A note on the digital index
A link in an index entry is displayed as the section title in which that entry appears. Because some sections have multiple index markers, it is not unusual for an entry to have several links to the same section. Clicking on any link will take you directly to the place in the text in which the marker appears.
Symbols
- $, as prefix for hexadecimal values, 2.2.4 The Hexadecimal Numbering System
- 16-bit, 2.4.2 Bit Strings, 3.5 Shifts and Rotates, 6.2.1 8-Bit Data Buses, 6.2.2 16-Bit Data Buses, 6.2.2 16-Bit Data Buses
- data bus, 6.2.1 8-Bit Data Buses
- objects, 2.4.2 Bit Strings
- processor memory, 6.2.2 16-Bit Data Buses
- short packed date format, 3.5 Shifts and Rotates
- 16-state sequencer, 8.7.3.2 The D Flip-Flop
- 32-bit, 3.6 Bit Fields and Packed Data, 4.2.1 Single-Precision Floating-Point Format, 6.2.2 16-Bit Data Buses, 6.2.3 32-Bit Data Buses, 6.2.3 32-Bit Data Buses
- data bus, 6.2.3 32-Bit Data Buses
- floating-point format, single-precision, 4.2.1 Single-Precision Floating-Point Format
- long packed date format, 3.6 Bit Fields and Packed Data
- processor, memory interface, 6.2.2 16-Bit Data Buses
- 3D gaming applications, 2.10 Fixed-Point Representation
- 4-bit, 2.4.2 Bit Strings, 8.7.3.2 The D Flip-Flop, 8.7.3.2 The D Flip-Flop
- counter built from D flip-flops, 8.7.3.2 The D Flip-Flop
- nibbles, 2.4.2 Bit Strings
- 4×4 truth map, 8.6 Simplification of Boolean Functions
- 64-bit, 2.4.2 Bit Strings, 4.2.1 Single-Precision Floating-Point Format, 6.2.3 32-Bit Data Buses, 6.2.3 32-Bit Data Buses, 6.2.4 64-Bit Buses
- buses, 6.2.3 32-Bit Data Buses
- data buses, 6.2.3 32-Bit Data Buses
- floating-point format, double-precision, 4.2.1 Single-Precision Floating-Point Format
- integers, 2.4.2 Bit Strings
- 68000 processor, 6.2.5 Small Accesses on Non-80x86 Processors
- 7-bit strings, 5.2.1.3 Seven-Bit Strings
- 8-bit, 6.2 Physical Organization of Memory, 6.2.1 8-Bit Data Buses
- data bus, 6.2 Physical Organization of Memory
- 8-KB cache, 11.3 Relative Performance of Memory Subsystems
- 80-bit floating-point format, 4.2.3 Extended-Precision Floating-Point Format
- 8042 microcontroller chip, 12.12 The Keyboard
- 80x86, 3.3 Logical Operations on Binary Numbers and Bit Strings, 6.1.2 The Address Bus, 10.4 Encoding 80x86 Instructions, 10.4 Encoding 80x86 Instructions, 10.4 Encoding 80x86 Instructions, 10.4 Encoding 80x86 Instructions, 10.4 Encoding 80x86 Instructions, 10.4.1 Encoding Instruction Operands, 10.4.1 Encoding Instruction Operands
- add opcode, 10.4 Encoding 80x86 Instructions
- addressing capabilities, 6.1.2 The Address Bus
- assembly language bitwise instructions, 3.3 Logical Operations on Binary Numbers and Bit Strings
- instruction encoding, 10.4 Encoding 80x86 Instructions, 10.4.1 Encoding Instruction Operands, 10.4.1 Encoding Instruction Operands
- direction (D) bit in, 10.4.1 Encoding Instruction Operands
- reg field in, 10.4.1 Encoding Instruction Operands
- mod-reg-r/m bytes, 10.4 Encoding 80x86 Instructions
- prefix bytes on, 10.4 Encoding 80x86 Instructions
- 8250 Serial Communications Chip (SCC), 12.14 Serial Ports
- “0” through “9”, seven-segment values for, 8.7.2.2 Seven-Segment LED Decoders
..................Content has been hidden....................
You can't read the all page of ebook, please click here login for view all page.