Here, we reported the structure and function of human cell polarity protein, ASIP, and a new gene, F-lana.
本文报告了两个肿瘤相关基因——人类细胞极性蛋白基因hasip (human atypical PK c isotype specific interacting protein)和新基因f - lana的结构与功能。
We also present optimization in instruction scheduling and register allocation phase for this ASIP architecture.
并在指令调度和寄存器分配阶段针对这种ASIP处理器的结构做了优化。
The results showed that ASIP gene expressed in the skin (hair follicle and skin), central nervous system (hypothalamus) and other non-skin tissues of avian.
发现ASIP基因在禽类皮肤组织(毛囊和皮肤)和中枢神经系统(下丘脑)及其他非皮肤中均有表达。
Software tools play an important role in current ASIP design and the automatic design of ASIP relies greatly on whether software tools can be customized automatically.
软件工具在ASIP设计中扮演了非常重要的角色,自动定制软件工具对于提高ASIP设计的自动化程度意义重大。
Combining with features of ASIP architecture, study on application specific low power optimization technology focusing on instruction set (program code), pipeline and storage.
结合ASIP体系结构特征,以应用特征为指导,针对指令集(程序代码)、流水线和存储部件进行了低功耗优化研究。
Besides network processors which are built on ASIP technology and optimized for network applications, possess the characteristic of hardware and software solution simultaneously.
它基于ASIP技术对网络程序处理进行了优化,同时还兼有硬件和软件两种方案的特点。
ASIP is a signals intelligence sensor payload developed by Northrop Grumman Mission Systems sector's Electromagnetic Systems Laboratory business unit for use on both the U-2 and Global Hawk.
ASIP是一个用于U - 2侦察机和“全球鹰”无人机的信号情报传感器载荷,由诺斯罗普·格鲁曼公司任务系统分部的电磁系统实验室商业部门开发。
The ASIP, which features the high efficiency of ASIC co-processor and the flexibility of General Purpose Processor, has and will have popular application in information security domain.
专用指令集处理器(ASIP)结合了ASIC协处理器的高效性与通用处理器的灵活性,在信息安全领域具有广泛的应用前景。
The practical design and implementation result shows that, the OSH-ASIP method combines the above two merits and builds the foundation for the success of the low-power DSP design in this dissertation.
实际的设计和测试结果表明,OSH-ASIP方法把两者的优点有机地结合在一起,是本论文低功耗DSP设计成功的基础。
The practical design and implementation result shows that, the OSH-ASIP method combines the above two merits and builds the foundation for the success of the low-power DSP design in this dissertation.
实际的设计和测试结果表明,OSH-ASIP方法把两者的优点有机地结合在一起,是本论文低功耗DSP设计成功的基础。
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