140 127
141 128
142 129
143 130
144 131
145 132
146 133
147 134
148 135
149 136
150 137
151 138
152 139
153 140
154 141
155 142
156 143
157 144
158 145
159 146
160 147
161 148
162 149
163 150
164 151
165 152
166 154
167 155
168 156
169 157
170 158
171 159
172 160
173 161
174 162
175 163
176 164
177 165
178 166
179 167
180 168
181 169
182 170
183 171
184 172
185 173
186 174
187 175
188 176
189 177
190 178
191 179
192 180
193 181
194 182
195 183
196 184
197 185
198 186
199 187
200 188
201 189
202 190
203 191
204 192
205 193
206 194
207 195
208 196
209 197
210 198
211 199
212 200
213 201
214 202
215 203
216 204
217 205
218 206
Preface
Integrated circuits are now growing in importance in every electronic system that needs an efficient VLSI architecture design with low-power consumption, a compress chip area, speed, and operating frequency. The challenge for VLSI system designers is to optimize hardware-software integration for lowering the total cost of product acquisition. So, there is a demand for better technological solutions for advanced VLSI architectures that can be done through hardware description language (HDL). Verilog HDL is one of the programming languages that can provide better solutions in this new era of the VLSI industry. The prefabrication design and analysis of such advanced VLSI architecture can easily be implemented with Verilog HDL using available software tools such as Xilinx and Cadence.
This book mainly deals with the fundamental concepts of digital design along with their design verification with Verilog HDL. It will be a common source of knowledge for beginners as well as research-seeking students working in the area of VLSI design, covering fundamentals of digital design from switch level to FPGA-based implementation using hardware description language (HDL).
The book is summarized in 10 chapters. Chapters 1 and 2 describe the fundamental concepts behind digital circuit design including combinational and sequential circuit design. Chapters 3 to 8 focus on sequential and combinational circuit design using Verilog HDL at different levels of abstraction in Verilog coding. Chapter 9 includes implementation of any logic function using a programmable logic device such as PLD, CPLD, FPGA, etc. Chapter 10 covers a few real-time examples of digital circuit design using Verilog. Chapter 11 focuses on System Verilog, distinct features, computing Verilog and System Verilog with design example.
About the Authors
Dr. Suman Lata Tripathi completed her PhD in the area of microelectronics and VLSI from Motilal Nehru National Institute of Technology, Allahabad. She obtained her M.Tech in Electronics Engineering from Uttar Pradesh Technical University, Lucknow and B.Tech in Electrical Engineering from Purvanchal University, Jaunpur. She is associated with Lovely Professional University as a Professor with more than 17 years of experience in academics. She has published more than 55 research papers in refereed IEEE, Springer, and IOP science journals and conferences. She has organized several workshops, summer internships, and expert lectures for students. She has worked as a session chair, conference steering committee member, editorial board member, and reviewer in international/national IEEE/Springer Journal and conferences. She received the “Research Excellence Award” in 2019 at Lovely Professional University. She received the best paper at IEEE ICICS-2018. She has edited more than 12 books/1 book series in different areas of electronics