Computers, Software Engineering, and Digital DevicesCRC Press, 2018. gada 3. okt. - 576 lappuses In two editions spanning more than a decade, The Electrical Engineering Handbook stands as the definitive reference to the multidisciplinary field of electrical engineering. Our knowledge continues to grow, and so does the Handbook. For the third edition, it has expanded into a set of six books carefully focused on a specialized area or field of study. Each book represents a concise yet definitive collection of key concepts, models, and equations in its respective domain, thoughtfully gathered for convenient access. Computers, Software Engineering, and Digital Devices examines digital and logical devices, displays, testing, software, and computers, presenting the fundamental concepts needed to ensure a thorough understanding of each field. It treats the emerging fields of programmable logic, hardware description languages, and parallel computing in detail. Each article includes defining terms, references, and sources of further information. Encompassing the work of the world's foremost experts in their respective specialties, Computers, Software Engineering, and Digital Devices features the latest developments, the broadest scope of coverage, and new material on secure electronic commerce and parallel computing. |
Saturs
1-1 | |
2-1 | |
Chapter 3 Logical Devices | 3-1 |
Chapter 4 Microprocessors | 4-1 |
Chapter 5 Displays | 5-1 |
Chapter 6 Data Acquistion | 6-1 |
Chapter 7 Testing | 7-1 |
Computer Engineering | 7-29 |
Chapter 14 Computer Networks | 14-1 |
Chapter 15 Fault Tolerance | 15-1 |
Chapter 16 Knowledge Engineering | 16-1 |
Chapter 17 Parallel Processors | 17-1 |
Chapter 18 Operating Systems | 18-1 |
Chapter 19 Computer and Communications Security | 19-1 |
Chapter 20 Computer Reliability | 20-1 |
Mathematics Symbols and Physical Constants | 1 |
Chapter 8 Organization | 8-1 |
Chapter 9 Programming | 9-1 |
Chapter 10 Input and Output | 10-1 |
Chapter 11 Secure Electronic Commerce | 10-19 |
Chapter 12 Software Engineering | 12-1 |
Chapter 13 Computer Graphics | 13-1 |
Indexes | 21 |
Author Index | 23 |
Subject Index | S-1 |
Back cover | S-15 |
Citi izdevumi - Skatīt visu
Computers, Software Engineering, and Digital Devices Richard C. Dorf Ierobežota priekšskatīšana - 2018 |
Computers, Software Engineering, and Digital Devices Richard C. Dorf Ierobežota priekšskatīšana - 2018 |
Bieži izmantoti vārdi un frāzes
adder addition algorithms allows applications approach architecture arithmetic binary block called cell circuit clock combinational communication complex components connected consists contains defined dependent determined developed devices disk display electronic elements Engineering error example execution expression failure fault Figure flip-flops function gate given graphics hardware IEEE implementation input instruction integrated interface language layer light lines logic machine magnetic means memory methods module multiple node objects operating system operation optical output parallel pattern performance physical position possible processor pulse record reference relation represented result selected shown in Figure signal single specific standard storage stored structure switching Table techniques track typically unit usually variables voltage York
Populāri fragmenti
5. lappuse - temporary use with SI units," until CIPM makes a further recommendation. However, they should not be introduced where they are not used at present.
1-33. lappuse - If both of the input signals have logic levels of 1 (ie, set = 1, reset = 0), then the S-SEED AND gate is set to its "on" state. For any other input combination, there is no change of state, resulting in AND operation. After the signal beams determine the state of the device, the clock beams are then set high to read out the state of the AND gate. For NAND operation, we simply redefine the logic level as being represented by the power of the <2 output signal relative to the power of the Q output...
14-18. lappuse - IPv6 fixes a number of problems in IPv4, such as the limited number of available IPv4 addresses. It also adds many improvements to IPv4 in areas such as routing and network autoconfiguration. IPv6 is expected to gradually replace IPv4, with the two coexisting for a number of years during a transition period.