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Explain how to open the Waveform Viewer for Verification
? State how to insert nodes into the Waveform Viewer
? Tell how to assign Stimulus with the Stimulator Selector
標簽:
Foundation
仿真
上傳時間:
2013-11-05
上傳用戶:gps6888
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中文版詳情瀏覽:http://www.elecfans.com/emb/fpga/20130715324029.html
Xilinx UltraScale:The Next-Generation Architecture for Your Next-Generation Architecture
The Xilinx® UltraScale™ architecture delivers unprecedented levels of integration and capability with ASIC-class system- level performance for the most demanding applications.
The UltraScale architecture is the industr y's f irst application of leading-edge ASIC architectural enhancements in an All Programmable architecture that scales from 20 nm planar through 16 nm FinFET technologies and beyond, in addition to scaling from monolithic through 3D ICs. Through analytical co-optimization with the X ilinx V ivado® Design Suite, the UltraScale architecture provides massive routing capacity while intelligently resolving typical bottlenecks in ways never before possible. This design synergy achieves greater than 90% utilization with no performance degradation.
Some of the UltraScale architecture breakthroughs include:
• Strategic placement (virtually anywhere on the die) of ASIC-like system clocks, reducing clock skew by up to 50%
• Latency-producing pipelining is virtually unnecessary in systems with massively parallel bus architecture, increasing system speed and capability
• Potential timing-closure problems and interconnect bottlenecks are eliminated, even in systems requiring 90% or more resource utilization
• 3D IC integration makes it possible to build larger devices one process generation ahead of the current industr y standard
• Greatly increased system performance, including multi-gigabit serial transceivers, I/O, and memor y bandwidth is available within even smaller system power budgets
• Greatly enhanced DSP and packet handling
The Xilinx UltraScale architecture opens up whole new dimensions for designers of ultra-high-capacity solutions.
標簽:
UltraScale
Xilinx
架構
上傳時間:
2013-11-21
上傳用戶:wxqman
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Prakash Rashinkar has over 15 years experience in system design and verificationof embedded systems for communication satellites, launch vehicles and spacecraftground systems, high-performance computing, switching, multimedia, and wirelessapplications. Prakash graduated with an MSEE from Regional Engineering College,Warangal, in India. He lead the team that was responsible for delivering themethodologies for SOC verification at Cadence Design Systems. Prakash is anactive member of the VSIA Functional Verification DWG. He is currently Architectin the Vertical Markets and Design Environments Group at Cadence.
標簽:
SOC
驗證方法
上傳時間:
2013-11-19
上傳用戶:m62383408
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The LogiCORE™ GTP Wizard automates the task of creating HDL wrappers to configure the high-speed serial GTP transceivers in Virtex™-5 LXT and SXT devices. The menu-driven interface allows one or more GTP transceivers to be configured using pre-definedtemplates for popular industry standards, or from scratch, to support a wide variety of custom protocols.The Wizard produces a wrapper, an example design, and a testbench for rapid integration and verification of the serial interface with your custom function
Features• Creates customized HDL wrappers to configureVirtex-5 RocketIO™ GTP transceivers• Users can configure Virtex-5 GTP transceivers toconform to industry standard protocols usingpredefined templates, or tailor the templates forcustom protocols• Included protocol templates provide support for thefollowing specifications: Aurora, CPRI, FibreChannel 1x, Gigabit Ethernet, HD-SDI, OBSAI,OC3, OC12, OC48, PCI Express® (PCIe®), SATA,SATA II, and XAUI• Automatically configures analog settings• Each custom wrapper includes example design, testbench; and both implementation and simulation scripts
標簽:
Transceiver
Virtex
Wizar
GTP
上傳時間:
2013-10-20
上傳用戶:dave520l
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磁芯電感器的諧波失真分析 摘 要:簡述了改進鐵氧體軟磁材料比損耗系數和磁滯常數ηB,從而降低總諧波失真THD的歷史過程,分析了諸多因數對諧波測量的影響,提出了磁心性能的調控方向。 關鍵詞:比損耗系數, 磁滯常數ηB ,直流偏置特性DC-Bias,總諧波失真THD Analysis on THD of the fer rite co res u se d i n i nductancShi Yan Nanjing Finemag Technology Co. Ltd., Nanjing 210033 Abstract: Histrory of decreasing THD by improving the ratio loss coefficient and hysteresis constant of soft magnetic ferrite is briefly narrated. The effect of many factors which affect the harmonic wave testing is analysed. The way of improving the performance of ferrite cores is put forward. Key words: ratio loss coefficient,hysteresis constant,DC-Bias,THD 近年來,變壓器生產廠家和軟磁鐵氧體生產廠家,在電感器和變壓器產品的總諧波失真指標控制上,進行了深入的探討和廣泛的合作,逐步弄清了一些似是而非的問題。從工藝技術上采取了不少有效措施,促進了質量問題的迅速解決。本文將就此熱門話題作一些粗淺探討。 一、 歷史回顧 總諧波失真(Total harmonic distortion) ,簡稱THD,并不是什么新的概念,早在幾十年前的載波通信技術中就已有嚴格要求<1>。1978年郵電部公布的標準YD/Z17-78“載波用鐵氧體罐形磁心”中,規定了高μQ材料制作的無中心柱配對罐形磁心詳細的測試電路和方法。如圖一電路所示,利用LC組成的150KHz低通濾波器在高電平輸入的情況下測量磁心產生的非線性失真。這種相對比較的實用方法,專用于無中心柱配對罐形磁心的諧波衰耗測試。 這種磁心主要用于載波電報、電話設備的遙測振蕩器和線路放大器系統,其非線性失真有很嚴格的要求。
圖中 ZD —— QF867 型阻容式載頻振蕩器,輸出阻抗 150Ω, Ld47 —— 47KHz 低通濾波器,阻抗 150Ω,阻帶衰耗大于61dB, Lg88 ——并聯高低通濾波器,阻抗 150Ω,三次諧波衰耗大于61dB Ld88 ——并聯高低通濾波器,阻抗 150Ω,三次諧波衰耗大于61dB FD —— 30~50KHz 放大器, 阻抗 150Ω, 增益不小于 43 dB,三次諧波衰耗b3(0)≥91 dB, DP —— Qp373 選頻電平表,輸入高阻抗, L ——被測無心罐形磁心及線圈, C ——聚苯乙烯薄膜電容器CMO-100V-707APF±0.5%,二只。
測量時,所配用線圈應用絲包銅電磁線SQJ9×0.12(JB661-75)在直徑為16.1mm的線架上繞制 120 匝, (線架為一格) , 其空心電感值為 318μH(誤差1%) 被測磁心配對安裝好后,先調節振蕩器頻率為 36.6~40KHz, 使輸出電平值為+17.4 dB, 即選頻表在 22′端子測得的主波電平 (P2)為+17.4 dB,然后在33′端子處測得輸出的三次諧波電平(P3), 則三次諧波衰耗值為:b3(+2)= P2+S+ P3 式中:S 為放大器增益dB 從以往的資料引證, 就可以發現諧波失真的測量是一項很精細的工作,其中測量系統的高、低通濾波器,信號源和放大器本身的三次諧波衰耗控制很嚴,阻抗必須匹配,薄膜電容器的非線性也有相應要求。濾波器的電感全由不帶任何磁介質的大空心線圈繞成,以保證本身的“潔凈” ,不至于造成對磁心分選的誤判。 為了滿足多路通信整機的小型化和穩定性要求, 必須生產低損耗高穩定磁心。上世紀 70 年代初,1409 所和四機部、郵電部各廠,從工藝上改變了推板空氣窯燒結,出窯后經真空罐冷卻的落后方式,改用真空爐,并控制燒結、冷卻氣氛。技術上采用共沉淀法攻關試制出了μQ乘積 60 萬和 100 萬的低損耗高穩定材料,在此基礎上,還實現了高μ7000~10000材料的突破,從而大大縮短了與國外企業的技術差異。當時正處于通信技術由FDM(頻率劃分調制)向PCM(脈沖編碼調制) 轉換時期, 日本人明石雅夫發表了μQ乘積125 萬為 0.8×10 ,100KHz)的超優鐵氧體材料<3>,其磁滯系數降為優鐵
標簽:
磁芯
電感器
分
諧波失真
上傳時間:
2013-12-15
上傳用戶:天空說我在
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解壓密碼:www.elecfans.com 隨著微電子技術的迅速發展以及集成電路規模不斷提高,對電路性能的設計
要求越來越嚴格,這勢必對用于大規模集成電路設計的EDA 工具提出越來越高的
要求。自1972 年美國加利福尼亞大學柏克萊分校電機工程和計算機科學系開發
的用于集成電路性能分析的電路模擬程序SPICE(Simulation Program with IC
Emphasis)誕生以來,為適應現代微電子工業的發展,各種用于集成電路設計的
電路模擬分析工具不斷涌現。HSPICE 是Meta-Software 公司為集成電路設計中
的穩態分析,瞬態分析和頻域分析等電路性能的模擬分析而開發的一個商業化通
用電路模擬程序,它在柏克萊的SPICE(1972 年推出),MicroSim公司的PSPICE
(1984 年推出)以及其它電路分析軟件的基礎上,又加入了一些新的功能,經
過不斷的改進,目前已被許多公司、大學和研究開發機構廣泛應用。HSPICE 可
與許多主要的EDA 設計工具,諸如Candence,Workview 等兼容,能提供許多重要
的針對集成電路性能的電路仿真和設計結果。采用HSPICE 軟件可以在直流到高
于100MHz 的微波頻率范圍內對電路作精確的仿真、分析和優化。在實際應用中,
HSPICE能提供關鍵性的電路模擬和設計方案,并且應用HSPICE進行電路模擬時,
其電路規模僅取決于用戶計算機的實際存儲器容量。
The HSPICE Integrator Program enables qualified EDA vendors to integrate their products with the de facto standard HSPICE simulator, HSPICE RF simulator, and WaveView Analyzer™. In addition, qualified HSPICE Integrator Program members have access to HSPICE integrator application programming interfaces (APIs). Collaboration between HSPICE Integrator Program members will enable customers to achieve more thorough design verification in a shorter period of time from the improvements offered by inter-company EDA design solutions.
標簽:
download
hspice
2007
上傳時間:
2013-10-18
上傳用戶:s363994250
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影響汽油發動機排放的最主要因素是混合氣的空燃比, 理論上一公斤燃料完全燃燒時需要14.7公斤的空氣。這種空氣和燃料的比例稱為化學當量比。空燃比小于化學當量比時供給濃混合氣,此時發動機發出的功率大,但燃燒不完全,生成的CO、HC多;當混合氣略大于化學當量比時,燃燒效率最高,燃油消耗量低,但生成的NOx也最多;供給稀混合氣時,燃燒速度變慢,燃燒不穩定,使得HC增多。在電控汽油噴射系統中采用閉環控制的方式,將空燃比控制在化學當量比附近,并在排氣系統中消聲器前安裝一個三元催化轉化器,對發動機進行后處理,是當前減少汽車排氣污染物的最有效方法。在化學當量比附近,轉化器的凈化效率最高。
標簽:
現代汽車
電子技術
視頻教程
上傳時間:
2013-11-14
上傳用戶:bvdragon
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Explain how to open the Waveform Viewer for Verification
? State how to insert nodes into the Waveform Viewer
? Tell how to assign Stimulus with the Stimulator Selector
標簽:
Foundation
仿真
上傳時間:
2013-10-29
上傳用戶:daguogai
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基本矩陣運算 : + - *, power, transpose, trace, determinant, minor, matrix of minor, cofactor, matrix of cofactor, adjoint, inverse, gauss, gaussjordan, linear transformation, LU decomposition , Gram-Schmidt process, similarity. b) Basic vectors functions : norm, distance, innerproduct,coldim, rowdim, rank, nullity. *
標簽:
matrix
minor
determinant
transpose
上傳時間:
2013-12-09
上傳用戶:541657925
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This code may be reused for any educational or non-commercial application without further licence Contact the author at BrianLBurns@att.net for any other use.
標簽:
non-commercial
application
educational
further
上傳時間:
2014-07-27
上傳用戶:jennyzai
