Dynamic memory management is necessary for memory resource management in computer system.
动态存储管理是计算机系统必不可少的资源管理手段之一。
The existing dynamic memory management methods are inefficient, and have high cost of time.
现有的动态存储分配算法存在着效率不高、时间开销较大等缺点。
The dynamic memory management of SACOS can decrease efficiently the memory management overhead and memory fragmentation and improve the memory utilization.
SACOS的动态内存管理方法可以有效地减少内存管理开销和内存碎片,提高内存的利用率。
This thesis proposes a new type of requirement-kernel dynamic memory management design scheme Extendable-Multi-Heap System. Moreover, the thesis implements a software kit.
在此基础上提出了一种新型的以需求为中心的动态存储器管理方案-可扩展多堆系统,并实现了可供用户使用的软件包。
Dynamic memory management of SACOS and implementations of allocation and garbage collection of heap which is the foundation of dynamic memory management are reported in detail.
描述了SACOS的动态内存管理,并给出了实现SACOS动态内存管理的基础-堆的分配与回收的详细过程。
With the theory of object-oriented design, jump table, dynamic memory management and code pre-processing, the class group of software simulators for single-chip microcomputers are designed.
在此四元组模型的基础上,应用面向对象设计的思想,结合跳跃表、动态空间管理、编译预处理等技术方法,构造出一个单片机软件仿真器类群。
The ODR can use its knowledge of response time goals and the relative availability of resources (CPU and memory) in different cluster members to perform dynamic workload management.
ODR可以使用它所掌握的响应时间目标和不同集群成员中相对可用的资源(CPU 和内存),动态管理工作负载。
The more dynamic a program is, the more memory management becomes an issue, and the more important your choice of memory allocator becomes.
程序的动态性越强,内存管理就越重要,您的内存分配程序的选择也就更重要。
Operating with intrusive containers doesn't invoke any memory management at all. The time and size overhead associated with dynamic memory can be minimized.
介入式容器的操作根本不会引发任何内存管理。动态内存分配所带来的时间和空间开销可以被最小化。
In addition, this article carries out dynamic multi-application virtual machine including memory management, register management, processor, virtual machine context, etc.
另外,本文从实现出发,详细地实现了动态多应用虚拟机的内存管理、寄存器处理、处理器和虚拟机上下文等功能。
On the basis of concept of memory management model and memory leak, a technology to detect dynamic memory leak was designed and implemented, including dynamic memory trace and off-line analysis.
在介绍动态内存管理模型和内存泄漏的基础上,提出动态内存泄漏的检测方法,包括动态内存跟踪和离线日志分析,最后详细论述了泄漏内存的回收技术。
Dynamic coupling, the loader behavior, and memory management, are particularly susceptible to reasoning in the learning process derived from the three themes.
动态联结、加载器行为、以及内存管理,是特别容易在这个学习过程中推理而得的三个主题。
Design program to simulate the dynamic partitioning method of memory storage management.
设计程序模拟内存的动态分区法存储管理。
Programming dynamic partitioning of main memory management method of recovery.
编程实现动态分区管理方式的主存的回收。
Simulate dynamic partition management for main memory storage allocation and recovery.
模拟动态分区存储管理方式的主存分配与回收。
Simulate dynamic partition management for main memory storage allocation and recovery.
模拟动态分区存储管理方式的主存分配与回收。
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