Digital Systems and ApplicationsVojin G. Oklobdzija CRC Press, 2017. gada 19. dec. - 992 lappuses New design architectures in computer systems have surpassed industry expectations. Limits, which were once thought of as fundamental, have now been broken. Digital Systems and Applications details these innovations in systems design as well as cutting-edge applications that are emerging to take advantage of the fields increasingly sophisticated capabilities. This book features new chapters on parallelizing iterative heuristics, stream and wireless processors, and lightweight embedded systems. This fundamental text—
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No grāmatas satura
6.–10. rezultāts no 79.
1-49. lappuse
... means that program partitioning will eventually be done only at compilation time, and perhaps more and more at programming time. To. Probe. Further. Multiprocessing has been around for a long time, and so naturally the computer literature ...
... means that program partitioning will eventually be done only at compilation time, and perhaps more and more at programming time. To. Probe. Further. Multiprocessing has been around for a long time, and so naturally the computer literature ...
1-53. lappuse
... loop such as the one below can be translated to one SIMD instruction as is shown. The form A(1:N) means array A indexes 1 to N: called register renaming is used. A logical register address is. Computer Architecture and Design 1-53.
... loop such as the one below can be translated to one SIMD instruction as is shown. The form A(1:N) means array A indexes 1 to N: called register renaming is used. A logical register address is. Computer Architecture and Design 1-53.
1-63. lappuse
... means that no process may dominate system resources. One of the many benefits of this organization is that it makes facilities such as multitasking very easy to implement, because process protection, resource sharing, and a clean ...
... means that no process may dominate system resources. One of the many benefits of this organization is that it makes facilities such as multitasking very easy to implement, because process protection, resource sharing, and a clean ...
1-64. lappuse
... means for Process A Process C Shared by C & D Shared by A & B Process B Shared by B & C Shared by B & C & D Shared by B & D Process D Process A's address space Process B's address space A's page. 1-64 Digital Systems and Applications.
... means for Process A Process C Shared by C & D Shared by A & B Process B Shared by B & C Shared by B & C & D Shared by B & D Process D Process A's address space Process B's address space A's page. 1-64 Digital Systems and Applications.
1-79. lappuse
... means that the arithmetic unit can handle arbitrary bitlengths with the exception of memory limitations. The number of clock cycles per operation depends only on the actual size of the operands. A typical scalable architecture based on ...
... means that the arithmetic unit can handle arbitrary bitlengths with the exception of memory limitations. The number of clock cycles per operation depends only on the actual size of the operands. A typical scalable architecture based on ...
Saturs
1-1 | |
Chapter 2 System Design | 2-1 |
Chapter 3 Architectures for Low Power | 3-1 |
Chapter 4 Performance Evaluation | 4-1 |
Embedded Applications | 4-47 |
Chapter 5 Embedded SystemsonChips | 5-1 |
Chapter 6 Embedded Processor Applications | 6-1 |
Chapter 7 An Overview of SoC Buses | 7-1 |
Chapter 15 Circuits for HighPerformance IO | 15-1 |
Chapter 16 Algorithms and Data Structures in External Memory | 16-1 |
Chapter 17 Parallel IO Systems | 17-1 |
Chapter 18 A Read Channel for Magnetic Recording | 18-1 |
Operating System | 18-113 |
Chapter 19 Distributed Operating Systems | 19-1 |
New Directions in Computing | 19-15 |
A Strategically Programmable System | 20-1 |
Signal Processing | 7-17 |
Chapter 8 Digital Siganl Processing | 8-1 |
Chapter 9 DSP Applications | 9-1 |
Chapter 10 Digital Filter Design | 10-1 |
Chapter 11 Audio Siganl Processing | 11-1 |
Chapter 12 Digital Video Processing | 12-1 |
Chapter 13 LowPower Digital Signal Processing | 13-1 |
Communications and Networks | 13-19 |
Chapter 14 Communications and Computer Networks | 14-1 |
InputOutput | 14-19 |
Chapter 21 Reconfigurable Processors | 21-1 |
Chapter 22 Roles of Software Technology in Intelligent Transportation Systems | 22-1 |
Chapter 23 Media Signal Processing | 23-1 |
Chapter 24 Internet Architectures | 24-1 |
Chapter 25 Microelectronics for Home Entertainment | 25-1 |
Chapter 26 Mobile and Wireless Computing | 26-1 |
Chapter 27 Data Security | 27-1 |
Index | I-1 |
Back cover | I-21 |
Bieži izmantoti vārdi un frāzes
addition algorithm allows applications approach architecture audio bits block branch buffer cache called channel clock communication complexity components core cycle decoder defined delay dependencies described detector devices disk drive effect efficient elements equalizer error example execution fetch field Figure filter frequency function given hardware implementation important increased input instruction interface issue logic loop mapping means measured memory method multiple noise operation optimization output packed parallel performance phase position possible prediction problem processing processor recording reduce referred rename response result sample sequence shift shown in Fig shows signal simple simulator single solution space specific structure subwords techniques threads typical unit
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