A Semi-custom based 8-bit 8051 compatible microcontroller core

It is an implementation of an existing 8051 microcontroller core that had been modified to have a pipelined Verilog core design. The semi-custom based microcontroller core was developed to take the Integrated Circuits studies of De La Salle University farther by exploring the possibility of designin...

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Main Authors: Arce, Ryan James S.M., Bautista, John Cedric D., Medalla, Kevin Thomas T., Sule, Danisha Khrizten S., Uy, Rheggy C.
Format: text
Language:English
Published: Animo Repository 2012
Online Access:https://animorepository.dlsu.edu.ph/etd_bachelors/14827
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Institution: De La Salle University
Language: English
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spelling oai:animorepository.dlsu.edu.ph:etd_bachelors-154692021-11-24T06:49:35Z A Semi-custom based 8-bit 8051 compatible microcontroller core Arce, Ryan James S.M. Bautista, John Cedric D. Medalla, Kevin Thomas T. Sule, Danisha Khrizten S. Uy, Rheggy C. It is an implementation of an existing 8051 microcontroller core that had been modified to have a pipelined Verilog core design. The semi-custom based microcontroller core was developed to take the Integrated Circuits studies of De La Salle University farther by exploring the possibility of designing using popular architectures that are used not just for education purposes but also for innovation. In this thesis, we develop a working core which consists of modified controller, Arithmetic Logic Unit (ALU) and decoder from the existing 8051 architecture and of our own Program Counter, Parallel in/Parallel Out Register, multiplexer and generated memory blocks from Xilinx IPCore generator. With the combination of the modified blocks, generated memory components and our own modules, we implemented and synthesized the design into a standard core library using Synopsys. We also presented the testing, simulation and static timing analysis to demonstrate that the microcontroller core design performance. In addition, Synopsys is the main tool used that provided the synthesis, extraction of netlis and the IC layout of the 8051 microcontroller core. However, we have observed that the extracted netlist from it contains a large number of pages thus cannot be used for reverse simulation. As a result, this project shows that the development of such designs is helpful in the study of Integrated Circuits as well as the familiarity of the program used in the industry such as the Synopsys tools. 2012-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/etd_bachelors/14827 Bachelor's Theses English Animo Repository
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
language English
description It is an implementation of an existing 8051 microcontroller core that had been modified to have a pipelined Verilog core design. The semi-custom based microcontroller core was developed to take the Integrated Circuits studies of De La Salle University farther by exploring the possibility of designing using popular architectures that are used not just for education purposes but also for innovation. In this thesis, we develop a working core which consists of modified controller, Arithmetic Logic Unit (ALU) and decoder from the existing 8051 architecture and of our own Program Counter, Parallel in/Parallel Out Register, multiplexer and generated memory blocks from Xilinx IPCore generator. With the combination of the modified blocks, generated memory components and our own modules, we implemented and synthesized the design into a standard core library using Synopsys. We also presented the testing, simulation and static timing analysis to demonstrate that the microcontroller core design performance. In addition, Synopsys is the main tool used that provided the synthesis, extraction of netlis and the IC layout of the 8051 microcontroller core. However, we have observed that the extracted netlist from it contains a large number of pages thus cannot be used for reverse simulation. As a result, this project shows that the development of such designs is helpful in the study of Integrated Circuits as well as the familiarity of the program used in the industry such as the Synopsys tools.
format text
author Arce, Ryan James S.M.
Bautista, John Cedric D.
Medalla, Kevin Thomas T.
Sule, Danisha Khrizten S.
Uy, Rheggy C.
spellingShingle Arce, Ryan James S.M.
Bautista, John Cedric D.
Medalla, Kevin Thomas T.
Sule, Danisha Khrizten S.
Uy, Rheggy C.
A Semi-custom based 8-bit 8051 compatible microcontroller core
author_facet Arce, Ryan James S.M.
Bautista, John Cedric D.
Medalla, Kevin Thomas T.
Sule, Danisha Khrizten S.
Uy, Rheggy C.
author_sort Arce, Ryan James S.M.
title A Semi-custom based 8-bit 8051 compatible microcontroller core
title_short A Semi-custom based 8-bit 8051 compatible microcontroller core
title_full A Semi-custom based 8-bit 8051 compatible microcontroller core
title_fullStr A Semi-custom based 8-bit 8051 compatible microcontroller core
title_full_unstemmed A Semi-custom based 8-bit 8051 compatible microcontroller core
title_sort semi-custom based 8-bit 8051 compatible microcontroller core
publisher Animo Repository
publishDate 2012
url https://animorepository.dlsu.edu.ph/etd_bachelors/14827
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