An Adaptive WTA Using Floating Gate Technology

W. Fritz Kruger, Paul E. Hasler, Bradley A. Minch, Christof Koch

NeurIPS 1996 pp. 720-726

/neurips/1996/kruger1996neurips-adaptive/

Abstract

We have designed, fabricated, and tested an adaptive Winner(cid:173) Take-All (WTA) circuit based upon the classic WTA of Lazzaro, et al [IJ. We have added a time dimension (adaptation) to this circuit to make the input derivative an important factor in winner selection. To accomplish this, we have modified the classic WTA circuit by adding floating gate transistors which slowly null their inputs over time. We present a simplified analysis and experimen(cid:173) tal data of this adaptive WTA fabricated in a standard CMOS 2f.tm process.

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Cite

Text

Kruger et al. "An Adaptive WTA Using Floating Gate Technology." Neural Information Processing Systems, 1996.

Markdown

[Kruger et al. "An Adaptive WTA Using Floating Gate Technology." Neural Information Processing Systems, 1996.](https://mlanthology.org/neurips/1996/kruger1996neurips-adaptive/)

BibTeX

@inproceedings{kruger1996neurips-adaptive,
  title     = {{An Adaptive WTA Using Floating Gate Technology}},
  author    = {Kruger, W. Fritz and Hasler, Paul E. and Minch, Bradley A. and Koch, Christof},
  booktitle = {Neural Information Processing Systems},
  year      = {1996},
  pages     = {720-726},
  url       = {https://mlanthology.org/neurips/1996/kruger1996neurips-adaptive/}
}