@article{figueiredo_gloster_stephens_graves_nakkar_2000, title={Implementation of multispectral image classification on a remote adaptive computer}, volume={10}, number={3}, journal={VLSI Design (Yverdon, Switzerland)}, author={Figueiredo, M. A. and Gloster, C. S. and Stephens, M. and Graves, C. A. and Nakkar, M.}, year={2000}, pages={307–319} }
 @article{alexander_reeves_gloster_2000, title={Parallel image processing with the block data parallel architecture (Reprinted from Proceedings of the IEEE, vol 84, pg 947-968, 1996)}, volume={44}, ISSN={["0018-8646"]}, DOI={10.1147/rd.445.0681}, abstractNote={Many digital signal and image processing algorithms can be speeded up by executing them in parallel on multiple processors. The speed of parallel execution is limited by the need for communication and synchronization between processors. In this paper, we present a paradigm for parallel processing that we call the block data flow paradigm (BDFP). The goal of this paradigm is to reduce interprocessor communication, and relax the synchronization requirements for such applications. We present the block data parallel architecture which implements this paradigm, and we present methods for mapping algorithms onto this architecture. We illustrate this methodology for several applications including two-dimensional (2-D) digital filters, the 2-D discrete cosine transform, QR decomposition of a matrix, and Cholesky factorization of a matrix. We analyze the resulting system performance for these applications with regard to speedup and efficiency as the number of processors increases. Our results demonstrate that the block data parallel architecture is a flexible, high-performance solution for numerous digital signal and image processing algorithms.}, number={5}, journal={IBM JOURNAL OF RESEARCH AND DEVELOPMENT}, author={Alexander, WE and Reeves, DS and Gloster, CS}, year={2000}, month={Sep}, pages={681–702} }