Abstract
We consider the problem of minimizing the total weighted flow time on a single machine with preemptions. We give an online algorithm that is O ( k )-competitive for k weight classes. This implies an O (log W )-competitive algorithm, where W is the maximum to minimum ratio of weights. This algorithm also implies an O (log n + log P )-approximation ratio for the problem, where P is the ratio of the maximum to minimum job size and n is the number of jobs. We also consider the nonclairvoyant setting where the size of a job is unknown upon its arrival and becomes known to the scheduler only when the job meets its service requirement. We consider the resource augmentation model, and give a (1 + ε)-speed, (1 +1/ε)-competitive online algorithm.
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