The Verilog PLI Handbook [electronic resource] : A User’s Guide and Comprehensive Reference on the Verilog Programming Language Interface /

The Verilog PLI Handbook [electronic resource] : A User’s Guide and Comprehensive Reference on the Verilog Programming Language Interface /

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by Maq Mannan President and CEO, DSM Technologies Chairman of the IEEE 1364 Verilog Standards Group Past Chairman of Open Verilog International One of the major strengths of the Verilog language is the Programming Language Interface (PLI), which allows users and Verilog application developers to infinitely extend the capabilities of the Verilog language and the Verilog simulator. In fact, the overwhelming success of the Verilog language can be partly attributed to the exi- ence of its PLI. Using the PLI, add-on products, such as graphical waveform displays or pre and post simulation analysis tools, can be easily developed. These products can then be used with any Verilog simulator that supports the Verilog PLI. This ability to create thi- party add-on products for Verilog simulators has created new markets and provided the Verilog user base with multiple sources of software tools. Hardware design engineers can, and should, use the Verilog PLI to customize their Verilog simulation environment. A Company that designs graphics chips, for ex- ple, may wish to see the simulation results of a new design in some custom graphical display. The Verilog PLI makes it possible, and even trivial, to integrate custom so- ware, such as a graphical display program, into a Verilog simulator. The simulation results can then dynamically be displayed in the custom format during simulation. And, if the company uses Verilog simulators from multiple simulator vendors, this integrated graphical display will work with all the simulators.

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Bibliographic Details
Main Authors: Sutherland, Stuart. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Boston, MA : Springer US, 2002
Subjects:Engineering., Computer hardware., Computer-aided engineering., Electrical engineering., Electronic circuits., Circuits and Systems., Computer Hardware., Computer-Aided Engineering (CAD, CAE) and Design., Electrical Engineering.,
Online Access:http://dx.doi.org/10.1007/b116513
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record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Engineering.
Computer hardware.
Computer-aided engineering.
Electrical engineering.
Electronic circuits.
Engineering.
Circuits and Systems.
Computer Hardware.
Computer-Aided Engineering (CAD, CAE) and Design.
Electrical Engineering.
Engineering.
Computer hardware.
Computer-aided engineering.
Electrical engineering.
Electronic circuits.
Engineering.
Circuits and Systems.
Computer Hardware.
Computer-Aided Engineering (CAD, CAE) and Design.
Electrical Engineering.
spellingShingle Engineering.
Computer hardware.
Computer-aided engineering.
Electrical engineering.
Electronic circuits.
Engineering.
Circuits and Systems.
Computer Hardware.
Computer-Aided Engineering (CAD, CAE) and Design.
Electrical Engineering.
Engineering.
Computer hardware.
Computer-aided engineering.
Electrical engineering.
Electronic circuits.
Engineering.
Circuits and Systems.
Computer Hardware.
Computer-Aided Engineering (CAD, CAE) and Design.
Electrical Engineering.
Sutherland, Stuart. author.
SpringerLink (Online service)
The Verilog PLI Handbook [electronic resource] : A User’s Guide and Comprehensive Reference on the Verilog Programming Language Interface /
description by Maq Mannan President and CEO, DSM Technologies Chairman of the IEEE 1364 Verilog Standards Group Past Chairman of Open Verilog International One of the major strengths of the Verilog language is the Programming Language Interface (PLI), which allows users and Verilog application developers to infinitely extend the capabilities of the Verilog language and the Verilog simulator. In fact, the overwhelming success of the Verilog language can be partly attributed to the exi- ence of its PLI. Using the PLI, add-on products, such as graphical waveform displays or pre and post simulation analysis tools, can be easily developed. These products can then be used with any Verilog simulator that supports the Verilog PLI. This ability to create thi- party add-on products for Verilog simulators has created new markets and provided the Verilog user base with multiple sources of software tools. Hardware design engineers can, and should, use the Verilog PLI to customize their Verilog simulation environment. A Company that designs graphics chips, for ex- ple, may wish to see the simulation results of a new design in some custom graphical display. The Verilog PLI makes it possible, and even trivial, to integrate custom so- ware, such as a graphical display program, into a Verilog simulator. The simulation results can then dynamically be displayed in the custom format during simulation. And, if the company uses Verilog simulators from multiple simulator vendors, this integrated graphical display will work with all the simulators.
format Texto
topic_facet Engineering.
Computer hardware.
Computer-aided engineering.
Electrical engineering.
Electronic circuits.
Engineering.
Circuits and Systems.
Computer Hardware.
Computer-Aided Engineering (CAD, CAE) and Design.
Electrical Engineering.
author Sutherland, Stuart. author.
SpringerLink (Online service)
author_facet Sutherland, Stuart. author.
SpringerLink (Online service)
author_sort Sutherland, Stuart. author.
title The Verilog PLI Handbook [electronic resource] : A User’s Guide and Comprehensive Reference on the Verilog Programming Language Interface /
title_short The Verilog PLI Handbook [electronic resource] : A User’s Guide and Comprehensive Reference on the Verilog Programming Language Interface /
title_full The Verilog PLI Handbook [electronic resource] : A User’s Guide and Comprehensive Reference on the Verilog Programming Language Interface /
title_fullStr The Verilog PLI Handbook [electronic resource] : A User’s Guide and Comprehensive Reference on the Verilog Programming Language Interface /
title_full_unstemmed The Verilog PLI Handbook [electronic resource] : A User’s Guide and Comprehensive Reference on the Verilog Programming Language Interface /
title_sort verilog pli handbook [electronic resource] : a user’s guide and comprehensive reference on the verilog programming language interface /
publisher Boston, MA : Springer US,
publishDate 2002
url http://dx.doi.org/10.1007/b116513
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spelling KOHA-OAI-TEST:2024722018-07-30T23:30:18ZThe Verilog PLI Handbook [electronic resource] : A User’s Guide and Comprehensive Reference on the Verilog Programming Language Interface / Sutherland, Stuart. author. SpringerLink (Online service) textBoston, MA : Springer US,2002.engby Maq Mannan President and CEO, DSM Technologies Chairman of the IEEE 1364 Verilog Standards Group Past Chairman of Open Verilog International One of the major strengths of the Verilog language is the Programming Language Interface (PLI), which allows users and Verilog application developers to infinitely extend the capabilities of the Verilog language and the Verilog simulator. In fact, the overwhelming success of the Verilog language can be partly attributed to the exi- ence of its PLI. Using the PLI, add-on products, such as graphical waveform displays or pre and post simulation analysis tools, can be easily developed. These products can then be used with any Verilog simulator that supports the Verilog PLI. This ability to create thi- party add-on products for Verilog simulators has created new markets and provided the Verilog user base with multiple sources of software tools. Hardware design engineers can, and should, use the Verilog PLI to customize their Verilog simulation environment. A Company that designs graphics chips, for ex- ple, may wish to see the simulation results of a new design in some custom graphical display. The Verilog PLI makes it possible, and even trivial, to integrate custom so- ware, such as a graphical display program, into a Verilog simulator. The simulation results can then dynamically be displayed in the custom format during simulation. And, if the company uses Verilog simulators from multiple simulator vendors, this integrated graphical display will work with all the simulators.The VPI Portion of the Verilog PLI Standard -- Creating PLI Applications Using VPI Routines -- Interfacing VPI Applications to Verilog Simulators -- How to Use the VPI Routines -- Details about the VPI Routine Library -- Reading and Modifying Values Using VPI Routines -- Synchronizing to Simulations Using VPI Callbacks -- The TF/ACC Portion of the Verilog PLI Standard -- Creating PLI Applications Using TF and ACC Routines -- Interfacing TF/ACC Applications to Verilog Simulators -- How to Use the TF Routines -- Reading and Writing Values Using TF Routines -- Synchronizing to Simulations Using Misctf Routines -- Interfacing to C Models Using TF Routines -- How to Use the ACC Routines -- Details on the ACC Routine Library -- Reading and Modifying Values Using ACC Routines -- Using the Value Change Link (VCL) -- Interfacing to C Models Using ACC Routines -- Interfacing to C Models Using VPI Routines.by Maq Mannan President and CEO, DSM Technologies Chairman of the IEEE 1364 Verilog Standards Group Past Chairman of Open Verilog International One of the major strengths of the Verilog language is the Programming Language Interface (PLI), which allows users and Verilog application developers to infinitely extend the capabilities of the Verilog language and the Verilog simulator. In fact, the overwhelming success of the Verilog language can be partly attributed to the exi- ence of its PLI. Using the PLI, add-on products, such as graphical waveform displays or pre and post simulation analysis tools, can be easily developed. These products can then be used with any Verilog simulator that supports the Verilog PLI. This ability to create thi- party add-on products for Verilog simulators has created new markets and provided the Verilog user base with multiple sources of software tools. Hardware design engineers can, and should, use the Verilog PLI to customize their Verilog simulation environment. A Company that designs graphics chips, for ex- ple, may wish to see the simulation results of a new design in some custom graphical display. The Verilog PLI makes it possible, and even trivial, to integrate custom so- ware, such as a graphical display program, into a Verilog simulator. The simulation results can then dynamically be displayed in the custom format during simulation. And, if the company uses Verilog simulators from multiple simulator vendors, this integrated graphical display will work with all the simulators.Engineering.Computer hardware.Computer-aided engineering.Electrical engineering.Electronic circuits.Engineering.Circuits and Systems.Computer Hardware.Computer-Aided Engineering (CAD, CAE) and Design.Electrical Engineering.Springer eBookshttp://dx.doi.org/10.1007/b116513URN:ISBN:9780306476655

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