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- Virtual Memory Interface Unit 虚拟存储器接口装置
- No doubt this is a side effect of using the disk as a virtual memory. 这无疑是用碟片当虚拟记忆体产生的副作用。
- Gets the peak virtual memory size. 获取峰值虚拟内存大小。
- Cant access virtual memory information. 无法访问虚拟内存信息。
- Changed virtual memory allocation method. 修改了虚拟内存的分配方式。
- Could not read the current virtual memory settings. 无法读取当前的虚拟内存设置。
- VMOS? Virtual Memory Operating System? 虚拟存储器操作系统?
- There are five parts in PowerPc603e? microprocessor: Integer Execution Unit, Floating Point Unit(FPU), Instruction(Data) Cache, Bus Interface Unit and Memory Manage Unit. PowerPc603e微处理器系统由定点执行单元、浮点单元、指令(数据)Cache、总线接口单元、存储管理单元组成,以流水和超标量方式执行指令。
- Therefor,we should amend the quality of virtual memory. 因此,必须对虚拟内存进行性能优化。
- LXT384is a octal T1/E1/J1line interface unit,which is applied in SONET/SDH. LXT384是一个用于SONET/SDH设备的八进制T1/E1/J1线路接口单元芯片。
- Change an existing paging file's Virtual Memory Settings. 更改一个现有分页文件的虚拟内存设置。
- For more information, see Change the size of virtual memory. 有关详细信息,请参阅更改虚拟内存的大小。
- This option specifies the total stack allocation in virtual memory. 该选项指定虚拟内存中的总的堆栈分配。
- Expand the memory or set a larger virtual memory size. 扩展内存或者设置一个大一点的虚拟内存。
- Current size of the process VLM Virtual memory space in bytes. 当前处理VLM虚拟内存空间的大小的字节。
- There are five parts in VEGA microprocessor, which hires five-stage pipeline: Integer Execution Unit (IEU), Memory Subsystem Unit (MSU), Registers, Pipeline Control Unit (PCU) and Bus Interface Unit (BIU). VEGA处理器由定点执行单元、储存子系统(MMU、I-Cache和D-Cache)、寄存器堆、流水线控制单元和总线接口单元BIU五部分组成,采用五级流水线执行指令。
- The disk space that is set aside for virtual memory. 留出来用作虚拟内存的磁盘空间。
- Displays a system's paging file Virtual Memory settings. 显示系统分页文件的虚拟内存设置。
- MPC860 consists of three major blocks:the Embedded PowerPC core,the System Interface Unit(or SIU),and the Communications Processor Module(or CPM). MPC860包括三个主要部分:嵌入式PowerPC内核、系统接口单元、通信处理器模块。
- This paper expounds the method that designs Bus Interface Unit(BIU) by the new techniques, the key unit in MIL-STD-1553B data bus system. 本论文论述了用新技术来设计MIL-STD-1553B总线系统中的关键部件 总线接口单元的设计方法。
