作为J2ME目标的微型设备具有16位或32位处理器和总量不少于大约128KB的存储器。
The microdevices that J2ME targets have 16 - or 32-bit processors and a minimum total memory footprint of approximately 128 KB.
应用服务器实现这一目标的方式是:在调用prepare之前,把与端点关联的ActivationSpec写入永久性存储器。
The application server achieves this by writing the ActivationSpec associated with an endpoint into persistent storage before calling prepare.
目标处理器能够比访问系统存储器中的数据更有效率地访问高速缓存中的数据。
The target processor can access data in the cache more efficiently than it accesses data in the system memory.
DSP软件系统采用链接命令文件,这个文件包含了DSP和目标板的存储器空间的定义以及代码段、数据段是如何分配到这些存储器空间的。
DSP software USES link command file. This file contains definition of memory of DSP and target board and how to distribute code segment and data segment to the memory.
为实现这个目标,小型微代码存储器有rom构成,微状态机转移为大型微代码存储器和复杂的硬件单元以及序列发生器。
Small microcode stores were built from ROM and microstate machines were moved to large microcode stores and to complex hardware units and sequencers, to achieve those goals.
高可靠的存储器在工作频率、时序、功耗等方面同通用型的存储器相同,达到了设计目标。
The high reliable SRAM works frequency; scheduling and power etc are the same as the general SRAM's. It achieves the design goal.
高可靠的存储器在工作频率、时序、功耗等方面同通用型的存储器相同,达到了设计目标。
The high reliable SRAM works frequency; scheduling and power etc are the same as the general SRAM's. It achieves the design goal.
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