| Titre : |
Digital Logic and computer organization : exercies with solutions |
| Type de document : |
texte imprimé |
| Auteurs : |
Brahim Bessaa, Auteur |
| Année de publication : |
2024 |
| Format : |
16 x 24 |
| ISBN/ISSN/EAN : |
978-9947-34-324-1 |
| Langues : |
Anglais (eng) |
| Catégories : |
004 Informatique. Science et technologie de l'informatique.:004.3 Ordinateur le matériel
|
| Mots-clés : |
algebraic simplification, and canonical forms. |
| Index. décimale : |
004.31 Processeurs (CPU, GPU, architectures)
|
| Résumé : |
he course on “Computer Architecture” is intended for students in the first year of their university journey, particularly those in the field of Computer Science. This course delves into the fundamental operational principles of
computers. It equips students with an in-depth comprehension of the intricate organization of these machines at a low level.
This book, titled ‘Digital Logic and Computer Organization: Exercises with Solutions,' serves as a complementary resource to fortify this comprehension.
Through a diverse array of exercises spanning the chapters of the course, the book reinforces key concepts. It comprises over 120 exercises accompanied
by meticulously crafted solutions.
The content is thoughtfully structured across seven chapters, aligned with the curriculum of the “Computer Architecture” module.
Chapter 1: ‘Number Systems’ encompasses exercises centered around conversions between various number systems, as well as arithmetic operations within B-based systems.
Chapter 2: ‘Data Representation in Computers’ presents exercises that delve
into distinct methodologies for representing numeric (integer and real) as wel as alphanumeric data. Additionally, it addresses codes such as DCB, Gray
and ASCII.
Chapter 3: 'Boolean Algebra and Logic Functions' delves into Boolea Algebra, elucidating topics like function representation through truth table
Karnaugh tables, algebraic simplification, and canonical forms.
Chapter 4: ‘'Combinational Logic Circuits’ offers an array of exercises th explore the representation of logic functions via logic circuits. Furthermot it tackles common combinational circuits like Decoders and Multiplexers. |
Digital Logic and computer organization : exercies with solutions [texte imprimé] / Brahim Bessaa, Auteur . - 2024 . - ; 16 x 24. ISBN : 978-9947-34-324-1 Langues : Anglais ( eng)
| Catégories : |
004 Informatique. Science et technologie de l'informatique.:004.3 Ordinateur le matériel
|
| Mots-clés : |
algebraic simplification, and canonical forms. |
| Index. décimale : |
004.31 Processeurs (CPU, GPU, architectures)
|
| Résumé : |
he course on “Computer Architecture” is intended for students in the first year of their university journey, particularly those in the field of Computer Science. This course delves into the fundamental operational principles of
computers. It equips students with an in-depth comprehension of the intricate organization of these machines at a low level.
This book, titled ‘Digital Logic and Computer Organization: Exercises with Solutions,' serves as a complementary resource to fortify this comprehension.
Through a diverse array of exercises spanning the chapters of the course, the book reinforces key concepts. It comprises over 120 exercises accompanied
by meticulously crafted solutions.
The content is thoughtfully structured across seven chapters, aligned with the curriculum of the “Computer Architecture” module.
Chapter 1: ‘Number Systems’ encompasses exercises centered around conversions between various number systems, as well as arithmetic operations within B-based systems.
Chapter 2: ‘Data Representation in Computers’ presents exercises that delve
into distinct methodologies for representing numeric (integer and real) as wel as alphanumeric data. Additionally, it addresses codes such as DCB, Gray
and ASCII.
Chapter 3: 'Boolean Algebra and Logic Functions' delves into Boolea Algebra, elucidating topics like function representation through truth table
Karnaugh tables, algebraic simplification, and canonical forms.
Chapter 4: ‘'Combinational Logic Circuits’ offers an array of exercises th explore the representation of logic functions via logic circuits. Furthermot it tackles common combinational circuits like Decoders and Multiplexers. |
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