Analog Arithmetic Computation by CRNs: Biochemical Reaction Networks

Analog Arithmetic Computation by CRNs: Biochemical Reaction Networks
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This study explores the use of biochemical reaction networks to perform analog arithmetic computations such as addition, subtraction, multiplication, and division. The research delves into computing algebraic functions using CRNs, presenting innovative ways to leverage biological processes for mathematical operations. Through a series of experiments and analyses, the potential of CRNs in analog arithmetic computation is uncovered, shedding light on new avenues for bio-inspired computation and mathematical modeling.

  • Biochemical
  • Computational Biology
  • Analog Arithmetic
  • CRNs
  • Algebraic Functions
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Uploaded on Mar 09, 2025 | 0 Views

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  1. Analog Arithmetic Computation by CRNs Analog Arithmetic Computation by CRNs Addition Subtraction Multiplication Division Computing Algebraic Functions with Biochemical Reaction Networks, Buisman et al. Artificial Life, 2009 1

  2. 2 Computing Algebraic Functions with Biochemical Reaction Networks, Buisman et al. Artificial Life, 2009

  3. Computing Algebraic Functions with Biochemical Reaction Networks, Buisman et al. Artificial Life, 2009 3

  4. 4 Computing Algebraic Functions with Biochemical Reaction Networks, Buisman et al. Artificial Life, 2009

  5. Computing Algebraic Functions with Biochemical Reaction Networks, Buisman et al. Artificial Life, 2009 5

  6. 6 Computing Algebraic Functions with Biochemical Reaction Networks, Buisman et al. Artificial Life, 2009

  7. 7 Computing Algebraic Functions with Biochemical Reaction Networks, Buisman et al. Artificial Life, 2009

  8. 8 Computing Algebraic Functions with Biochemical Reaction Networks, Buisman et al. Artificial Life, 2009

  9. 9 Computing Algebraic Functions with Biochemical Reaction Networks, Buisman et al. Artificial Life, 2009

  10. 10 Computing Algebraic Functions with Biochemical Reaction Networks, Buisman et al. Artificial Life, 2009

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