Computational models are commonly used in engineering design and scientific discovery activities for simulating complex physical systems in disciplines such as fluid mechanics, structural dynamics, heat transfer, nonlinear structural mechanics, shock physics, and many others. These simulators can be an enormous aid to engineers who want to develop an understanding and/or predictive capability for complex behaviors typically observed in the corresponding physical systems. Simulators often serve as virtual prototypes, where a set of predefined system parameters, such as size or location dimensions and material properties, are adjusted to improve the performance of a system, as defined by one or more system performance objectives. Such optimization or tuning of the virtual prototype requires executing the simulator, evaluating performance objective(s), and adjusting the system parameters in an iterative, automated, and directed way. System performance objectives can be formulated, for example, to minimize weight, cost, or defects; to limit a critical temperature, stress, or vibration response; or to maximize performance, reliability, throughput, agility, or design robustness. In addition, one would often like to design computer experiments, run parameter studies, or perform uncertainty quantification (UQ). These approaches reveal how system performance changes as a design or uncertain input variable changes. Sampling methods are often used in uncertainty quantification to calculate a distribution on system performance measures, and to understand which uncertain inputs contribute most to the variance of the outputs. A primary goal for Dakota development is to provide engineers and other disciplinary scientists with a systematic and rapid means to obtain improved or optimal designs or understand sensitivity or uncertainty using simulationbased models. These capabilities generally lead to improved designs and system performance in earlier design stages, alleviating dependence on physical prototypes and testing, shortening design cycles, and reducing product development costs. In addition to providing this practical environment for answering system performance questions, the Dakota toolkit provides an extensible platform for the research and rapid prototyping of customized methods and meta-algorithms
標簽: Optimization and Uncertainty Quantification
上傳時間: 2016-04-08
上傳用戶:huhu123456
This report presents a tutorial of fundamental array processing and beamforming theory relevant to microphone array speech processing. A microphone array consists of multiple microphones placed at different spatial locations. Built upon a knowledge of sound propagation principles, the multiple inputs can be manipulated to enhance or attenuate signals emanating from particular directions. In this way, microphone arrays provide a means of enhancing a desired signal in the presence of corrupting noise sources. Moreover, this enhancement is based purely on knowledge of the source location, and so microphone array techniques are applicable to a wide variety of noise types. Microphone arrays have great potential in practical applications of speech processing, due to their ability to provide both noise robustness and hands-free signal acquisition.
標簽: Microphone array Tutorial Array Signal Processing
上傳時間: 2016-06-12
上傳用戶:halias
This book is focused on designing and developing Representational State Transfer (REST) platforms in Rails. REST is the architectural style of the Web, consisting of a set of constraints that, applied to components, connectors, and data elements, constitute the wider distributed hypermedia system that we know today: the World Wide Web. There are a few good reasons why it makes more sense to build platforms instead of just products or applications. Platforms are like ecosystems interconnecting different applications, services, users, developers, and partners. Platforms foster innovation through the inputs of their direct collaborators. By providing application programming interfaces (APIs) and software development kits (SDKs), platforms are more customer driven.
標簽: Development Building RESTful Rails
上傳時間: 2020-06-06
上傳用戶:shancjb
歐母龍PLC例程PLC控制器源碼255個合集:1600T俄羅斯壓力機.rar200噸壓機程序 omron 的機子C系列的.rar3MK136舊磨床現程序.rar3電機延時控制啟停.rar5V編碼器信號如何接入CP1H高數計數案例.rar6路搶答器源碼.rar902002 OMRON.rarASCII Generic Protocol Macro Object Code.zipASCII Generic Protocol Macro.zipC3電樞異物吸引.rarCalendar Calculation.zipcarbon.rarCompact Flash Memory Write.zipCounter Multiplex.zipcp1h 高速計數觸發中斷注意點.rarcp1h-x40用在非標飲料線上的程序,有注解.rarCP1H與愛默生溫控模塊的通訊程序.rarCP1L and CP1H EasyModbus FB.zipCPM1A編寫的贊揚15T立式注塑機.rarCPM2A Interupt High Speed Counting Sample.zipCPM2A自身時鐘六個時間段觸發程序.rarCQM1 Host Link Master.zipCQM1H 21的例子程序,有溫度壓力等PID控制。.rarCQMaster.swp.zipCS CJ CP NSJ password set.zipCS1 C Mode Hostlink.zipCS1-CJ1 Floating Point to Fixed Point Conversion for HMI.zipcub.rarCX-Programmer Ver.5 Introduction Guide R120-E1-01..zipCX-Programmer Ver.5 Introduction to Function Blocks Guide R121-E1-01.zipC_Mode_Hostlink.zipDeviceNet Explicit Message Example.zipdieban.rarEasy to use Modbus RTU Master for CP1L CP1H CJ1 CJ2 CS1.zipExample of Using Daylight Saving FB's.zipExample Scale Meter Protocol.zipFB Calculate Day Of Week.zipFB Day light savings function block.zipFB Extract Time Date into SecMin Hr Day Mth Yr.zipFB Scale with parameters.zipGKF1250離心機CXP.rargkf1250離心機cxpgkf離心機omron.rarJH21-200程序.rarLED液壓機.rarlogging+ filewrite.ziplpr-des.rarModbus Protocol Macro Object Code.zipModbus Protocol Macro.zipModbus RTU Sample Code CJ1-SCB.rarModbus TCP Client using FB's.zipOmron CS1 Sequencer.zipOMRON E6CP絕對值編碼器使用實例。編碼器為8位格雷碼輸出.rarOmron Modbus Slave Ladder.zipOmron Plc 變頻一帶三例程.rarOMRON PLC編程示范.raromron--MOV傳送指令.raromron-cs1g-h-cpu42日本機的程序.rarOmron_CJ2_to_AB_EIP_Tag_Datalink_Example.rarOMRON接駁臺.rarOMRON控制2伺服.rarOMRON溫度,壓力模擬量輸入程序.rarOMRON照明設備程序.raromron的PLC案例程序.rarOMRON程序舉例.rarOMRON程序舉例2.rarOMRON紙病分析系統-PLC程序(CJ1G).zipomron脈沖輸出到驅動器的程序.rarPCB 沉銅線程序.rarPID溫度控制的PLC程序設計實例.rarPinstamp.zipPLC Clock adjustment with screen.zipPLC錳鋼程序cpm2a.zipPolls and Writes setpoints to E5CK Process Controller - E5CK.swp.zipPRO9連拉.rarProcess states sequence logics.zipQuadrature Input for Standard CPM1A DC inputs.zipRandom Number Generator.zipScaling in CJ1 CS1 PLC's.zipSMS - GSM PLC Communications.zipsony 公司 某機臺控制程序.rarStepNext.cpt.zipSTUP Example.zipTemplate for Step-Step Next Sequence.zipToggle Button.zipTracking product on conveyor.zipTXD-RXD Quickstart Programs.zipTXD-RXD Serial Port Handling.zipUseable timer.zipV600-E5CK.zipV700-V720 RFID Protocol Macro.zipVB與OMRON PLC通訊源碼.rarWoodwood Controler Example Protocol Program.zipYH32-315油壓機程序.rar一個CJ1M的程序.rar一個OMRON程序,帶位置控制模塊.rar一個生產線上潤滑控制的小程序.rar一些簡單的cpm1a程序.rar一控三恒壓供水程序.rar三層提升機歐姆龍CQM1H程序.rar三菱400噸和200號沖床程序.rar上海產自動模切機飛達部程序.zip上海獅印全自動啤機程序.rar東芝壓鑄機梯形圖.rar兩步法吹瓶機.rar鄉林剪臺.rar買書的隨書樣例.rar井研磨邊機.rar交通燈注釋全.rar今機立式注塑機程序.rar伺服電機正反轉控制.rar位置控制(旋轉編碼器與PLC).rar充磁機程序.rar先啟后停 后啟先停 事例.rar沖床程序.rar分揀線主機一個CJ1M的分揀線程序下掛CP1H.rar利慧利樂灌裝機程序.rar刮水器停止位置檢查程序.rar力泰翻胚機程序.rar北人04印刷機程序.rar北人LQD10騎馬裝訂程序.rar半自動吹瓶機的程.rar南京印刷機.zip卡板程式.rar壓制機程序(帶解釋,注釋).rar壓力機控制程序.rar原創液壓機程序帶注釋歐姆龍PLC加信捷文本.rar原點搜索程序.rar雙翻分揀機.rar雙邊機.rar反滲透整套PLC控制.rar臺灣產染色機歐姆龍PLC帶3只IO擴展控制程序.rar臺灣大拉無板.rar啤酒廠酒瓶美容機.rar四川綿陽建豐熱磨工段.rar在用設備程序.rar垂直涂布.rar外端子設計數值.rar大型熱電廠 PLC程序(帶注解).rar大搖動超聲波清洗機.rar大連75密練注釋程序.rar安呼12級.rar富佳扶梯程序.rar對齊度編程!!.rar小車控制程序.rar小車送料”例程.rar廣東鍛壓氣壓沖床程序(80T)有詳細注解.rar廣告牌燈箱.rar微電機刷簧自動組裝程序.rar微粉磚自動送料帶OMRON CQM2A+擴展程序帶注釋.rar意大利進口皮革壓花.rar扎鋼機程序.rar打包機.rar拔蓋機.rar撥碼控制.rar擋磚磨邊機(新1).rar捷豹空壓機控制程序.rar接木機.rar控制程序例子.rar推掛.rar攻絲機2(新).rar料位顯示.rar旋轉門控制程序1.rar無協議.rar無心磨床(OMRON系統,帶機械手有詳細注解).rar無線膠裝機歐姆龍程序.zip日本人編的程序 拋光研磨.rar日本成型磨床控制程序(附注釋)歐姆龍CPM1A.rar板坯定厚.rar樣例,有注釋.rar模擬量試驗.rar歐姆龍CJ1M鉻化機程序帶注釋.rar歐姆龍CP1H例程.rar歐姆龍CPM1A的PLC.rar歐姆龍CPM2AH PLC和歐姆龍NTZ觸摸屏編寫的超聲波清洗機程序..rar歐姆龍CPM2AH Host Link通訊程序(發布源碼).rar
上傳時間: 2021-10-22
上傳用戶:
軟件開發人員必備工具書,,目錄如下Welcome to Software Construction [1]1.1 What Is Software Construction?1.2 Why Is Software Construction Important?1.3 How to Read This Book......7.1 Valid Reasons to Create a Routine7.2 Design at the Routine Level7.3 Good Routine Names7.4 How Long Can a Routine Be?7.5 How to Use Routine Parameters7.6 Special Considerations in the Use of Functions7.7 Macro Routines and Inline RoutinesDefensive Programming [5.6 + new material]8.1 Protecting Your Program From Invalid inputs8.2 Assertions8.3 Error Handling Techniques8.4 Exceptions8.5 Barricade Your Program to Contain the Damage Caused by Errors8.6 Debugging Aids8.7 Determining How Much Defensive Programming to Leave in Production Code8.8 Being Defensive About Defensive ProgrammingThe Pseudocode Programming Process [4+new material]9.1 Summary of Steps in Building Classes and Routines9.2 Pseudocode for Pros9.3 Constructing Routines Using the PPP9.4 Alternatives to the PPP......
上傳時間: 2021-12-08
上傳用戶:20125101110
Agilent 34401A Service Guide.pdfIEC Measurement Category II includes electrical devices connected to mains at an outlet on a branch circuit. Such devices include most small appliances, test equipment, and other devices that plug into a branch outlet or socket. The 34401A may be used to make measurements with the HI and LO inputs connected to mains in such devices, or to the branch outlet itself (up to 300 VAC). However, the 34401A may not be used with its HI and LO inputs connected to mains in permanently installed electrical devices such as the main circuit-breaker panel, sub-panel disconnect boxes, or permanently wired motors. Such devices and circuits are subject to overvoltages that may exceed the protection limits of the 34401A. Note: Voltages above 300 VAC may be measured only in circuits that are isolated from mains. However, transient overvoltages are also present on circuits that are isolated from mains. The Agilent 34401A are designed to safely withstand occasional transient overvoltages up to 2500 Vpk. Do not use this equipment to measure circuits where transient overvoltages could exceed this level. Additional Notices Waste Electrical and Electronic Equipment (WEEE) Directive 2002/96/EC This product complies with the WEEE Directive (2002/96/EC) marking requirement. The affixed product label (see below) indicates that you must not discard this electrical/electronic product in domestic household waste. Product Category: With reference to the equipment types in the WEEE directive Annex 1, this product is classified as a "Monitoring and Control instrumentation" product. Do not dispose in domestic household waste. To return unwanted products, contact your local Agilent office, or see www.agilent.com/environment/product for more information. Agilent 34138A Test Lead Set The Agilent 34401A is compatible with the Agilent 34138A Test Lead Set described below. Test Lead Ratings Test Leads - 1000V, 15A Fine Tip Probe Attachments - 300V, 3A Mini Grabber Attachment - 300V, 3A SMT Grabber Attachments - 300V, 3A Operation The Fine Tip, Mini Grabber, and SMT Grabber attachments plug onto the probe end of the Test Leads. Maintenance If any portion of the Test Lead Set is worn or damaged, do not use. Replace with a new Agilent 3413
標簽: agilent
上傳時間: 2022-02-20
上傳用戶:
電子書-RTL Design Style Guide for Verilog HDL540頁A FF having a fixed input value is generated from the description in the upper portion of Example 2-21. In this case, ’0’ is output when the reset signal is asynchronously input, and ’1’ is output when the START signal rises. Therefore, the FF data input is fixed at the power supply, since the typical value ’1’ is output following the rise of the START signal. When FF input values are fixed, the fixed inputs become untestable and the fault detection rate drops. When implementing a scan design and converting to a scan FF, the scan may not be executed properl not be executed properly, so such descriptions , so such descriptions are not are not recommended. recommended.[1] As in the lower part of Example 2-21, be sure to construct a synchronous type of circuit and ensure that the clock signal is input to the clock pin of the FF. Other than the sample shown in Example 2-21, there are situations where for certain control signals, those that had been switched due to the conditions of an external input will no longer need to be switched, leaving only a FF. If logic exists in a lower level and a fixed value is input from an upper level, the input value of the FF may also end up being fixed as the result of optimization with logic synthesis tools. In a situation like this, while perhaps difficult to completely eliminate, the problem should be avoided as much as possible.
標簽: RTL verilog hdl
上傳時間: 2022-03-21
上傳用戶:canderile
ICN6201/02 is a bridge chip which receives MIPI? DSI inputs and sends LVDS outputs. MIPI? DSI supports up to 4 lanes and each lane operates at 1Gbps maximum; the totally maximum input bandwidth is 4Gbps; and the MIPI defined ULPS(ultra-low-power state) is also supported. ICN6201 decodes MIPI? DSI 18bepp RGB666 and 24bpp RGB888 packets.The LVDS output 18 or 24 bits pixel with 25MHz to 154MHz, by VESA or JEIDA format.ICN6201/02 support video resolution up to FHD (1920x1080) and WUXGA (1920x1200).ICN6201 adopts QFN48 package and ICN6202 adopts QFN40 package
標簽: icn6202
上傳時間: 2022-06-10
上傳用戶:kingwide
This example shows how you can use signal functions in the Visiondebugger to simulate a signal that is coming into one of the analog inputs of the LPC21xx.The Measure example is described in detail in the Getting StartedUser's Guide.The MEASURE example program is available for several targets:Simulator: uVision Simulator for LPC2129MCB2100: Keil MCB2100 evaluation board with ULINK debugger - Application is loaded to internal Flash. - Switch S2 (INT1) is used as GPIO and sampled (jumper positions: J1= off, J7= on) - potentiometer POT1 is sampled as AIN0 (jumper position: J2= on) - serial port COM1 parameters: 9600 baud, no parity, 8-bits, 1 stop bit, flow control noneMCB2130: Keil MCB2130 evaluation board with ULINK debugger - Application is loaded to internal Flash. - Switch S2 (INT1) is used as GPIO and sampled (jumper positions: J1= off, J7= on) - potentiometer POT1 is sampled as AIN1 (jumper position: J2= on) - serial port COM1 parameters: 9600 baud, no parity, 8-bits, 1 stop bit, flow control none
標簽: dac8568
上傳時間: 2022-06-28
上傳用戶:
VIP專區-嵌入式/單片機編程源碼精選合集系列(67)資源包含以下內容:1. 這是一個實用的I2C應用實例.2. Far Memory Support is only available in the PK51 package. If you have an CA51, DK51, or Evaluation.3. 這是一個i2c通信協議的說明書.4. MSC 1210 A/D Conversion for 1 input signals (-2.5V ... +2.5V) inputs pairs AIN0-AIN1 read in an in.5. 該程序是一個描述四角鐵甲蟲機器人調試過程的程序.6. 基于plilips ARM 芯片LPC2200系列,使用ADC模塊的通道0、1進行電壓的測量.7. LPC2200系列ARM芯片的FLASH功能測試,調用IAP服務程序.8. JEN-ZBKIT-A快速使用,Zigbee開發板最佳選擇..9. Jennic5131簡介.開發ZIGBEE的最佳選擇芯片..10. Jennic5121芯片簡介.開發ZIGBEE的最佳選擇..11. 開發zigbee的最佳選擇開發板,由陳工科技提供.開發板介紹..12. zigbee開發的最佳選擇平臺.陳工科技提供的開發板,軟件使用說明.主芯片是使用jennic的SOC zigbee芯片..13. zigbee技術簡要介紹.主要應用于家居智能,工業控制..14. 關于ZIGBEE的一些疑問點的解答.對于ZIGBEE入門非常有用..15. zigbee的一個應用方案.基于Zigbee無線通訊的智能卡設備設計概述.值得參考..16. 用avr mega128讀取spi串行字庫.17. 用AVR Atmega128驅動多串口芯片Tl164C554A的程序.18. readSD2000 c.19. 這是我自己編寫的一個運用了中斷.20. 這是一個用c語言實現一個主機到多個從機進行通信的51源代碼.21. 使用串口下載vxworks映象的方法,在文章中包括了詳細的操作步驟和相應圖示.22. 基于AT91SAM9260的U-boot的源代碼.23. 基于AT91SAM9260的bootloader.24. PIC控制1702 原理圖+源程序.25. AT91SAM9260在WinCE操作系統下的BSP移植代碼(Bin文件).26. uCOSII 在LPC3180上的移植代碼.27. ep9315開發板的原理圖.原廠的作品,很好的參考.28. 自制C51編程器,附原理圖+源程序,支持多種C51芯片燒寫.29. 這是一個五分頻電路設計.30. 10010序列檢測.31. 以AT89C51為控制芯片設計時鐘控制.32. cc2420 zigbee芯片的最新資料20070319.33. cc2430 zigbee芯片的最新資料20070319.34. 詳細的無線鍵盤,鼠標,無線橋 開發文檔.包含電路原理圖,電路板光匯文件.FIREWALL, 驅動程序等.有此文檔,就可以完全直接生產出來無線鍵盤,鼠標,無線橋.整個一套完整的解決方案..35. DSP課程設計,實現FFT算法,對初學者有參考價值.36. 沒有錯誤的ARM9 -S3C2440 開發板原理圖.37. 英文版zigbee協議.38. 學習cpld的朋友注意了.39. 數字競賽搶答器的制作.40. ARM通訊程序,PC機測試 ARM通訊程序,PC機測試.
標簽:
上傳時間: 2013-06-29
上傳用戶:eeworm
