欢迎来到沃文网! | 帮助中心 分享知识,传播智慧!
沃文网
全部分类
  • 教学课件>
  • 医学资料>
  • 技术资料>
  • 学术论文>
  • 资格考试>
  • 建筑施工>
  • 实用文档>
  • 其他资料>
  • ImageVerifierCode 换一换
    首页 沃文网 > 资源分类 > DOC文档下载
    分享到微信 分享到微博 分享到QQ空间

    外文翻译--FPGA技术发展探究.doc

    • 资源ID:984939       资源大小:170.50KB        全文页数:11页
    • 资源格式: DOC        下载积分:20积分
    快捷下载 游客一键下载
    账号登录下载
    微信登录下载
    三方登录下载: QQ登录 微博登录
    二维码
    微信扫一扫登录
    下载资源需要20积分
    邮箱/手机:
    温馨提示:
    快捷下载时,用户名和密码都是您填写的邮箱或者手机号,方便查询和重复下载(系统自动生成)。
    如填写123,账号就是123,密码也是123。
    支付方式: 支付宝    微信支付   
    验证码:   换一换

    加入VIP,下载更划算!
     
    账号:
    密码:
    验证码:   换一换
      忘记密码?
        
    友情提示
    2、PDF文件下载后,可能会被浏览器默认打开,此种情况可以点击浏览器菜单,保存网页到桌面,就可以正常下载了。
    3、本站不支持迅雷下载,请使用电脑自带的IE浏览器,或者360浏览器、谷歌浏览器下载即可。
    4、本站资源下载后的文档和图纸-无水印,预览文档经过压缩,下载后原文更清晰。
    5、试题试卷类文档,如果标题没有明确说明有答案则都视为没有答案,请知晓。

    外文翻译--FPGA技术发展探究.doc

    1、毕业设计(论文)外文资料翻译题 目: Latest Development Trend Observation of FPGA FPGA技术发展探究 院系名称: 信息科学与工程学院 专业班级: 电子信息科学与技术04级2班 学生姓名: 詹建超 学 号: 20044360201 指导教师: 焦素敏 教师职称: 副教授 附 件: 1.外文资料翻译译文;2.外文原文。 指导教师评语:该生的英文资料与设计题目密切相关,中文翻译语句通顺,意思准确,字数符合要求,说明该生具有一定的阅读英文资料的能力。签名: 年 月 日附件1:外文资料翻译译文FPGA技术发展探究一 绪言 自1985年Xilinx公司推出第

    2、一片现场可编程逻辑器件(FPGA)至今,FPGA已经历了十几年的发展历史。在这十几年的发展过程中,以FPGA为代表的数字系统现场集成技术取得了惊人的发展:现场可编程逻辑器件从最初的1200个可利用门,发展到90年代的25万个可利用门,乃至当新世纪来临之即,国际上现场可编程逻辑器件的著名厂商Altera公司、Xilinx公司又陆续推出了数百万门的单片FPGA芯片,将现场可编程器件的集成度提高到一个新的水平。纵观现场可编程逻辑器件的发展历史,其之所以具有巨大的市场吸引力,根本在于:FPGA不仅可以解决电子系统小型化、低功耗、高可靠性等问题,而且其开发周期短、开发软件投入少、芯片价格不断降低,促使F

    3、PGA越来越多地取代了ASIC的市场,特别是对小批量、多品种的产品需求,使FPGA成为首选。 目前,FPGA的主要发展动向是:随着大规模现场可编程逻辑器件的发展,系统设计进入片上可编程系统(SOPC)的新纪元;芯片朝着高密度、低压、低功耗方向挺进;国际各大公司都在积极扩充其IP库,以优化的资源更好的满足用户的需求,扩大市场;特别是引人注目的所谓FPGA动态可重构技术的开拓,将推动数字系统设计观念的巨大转变。 二 Xilinx公司研制开发的FPGA系列产品的主要特征 Xilinx公司自发明FPGA以来,就不断的推出新器件和开发工具,力求芯片的速度更高、功耗更低。其主要推出了Virtex系列和Sp

    4、antanTM系列的FPGA。Virtex系列突破了传统FPGA密度和性能限制,使 FPGA不仅仅是逻辑模块,而成为一种系统元件。 而SpantanTM系列为替代ASIC的大容量FPGA树立了一个新的低成本标准。 Virtex 系列FPGA集成了许多满足系统级设计要求的新性能,具有独特的结构特点。整个Virtex系列由九种器件组成,系统门数从5万到100万门(1,728到27,648个逻辑单元);提供给用户的I/O引脚数最多超过500个;采用多种封装形式,包括先进的1.0mm FinePitchTMBGA和0.8mm芯片封装;采用5层金属的0.22微米CMOS工艺,实现5V容差的I/O接口;借

    5、助于优选的时序驱动的布局和布线工具,在400MHz的PCPU上,编译速度可达20万门/秒。 Virtex系统的独特结构使它具有以下一些重要性能:1.拥有四重数字化延时锁定电路(DLL),用于内外时钟同步;使芯片到芯片间的通讯速度达到200MHz;所有器件从时钟到输出的延时均小于3ns;时钟可倍频和分频,可进行00,900,1800,2700相移。 2.各种密度产品均设置向量式互连,使布线快速可预测,与内核配合良好。 3.Virtex支持3级存储。它的SelectRAM+存储层为字节级(分布式存储)、千字节级(块存储)和兆字节级(与外部DRAM和SRAM的SSTL3接口)存储块提供很高的频宽。4

    6、.采用SelectI/OTM技术,同时支持多种电压和信号标准。5.兼容66MHz/64比特PCI和Compact PCI。三.Altera公司研制开发的FPGA系列产品的主要特征 Altera公司的基于CMOS的现场可编程逻辑器件同样具有高速、高密度、低功耗的特点。 该公司针对通信市场推出的新型低成本器件-ACEX系列。该系列的主要特点为:密度范围从1万到10万门;配备锁相环(PLL),与64位、66MHZ的PCI兼容;产品系列从原1.8v扩展至2.5v;提供系统速度超过115MHZ 的高性能。 Altera公司还对FPGA的结构进行优化,提供更多的嵌入式RAM。新近推出的FLEX 10KE系

    7、列器件是以前的FLEX 10K系列器件的增强型,该系列在结构上采用了与FLEX 10K系列相同的逻辑块,但片内嵌入式RAM是FLEX 10K系列的两倍,而且增加了一个双端口RAM,这对通信应用来说是一个重要的优势所在。片上可编程系统(SOPC)得到迅速发展,主要有以下几个原因: 1.密度在100万门以上的现场可编程逻辑芯片已经面市;2.第4代现场可编程逻辑器件的开发工具已经成形,可对数量更多的门电路进行更快速的分析和编译,并可使多名设计人员以项目组的方式同步工作;3.知识产权(IP)得到重视,越来越多的设计人员以设计重用的方式对现有软件代码加以充分利用,从而提高他们的设计效率并缩短上市时间;4

    8、.由于连接延迟时间的缩短,片上可编程系统(SOPC)能够提供增强的性能,而且由于封装体积的减小,产品尺寸也减少了。 四.Actel公司研制开发的FPGA系列产品的主要特征 Actel公司一直是世界反熔丝技术FPGA的领先供应商,主要有两大系列的反熔丝FPGA产品-SX-A 系列和MX高速系列。SX-A系列FPGA的主要特点是功耗低、在接上了所有内部寄存器之后,200MHZ运行时的功耗不到1w,而且价格也较为低廉、并拥有良好的性能。 众所周知采用反熔丝技术的FPGA尽管具有许多优点,但是却有一个致命的弱点,即只能进行一次性编程。这就为大规模FPGA产品的开发带来了许多不便。为了弥补这一不足,近年

    9、来,Altel公司也在积极开发其它结构类型的FPGA产品。最具代表的是其新近推出了一种非易失性、可重新编程的门阵列 -ProASIC FPGAs。该系列产品集于高密度、低功耗、非易失性和可重新编程于一身。ProASIC FPGAs的主要特点是:提供98,000到110,000个可用门;内嵌拥有FIFO控制逻辑的两端口SRAM(容量达到138,000比特);提供大于200MHZ的内部时钟频率;该系列产品的功耗仅是基于SRAM的FPGA产品的1/3到1/2。 五.技术发展分析。 从以上对Xilinx、Altera和Actel三家公司各自开发产品特征的介绍,我们可以看出2000年以FPGA为代表的数

    10、字系统现场集成技术发展的一些新动向,归纳起来有以下几点: 深亚微米技术的发展正在推动了片上系统(SOPC)的发展。越来越多的复杂IC需要利用SOPC技术来制造。而SOPC要利用深亚微米技术才能实现。随着深亚微米技术的发展,使SOPC的实现成为可能。与以往的芯片设计不同,SOPC需要对设计IC和在产品中实现的方法进行根本的重新评价。 芯片朝着高密度、低压、低功耗的方向挺进。采用深亚微米的半导体工艺后,器件在性能提高的同时,价格也在逐步降低。由于便携式应用产品的发展,对现场可编程器件的低压、低功耗的要求日益迫切。因此,无论那个厂家、哪种类型的产品, IP库的发展及其作用。为了更好的满足设计人员的需

    11、要,扩大市场,各大现场可编程逻辑器件的厂商都在不断的扩充其知识产权(IP)核心库。这些核心库都是预定义的、经过测试和验证的、优化的、可保证正确的功能。设计人员可以利用这些现成的IP库资源,高效准确的完成复杂片上的系统设计。(4)FPGA动态可重构技术意义深远。随着数字逻辑系统功能复杂化的需求,单片系统的芯片正朝着超大规模、高密度的方向发展。与此同时,人们却发现一个有趣的现象,即一个超大规模的数字时序系统芯片,在其工作时,从时间轴上来看,并不是每一瞬间系统的各个部分都在工作,而系统是各个局部模块功能在时间链上的总成。同时,人们还发现,基于 SRAM编程的FPGA可以在外部逻辑的控制下,通过存储于

    12、存储器中不同的目标系统数据的重新下载,来实现芯片逻辑功能的改变。正是基于这个称之为静态系统重构的技术,有人设想,能不能利用芯片的这种分时复用特性,用较小规模的FPGA芯片来实现更大规模的数字时序系统。在研究过程中,有人尝试了这种设想,发现常规的SRAM的FPGA只能实现静态系统重构。要实现高速的动态重构,要求芯片功能的重新配置时间缩短到纳秒量级,这就需要对FPGA的结构进行革新。可以预见,一旦实现了FPGA的动态重构,则将引发数字系统的设计的思想的巨大转变。六.结语。 我们可以看到在新世纪,以FPGA为代表的数字系统现场集成技术正朝着以下几个方向发展。随着便携式设备需求的增长,对现场可编程器件

    13、的低压、低功耗的要求日益迫切。芯片向大规模系统芯片挺进,力求在大规模应用中取代ASIC。为增强市场竞争力,各大厂商都在积极推广其知识产权IP库。动态可重构技术的发展,将带来系统设计方法的转变。 附件2:外文原文Latest Development Trend Observation of FPGABy Eriac.Clerk, AMI Semiconductor - EDN, 18/2/2002Since the company launched its first-Xilinx field-programmable logic device (FPGA)at 1985. So far, FP

    14、GA has experienced more than 10 years of development history. In this process of development for more than 10 years, digital system integration technology at the scene represented by the FPGA made a surprising development: field programmable logic devices has a development of having 1200 available g

    15、ates initial to 250000 available gates, and even when the new century comes, international famous manufacturers Altera Corporation, Xilinx Inc. of field programmable logic devices also have launched a kind of single FPGA chip with millions of gates, making field-programmable device to raise to a new

    16、 level of the degree of integration.when we Take a sweeping view of the field-programmable logic device development, its fundamental reason of huge market attraction is that FPGA electronic systems can not only solve the small-size, low-power consumption, high reliability and other issues. and its s

    17、hort development cycle, development of software less investment, lower chip prices,made more and more FPGA to replace the ASIC at market, especially for the demand of low-volume and variety products, FPGAs are prefer.Currently, the main development trends of FPGA is: With the development of large-sc

    18、ale field-programmable logic device, systems design gose into a new era in the high-density of the on-chip programmable system (SOPC), chips go to the direction of a low voltage, low power consumption . the international major companies are actively expanding its IP library, in order to optimize res

    19、ources and better meet the needs of users, and expand the market, especially in the so-called eye-catching dynamic reconfigurable FPGA technology development, will promote the concept of digital system design enormous change.The main features of products developed by Xilinx FPGA company. since inven

    20、ted FPGA, Xilinx company has beendeveloping the constant introduction of new devices and development tools, in order to raise speed of chips to a higher and lower power consumption. It mainly launched Virtex series and a series of SpantanTM FPGA. Virtex series FPGA breakthroughs in the traditional F

    21、PGA density and performance constraints, not only made FPGA a logic modules, and become a kind of system components. SpantanTM has set a new, low-cost standards for ASIC alternative series and the high-capacity FPGA .Virtex FPGA series integrates a number of system-level design to meet the requireme

    22、nts of new properties, and have a unique structural features.Virtex series entirely have a composition of nine devices, the system gates count from 50,000 to 1 million (from 1,728 to 27,648 logic elements); The largest number of available I / O pins supplied to users bigger than 500, applying a vari

    23、ety of packages including advanced 1.0 mm and 0.8 mm FinePitchTMBGA chip package; using a five-layer metal 0.22-micron CMOS process to achieve 5 V tolerance of I / O interface; With optimal time-driving layout and routing tool, The PCPU 400MHz, the compiler speed can rase up to 200,000 / sec.There a

    24、re a number of important properties of Virtex system with its unique structure : 1. There has been four layers of digital delay-locked circuit (DLL) for internal and external clock synchronization,making the speed of chip to chip communications goes up to200 MHz; all the delay of from clock to outpu

    25、t device was less than 3 ns; clock frequency can be double frequency and half frequency and can be at frequency, which can carry out 00900,1800,2700 phase shift.2. The various density products are provided vector interconnection, cabling rapid and predictable, coupled well with the core. 3.Virtex su

    26、pport three storage. Its SelectRAM + byte level for the storage layer (Distributed Storage), the 1000-byte (block storage) and megabytes level (external DRAM and SRAM with the SSTL3 interface) storage block provides high bandwidth. 4.It uses SelectI / OTM technology and supports multiple voltage and

    27、 signal standards.5. It has compatible 66 MHz/64 bit PCI and Compact PCI.The main features of products developed by Altera FPGA company Alteras field-programmable logic devices basing on CMOS also have high-speed, high-density, low-power characteristics. The company launched a new type of low-cost d

    28、evice - ACEX series for the telecommunication market. The main features of the series: the density range from 10,000 to 100,000; with phase-locked loop (PLL), and compatible with 64, 66 MHZ PCI ;the product series expanded from the original 1.8 v to 2.5 v providing system speed over 115 MHZ performa

    29、nce.Altera company also optimized the structure of FPGA, and provided more embedded RAM. Recently launched FLEX 10KE family of devices is the enhanced device of former FLEX 10K series, on structure the series use the same logic block as in the FLEX 10K series, but embedded RAMs in chip are twice as

    30、in the FLEX 10K series, and have a dual-port RAM, This is an important advantage for communication applications.System on programmable chip (SOPC) have developed rapidly, there are several reasons:1. logic chips with Density more than 1 million field-programmable gates already available;2. Section 4

    31、 field-programmable logic devices and development tools have been formed, It can make more rapid analysis and compiler the number increasing gate circuit, and enable the designers to work by groups of projects simultaneously; 3. Intellectual property (IP) will be respected, and more and more designe

    32、rs through design reuse approach to fully utilize the existing software code in order to enhance their design efficiency and shorten the time-to-market; 4. With the delay time of link are shortened, system on programmable chip (SOPC) can provide enhanced performance, and because of the reduced packa

    33、ge size, product size has been reduced.The main features of products developed by Actel FPGA CorporationActel Corporation has been being a leading provider of antifuse FPGA technology in the the world, There are two major series of antifuse FPGA products - SX-A and MX-series. The main character of S

    34、X-A FPGA series is low power consumption, connected to all the internal registers, Power of running on 200 MHZ less than 1 w, and the prices are relatively cheap, but have good performance.As we all know , Despite antifuse FPGA technology has many advantages, but there is a fatal weakness, that is,

    35、only can make one-time programming. This has created many inconveniences for a large-scale FPGA product development. To make up for this shortfall, in recent years, Altel company is also developing other types of FPGA products actively. The most representative thing is that the company introduced a

    36、non-volatile, can be re-programmed gate array - ProASIC FPGAs recently. This series of products is set in high-density, low-power, non-volatile and can be re-programmed in one. The main characteristics of ProASIC FPGAs are: to provide 98,000 to 110,000 available gates; FIFO control logic embedded wi

    37、th the two-port SRAM (capacity of 138,000 bits), providing more than 200 MHZ internal clock frequency, Power of the series is 1 / 3 to 1 / 2to the power of SRAM-based FPGA products.Analysis on the development of technologyFrom all characteristics of the respective product development Xilinx, Altera

    38、and Actel three companies Above, we can see at 2000 the trends of digital system integration technology development representatived by FPGA at the scene, some new trends can be summed up in the following points:deep sub-micron technology is driving the development of a system-on-programable-chip (SO

    39、PC) development. More and more complex IC need using SOPC technology to create. The SOPC can be achieved only by using deep submicron technology. With the development of deep submicron technology, the realization of the SOPC is possible. And the defference from the past chip design,is that SOPC need

    40、 achieving a fundamental re-evaluation for IC design and product ahieve. chips are going in the high-density, low-voltage, low-power into the direction. Using deep sub-micron semiconductor process, the capability of the device are promoted,at the same time, the price is gradually lowered. Since the

    41、development of portable applications, field-programmable low-voltage devices, and low power requirements increasingly urgent. Therefore, whether that manufacturers, the type of products, are targeting efforts in this direction.the development and role of IP library. In order to better meet the needs

    42、 of design, market expansion, major field programmable logic device manufacturers have continually expanded its intellectual property (IP) core library. These are pre-defined, tested and proven, optimized, and can ensure that the correct function. Designers can use these off-the-shelf IP library res

    43、ources to complete system design on the complex chip efficiently and accurately.(4) dynamic reconfigurable FPGA technology has a far-reaching significance. As the demand of digital logic system functional complexity ,system-on-chip chips are moving towards ultra-large-scale, high-density development

    44、. At the same time, people have found an interesting phenomenon, that is, a number of large-scale system-on-chip timing, in their work, from the time frame of view, not all parts in the system work at every moment, and system are the sum of Local functional modules in the chain of assembly time. At

    45、the same time, people also found that the SRAM-based programming FPGA can be under the control of external logic, through downloading the different target system data stored in the memory to achieve chip logic function changes. That is called static system reconfiguration technology, it was envisage

    46、d that the chip can use this time division multiplexing features, with the smaller FPGA chip to achieve a large-scale digital timing system. In the course of study, the idea was tried and found conventional SRAM FPGA can only realize the static system reconfiguration. To achieve high-speed dynamic r

    47、econfiguration , the re-allocation time of chip function should be shorten to nanosecond order, which requires innovating the structure of the FPGA. It can be foreseen that once realize the dynamic reconfiguration of the FPGA, It will lead thinking of the enormous changes on the design of digital sy

    48、stems.ConclusionWe can see that in the new century, the field-integrating technology of digital system represented by FPGA is moving in the scene following the direction of development:1. With the growth of demand for portable devices, for field-programmable device ,low-voltage devices, and low power requirements are increasingly urgent. 2. chips are going into large-scale system-on-chip, for to replace the large-scale application of ASIC.3.to enhance the market competitiveness,the major vendors are actively promoting their intellec


    注意事项

    本文(外文翻译--FPGA技术发展探究.doc)为本站会员(风****)主动上传,沃文网仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知沃文网(点击联系客服),我们立即给予删除!




    关于我们 - 网站声明 - 网站地图 - 资源地图 - 友情链接 - 网站客服点击这里,给沃文网发消息,QQ:2622162128 - 联系我们

    版权声明:以上文章中所选用的图片及文字来源于网络以及用户投稿,由于未联系到知识产权人或未发现有关知识产权的登记,如有知识产权人并不愿意我们使用,如有侵权请立即联系:2622162128@qq.com ,我们立即下架或删除。

    Copyright© 2022-2024 www.wodocx.com ,All Rights Reserved |陕ICP备19002583号-1

    陕公网安备 61072602000132号     违法和不良信息举报:0916-4228922