AbstractWe study the single-device Dynamic Storage Allocation (DSA) problem and the multi-device Balancing DSA problem in this paper. The goal is to dynamically allocate the job into memory to minimize the usage of space without concurrency. The SRF problem is just a variant of the DSA problem. Our results are as follows. •The NP-completeness for the 2-SRF problem, 3-DSA problem, and DSA problem for jobs with agreeable deadlines.•An improved 3-competitive algorithm for jobs with agreeable deadlines on single-device DSA problems. A 4-competitive algorithm for jobs with agreeable deadlines on multi-device Balancing DSA problems.•Lower bounds for jobs with agreeable deadlines: any non-clairvoyant algorithm cannot be (2−ϵ)-competitive and any c...
Many fundamental problems in shared-memory distributed computing, including mutual exclusion [James ...
AbstractThis paper proposes a new dynamic algorithm for the generalised load balancing problem. This...
In this paper we study energy efficient deadline scheduling on multiprocessors in which the processo...
AbstractWe study the single-device Dynamic Storage Allocation (DSA) problem and the multi-device Bal...
In this report, we look at the problem of packing a number of arrays in memory efficiently. This is ...
In this report, we look at the problem of packing a number of arrays in memory efficiently. This is ...
. This paper is concerned with on-line storage allocation to processes in a dynamic environment. Thi...
AbstractThis paper is concerned with a new version of on-line storage allocation in which the durati...
In the Demand Strip Packing problem (DSP), we are given a time interval and a collection of tasks, e...
International audienceWe are interested in this paper to study scheduling problems in systems where ...
LNCS v. 3618 entitled: Mathematical Foundations of Computer Science 2005: 30th International Symposi...
AbstractThis paper studies online job scheduling on multiprocessors and, in particular, investigates...
AbstractThis note discusses the multiple wordlength assignment problem for the design of custom digi...
The dynamic space allocation problem(DSAP) presented here is a relatively new problem in the literat...
With the advent of operating systems and programming languages that can evaluate and guarantee real-...
Many fundamental problems in shared-memory distributed computing, including mutual exclusion [James ...
AbstractThis paper proposes a new dynamic algorithm for the generalised load balancing problem. This...
In this paper we study energy efficient deadline scheduling on multiprocessors in which the processo...
AbstractWe study the single-device Dynamic Storage Allocation (DSA) problem and the multi-device Bal...
In this report, we look at the problem of packing a number of arrays in memory efficiently. This is ...
In this report, we look at the problem of packing a number of arrays in memory efficiently. This is ...
. This paper is concerned with on-line storage allocation to processes in a dynamic environment. Thi...
AbstractThis paper is concerned with a new version of on-line storage allocation in which the durati...
In the Demand Strip Packing problem (DSP), we are given a time interval and a collection of tasks, e...
International audienceWe are interested in this paper to study scheduling problems in systems where ...
LNCS v. 3618 entitled: Mathematical Foundations of Computer Science 2005: 30th International Symposi...
AbstractThis paper studies online job scheduling on multiprocessors and, in particular, investigates...
AbstractThis note discusses the multiple wordlength assignment problem for the design of custom digi...
The dynamic space allocation problem(DSAP) presented here is a relatively new problem in the literat...
With the advent of operating systems and programming languages that can evaluate and guarantee real-...
Many fundamental problems in shared-memory distributed computing, including mutual exclusion [James ...
AbstractThis paper proposes a new dynamic algorithm for the generalised load balancing problem. This...
In this paper we study energy efficient deadline scheduling on multiprocessors in which the processo...