共查询到20条相似文献,搜索用时 78 毫秒
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《互联网周刊》1999,(27)
微电子是现代高科技产业的核心技术之一,如果把一日千里的信息科技比喻为一辆F1赛车,那么形形色色的小小芯片无疑是提供强大动力的引擎。国内的微电子产业由于种种原因,发展比较缓慢,落后于国际水平,近期从上海传来消息,国内微电子、集成电路的龙头企业上海贝岭与阿尔卡特微电子部门签定全面合作协议,使得阿尔卡特公司在ADSL芯片、ISDN芯片以及POTS芯片领域中的领先技术能够服务于国内的广大市场和用户,同时阿尔卡特微电子部也宣布在中国成立市场及客户支持代表处。隐藏在芯片中的强大能量令人着迷,同时也为了探究微电子这一特殊产业的发展现状及有关经验,记者于不久前来到了位于上海浦东的阿尔卡特微电子部(中国)市场与客户支持代表处,采访了首席代表 相似文献
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《电脑技术——Hello-IT》1997,(9):51-55
[编者按]电子工业部计算机与微电子发展中心上海测试发布展示中心经电子工业部办公厅批准成立,由电子工业部计算机与微电子发展研究中心(CCID)主办,是国内第一个计算机软硬件测试发布展示中。C。该中。C以CCID及其所属的中国计算机报社测试实验室(CIWLab)和中国软件评测中心(CSTC)先进的评测技术与工艺为依托,借鉴IDG的技术与方法以及国内外资深测试专家的经验,以科学的脚踏实地的工作作风和“忠实、公正。廉洁、权威”的工作原则,对国内市场上的PC类计算机软硬件、外设、网络产品、银行机具及其他微电子产品在类似用… 相似文献
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田亚平 《A&S:安防工程商》2009,(11):14-17
随着21世纪信息时代到来,网络、微电子、光电、通讯等高新技术行业快速发展,并带动全球信息产业全面发展。安防行业作为一个保证社会发展稳定的行业则首当其冲,在近几年迅速发展起来,原来的模拟监控产品逐步过渡到数字化网络化监控产品。而网络摄像机也在这种情况下迅速发展起来。 相似文献
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上世纪90年代左右,随着改革开放的不断深人,我国引进了当时国际上较为先进的水处理生产工艺及自动化控制理念和技术,经过引进消化吸收,国内水处理行业终于逐渐建立起生产自动化网络。而那个时候的网络通讯技术还比较单一,结构也相对简单。随着微电子、计算机技术、网络技术、控制理论的发展普及,工业通讯技术在中国市政水处理行业中已经得到非常广泛的应用。中国市政工程西南设计研究总院有限公司第十设计研究院总工程师刘卫民为记者举了一个非常形象的例子, 相似文献
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《CAD/CAM与制造业信息化》2002,(9)
近日,IBM公司宣布在全球服务和微电子等部门裁员超过1.56万人的消息引起了国内业界的高度关注,因为这是IBM十年来规模最大的一次裁员行动,裁员数几乎占到目前员工总数的5%。但根据商 相似文献
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刘建军 《计算机光盘软件与应用》2011,(17)
现代电力电子技术是以高新技术知识为基础的一种知识密集型技术,电力电子技术与微电子技术的结合已成为当今技术发展的主流。因此它对生产和生活将像微电子技术那样起着变革性作用。它将使供电和用电系统发生革命性的变革。 相似文献
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Mitsutoshi Miyasaka Hiroyuki Hara Hiroki Takao Simon Tam Rob Payne Prem Rajalingham Satoshi Inoue Tatsuya Shimoda 《Journal of the Society for Information Display》2005,13(3):187-191
Abstract— Thin‐film transistors (TFTs) are field‐effect transistors that can be used to create large‐scale‐integrated (LSI) circuits. The combination of high‐performance TFTs and transfer technology of the TFTs has the potential to foster the rise of a new flexible microelectronics industry. This paper discusses the current status of flexible microelectronics, using a TFT fingerprint sensor (FPS) as an example. Technology used in active‐matrix displays can easily be applied to the TFT FPS. TFT technology should not be confined to the display industry; its use should be expanded into the semiconductor industry. With the result presented in this paper, we declare a new era of flexible microelectronics open. 相似文献
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B. Bosacchi 《Soft Computing - A Fusion of Foundations, Methodologies and Applications》1997,1(2):57-60
This note discusses the potential of Soft Computing (SC) in microelectronics. Though the SC applications to this field have
been so far rather marginal, the present trends of microelectronics technology strongly suggest that the techniques of soft
computing, (fuzzy logic, neural networks, genetic algorithms, expert systems, etc.), synergistically combined with more conventional
approaches, will play an increasingly relevant role. 相似文献
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Uwe Hollerbach 《Journal of scientific computing》1997,12(1):3-10
Recent advances in computational microelectronics have made it possible to compute the images of very large masks. Images of entire masks require many gigabytes of storage. It is therefore desirable to make storage requirements as small as possible. In this paper, we investigate the effects of reducing resolution to the point where some aliasing error enters the final answer. Due to the accuracy requirements of the microelectronics industry, we conclude that reducing resolution to improve storage requirements is not feasible. 相似文献
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A manufacturing cost model that describes the relationships among characteristics of modern manufacturing processes, investment costs to achieve these characteristics, and basic IC parameters, including both die size and minimum feature size, is used to explain major trends in the past 20 yr of microelectronics. Results from this model indicate that it is not possible to continue progress in microelectronics through minimizing feature size, that the drive toward larger dies will gain momentum and lead gradually toward wafer-scale integration (WSI), and that manufacturing costs will keep WSI from becoming practical in the immediate future. Active-substrate flip-chip multichip modules (MCMs) are presented as an alternative that may provide both the performance gain and cost efficiency required 相似文献
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In the past few years, the micro-electromechanical systems (MEMS) industry has exceeded the $1-billion-a-year mark. Some economic forecasters estimate that the industry will surpass $14 billion by the year 2000. The reason for this tremendous growth is the enabling nature of MEMS, which give engineers and researchers the tools to build things that have been impossible or prohibitively expensive with other techniques. MEMS are micron- to millimeter-scale devices that can be fabricated as discrete devices or in large arrays. MEMS borrow much of their technology from integrated circuit (IC) manufacturing, providing three-fold benefits: miniaturization, multiplicity and microelectronics. First, miniaturization of the devices is inherent in the processing techniques. Modern microelectronics fabrication techniques are designed to build submicron-scale devices. By using the same techniques, engineers can easily leverage this technology to produce MEMS that are orders of magnitude smaller than their macroworld counterparts. Second, the use of photolithography techniques makes producing thousands or even millions of copies of a single device easy. Thus, single devices can be arrayed into systems to produce an effect impossible with discrete devices. Finally, because MEMS technology is so similar to IC fabrication technology, MEMS are integrable with microelectronics 相似文献
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The advent of microelectronics has enabled designers to incorporate considerably more functional capability and flexibility into products than was previously possible. Technical capabilities are no longer major constraints and designers are finding it increasingly difficult to choose between a vast range of alternatives. In an effort to narrow the range, designers are turning to behavioural scientists in marketing, ergonomics and psychology to guide them when selecting functions, specifying operating procedures and selecting components. This paper illustrates the application of human factors techniques to the analysis of problems with existing consumer products and to the synthesis of novel designs incorporating advanced microelectronics components. Within this general theme the paper concentrates on the design of a particular product - the central heating timer/programmer. 相似文献