Title :
Implementation of integral transforms on the general purpose CNN neuroprocessor
Author :
Preciado, Victor M.
Author_Institution :
Autom. & Syst. Eng. Group, Univ. de Extremadura, Badajoz, Spain
Abstract :
The Cellular Neural Network Universal Machine (CNN-UM) is a novel neuroprocessor algorithmically programmable having real time and supercomputer power implemented in a single VLSI chip. The local CNN connectivity provides an useful computation paradigm when the problem can be reformulated as a well-defined task where the signal values are placed on a regular 2D grid (i.e., image processing), and the direct interaction between signal values are limited within a local neighborhood. This paper demonstrates how the CNN-UM architecture can be applied to perform global operations like Integral/Wavelet Transformations, in such a way that we can deliver this architecture from the use of alternative ones when nonlocal operations are needed. Lastly, examples are given to highlight the main steps of the method.
Keywords :
VLSI; cellular neural nets; microprocessor chips; neural chips; transforms; Cellular Neural Network Universal Machine; Chebyshev norm; VLSI chip; computation paradigm; global operations; integral transforms; integral/wavelet transformations; neuroprocessor; nonlocal operations; real time supercomputer power; Analog computers; Cellular neural networks; Computer architecture; Grid computing; Image processing; Programmable logic arrays; Signal processing; Turing machines; Very large scale integration; Wavelet transforms;
Conference_Titel :
Intelligent Systems, 2002. Proceedings. 2002 First International IEEE Symposium
Print_ISBN :
0-7803-7134-8
DOI :
10.1109/IS.2002.1044265
