这些元素包括虚拟维度、成员和计算成员。
This includes the virtual dimensions, members, and calculated members.
用于此虚拟维度的成员属性丢失。
在虚拟维度上下文中,您还可以创建虚拟计算成员。
In the context of a virtual dimension, you can also create virtual calculated members.
要重命名成员,将其添加到包含它的虚拟维度下的模块中。
To rename a member, add it to the model under the virtual dimension where it is contained.
要隐藏成员,将其添加到包含它的虚拟维度下的模块中,然后单击隐藏标志。
To hide a member, add it to the model under the virtual dimension where it is contained, and check the hidden flag.
如果某个虚拟维度的一些成员被重命名,那么将在计算中使用新的成员名。
If some members were renamed for a virtual dimension, the new member names can be used in the calculation. Following are some additional points about virtual calculated members.
如果没有在虚拟维度上显式地设置默认成员,那么默认值就是选择用于构成虚拟数据集的第一个数据集的维度。
If the default member is not explicitly set on the virtual dimension, the default is the dimension from the first cube selected to compose the virtual cube.
这仅影响虚拟数据集,而不影响包含该维度的数据集。
This only affects the virtual cube, and not the cube that contains the dimension.
如果您不希望两个数据集之一的特定维度出现在虚拟数据集中,那么可以通过一个选项隐藏它。
If you don't want a particular dimension from one of the two cubes to be available in the virtual cube, there is an option to hide it.
对于虚拟数据集,维度安全性继承自它的两个数据集。
For a virtual cube, the dimensional security is inherited from its two cubes.
除了级别合并之外,虚拟数据集还对子数据集的相同维度执行成员合并。
In addition to level merging, virtual cubes also perform member merging for the common dimensions of the depending cubes.
虚拟数据集包含所有可用维度的集合。
The virtual cube contains the union of all available dimensions.
合并进程将检查维度成员是否同名,如果是,那么虚拟数据集仅包含合并子成员得到的一个成员。
The merge process verifies whether the dimension members have the same name, and if they do, then the virtual cube contains only one member obtained by merging the depending members.
您还可以重命名该虚拟数据集的维度和成员,以合并所需的元素,如本文后面所述。
Dimensions and members can also be renamed for the virtual cube to cause merging on the desired elements, as described later in this article.
如果一个数据集中的维度不存在另一个数据集中,那么该维度将直接添加到虚拟数据集中,而不进行合并。
If a dimension name from a depending cube is not found in the other cube, that dimension is simply added to the virtual cube without any merging.
使用相同维度的查询将同时在每个子数据集中执行,得到的结果根据虚拟数据集的合并运算符进行合并。
A query that USES the common dimensions is executed in parallel for each of the composing cubes, and the results are aggregated according to the virtual cube merge operator.
有一个虚拟数据集设计选项可以从数据集隐藏维度,隐藏的维度将不出现在虚拟数据集中。
There is a virtual cube design option to hide dimensions from the cubes so they will not exist on the virtual cube.
在虚拟数据集中隐藏维度仅影响该虚拟数据集。
Hiding a dimension in a virtual cube only affects that virtual cube.
要查看包含所有可用维度、层次结构和成员的虚拟数据集结构的完整视图,您可以使用DesignStudio的维度浏览器。
For a full view of the virtual cube structure that includes all available dimensions, hierarchies, and members, you can use Design Studio's dimension browser.
虚拟数据集的时间维度将为[Time]。
如果一个数据集中的维度名不能在另一个数据集中找到,那么该维度将被添加到虚拟数据集中。
Dimensions from one cube that do not have a corresponding dimension with the same name in the other cube will simply be added to the virtual cube.
如果某个虚拟数据集的维度或成员被重命名,那么只有用户指定的名称是可用的。
If a dimension or member is renamed for the virtual cube, then the name available for the virtual cube is the user-specified one.
虚拟多维数据集中所用的一个维度没有用于任何基础多维数据集中。
A dimension used in the virtual cube is not used in any of the underlying cubes.
然后您可以创建一个新的虚拟多维数据集,其中包括新建的维度以及原始的源多维数据集。
You can then create a new virtual cube which contains the new dimension and the original source cube.
驻留在多维数据集中的数据。用多维数据创建的挖掘模型可用于创建维度和虚拟多维数据集。
Data that resides in a cube. A Mining Model created from multidimensional data can be used to create a dimension and a Virtual cube.
用多维数据创建的挖掘模型可用于创建维度和虚拟多维数据集。
A Mining Model created from multidimensional data can be used to create a dimension and a Virtual Cube.
虚拟团队的任务特征可分为任务难度、任务依存性、任务结构、任务网络性、任务交叉性、任务目标导向六个维度。
Task characteristics can be described with task structure, task difficulty, task oriented goal, task dependence, task cross-function, and task's dependence on internet.
虚拟团队的任务特征可分为任务难度、任务依存性、任务结构、任务网络性、任务交叉性、任务目标导向六个维度。
Task characteristics can be described with task structure, task difficulty, task oriented goal, task dependence, task cross-function, and task's dependence on internet.
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