required by an algorithm on all inputs of size n is at most , the asymptotic time complexity is O(n3).
Time complexity is commonly estimated by counting the number of elementary operations performed by the algorithm, where an elementary operation takes a fixed amount of time to perform. Thus the amount of time taken and the number of elementary operations performed by the algorithm differ by at most a constant factor.
Big O notation is used in computer algorithms as a worst-case scenario illustration. Constants are not considered as we are only concerned on how a function f(x) can grow respectively to g(x) in a way so, f(x) = O(g(x))
Since an algorithm's performance time may vary with different inputs of the same size, one commonly uses the Worst-case complexity|worst-case time complexity of an algorithm, denoted as T(n), which is defined as the maximum amount of time taken on any input of size n. Time complexities are classified by the nature of the function T(n). For instance, an algorithm with T(n) = O(n) is called a linear time algorithm, and an algorithm with T(n) = O(2n) is said to be an exponential time algorithm.

In computer science, the time complexity of an algorithm quantifies the amount of time taken by an algorithm to run as a function of the length of the String (computer science)|string representing the input. The time complexity of an algorithm is commonly expressed using big O notation, which excludes coefficients and lower order terms. When expressed this way, the time complexity is said to be described asymptotically, i.e., as the input size goes to infinity. For example, if the time required by an algorithm on all inputs of size n is at most , the asymptotic time complexity is O(n3).
Time complexity is commonly estimated by counting the number of elementary operations performed by the algorithm, where an elementary operation takes a fixed amount of time to perform. Thus the amount of time taken and the number of elementary operations performed by the algorithm differ by at most a constant factor.
Big O notation is used in computer algorithms as a worst-case scenario illustration....