GNU_Radio
GNU radio is a free/open-source software toolkit for and the content is controlled by a handful of organizations. Cell
building software radios, in which software defines the phones are a great convenience, but the features your phone
transmitted waveforms and demodulates the received supports are determined by the operator s interests, not yours.
waveforms. Software radio is the technique of getting code A centralized system limits the rate of innovation. Instead of
as close to the antenna as possible. It turns radio hardware cell phones being second-class citizens, usable only if
problems into software problems.
Introduction to I/O Kit Device Driver Design Guidelines
Chapter 1 The libkern C++ Runtime
Chapter 2 libkern Collection and Container Classes
Chapter 3 The IOService API
Chapter 4 Making hardware Accessible to Applications
Chapter 5 Kernel-User Notification
Chapter 6 Displaying Localized Information About Drivers
Chapter 7 Debugging Drivers
Chapter 8 Testing and Deploying Drivers
Chapter 9 Developing a Device Driver to Run on an Intel-Based Macintosh
軟件功能:32位圖形界面程序,可提供PG8139.EXE(DOS版)所具有的一切功能。 軟件亮點:對“8139網卡改制硬盤還原卡”的所有硬件參數改寫,通過點擊鼠標數次即可完成!-software functions : 32 graphics interface procedures, available PG8139.EXE (DOS version) have all functions. Software Spotlight : "8139 NIC restructuring disk reduction cards" all hardware parameters changed. click through several can be accomplished
ieee754的標準,原英文版的!Twenty years ago anarchy threatened floating-point arithmetic. Over a dozen commercially significant arithmetics
boasted diverse wordsizes, precisions, rounding procedures and over/underflow behaviors, and more were in the
works. “Portable” software intended to reconcile that numerical diversity had become unbearably costly to
develop.
Thirteen years ago, when IEEE 754 became official, major microprocessor manufacturers had already adopted it
despite the challenge it posed to implementors. With unprecedented altruism, hardware designers had risen to its
challenge in the belief that they would ease and encourage a vast burgeoning of numerical software. They did
succeed to a considerable extent. Anyway, rounding anomalies that preoccupied all of us in the 1970s afflict only
CRAY X-MPs — J90s now.
A programmable digital signal processor (PDSP) is a special-purpose microprocessor
with specialized architecture and instruction set for implementing DSP
algorithms. Typical architectural features include multiple memory partitions (onchip,
off-chip, data memory, program memory, etc.), multiple (generally pipelined)
arithmetic and logic units (ALUs), nonuniform register sets, and extensive
hardware numeric support [1,2]. Single-chip PDSPs have become increasingly
popular for real-time DSP applications [3,4].
C++ is considered the most widely used and powerful object-oriented programming language in industry today. This book is for who are interested in learning and exploring C++ programming where programs are developed to interface with real world devices. Learning C++ for interact with various hardware devices and how to interface a computer to physical devices. Anyone who is simply interested in programming and interfacing a computer to perform real activities.
This is the second part of that lab manual to teach you how to make real-time programme and how to do trouble-shooting
with detailed hardward and software configuration, written by the MFCF hardware Design Lab of Waterloo University.
This book is for someone who wants to quickly master the basics of how to install, run, and
maintain Linux on an Intel-based personal computer. All of the tools you need are included.
Your computer should have a monitor, or display, keyboard, mouse, hard drive, floppy drive,
and CD-ROM drive. Although you can jump right in and install Linux onto your hard drive,
you should have some technical information about your computer and its hardware on hand
before you start.
The use of FPGAs for cryptographic applications is highly attractive for a variety of reasons but at the same time there are many open issues related to the general security of FPGAs. This contribution attempts to provide a state-of-the-art description of this topic. First, the advantages of reconfigurable hardware for cryptographic applications are discussed from a systems perspective. Second, potential security problems of FPGAs are described in detail, followed by a proposal of a some countermeasure. Third, a list of open research problems is provided. Even though there have been many contributions dealing with the algorithmic
aspects of cryptographic schemes implemented on FPGAs, this contribution appears to be the first comprehensive treatment of system and security aspects.
