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- Dynamic Memory Access 动态存储器存取
- Hence the term Non-Uniform Memory access. 因此就有了非均匀存储器存取这个术语。
- VDMAD? Virtual Direct Memory Access Device? 虚拟直接存储器存取设备?
- The third instance starts in dynamic memory mode and has access to 256 MB or less physical memory. 第三个实例以动态内存模式启动并且使用256 MB的物理内存或更少的物理内存。
- For example, the C language proper has no file access or dynamic memory management statements. 例如,C语言根本就没有文件访问或者动态内存管理语句。
- Paged dynamic memory is determined by the SYSGEN parameter PAGEDYN. 分页动态内存由 SYSGEN 参数 PAGEDYN 来确定。
- Calling this method affects only a single memory access. 调用此方法只影响一个内存访问。
- Are responsible for freeing any dynamic memory you use for this buffer. 应用程序有责任释放任何用于这块缓存的动态内存。
- Non-deterministic finalization works well with dynamic memory management. 非确定终止适用于动态内存管理。
- With SMP, all memory access is posted to the same shared memory bus. 通过SMP,所有的内存访问都传递到相同的共享内存总线。
- This is the reason for the name, non-uniform memory access architecture. 这就是“非一致性内存访问体系结构”名称的由来。
- Avoid dynamic memory like the plague: statically allocate everything. 避免动态内存像瘟疫泛滥:静态分配一切。
- As processor gets much higher speed, the memory access latency becomes a bottleneck that restricts higher performance. 随着处理机运行速度的逐渐提高;存储访问延迟成为性能提高的瓶颈.
- The two primary differences between static and dynamic memory allocation are as follows. 动态和静态内存分配的不同
- The basic SQL function system and string classes and dynamic memory handling. Not a single reported bug in this system. 基本SQL函数系统、字符串类和动态内存处理,本系统中未见单独报告的错误。
- For more information about soft-NUMA, see Understanding Non-uniform Memory Access. 有关软件NUMA的详细信息,请参阅了解非一致性内存访问。
- Additionally, while not protected by a permission, memory access must be confined to strict type safety. 此外,在没有权限保护时,内存访问必须遵循严格的类型安全。
- Consequently, I strongly recommend that you not use dynamic memory allocation on small systems. 因此,我强烈建议您不要使用动态记忆体分配的小系统。
- Affinitizing connections to specific processors when using Non-Uniform Memory Access (NUMA). 使用非一致内存访问(NUMA)时,将连接与特定处理器关联。
- Schank, R., Dynamic Memory: A Theory of Learning in Computers and People, New York: Cambridge University Press, 1982. 蔡林昌,故障树分析法应用于弹性制造系统组件维护策略之研究,国立中央大学硕士论文,1997。