排序方式: 共有23条查询结果,搜索用时 15 毫秒
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LIU Peng XIA Bing-jie TENG Zhao-wei 《浙江大学学报(A卷英文版)》2007,8(4):631-637
Floorplan, clock network and power plan are crucial steps in deep sub-micron system-on-chip design. A novel di- agonal floorplan is integrated to enhance the data sharing between different cores in system-on-chip. Custom clock network con- taining hand-adjusted buffers and variable routing rules is constructed to realize balanced synchronization. Effective power plan considering both IR drop and electromigration achieves high utilization and maintains power integrity in our MediaSoC. Using such methods, deep sub-micron design challenges are managed under a fast prototyping methodology, which greatly shortens the design cycle. 相似文献
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SIRTUIN1介导的NIH3T3成纤维细胞昼夜节律时钟基因表达抑制的光生物调节作用 总被引:1,自引:1,他引:0
背景和目的:昼夜节律是影响运动成绩的一个重要因素。研究发现,介导运动应激的肿瘤坏死因子(tumor necrosis factor,TNF)能够抑制昼夜节律时钟基因的表达。研究了低强度810nm激光(low intensity 810 nm laserir radiation,LIL)对TNF抑制效应的调节作用。材料和方法:50%马血清休克处理NIH3T3成纤维细胞2h,同步化昼夜节律时钟基因的表达后,加入10ng/mL TNF-alpha抑制它的表达,与此同时给予20min10mW/cm2的LIL照射。36h内,每隔6h检测细胞中时钟基因Clock、Bmal1、Per2、Dbp和烟酰胺腺嘌呤二核苷酸辅酶(nicotinamide adenine dinucleotide,NAD+)依赖的组蛋白去乙酰化酶1(sirtuin1,Sirt1)的mRNA的表达及胞内NAD+和其还原形式NADH的比值NAD+/NADH。结果:TNF-alpha分别在第12h和第18h抑制了Clock(P<0.05)、第18h抑制了Bmall(P<0.05)和Dbp(P<0.005)、第18h和第30h抑制了Per2(P<0.05)及... 相似文献
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隐花色素基因(cryptochrome,简称cry)是一类生物钟基因,参与生物体昼夜节律调控。本实验克隆了二化螟2个隐花色素基因,分别命名为Cs-cry1和Cs-cry2(Genbank登录号分别为HG780135和KF977409),其分别包含1605 bp和2289 bp的开放阅读框,分别编码由534和762个氨基酸组成的蛋白;Cs-cry1与其它鳞翅目昆虫cry1的相似性较高,而Cs-cry2与其它鳞翅目昆虫cry2的相似性较高,这与系统进化分析结果相一致;半定量RT-PCR研究表明Cs-cry1和Cs-cry2基因在二化螟成虫触角、头、雄、腹、足和翅等不同组织中均有表达。实验结果为二化螟昼夜节律分子机制研究提供了理论依据。 相似文献
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文章介绍了一种基于CPLD的高频电路的多路不同频率同步时钟输出模块的设计方法,采用单一高频时钟作为时钟源输入,通过CPLD的分频电路设计实现输出多路不同频率同步时钟,利用有限状态基设计实现CPLD的外部控制接口,实现对CPLD输出时钟频率的任意调节。有效满足复杂的高频电路设计中需要提供多路不同频率同步时钟的要求。 相似文献
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运用人体生物钟节律把握教育时机 总被引:5,自引:0,他引:5
对于人体生物钟的研究已经有一个世纪了。虽然人们对于它的评价褒贬不一,在争论中也有人说它是伪科学,但人体生物钟节律理论在人们的日常生活和产生中起着重要作用,应用广泛。而它应用于教与学的研究目前尚少。教师和学生了解并运用自身的生物钟规律,有利于把握教与学的时机,提高教学的效率。 相似文献
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基于S3C44B0XARM7芯片设计开发了一个在手机中广泛应用的多功能实时时钟,并给出了电路及代码的详细设计过程。S3C44B0XARM7是三星公司生产的处理器,该处理器内部集成了一个实时时钟(RTC),设计的时钟计时准确、功能齐全,可以帮助人们实时﹑准确地掌握时间。 相似文献
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本文设计了一个定时电子钟,目的是可以在设定的时间启动和停止。设计的主题思想是通过石英晶体振荡器产生的时标信号送到分频器,分频电路将时标信号分成每秒一次的方波信号。秒信号送入计数器进行计数,同时把累计的结果以"时"、"分"、"秒"的数字通过LED显示出来。到了设定的时间,接触器动作,开关闭合,就起到了定时的作用,来达到给电器定时的目的。 相似文献
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随着超大规模集成电路设计工艺和生产制造技术的不断提高以及电子计算机在彩色电视机领域的广泛应用,使得大屏幕彩色电视机在各种功能控制、生产调试、检测维修等方面有了一个崭新的技术,即I2C总线及其特有的维修方法。 相似文献
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《普罗米修斯》2012,30(4):279-298
The story of the Dutch East India Company, Christiaan Huygens and the marine clock shows that in the seventeenth century Dutch Republic there was a tendency towards the formation of a modern partnership between business, science and technology. This emerging relationship was personified by Johannes Hudde (1628-1704) and Christiaan Huygens (1629-1695), men from entirely different walks of life except for their shared interest in science, especially mathematics. It was this shared interest in mathematics which brought them together and indirectly led to the marine clock research project. Hudde was a Director of the Dutch East India Company as well as a mathematician of international standing, whilst Huygens was both a brilliant theoretical scientist and extremely skilled innovator.Through his interest in mathematics, Hudde had come to know Huygens - he had corresponded with him and was broadly familiar with the work Huygens had been doing. So when Huygens, in 1682, returned to Holland from France, Hudde conceived the idea, which was entirely novel at the time, to enlist the support of the East India Company for one of Huygens' research projects, a project, of course, in which the Company had a direct economic interest, namely, the marine clock which it needed to find the longitude at sea. 相似文献