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Or rather, what is the definition of a combinatorial algorithm and a linear algorithm, resp.?

To make it clear because obviously the first responders misunderstood the question: I am not looking for a definition of an algorithm running in linear time vs non-linear time. A linear algorithm is somehow related to linear programming, which is a technique for finding or approximating solutions to linear optimization problems.

Since NP-hard problems are so hard, there is a whole field trying to find approximate solutions. The traveling salesman problem for instance has several approximate solutions which run in polynomial time and produce a solution which is within a given bound of the best solution.

Some of these approximating algorithms are called a linear algorithm, others a combinatorial algorithm; and the latter seems to be preferred (Why?). These are the two concepts I would like to understand.

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Are you sure that linear programming is solvable in linear time? I believe in linear programming the linear applies to the degree of the equations being solved, not necessarily the complexity of the algorithm to solve it. –  JB King Jun 26 '09 at 21:24
    
Linear programming is solvable in polynomial (not linear) time. –  Eduardo León Sep 11 '09 at 20:56

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The issue is one of problem formulation.

Just as you said Traveling Salesperson Problem (TSP) is NP-hard precisely because it has a discrete problem formulation (the salesperson either visits a city or not at a particular time). This discrete formulation makes the problem, and it's algorithm, combinatorial. (Note that not all combinatorial problems are NP-hard; consider sorting algorithms.)

However, the Linear-Programming (LP) relaxation of TSP results in a linear algorithm. This is because the problem has been reformulated such that the salesperson visits a city a certain proportion of the time. The main reason for using an LP relaxation is because the relaxed version can be solved in polynomial time. However, the solution to the LP relaxation is not necessarily a solution to the original problem.

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A linear algorithm tends to work with just one set of data - 'Take all the numbers in set a, double them, and put the result in set b'. The number of operations is equal to the count of items in set a

A combinatorial one works on combinations of sets - 'For each number in set a, work out the sum of that number and each number in set b and print to screen'. The number of operations is the product of the size of set a and the size of set b.

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Sorry, that's not what I'm looking for. I have tried to clarify the question. –  Tobias Jun 16 '09 at 17:19

Combinatorial algorithms "explode" as their input grows. Linear algorithms grows proportional to their input, while combinatorial algorithms grows proportional to an exponent (or worse) or their input: enumerating all possible paths through a graph, for example.

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Sorry, that's not what I'm looking for. I have tried to clarify the question. –  Tobias Jun 16 '09 at 17:20

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