Logic synthesis and a generalized notation for memristor-realized material implication gates

@article{Raghuvanshi2014LogicSA,
  title={Logic synthesis and a generalized notation for memristor-realized material implication gates},
  author={Anika Raghuvanshi and Marek A. Perkowski},
  journal={2014 IEEE/ACM International Conference on Computer-Aided Design (ICCAD)},
  year={2014},
  pages={470-477}
}
The paper presents new logic synthesis methods for single-output incomplete multi-level binary circuits using Memristor-based material implication gates. The first method follows Lehtonen's assumption of using only two working memristors. The algorithm minimizes the number of implication (IMPLY) gates, which corresponds to minimizing the number of pulses or the delay time. This greedy search method uses essential and secondary essential primes, does not require solving the covering problem, is… CONTINUE READING
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Two memristors suffice to compute all oolean functions

  • E. Lehtonen, J. H. Poikonen, M. Laiho
  • Electron. Lett. 46, pp. 239–40.
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