Principles of digital design /
Gajski, Daniel D.
Principles of digital design / Daniel D. Gajski. - xv, 447 pages : illustrations (some color) ; 24 cm
Includes bibliographical references and index.
1.Introduction -- Design representation -- Levels of abstraction -- Design process -- CAD tools -- Typical design process -- Road map – 2. Data Types and Representations -- Positional number systems -- Octal and hexadecimal numbers -- Number system conversions -- Addition and subtraction of binary numbers -- Representation of negative numbers -- Two's-complement addition and subtraction -- Binary ultiplication -- Binary division -- Floating-point number representation -- Binary codes for decimal numbers -- Character codes -- Codes for error detection and correction -- Hamming codes – 3. Boolean Algebra and Logic Design -- Algebraic properties -- Axiomatic definition of boolean algebra -- Basic theorems of boolean algebra -- Boolean functions -- Canonical forms -- Standard forms -- Digital logic gates -- Extension to multiple inputs and multiple operators -- Gate implementations -- VLSI technology – 4. Simplification of Boolean Functions -- The map representation -- The map method of simplification -- Don't-care conditions -- The tabulation method -- Technology mapping for gate arrays -- Technology mapping for custom libraries -- Hazard-free design – 5. Combinatorial Components -- Carry-ripple adders -- Carry-look-ahead adders -- Adders/subtractors -- Logic unit -- Arithmetic-Logic Unit -- Decoders -- Selectors -- Buses -- Priority encoders -- Magnitude comparators -- Shifters and rotators -- Read-Only memories -- Programmable logic arrays – 6. Sequential Logic -- SR-latch -- Gated SR-latch -- Gated D-latch -- Flip-flops -- Flip-flop types -- Analysis of sequential logic -- Finite-state-machine model -- Synthesis of sequential logic -- FSM model capture -- State minimization -- State encoding -- Choice of memory elements -- Optimization and timing – 7. Storage Components -- Registers -- Shift registers -- Counters -- BCD counter -- Asynchronous counter -- Register files -- Random-access memories (RAMs) -- Push-down stacks -- Firs- in-first-out queue -- Simple datapaths -- General datapaths -- Control unit design – 8. Register-Transfer Design -- Design model -- FSMD definition -- Algorithmic-state-machine charts -- Synthesis from ASM charts -- Register sharing (variable merging) -- Functional unit sharing (operator sharing) -- Bus sharing (connection merging) -- Register merging -- Chaining and multicycling -- Functional unit pipelining -- ASM pipelining -- Control- pipelining -- Scheduling – 9.Processor Design -- Instruction sets -- Addressing modes -- Processor design -- Instruction set design -- Processor design -- Reduced instruction set -- RISC Design -- Data forwarding -- Branch prediction.
0133011445
96001339
Integrated circuits--Design--Data processing.
Logic design--Data processing.
Computer-aided design.
621.395 / G.D.P.
Principles of digital design / Daniel D. Gajski. - xv, 447 pages : illustrations (some color) ; 24 cm
Includes bibliographical references and index.
1.Introduction -- Design representation -- Levels of abstraction -- Design process -- CAD tools -- Typical design process -- Road map – 2. Data Types and Representations -- Positional number systems -- Octal and hexadecimal numbers -- Number system conversions -- Addition and subtraction of binary numbers -- Representation of negative numbers -- Two's-complement addition and subtraction -- Binary ultiplication -- Binary division -- Floating-point number representation -- Binary codes for decimal numbers -- Character codes -- Codes for error detection and correction -- Hamming codes – 3. Boolean Algebra and Logic Design -- Algebraic properties -- Axiomatic definition of boolean algebra -- Basic theorems of boolean algebra -- Boolean functions -- Canonical forms -- Standard forms -- Digital logic gates -- Extension to multiple inputs and multiple operators -- Gate implementations -- VLSI technology – 4. Simplification of Boolean Functions -- The map representation -- The map method of simplification -- Don't-care conditions -- The tabulation method -- Technology mapping for gate arrays -- Technology mapping for custom libraries -- Hazard-free design – 5. Combinatorial Components -- Carry-ripple adders -- Carry-look-ahead adders -- Adders/subtractors -- Logic unit -- Arithmetic-Logic Unit -- Decoders -- Selectors -- Buses -- Priority encoders -- Magnitude comparators -- Shifters and rotators -- Read-Only memories -- Programmable logic arrays – 6. Sequential Logic -- SR-latch -- Gated SR-latch -- Gated D-latch -- Flip-flops -- Flip-flop types -- Analysis of sequential logic -- Finite-state-machine model -- Synthesis of sequential logic -- FSM model capture -- State minimization -- State encoding -- Choice of memory elements -- Optimization and timing – 7. Storage Components -- Registers -- Shift registers -- Counters -- BCD counter -- Asynchronous counter -- Register files -- Random-access memories (RAMs) -- Push-down stacks -- Firs- in-first-out queue -- Simple datapaths -- General datapaths -- Control unit design – 8. Register-Transfer Design -- Design model -- FSMD definition -- Algorithmic-state-machine charts -- Synthesis from ASM charts -- Register sharing (variable merging) -- Functional unit sharing (operator sharing) -- Bus sharing (connection merging) -- Register merging -- Chaining and multicycling -- Functional unit pipelining -- ASM pipelining -- Control- pipelining -- Scheduling – 9.Processor Design -- Instruction sets -- Addressing modes -- Processor design -- Instruction set design -- Processor design -- Reduced instruction set -- RISC Design -- Data forwarding -- Branch prediction.
0133011445
96001339
Integrated circuits--Design--Data processing.
Logic design--Data processing.
Computer-aided design.
621.395 / G.D.P.