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Just wondering if in a question there is talk about the Running time of an algorithm, does it mean the same as Time Complexity or is there any difference between the two?

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    It depends entirely on the context in which the term was used. When your boss is asking why the "run-time" was 3 hours, he isn't talking about algorithmic complexity. When your professor asks what the "run-time" of an algorithm is, he probably isn't asking you to get out your stopwatch and time it. – San Jacinto Feb 6 '11 at 20:34
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Running time is how long it takes a program to run. Time complexity is a description of the asymptotic behavior of running time as input size tends to infinity.

You can say that the running time "is" O(n^2) or whatever, because that's the idiomatic way to describe complexity classes and big-O notation. In fact the running time is not a complexity class, it's either a duration, or a function which gives you the duration. "Being O(n^2)" is a mathematical property of that function, not a full characterisation of it. The exact running time might be 2036*n^2 + 17453*n + 18464 CPU cycles, or whatever. Not that you very often need to know it in that much detail, and anyway it might well depend on the actual input as well as the size of the input.

  • "As the input size tends to infinity", true. – CodeYogi Feb 4 '16 at 17:37
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The time complexity and running time are two different things altogether.

Time complexity is a complete theoretical concept related to algorithms, while running time is the time a code would take to run, not at all theoretical.

Two algorithms may have the same time complexity, say O(n^2), but one may take twice as much running time as the other one.

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"Running time" refers to the algorithm under consideration:

Another algorithm might be able solve the same problem asymptotically faster, that is, with less running time.

"Time complexity" on the other hand is inherent to the problem under consideration. It is defined as the least running time of any algorithm solving said problem.

The same distincting applies to other measures of algorithmic cost such as memory, #processors, communication volume etc.

(Blum's Speedup Theorem demonstrates that the "least" time may in general not be attainable...)

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To analyze an algorithm is to determine the amount of resources (such as time and storage) necessary to execute it. Most algorithms are designed to work with inputs of arbitrary length. Usually the efficiency or running time of an algorithm is stated as a function relating the input length to the number of steps (time complexity) or storage locations (space complexity).

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From CLRS 2.2 pg. 25

The running time of an algorithm on a particular input is the number of primitive operations or “steps” executed. It is convenient to define the notion of step so that it is as machine-independent as possible.

Now from Wikipedia

... 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 representing the input.

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.

Notice that both descriptions emphasize the relationship of the size of the input to the number of primitive/elementary operations.

I believe this makes it clear both refer to the same concept.

In practice though you'll find that enterprisey jargon rarely matches academic terminology, e.g., tons of people work doing code optimization but rarely solve optimization problems.

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