DNA Computer

The Principle and Status Quo and Development of DNA Computer

DNA计算机原理、现状及发展

The Research on Several Theoretic Problems of DNA Computer

DNA计算中若干理论问题的研究

This paper proposes a method to construct a generalized list in DNA computer .

文中提出了DNA计算机中广义表的一种设计方法。

Application in Constructing DNA Computer with Hairpin Structure

发夹结构在建立DNA计算机中的应用

Modularization Scheme for Solving Solution Space Detection Problem of DNA Computer with Coprocessor

协同DNA计算机解空间问题的模块化设计方案

DNA computer chips would offer significant advantages in both speed and price compared with current technology .

与目前的技术相比，DNA计算机芯片在速度和成本上都具有优势。

Laser Induced Fluorescence Technic Applied in DNA Computer

激光诱导荧光技术在DNA计算输出中的应用

The principles , development , feasibility , advantage and disadvantage of DNA computer are described .

本文对DNA计算的原理、实现、发展以及实现DNA计算机的可行性、优势与不足进行了较详尽的评述。

In a sence , traditional electronic computer can not be compared with DNA computer .

从某种意义上说，这种计算潜能是传统的电子计算机所无法比拟的。

Fast , powerful and universal computational models are the basis of the implementation of DNA Computer .

快速、强大且通用的DNA计算模型是DNA计算机实现的基础。

DNA Computer Principle , Advances and Difficulties ( I ): Biological Computing System and Its Applications to Graph Theory

DNA计算机原理、进展及难点（Ⅰ）：生物计算系统及其在图论中的应用

The main features of DNA computer are massively parallel computing ability and potential enormous data storage capacity .

DNA计算机最大的特点是超大规模的并行运算能力和潜在的巨大的数据储存能力。

The real advantage of the DNA computer is that it can act on the entire library of molecules simultaneously

DNA计算机的真正优势在于它可以同时对整个分子库的所有分子进行处理

DNA Computer Principle , Advances and Difficulties (ⅱ): Setting up the Database of DNA Computer by the Synthesis of DNA Molecules

DNA计算机：原理、进展及难点（Ⅱ）计算机数据库的形成&DNA分子的合成问题

So we lucubrate the coding problem of DNA computer in-depth based on the discussion of major influencing factors of coding problem .

所以，我们在详细讨论影响编码的主要因素的基础上，对DNA计算机中的编码问题进行了较为深入的研究。

This article elaborated the chip testing DNA computer algorithm research significance , the present situation , the research content , the research technique and so on .

最后阐述了芯片测试的DNA计算机算法研究的意义、现状、研究内容、研究方法等。

This paper presents a new modularization scheme for solving the solution space detection problem of DNA computer with coprocessor by using biochip for detection .

提出了一种基于检测型生物芯片的协同DNA计算机解空间问题的模块化解决方案。

This article presents the basic principles of DNA computer , its applications , its important relationship with genomic research and our comments on all above issues .

从DNA计算机的基本原理、应用形式、与基因组学研究的重要关系等方面总结和评述了相关研究进展。

DNA computer is a kind of new biocomputer which is based on the biochemical reactions of DNA strands , far from traditional computer .

DNA计算机是一种基于DNA生化反应，与传统计算机完全不同的新型生物计算机。

This article introduces the theory , traits and developments of DNA computer , puts forward the importance of micro-flow system in the developments of DNA computer .

分析了应用于生物工程目的微机电系统&微流控制系统在DNA计算机研究中的相关进展。

This logic gate provided great promising for the construction of multifunctional optoelectronic devices , which had broad prospects in biological sensing and DNA computer .

该逻辑门有望应用于多功能光电器件的构建，在纳米生物传感和DNA分子计算机方面有广阔的应用前景。

Because of the massive parallelism , high-density storage and low energy cost , DNA computer will overcome the disadvantages of electronic computer in some special area .

由于DNA计算机所具有的巨大并行性、海量存储以及低能耗等有点，将有望在某些领域弥补现有计算机的不足。

If pre-reaction codes behave as inputted data of DNA computer , the post-reaction codes can be considered as computing results .

如果将反应前的基因代码作为输入数据，那么反应后的基因代码就可以作为运算结果（输出数据）。

This paper proposed the method of designing linked storage structure of the binary tree in DNA computer , which utilized the biological characteristics of DNA molecules and ligases .

利用DNA分子和连接酶的生物特性，提出DNA计算机中二叉树的链式存储结构的设计方法，并给出二叉树链式存储结构的形式描述。

The studying and making DNA computer needs many science subjects such as biological engineering , computer science , mathematics , physics , chemistry , information science , microelectronics , laser technology , and control science , etc.

DNA计算机的研制需要诸如生物工程、计算机科学、数学、物理、化学、信息科学、微电子技术、激光技术以及控制科学等许多学科的共同协作攻关。

Proposed a design method of the binary tree data structure which storaged by sequence mode in DNA computer , provided a specific example and code of Binary Tree in DNA computer , the experiment confirmed the feasibility of this method .

提出了DNA计算机中基于顺序存储方式的二叉树数据结构的设计方法，给出了一个二叉树的DNA编码及其仿真实例，实例结果表明该设计方法在DNA计算机上的可行性。

In order to overcome these problems , computer science came into the field of biology , and become more and more important , such as the automatic process of genetic information , the implementation of DNA Computer and the simulation of enzyme induction reaction .

为了帮助克服这些困难，计算机科学进了生物界，并且发挥着越来越大的作用，如遗传信息的自动处理、DNA计算机的实现、生物酶促反应的模拟等。

In DNA computer system , the codes in DNA molecules can be look as data in memory , after through the enzyme work towards DNA molecules to achieve some kinds of reaction instantly , the code could be transformed from one to another .

在DNA计算系统中，DNA分子中的密码作为存储的数据，当DNA分子间在某种酶的作用下瞬间完成某种生物化学反应时，可以从一种基因代码变为另一种基因代码。

So , scientists are seeking other fully new computers such as artificial neural network computer , quantum computer , optimal computer as well as DNA computer . Among them , the DNA computer has been paid much more attentions by scientists in recent fifteen years .

基于这一原因，科学家们正在寻找其他全新的计算机结构，如人工神经网络计算机、量子计算机、光学计算机以及DNA计算机，其中DNA计算机近十五年来倍受科学界的关注。

Because it is different form the traditional computer in calculating logic and memory , the DNA computer has incomparable advantages over the traditional computer in solving some complex problems . At present , the research into the DNA computing and the DNA computer has become a hot topic internationally .

基于DNA生化反应的计算机称为DNA计算机，由于其采用一种完全不同于传统计算机的运算逻辑与存贮方式，DNA计算机在解决某些复杂问题时具有传统计算机无法比拟的优势。