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Publication Type technical report
School or College College of Engineering
Department Computing, School of
Creator Kudva, Prabhakar N.
Title A framework for hardware design analysis and synthesis using VHDL
Date 1993-03
Description An approach for behavioral analysis and synthesis in a single framework is presented. The main advantage of specifying circuits at an abstract level is that they become amenable to formal analysis. A formalism HOP, which is an extended automaton model to describe behaviors of circuits is introduced. A set of static semantic checks called well-formedness checks is defined on the HOP automata to prevent common design errors in circuits synthesized from the behavior. An interconnection of behavioral descriptions, called a structural description, can be written and analyzed for well formedness. Algorithms for inferring an equivalent behavioral description from a given structural description have been developed. In order to avoid the creation of yet another HDL the HOP automaton has been embedded in a standard HDL, VHDL. Therefore, we have a formal semantic basis that is important in verification for the subset of VHDL denoted by HOP automata Standard VHDL based analysis and synthesis tools can be used. In addition, we have available a semantically correct way of inferring VHDL behavioral descriptions from VHDL structural descriptions. The inferred behavior in VHDL is useful in simulation, in simulation based verification and could be uscd in test generation tools. The above ideas have been implemented in the form of a C | | prototype, experiment have been performed with this prototype on a number of realistic designs, including the pipelined stack, pipelined cache memory system, AMD 2910 microprogram address sequencer and a switch level stack controller. The VHDL support comes from a commercial tool developed by Viewlogic Systems, Inc.
Type Text
Subject VHDL; computer hardware description language
Language eng
Bibliographic Citation Kudva, P. N. (1993). A framework for hardware design analysis and synthesis using VHDL.
Series University of Utah Computer Science Technical Report
Relation is Part of ARPANET
Format Medium application/pdf
Format Extent 74,748,060 bytes
File Name Kudva-A_Framework_For.pdf
Conversion Specifications Original scanned with Kirtas 2400 and saved as 400 ppi uncompressed TIFF. PDF generated by Adobe Acrobat Pro X for CONTENTdm display
ARK ark:/87278/s6wh4r9d
Setname ir_computersa
ID 99265
Reference URL https://collections.lib.utah.edu/ark:/87278/s6wh4r9d

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Title Page 74
Setname ir_computersa
ID 99210
Reference URL https://collections.lib.utah.edu/ark:/87278/s6wh4r9d/99210