Chinese translation for "生物计算"
|
- biocomputing
computational biology
- Example Sentences:
| 1. | This thesis studies on biocomputing field , which specifically focuses on prediction of non - coding rna ( ncrna ) 本论文进行了生物计算的研究,主要是为了解决非编码核糖核酸( non - codingribonucleicacid , ncrna )的预测问题。 | | 2. | Biocomputing or bioinformatics is a new research field that uses knowledge and algorithms of computer science to process and analysis data of biology data from bio - applications 生物计算是计算机科学在生命科学中形成的一个研究领域,通过用计算机科学的知识和相关的算法对生物学领域内的数据进行加工、存储、检索与分析。 | | 3. | Structured mining plays an important role in xml documents mining , web page traffic mining , analysis of molecular evolution , packet routing , biological informatics , biological computing , communication system , image database and city management 结构数据挖掘在xml文档挖掘,网页流量挖掘,生物进化的分析,路由选择,生物信息学,生物计算,通讯系统,图像数据库,城镇规划等诸多领域发挥重要作用。 | | 4. | Computing bioinformatics grid aims to offer super computing power to bioinformatics . by integrating the various resources in internet , a virtual computer with super computing power is formed to solve the bioinformatics problems that a single machine can ’ t do 生物计算网格主要解决生物信息学对超强计算的需求,通过把互联网上各种计算资源整合起来,形成一台计算力超强的虚拟计算机,解决单一高性能计算机不能解决的生物信息学问题。 | | 5. | We study the actual case of the sequence assembly application in bioinformatics and analyze mygrid in uk , euro - biogrid in europe , ncbiogrid in us and some bioinformatics girds in asia pacific area . in this paper we present a computing bioinformatics grid architecture based on analyzing and comparing the architecture and components of globus toolkit 3 . 2 and unicore . we also analyzed the key parts of the architecture such as the resource description , resource management , bioinformatics job description and scheduler of the job 本文从生物信息学序列拼接应用的实际情况出发,通过对包括英国mygrid 、欧洲数据网格中biogrid子项目、美国的ncbiogrid以及亚太地区生物网格的了解,结合对globustoolkit3 . 2和unicore的体系结构和组件的分析和比较,提出了一个生物计算网格体系结构,从资源描述、资源管理、作业描述和调度等方面对该体系结构进行了详细分析和设计。 | | 6. | Storing information in molecules of dna could allow for an information density of approximately 1 bit per cubic nanometer . the energy consumed by dna molecular biology computing is billionth of that consumed by one conventional computer . the characteristics of dna molecular biology computing mentioned above which are high parallelism , huge capability and low consumption are incomparable and irreplaceable to the existing computers and parallel ones Dna分子生物算法具有高度的并行性,运算速度快; dna作为信息的载体其贮存的容量非常之大, 1立方米的dna溶液可存储1万亿亿的二进制数据; dna分子生物计算所消耗的能量只有一台电子计算机完成同样计算所消耗的能量的十亿分之一; dan计算的上述特性,即运算的高度并行性、大容量、低消耗是目前计算机和并行计算机所无法比拟和替代的。 | | 7. | According to the computing bioinformatics grid architecture we implement a computing bioinformatics grid prototype with some grid services and a client application , using current grid technology . we describe the details of the prototype and deploy the serial phrap application into the environment . at last we analyze the performance of the phrap under the grid prototype 基于提出的生物计算网格体系结构,利用现有网格技术的研究成果,开发了包括网格服务和客户端在内的生物计算网格原型,并对该原型的各个细节的实现进行了详细的描述,最后将串行phrap应用接入到该环境下,并对运行情况进行了分析和评估,证明该体系结构是合理和可行的。 | | 8. | The multi - dimension scalability is composed of scale - scalability , performance - scalability , security - scalability , function - scalability , and service - scalability . we suggest five elements , namely , ipv6 , authentic ipv6 addressing , scalable processing capacity of routers , end - to - end connectionless quality - of - service control , and 4over6 mechanism to realize the multi - dimension scalability . the current research results show that the multi - dimension scalable architecture composed of these five elements will bring great influence on next - generation internet 可以预想到诸多的科研成果如高速光纤通信高速无线通信网格计算生物计算等必将在十年内给网络技术带来质的飞跃,引领着互联网朝着下一代更大更快更有响应更方便更安全更可管理更有效的方向努力。 |
- Similar Words:
- "生物计" Chinese translation, "生物计法" Chinese translation, "生物计划" Chinese translation, "生物计量的" Chinese translation, "生物计量学" Chinese translation, "生物计算机" Chinese translation, "生物计算机实验室" Chinese translation, "生物计算机统计学" Chinese translation, "生物记忆" Chinese translation, "生物加工过程" Chinese translation
|
|
|