Hardware Component Modeling
“Hardware Component Modeling” by Jean-Michel Bergé is a detailed exploration of the VITAL specification, published by Springer US on September 27, 2011. This softcover reprint of the original 1st edition from 1996 spans 134 pages and is presented in English. The book addresses critical issues such as interoperability, backannotation, and high-performance simulation for ASIC libraries in VHDL, providing essential modeling guidelines and pre-defined packages to enhance design efficiency.
Readers will find a comprehensive discussion on the modeling trade-offs and guidelines necessary for developing efficient models within the VITAL framework. The text highlights various modeling styles supported by the VITAL specification, including distributed delay and pin-to-pin delay styles. Additionally, it offers insights into techniques that tool developers can employ to accelerate the simulation of VITAL-based designs, making it a valuable resource for those interested in technology and engineering, particularly in the fields of electronics and circuit design.
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The VITAL specification addresses the issues of interoperability, backannotation and high performance simulation for sign-off quality ASIC libraries in VHDL. VITAL provides modeling guidelines and a set of pre-defined packages (containing pre-defined routines for modeling functionality and timing) to facilitate the acceleration of designs which use cells from a VITAL library. The VITAL Level-I guidelines constrain the modeling capabilities provided by VHDL in order to facilitate higher performance (Figure I). Accumulating “gains” Constrained “flexibility” Higher performance & Increased capacity Benefits Flexibility FujI VHDL 1076 Figure 1: VHDL and VITAL Even within the Level-I guidelines, there are several ways in which a model can be written. In this chapter, we highlight the various modeling trade-offs and provide guidelines which can be used for developing efficient models. We will also discuss the techniques that can be used by tool developers to accelerate the simulation of VIT AL based designs. 2.2. OVERVIEW OF A VITAL LEVEL-l ARCIDTECTURE The VITAL specification is versatile enough to support several modeling styles e.g., distributed delay style, pin-to-pin delay style etc. In general, a VITAL Level-I model can have the structure illustrated in Figure 2.
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