This paper presents a new procedure to perform the integer and vector multiplication by using the self assembly of 3D DNA nanostructure. The suggested procedure simulates the vector multiplication by using a look up table that represents many pairs of the vectors. The multiplication of each corresponding numbers can be performed by adding the carry and the result in each internal 3D tile of the assembled superstructures. The final result can be detected in the first row of the sum layer, where the sum layer uses the sticky ends to accumulate the result from each vertical layer. The suggested procedure is less energy consumer and can be used at very low cost
<p>The control of matter and phenomena at the nanoscale is fast becoming one of the most important c...
DNA self-assembly technology has brought novel inspirations to the development of DNA computing Dive...
Recent work has demonstrated the self-assembly of designed periodic two-dimensional arrays composed ...
This paper presents a new procedure to perform the integer and vector multiplication by using the se...
Abstract- Recently, it has been shown that the simple bi-nary arithmetic and logical operations can ...
Abstract Self-assembly is the spontaneous self-ordering of substructures into superstructures driven...
The field of DNA nanotechnology, which utilizes synthetic DNA strands as build-blocks for nanostruct...
AbstractDNA self-assembly is the most advanced and versatile system that has been experimentally dem...
Deoxyribonucleic acids (DNA), Ribonucleic acids (RNA) and Proteins are the computational devices of ...
0-1 integer programming problem is an important problem in opsearch with widespread application. In ...
DNA tile based self-assembly provides a bottom-up approach to construct desired nanostructures. DNA ...
DNA self-assembly is a promising paradigm for nanotechnology. Recently, many researchers demonstrate...
DNA tile self-assembly is a promising paradigm for nanotechnology. Recently, many researches show th...
The experiments have demonstrated that simple binary arithmetic and logical operations can be comput...
DNA computing 1 potentially provides a degree of parallelism far beyond that of conventional silicon...
<p>The control of matter and phenomena at the nanoscale is fast becoming one of the most important c...
DNA self-assembly technology has brought novel inspirations to the development of DNA computing Dive...
Recent work has demonstrated the self-assembly of designed periodic two-dimensional arrays composed ...
This paper presents a new procedure to perform the integer and vector multiplication by using the se...
Abstract- Recently, it has been shown that the simple bi-nary arithmetic and logical operations can ...
Abstract Self-assembly is the spontaneous self-ordering of substructures into superstructures driven...
The field of DNA nanotechnology, which utilizes synthetic DNA strands as build-blocks for nanostruct...
AbstractDNA self-assembly is the most advanced and versatile system that has been experimentally dem...
Deoxyribonucleic acids (DNA), Ribonucleic acids (RNA) and Proteins are the computational devices of ...
0-1 integer programming problem is an important problem in opsearch with widespread application. In ...
DNA tile based self-assembly provides a bottom-up approach to construct desired nanostructures. DNA ...
DNA self-assembly is a promising paradigm for nanotechnology. Recently, many researchers demonstrate...
DNA tile self-assembly is a promising paradigm for nanotechnology. Recently, many researches show th...
The experiments have demonstrated that simple binary arithmetic and logical operations can be comput...
DNA computing 1 potentially provides a degree of parallelism far beyond that of conventional silicon...
<p>The control of matter and phenomena at the nanoscale is fast becoming one of the most important c...
DNA self-assembly technology has brought novel inspirations to the development of DNA computing Dive...
Recent work has demonstrated the self-assembly of designed periodic two-dimensional arrays composed ...