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A practical guide to Verilog-A = mas...

Mijalkovic, S.

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A practical guide to Verilog-A = mastering the modeling language for analog devices, circuits, and systems /

Record Type:	Electronic resources : Monograph/item
Title/Author:	A practical guide to Verilog-A/ by Slobodan Mijalković.
Reminder of title:	mastering the modeling language for analog devices, circuits, and systems /
Author:	Mijalkovic, S.
Published:	Berkeley, CA :Apress : : 2022.,
Description:	xxxv, 319 p. :ill., digital ;24 cm.
[NT 15003449]:	Chapter : Lexical Basis -- Chapter 2: Basic Types and Expressions -- Chapter 3: Nets Discipline Types -- Chapter 4: Modules and Ports -- Chapter 5: Parameters -- Chapter 6: Paramsets -- Chapter 7: Procedural Programming -- Chapter 8: Branches -- Chapter 9: Derivative and Integral Operators -- Chapter 10: Built-In Math Functions -- Chapter 11: User-Defined Functions -- Chapter 12: Look-Up Tables -- Chapter 13: Small Signal Functions -- Chapter 14: Filters -- Chapter 15: Events -- Chapter 16: Run Time Support -- Chapter 17: Input and Output -- Chapter 18: Generative Programming -- Chapter 19: Attributes -- Chapter 20: Compiler Directives -- Appendix A.
Contained By:	Springer Nature eBook
Subject:	Analog electronic systems. -
Online resource:	https://doi.org/10.1007/978-1-4842-6351-8
ISBN:	9781484263518

A practical guide to Verilog-A = mastering the modeling language for analog devices, circuits, and systems /
Mijalkovic, S.

A practical guide to Verilog-Amastering the modeling language for analog devices, circuits, and systems /[electronic resource] :by Slobodan Mijalković. - Berkeley, CA :Apress :2022. - xxxv, 319 p. :ill., digital ;24 cm.

Chapter : Lexical Basis -- Chapter 2: Basic Types and Expressions -- Chapter 3: Nets Discipline Types -- Chapter 4: Modules and Ports -- Chapter 5: Parameters -- Chapter 6: Paramsets -- Chapter 7: Procedural Programming -- Chapter 8: Branches -- Chapter 9: Derivative and Integral Operators -- Chapter 10: Built-In Math Functions -- Chapter 11: User-Defined Functions -- Chapter 12: Look-Up Tables -- Chapter 13: Small Signal Functions -- Chapter 14: Filters -- Chapter 15: Events -- Chapter 16: Run Time Support -- Chapter 17: Input and Output -- Chapter 18: Generative Programming -- Chapter 19: Attributes -- Chapter 20: Compiler Directives -- Appendix A.

Discover how Verilog-A is particularly designed to describe behavior and connectivity of circuits and system components for analog SPICE-class simulators, or for continuous time (SPICE-based) kernels in Verilog-AMS simulators. With continuous updates since it's release 30 years ago, this practical guide provides a comprehensive foundation and understanding to the modeling language in its most recent standard formulation. With the introduction of language extensions to support compact device modeling, the Verilog-A has become today de facto standard language in the electronics industry for coding compact models of active and passive semiconductor devices. You'll gain an in depth look at how analog circuit simulators work, solving system equations, modeling of components from other physical domains, and modeling the same physical circuits and systems at various levels of detail and at different levels of abstraction. All industry standard compact models released by Si2 Compact Model Coalition (CMC) as well as compact models of emerging nano-electronics devices released by New Era Electronic Devices and Systems (NEEDS) initiative are coded in Verilog-A. This book prepares you for the current trends in the neuromorphic computing, hardware customization for artificial intelligence applications as well as circuit design for internet of things (IOT) will only increase the need for analog simulation modeling and make Verilog-A even more important as a multi-domain component-oriented modeling language. Let A Practical Guide to Verilog-A be the initial step in learning the extended mixed-signal Verilog-AMS hardware description language. You will: Review the hardware description and modeling language Verilog-A in its most recent standard formulation. Code new compact models of active and passive semiconductor devices as well as new models for emerging circuit components from different physical disciplines. Extend the application of SPICE-like circuit simulators to non-electronics field (neuromorphic, thermal, mechanical, etc systems) Apply the initial steps towards the extended mixed-signal Verilog-AMS hardware description language.

ISBN: 9781484263518

Standard No.: 10.1007/978-1-4842-6351-8doiSubjects--Topical Terms:

649513
Analog electronic systems.

LC Class. No.: TK7867 / .M55 2022

Dewey Class. No.: 621.395

A practical guide to Verilog-A = mastering the modeling language for analog devices, circuits, and systems /
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245 1 2 $a A practical guide to Verilog-A $h [electronic resource] : $b mastering the modeling language for analog devices, circuits, and systems / $c by Slobodan Mijalković.
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505 0 $a Chapter : Lexical Basis -- Chapter 2: Basic Types and Expressions -- Chapter 3: Nets Discipline Types -- Chapter 4: Modules and Ports -- Chapter 5: Parameters -- Chapter 6: Paramsets -- Chapter 7: Procedural Programming -- Chapter 8: Branches -- Chapter 9: Derivative and Integral Operators -- Chapter 10: Built-In Math Functions -- Chapter 11: User-Defined Functions -- Chapter 12: Look-Up Tables -- Chapter 13: Small Signal Functions -- Chapter 14: Filters -- Chapter 15: Events -- Chapter 16: Run Time Support -- Chapter 17: Input and Output -- Chapter 18: Generative Programming -- Chapter 19: Attributes -- Chapter 20: Compiler Directives -- Appendix A.
520 $a Discover how Verilog-A is particularly designed to describe behavior and connectivity of circuits and system components for analog SPICE-class simulators, or for continuous time (SPICE-based) kernels in Verilog-AMS simulators. With continuous updates since it's release 30 years ago, this practical guide provides a comprehensive foundation and understanding to the modeling language in its most recent standard formulation. With the introduction of language extensions to support compact device modeling, the Verilog-A has become today de facto standard language in the electronics industry for coding compact models of active and passive semiconductor devices. You'll gain an in depth look at how analog circuit simulators work, solving system equations, modeling of components from other physical domains, and modeling the same physical circuits and systems at various levels of detail and at different levels of abstraction. All industry standard compact models released by Si2 Compact Model Coalition (CMC) as well as compact models of emerging nano-electronics devices released by New Era Electronic Devices and Systems (NEEDS) initiative are coded in Verilog-A. This book prepares you for the current trends in the neuromorphic computing, hardware customization for artificial intelligence applications as well as circuit design for internet of things (IOT) will only increase the need for analog simulation modeling and make Verilog-A even more important as a multi-domain component-oriented modeling language. Let A Practical Guide to Verilog-A be the initial step in learning the extended mixed-signal Verilog-AMS hardware description language. You will: Review the hardware description and modeling language Verilog-A in its most recent standard formulation. Code new compact models of active and passive semiconductor devices as well as new models for emerging circuit components from different physical disciplines. Extend the application of SPICE-like circuit simulators to non-electronics field (neuromorphic, thermal, mechanical, etc systems) Apply the initial steps towards the extended mixed-signal Verilog-AMS hardware description language.
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