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- dynamic memory cell 动态存储单元
- A transistor memory cell can be made with any number of terminals. 晶体管存贮单元端点的数量是不受限制的。
- Paged dynamic memory is determined by the SYSGEN parameter PAGEDYN. 分页动态内存由 SYSGEN 参数 PAGEDYN 来确定。
- 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。
- Characterize standard logic cells and memory cells. 提取标准逻辑单元和存储电路的参数。
- 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。
- The memory cells may be multistate memory cells. 该存储单元可以是多状态存储单元。
- This problem can occur if 70 (binary 1000110) has been changed to 6 (binary 000110) by an unstable memory cell. 如果不稳定的内存单元已将70(二进制为1000110)更改为6(二进制为000110),则会发生此问题。
- The generation mechanism of stress induced leakage current( SILC) in flash memory cell is studied by experiments. 通过实验研究了闪速存储器存储单元中应力诱生漏电流(ILC)产生机理.
- 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。
- The use of the program in 8237 will realize the magic memory modules of the data copied to several other memory cell. 在该程序中利用8237实现了将内存中魔几个单元的数据复制到另外几个存储单元。
- 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。
- US Patern No. 5834806, 1998, “Raised-Bitline, Contactless, Trenched, Flash Memory Cell”, by R.L. Lin, C.H.-H Hsu, M.S. Liang. “极快速拟动态非挥发性快闪记忆体之阵列结构与其执行编码时临界电压自我校正方法”;林瑞霖;徐清祥.
- 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。
- The mirror image position plan through saves each bit memory in an insulation grid both sides method in each memory cell two bits. 镜像位方案通过把每个比特存储在一个绝缘栅两端的方法在每个存储单元中存储两个比特。
- 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。
- One of the main difficulties of quantum computation is that decoherence destroys the information in a quantum computer memory cell. 量子计算机存储单元的相干脱散,破坏量子态中的信息,是量子计算机难以实现的主要原因之一。
- Therefore, I think that the use of dynamic memory allocation on these targets is silly. 因此,我认为,使用动态记忆体分配这些目标是愚蠢的。
