“每次实例化一个对象”的中心思想有可能会引起性能和容量问题。
The focus on "one object at a time," instantiated, has the potential to create performance and capacity problems.
一般来说,启用生成的垃圾收集将使积极创建许多临时对象并运行有大量用户的大容量应用程序受益。
High volume applications that actively create many temporary objects and run with a high number of users generally benefit from having generational garbage collection turned on.
要注意的是,Ceph客户,对象存储端点,元数据服务器(根据文件系统的容量)可以有许多,而且至少有一对冗余的监视器。
Note that there can be many Ceph clients, many object storage endpoints, numerous metadata servers (depending on the capacity of the file system), and at least a redundant pair of monitors.
在添加元素时,ArrayList对象的容量将自动扩展。
As you add elements, the capacity of the ArrayList object expands automatically.
您是否有大容量消息或业务对象?
探讨具有如下特征的多站循环服务系统:(1)队列容量有限;(2)每次服务对象受限;(3)实施非门限方式。
It is: (1) limited capacity of queue; (2) limited service object of each time; (3) Using no limited gate way.
该冲击器时针对不同作业对象来调节系统压力,从而实现降低主机(如挖掘机等)装机容量的目的。
The impactor can regulate system pressure according to different objectives, so the purpose to reduce power capacity of original machine, such as excavator, is realized.
大容量高参数的直流锅炉单元机组是一个十分复杂的调节对象。
The once-through boiler of large capacity and high parameters is a very complex unit to be controlled.
该系统是面向对象设计方法的应用实例,其突出特点有“万能”通用性、大容量、用户自维护、智能化判断等。
The system is a instance of OOD method with many prominent trait such as omnipotence general, great capacity, easy-to-maintain by users, intellectualized judge and so on.
根据被加热对象的体积、热容量、起止温度等确定电热器的功率,由此构建了最佳动态加热控制模式。
The power of electronic stove is chosen according began and end temperature, volume of the heated object, for which the paper established the optimum control model of dynamic heating.
通过控制表实现计算机模糊控制,可以降低对计算机内存容量和速度的要求,控制表根据人们对控制对象的认识和操作经验确定的模糊控制规则离线处理。
Computer fuzzy control with control table may reduce the level of memory size and computing speed. Control table can be off-line gained by fuzzy rules.
以目标蛋白质整体为研究对象,采用不同大小的滚球分子计算生成不同的蛋白质表面,分析在不同表面上的对接结果与配基吸附容量间的相关性。
The improved docking simulations were performed on the whole proteins and the results were recollected on different surfaces which were calculated by use of different roll ball sizes.
以目标蛋白质整体为研究对象,采用不同大小的滚球分子计算生成不同的蛋白质表面,分析在不同表面上的对接结果与配基吸附容量间的相关性。
The improved docking simulations were performed on the whole proteins and the results were recollected on different surfaces which were calculated by use of different roll ball sizes.
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