Assembler Language Programming for IBM and IBM Compatible Computers Formerly 370/360 Assembler Language Programming
Author: Nancy B Stern
Presents a comprehensive business-oriented approach to teaching assembly language programming on IBM and IBM-compatible computers, geared towards freshman and sophomores majoring in data processing or computer science. Rich in student aids including self-evaluation quizzes, chapter objectives, exercises, and chapter summaries.
Interesting textbook: Optimal Muscle Performance and Recovery or My House Is Killing Me
Digital Design and Verilog HDL Fundamentals
Author: Joseph Cavanagh
Comprehensive and self contained, this tutorial covers the design of a plethora of combinational and sequential logic circuits using conventional logic design and Verilog HDL. Number systems and number representations are presented along with various binary codes. Several advanced topics are covered, including functional decomposition and iterative networks. A variety of examples are provided for combinational and sequential logic, computer arithmetic, and advanced topics such as Hamming code error correction. Constructs supported by Verilog are described in detail. All designs are continued to completion. Each chapter includes numerous design issues of varying complexity to be resolved by the reader.
Table of Contents:
Ch. 1 Number Systems, Number Representations, and Codes 1
Ch. 2 Minimization of Switching Functions 83
Ch. 3 Combinational Logic 137
Ch. 4 Combinational Logic Design Using Verilog HDL 231
Ch. 5 Computer Arithmetic 425
Ch. 6 Computer Arithmetic Design Using Verilog HDL 503
Ch. 7 Sequential Logic 565
Ch. 8 Sequential Logic Design Using Verilog HDL 739
Ch. 9 Programmable Logic Devices 821
Ch. 10 Digital and Analog Conversion 869
Ch. 11 Magnetic Recording Fundamentals 899
Ch. 12 Additional Topics in Digital Design 921
App. A Event Queue 1013
App. B Verilog Project Procedure 1029
App. C Answers to Select Problems 1031
Index 1135
No comments:
Post a Comment