您要查找的是不是:
- Idempotent semilattice 幂等元半格
- The "get" method should be used when the form is idempotent (i.e. 上面几句话在我们的实际运用中有什么作用呢?
- This method does not need to be either safe or idempotent. 该方法不需要安全或者等幂。
- This idempotent ultrafilter enables us to find an appropriate infinite set. 这个幂等的超滤子能使我们找到一个适当的无限集。
- It follows that every nonempty periodic semigroup has at least one idempotent. 得出了所有非空周期半群都有至少一个幂等元。
- If it is finite and nonempty, then it must contain at least one idempotent. 如果它是有限和非空的,则它必须包含至少一个幂等元。
- The closure is idempotent : the closure of the closure equals the closure. 闭包是幂等 的: 闭包的闭包等于闭包。
- It is proved that every nonzero ideal in a finite-dimensional semi-simple algebra over a field is generated by an unique central idempotent. 证明了域上有限维半单代数的每一个非零理想由唯一的中心幂等元生成。
- For example, a service that inquires about the progress of an order is both safe and idempotent. 比如,查询订单进展情况的服务既是安全的也是幂等的。
- Functions that satisfy these conditions are called deterministic or idempotent functions. 满足这些条件的函数称为确定型或等幂函数。
- This paper gives the Bellman inequalities of idempotent matrix on the some conditions. 给出了幂等矩阵在一定条件下的Bellman不等式
- For example, every nonempty finite semigroup is periodic, and has a minimal ideal and at least one idempotent. 例如,所有非空有限半群是周期性的,并有一个极小理想和至少一个幂等元。
- This model occupies some properties of additive standard synthesis function, namely, monotonic, limited and idempotent. 该模型具有数值可加型标准综合函数所具有的性质,即单调性、有界性和幂等性。
- Each subgroup contains exactly one idempotent, namely the identity element of the subgroup. 每个子群精确的包含一个幂等元,也就是这个子群的单位元。
- An idempotent operation is one that has the same result no matter how many times it is performed on the same data. 幂等操作指的是对于同一数据,不论对其进行任何次幂操作,总是得到相同的结果的操作。
- A semilattice can be defined as a universal algebra, and it can also be defined as a partial ordered set. 摘要一个半格可以定义为一个泛代数,也可以定义为一个偏序集。
- Inclines are additively idempotent semi rings in which products are less than or equal to either factor. 摘要坡是个加法幂等,乘法小于或等于其因子的半环。
- The GET method should also be idempotent, meaning that it can be safely repeated. GET方法应该是等幂的,意味着它可以安全地重复。
- In order to describe the relationship between two kinds of definitions for a semilattice, we established two formulas. 为了刻划半格的两种不同定义间的关系,我们建立了两个等式。
- Aim In order to prove a semiring whose additive reduct is a semilattice and multiplicative reduct is a inverse semigroup to be a distributive lattice. 摘要目的求证加法导出是半格、乘法导出是逆半群的半环成为分配格的充要条件。
