This sample is a simple example on how to perform a glow effect by rendering into an arbitrary size Frame Buffer Object (FBO). The Glow effect is performed on a specific part of the screen and can be done only on specific objects of the scene. You can imagine using such a postprocessing effect in CAD/DCC to emphasize some items from a selection or picking for example.
标签: arbitrary rendering example perform
上传时间: 2014-01-03
上传用户:liuchee
PowerPCB教程简介 欢迎使用 PowerPCB 教程。本教程描述了PADS-PowerPCB 的绝大部分功能 和特点,以及使用的各个过程,这些功能包括: · 基本操作 · 建立元件(Component) · 建立板子边框线(Board outline) · 输入网表(Netlist) · 设置设计规则(Design Rule) ·元件(part)的布局(Placement) · 手工和交互的布线 · SPECCTRA全自动布线器(Route Engine) ·覆铜(Copper Pour) · 建立分隔/混合平面层(Split/mixed Plane) · Microsoft 的目标连接与嵌入(OLE)(Object Linking Embedding) · 可选择的装配选件(Assembly options) · 设计规则检查(Design Rule Check) · 反向标注(Back Annotation) · 绘图输出(Plot Output) 使用本教程后,你可以学到印制电路板设计和制造的许多基本知识。 你不必一次完成整个教程,如果在任何时候退出后,下次直接找到你要进入 的部分,继续学习本教程。 当你完成了本教程的学习后,可以参考在线帮助(On-line Help)以便得到更多 的信息。如果你需要附加的信息内容,你可以与PADS 在各地办事处或代理商取 得联系,以便得到更多的帮助。 欢迎使用PowerPCB进行PCB设计!
标签: PowerPCB PADS-PowerPCB 教程 分
上传时间: 2013-12-12
上传用户:caozhizhi
FDMP the body of the kernel, the Information-Technology Promotion Agency (IPA) adopted by the unexplored themes of Creativity software is one of the "multi-processor system-level development environment for the development of the system" as part of the development Susumu Honda也氏Was responsible.
标签: the Information-Technology Promotion adopted
上传时间: 2013-12-25
上传用户:dengzb84
Murphy 大俠 GPL 的 C++/x86 RTOS, 支持 MMU, 用戶/核心 模式區隔. http://hpc.ee.ntu.edu.tw/~murphy/me/EKernel.html part 1 of 3: kernel
标签: EKernel Murphy murphy RTOS
上传时间: 2013-12-25
上传用户:lo25643
Murphy 大俠 GPL 的 C++/x86 RTOS, 支持 MMU, 用戶/核心 模式區隔. http://hpc.ee.ntu.edu.tw/~murphy/me/EKernel.html part 2 of 3: user mode LIB
标签: EKernel Murphy murphy RTOS
上传时间: 2013-12-23
上传用户:小鹏
Murphy 大俠 GPL 的 C++/x86 RTOS, 支持 MMU, 用戶/核心 模式區隔. http://hpc.ee.ntu.edu.tw/~murphy/me/EKernel.html part 3 of 3: Application Sample
标签: EKernel Murphy murphy RTOS
上传时间: 2014-01-24
上传用户:lunshaomo
Java technology is both a programming language and a platform. The Java programming language originated as part of a research project to develop advanced software for a wide variety of network devices and embedded systems. The goal was to develop a small, reliable, portable, distributed, real-time operating platform. When the project started, C++ was the language of choice. But over time the difficulties encountered with C++ grew to the point where the problems could best be addressed by creating an entirely new language platform. Design and architecture decisions drew from a variety of languages such as Eiffel, SmallTalk, Objective C, and Cedar/Mesa. The result is a language platform that has proven ideal for developing secure, distributed, network-based end-user applications in environments ranging from network-embedded devices to the World-Wide Web and the desktop
标签: programming language Java technology
上传时间: 2014-01-03
上传用户:huangld
FIR Filter Design This chapter treats the design of linear-phase FIR filters. The assignments are divided in two parts, the first part focuses on the design of FIR filters using the window design method while the second part focuses on design
标签: linear-phase assignments FIR chapter
上传时间: 2017-03-20
上传用户:yoleeson
Netcat for NT is the tcp/ip "Swiss Army knife" that never made it into any of the resource kits. It has proved to be an extremely versatile tool on the unix platform. So why should NT always be unix s poor cousin when it comes to tcp/ip testing and exploration? I bet many NT admins out there keep a unix box around to use tools such as Netcat or to test their systems with the unix version of an NT vulnerability exploit. With Netcat for NT part of that feeling disempowerment is over.
上传时间: 2017-04-02
上传用户:onewq
The application note covers the various domains of the FIFO architecture, improving data rate using the multiple buffering scheme, using the part in port I/O, slave FIFO or the GPIF
标签: architecture application improving the
上传时间: 2017-04-03
上传用户:变形金刚