M. Willebeek-LeMair scite author profile

Scan Directed Load Balancing is a new, locality-preserving, dynamic load balancing algorithm for grid-based computations on mesh-connected parallel computers. Scans are used to efficiently determine what areas of the machine are heavily loaded and what areas are lightly loaded, and to organize the movement of data. Data is shifted along the mesh in a regular fashion to balance the load. The Locality Property of the algorithm guarantees that all the neighbors of a data point on the grid are stored either on the same processor, or on a processor that is directly connected to it. C-j Scan Directed Load Balancing is applicable to both SIMD and MIMD , r mesh-connected parallel computers, and has been implemented on the f, MasPar NIP-I. We present some theoretical bounds achieved by the I"' algorithm as well as the algorithm's performance on a particular image processing problem, edge-directed diffusion. Our experiments show C that the algorithm is effective in improving the load distribution for real P. problems, while the efficiency of the original grid-based computation is preserved by the locality property. This work supported in part by Office of Naval Research contract #N00014-8& j pp-r bOk (t65/,-r 91-13520 M.jo e" '. Ifi l l , II ,

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End to end QoS provisioning multimedia wireless/mobile networks using an adaptive framework

Naghshineh

Willebeek-LeMair

1997

IEEE Commun. Mag.

128

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Solving nonuniform problems on SIMD computers: Case study on region growing

Willebeek-LeMair¹,

Reeves²

1990

Journal of Parallel and Distributed Computing

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On multipoint control units for videoconferencing

Willebeek-LeMair

Kandlur

Shae

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Approximating dependability measures of computer networks: an FDDI case study

Willebeek-LeMair

Shahabuddin

1997

IEEE/ACM Trans. Networking

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