Abstract: In this paper, we propose two procedures for multiplication and division using DNA strands. We first show a procedure for multiplication of a pair of two binary numbers. The procedure executes multiplication for two binary numbers of m bits in O(logm) steps using O(m2) DNA strands. The procedure mainly consists of bit-shift and addition operations. We next show a procedure for division of a pair of two binary numbers. The procedure executes division for two binary numbers of m bits in O(logm) steps using O(m2) DNA strands. The procedure first computes a reciprocal of a number using Newton’s method, and then, computes a quotient of the division using multiplication and subtraction. The procedure also computes a remainder of the div...
We propose a theoretical model to realize DNA made circuits based on in-vitro algorithms, to perform...
DNA computing is a new computing paradigm utilizing actual DNA oligonucleotides to do computation b...
This book provides a broad overview of the entire field of DNA computation, tracing its history and ...
In this paper, we consider procedures for logic and arithmetic operations with DNA molecules. We fir...
Communicated by Editor’s name In this paper, we consider procedures for logic and arithmetic operati...
In this paper, we consider addressable procedures with DNA strands for logic and arithmetic operatio...
First published in the proceedings of the third DIMACS workshop: DNA Based Computers III, in the ser...
Abstract:- We propose in vitro algorithms using Dna strands to perform arithmetic and logical operat...
Abstract: In recent works for high performance computing, computation with DNA molecules, that is, D...
In recent works for high performance computing, computation with DNA molecules,that is, DNA computin...
In recent works for high performance computing, computation with DNA molecules, that is, DNA computi...
In recent works for high performance computing, com-putation with DNA molecules, that is, DNA comput...
Although DNA computing has emerged as a new computing paradigm with its massive parallel computing ...
DNA multiplication tables: A combinatorial mechanism for DNA strand displacement shares the same str...
In recent works for high performance computing, computation with DNA strands, that is, DNA computing...
We propose a theoretical model to realize DNA made circuits based on in-vitro algorithms, to perform...
DNA computing is a new computing paradigm utilizing actual DNA oligonucleotides to do computation b...
This book provides a broad overview of the entire field of DNA computation, tracing its history and ...
In this paper, we consider procedures for logic and arithmetic operations with DNA molecules. We fir...
Communicated by Editor’s name In this paper, we consider procedures for logic and arithmetic operati...
In this paper, we consider addressable procedures with DNA strands for logic and arithmetic operatio...
First published in the proceedings of the third DIMACS workshop: DNA Based Computers III, in the ser...
Abstract:- We propose in vitro algorithms using Dna strands to perform arithmetic and logical operat...
Abstract: In recent works for high performance computing, computation with DNA molecules, that is, D...
In recent works for high performance computing, computation with DNA molecules,that is, DNA computin...
In recent works for high performance computing, computation with DNA molecules, that is, DNA computi...
In recent works for high performance computing, com-putation with DNA molecules, that is, DNA comput...
Although DNA computing has emerged as a new computing paradigm with its massive parallel computing ...
DNA multiplication tables: A combinatorial mechanism for DNA strand displacement shares the same str...
In recent works for high performance computing, computation with DNA strands, that is, DNA computing...
We propose a theoretical model to realize DNA made circuits based on in-vitro algorithms, to perform...
DNA computing is a new computing paradigm utilizing actual DNA oligonucleotides to do computation b...
This book provides a broad overview of the entire field of DNA computation, tracing its history and ...