You could also think of the rate of GC as the rate of garbage generation.
您还可以将GC的速率看作是垃圾生成的速率。
At first glance, garbage generation might seem like a bad thing that should be minimized.
乍看起来,垃圾生成似乎是一件坏事,并且应该尽量减少为好。
At garbage collection time, the mark bits associated with CARDS in the old generation are examined, and dirty CARDS are scanned for objects containing references into the younger generation.
在垃圾收集时,就对与老一代中卡片相关联的标记位进行检查,对脏的卡片扫描以寻找对年轻代有引用的对象。
A generational garbage collector divides the heap into multiple generations; most JVMs use two generations, a "young" and an "old" generation.
分代垃圾收集器把堆分成多代;多数JVM使用两代,“年轻代”和“年老代”。
Garbage collection occurs in each generation when it fills up; objects are allocated in Eden, and because of infant mortality most objects "die" there.
垃圾收集发生在每一代填充满的时候;对象是在Eden中分配的,因为早期损坏率的缘故,大部分对象“死”在这个时期。
Why generation concept can help improve performance of garbage collector?
为什么代的概念可以提高垃圾收集器的性能?
Garbage First aims to replace CMS and takes a somewhat different approach, straddling the young generation - tenured generation boundary.
GarbageFirst的目标在于替换掉CMS并且采取了某些不同的方式——跨越了新生区和老年区的边界。
The garbage collector performs a collection in an attempt to free address space in generation 0 for the object.
垃圾回收器执行回收,尝试为对象释放第0级托管堆中的地址空间。
You can also collect object lifetime data that shows you the size and number of objects that are reclaimed in each garbage collection generation.
您还可以收集对象生存期数据,这些数据显示每代垃圾回收中所回收的对象的大小和数目。
Lists the types that were allocated in the profiling run, and the number of instances, size in bytes, and the garbage collection generation of the type.
列出分析运行期间分配的类型、实例数、大小(以字节为单位)和类型的垃圾回收代。
The era that electricity generation in large scale using surplus heat of industry yet, waste heat of vehicle and burn heat of garbage by the commercial thermoelectric cooling module is coming.
利用商用温差电致冷组件发电技术大规模开发工业余热、汽车废热、垃圾燃烧热的时代已经到来。
In reality, the garbage collector performs a collection when generation 0 is full.
实际上,垃圾回收器在第0级托管堆已满时执行回收。
After the garbage collector performs a collection of generation 0, it compacts the memory for the reachable objects as explained in Releasing memory earlier in this topic.
垃圾回收器执行第0级托管堆的回收后,会压缩可访问对象的内存,如本主题前面的释放内存中所述。
This counter is incremented at the end of a generation 0 garbage collection.
此计数器在第 0 级垃圾回收结束时递增。
As a result, the garbage collector does not have to reexamine the objects in generations 1 and 2 each time it performs a collection of generation 0.
因此,垃圾回收器在每次执行第0级托管堆的回收时,不必重新检查第1级和第2级托管堆中的对象。
The number of bytes promoted to a higher generation at the most recent garbage collection.
最近的记忆体回收中升级为更高层代的位元组数。
After the garbage collector performs its first collection of generation 0 and promotes the reachable objects to generation 1, it considers the remainder of the managed heap generation 0.
在执行第0级托管堆的首次回收并把可访问的对象升级至第1级托管堆后,垃圾回收器将考虑第0级托管堆的其余部分。
This counter is explicitly incremented when a higher generation (generation 1 or 2) garbage collection occurs.
当较高级(第 1 级或第 2 级)垃圾回收发生时此计数器被显式递增。
The garbage collector then promotes these objects and considers this portion of the managed heap generation 1.
然后,垃圾回收器升级这些对象,并考虑第1级托管堆的这一部分。
Objects that exist after garbage collection occurs in generation 1 move into generation 2.
在层代1中发生记忆体回收之后,所有存在的物件都会移至层代2。
The importing of generation concept is to improve the performance of garbage collector.
代概念的引入是为了提高垃圾收集器的整体性能。
After each collection, the garbage collector compacts the reachable objects in generation 0 and promotes them to generation 1.
在每一次回收之后,记忆体回收行程都会压缩第0个层代中可取得的物件,并将其提升至第1个层代。
Displays the bytes of memory that survive garbage collection and are promoted from generation 0 to generation 1.
显示在垃圾回收后保留下来并且从第0级提升到第1级的内存的字节数。
If an application attempts to create a new object when generation 0 is full, the garbage collector discovers that there is no address space remaining in generation 0 to allocate for the object.
如果应用程序在第0级托管堆已满时尝试新建对象,垃圾回收器将会发现第0级托管堆中没有可分配给该对象的剩余地址空间。
Higher generation garbage collections include all lower generation collections.
较高级的垃圾回收包括所有较低级的垃圾回收。
The runtime's garbage collector stores new objects in generation 0.
运行时的垃圾回收器将新对象存储在第0级中。
All objects that exist after garbage collection occurs in generation 0 are promoted to generation 1.
层代0中发生记忆体回收之后,所有存在的物件都会升级至层代1。
All objects that exist after garbage collection occurs in generation 0 are promoted to generation 1.
层代0中发生记忆体回收之后,所有存在的物件都会升级至层代1。
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