Access to physical memory: RT applications such as device drivers often need to get down to the metal.
对物理存储器的访问:诸如设备驱动程序之类的RT应用程序总是需要追溯根源。
TLB cache entry reuse (cache hit) equates to quicker address translation and subsequently faster access to physical memory.
tlb缓存条目重用(缓存命中)意味着更快的地址转换,还意味着对物理内存的更快的访问。
These provide physical access to memory devices, and are not used directly.
这些模块提供对内存设备的物理访问,但并不直接使用它们。
Therefore, to get large caches, and balanced and parallelized access loads, you might want to use JVMs on other remote machines to get access to more physical memory.
因此,为了获得更大的缓存、平衡和并行访问负载,您应该在远程机器上使用JVM以访问更多的物理内存。
When a program tries to access memory using a virtual address, the OS in combination with on-chip hardware maps that virtual address to the physical location.
当程序尝试使用虚拟地址访问内存时,操作系统结合片上硬件将该虚拟地址映射到物理位置。
It is physical memory that is the key to fast access.
物理内存是加快访问的关键。
The memory addresses in the address space allow the agent to access the memories in the physical RAM.
在内存空间中的内存地址允许代理访问物理ram中的内存。
MMU Memory Management Unit, translates virtual to physical addresses and provides access permission control.
内存管理单位,把虚地址转化为物理地址并且提供访问许可控制。
The functions of the MMU are to control the various memory systems, translate the virtual addresses into physical addresses and control the access permission.
MMU的功能是控制各种存储系统的工作并将虚地址转换成物理地址,以及控制存储器访问权限。
PinyinUp. exe may be malicious. It may be attempting to affect other programs or the security of the system. Programs do not normally need to access physical memory.
虽然这是一种泛泛的解释,但至少指出了修改物理内存会“影响其他程序或系统安全,程序一般不需要直接访问物理内存”。
PinyinUp. exe may be malicious. It may be attempting to affect other programs or the security of the system. Programs do not normally need to access physical memory.
虽然这是一种泛泛的解释,但至少指出了修改物理内存会“影响其他程序或系统安全,程序一般不需要直接访问物理内存”。
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