Research Cell: An International Journal of Engineering Sciences

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On the development of Arithmetic Processors


Affiliations
1 College of Engineering, Wayne State University, Detroit, MI, United States
2 Dept of Technical Education, Government of Punjab, India
 

There has always been anincreasing interest in the development of new arithmetic processors. The objective of this paper is to describe the hardware implementation of a pipelined arithmetic processorpublished previously, which can add, subtract,multiply,divide,square and square ischolar_main the binary numbers. The processor described resulted in 46input/output pins.The MOSIS and cadence fabrication technology generally allow up to 40 pins. In this paper hardware implementation of arithmetic processor is taken up so that processor chip can be developed by 40 pins. This hardware implementation will lead to better implementation of handling input, output pins for future processors. The hardware implementation of the modified array has been done using Simulink and tested. It is hoped that this research will lead to the design and VLSI implementation of new arithmetic processor.

Keywords

Arithmetic processor, Digital Chip, MATLAB, Pipeline Array, Simulink.
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  • On the development of Arithmetic Processors

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Authors

Sairam Gowrisankar
College of Engineering, Wayne State University, Detroit, MI, United States
Amjad Almatrood
College of Engineering, Wayne State University, Detroit, MI, United States
Aby K. George
College of Engineering, Wayne State University, Detroit, MI, United States
Harpreet Singh
College of Engineering, Wayne State University, Detroit, MI, United States
Harinder Pal Singh
Dept of Technical Education, Government of Punjab, India

Abstract


There has always been anincreasing interest in the development of new arithmetic processors. The objective of this paper is to describe the hardware implementation of a pipelined arithmetic processorpublished previously, which can add, subtract,multiply,divide,square and square ischolar_main the binary numbers. The processor described resulted in 46input/output pins.The MOSIS and cadence fabrication technology generally allow up to 40 pins. In this paper hardware implementation of arithmetic processor is taken up so that processor chip can be developed by 40 pins. This hardware implementation will lead to better implementation of handling input, output pins for future processors. The hardware implementation of the modified array has been done using Simulink and tested. It is hoped that this research will lead to the design and VLSI implementation of new arithmetic processor.

Keywords


Arithmetic processor, Digital Chip, MATLAB, Pipeline Array, Simulink.