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E-raamat: VHDL for Simulation, Synthesis and Formal Proofs of Hardware

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VHDL for Simulation, Synthesis and Formal Proofs of HardwareSuurem pilt
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The success of VHDL since it has been balloted in 1987 as an IEEE standard may look incomprehensible to the large population of hardware designers, who had never heared of Hardware Description Languages before (for at least 90% of them), as well as to the few hundreds of specialists who had been working on these languages for a long time (25 years for some of them). Until 1988, only a very small subset of designers, in a few large companies, were used to describe their designs using a proprietary HDL, or sometimes a HDL inherited from a University when some software environment happened to be developped around it, allowing usability by third parties. A number of benefits were definitely recognized to this practice, such as functional verification of a specification through simulation, first performance evaluation of a tentative design, and sometimes automatic microprogram generation or even automatic high level synthesis. As there was apparently no market for HDL's, the ECAD vendors did not care about them, start-up companies were seldom able to survive in this area, and large users of proprietary tools were spending more and more people and money just to maintain their internal system.

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Springer Book Archives
Evolutionary Processes in Language, Software, and System Design.- Timing
Constraint Checks in VHDLa comparative study.- Using Formalized Timing
Diagrams in VHDL Simulation.- Switch-Level Models in Multi-Level VHDL
Simulations.- Bi-Directional Switches in VHDL using the 46 Value System.-
Systems Real Time Analysis with VHDL Generated from Graphical SA-VHDL.- Delay
Calculation and Back Annotation in VHDL Addressing the Requirements of ASIC
Design.- A VHDL-Driven Synthesis Environment.- VHDL Specific Issues in High
Level Synthesis.- ASIC Design Using Silicon 1076.- Generating VHDL for
Simulation and Synthesis from a High-Level DSP Design Tool.- Aspects of
Optimization and Accuracy for VHDL Synthesis.- Symbolic Computation of
Hierarchical and Interconnected FSMS.- Formal Semantics of VHDL Timing
Constructs.- Structural Information Model of VHDL.- Formal Verification of
VHDL Descriptions in Boyer-Moore: First Results.- Developing a Formal
Semantic Definition of VHDL.- Approaching System Level Design.- Incremental
DesignApplication of a Software-Based Method for High-Level Hardware Design
with VHDL.- Introducing CASCADE control graphs in VHDL.
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