微阵列非常适合于整合的系统生物学方式,但是没有一个现有的微阵列数据库是集中于拷贝数变化的。
Microarrays are well suited for the integrative systems biology approach, but none of the existing microarray databases is focusing on copy number changes.
就像对数据库的查询一样,您将拥有一个准备好在需要时即可使用的阵列。
Just like a query to a database, you will have an array, ready to use as you see fit.
因为它仅限于单个机器,所以想要让它有效率,你需要强大的数据库服务器和存储阵列网络。
Since it is limited to a single machine you need a powerful database server and a storage array network for it to be effective.
假设位于一个存储区域网络(SAN)存储阵列上的数据库在每次对它运行某个查询时具有糟糕的性能。
Suppose a database that resides on a storage area network (SAN) storage array exhibits poor performance every time a certain query is run against it.
为衡量阵列的性能影响,使用900gb的数据库且执行oltp(联机事务处理)工作负荷。
To measure the performance impact of arrays, a 900gb database was used and an OLTP (Online Transactional Processing) workload was exercised.
因此,不必担忧生产数据库将会有多大—为获得高性能而所需的磁盘阵列能够很好地容纳它。
Therefore, there is no need to worry about how large the production database will be — it will fit very well on the disk array that will be needed for performance.
我们在第一个阵列上安装了Domino可执行文件,用户数据库分布于所有六个阵列。
We installed the Domino executables on the first array, and spread the user databases evenly across all six arrays.
在第一个阵列上安装了Domino可执行文件,用户数据库均匀分布于前六个阵列。
We installed the Domino executables on the first array, and spread the user databases evenly across the first six arrays.
邮件数据库分散在5个IBMFAStT 600阵列上,其配置也是RAID0。网络访问是通过一个1GB的以太网适配器进行的,它采用的是全双工模式。
The mail databases were spread across five IBM FAStT 600 arrays, also RAID 0. Network access was through a single 1 GB Ethernet adapter running in full duplex mode.
邮件数据库分布于五个IBMFastT 200GB阵列,同样配置为RAID0。
The mail databases were spread across five IBM FastT 200 GB arrays, also configured in RAID 0.
邮件数据库分散在三个IBMFAStT 600阵列上(每个 800GB,也是RAID 0)。
The mail databases were spread across three IBM FAStT 600 arrays of 800 GB each, also RAID 0.
sharednothing数据库系统可以在一个系统阵列上分派数据和查询。
A Shared nothing database system can spread the data and queries of a system across an array of systems.
对于这些测试,模拟的邮件用户数据库均匀地分散在14个阵列上。
For the tests, the simulated mail user databases are spread evenly over the 14 arrays.
邮件数据库分布于两个IBMEXP阵列(直连SCSI),阵列在每个服务器上都配置为RAID0。
The mail databases were spread across two IBM EXP arrays (direct connect SCSI), configured as RAID 0 on each server.
DistributedReplicatedBlockDevice (DRBD)提供一个网络版的数据库镜像,属于冗余磁盘阵列(RAID)RAID - 1类。
The Distributed Replicated Block Device (DRBD) provides a networked version of data mirroring, classified under the redundant array of independent disks (RAID) taxonomy as RAID-1.
在操作系统级,使用大容量磁盘阵列,通过磁盘映像技术使每一个数据库文件自动分布于每个物理磁盘。
In operating system class, array of disk of use high capacity, make through disk image technology each database file distributings automatically at every physics disk.
在本研究中,我们力图比较微阵列分析中的多种数据库的效用。
In this study we sought to compare the utility of various databases in microarray analysis.
针对目前远动系统数据库在设计方法上存在的问题进行了分析,认为目前远动系统过于依赖数据库服务器或磁盘阵列,存在不可靠因素。
Analyzing the problem of the telecontrol system in design method of database, regards that it depends too much on the database server or the disk arrays and exists any Unreliability.
我们描述了微阵列基因表达数据库的基本设计,以帮助微阵列用户和他们的信息学小组来设置他们的信息服务。
We describe the basic design of a microarray gene expression database to help microarray users and their informatics teams to set up their information services.
我们描述了微阵列基因表达数据库的基本设计,以帮助微阵列用户和他们的信息学小组来设置他们的信息服务。
We describe the basic design of a microarray gene expression database to help microarray users and their informatics teams to set up their information services.
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