As a part of my Undergraduate academics projects, I had implemented the following projects:
 

	Simulation And Synthesis of a UART using VHDL.
	(Project Guide:Prof. Padmakumar V.S)

 

	Remote Medical Diagnostic System
	(Project guide Prof. Nandkishor Joshi)

 

 

 

 

 

 

 

Simulation and Synthesis of UART using VHDL:

Period: July 2004 – March 2005 

Location: Vidyalankar Institute of Technology.

Responsibilities: 

• Module leading for Simulating UART Receiver module.

• Planning and scheduling of Design for UART Receiver module.

• Coding, Unit testing and implementing the final Module.

• Coordinating with UART Transmitter team for Integration testing and Synthesis of entire UART module.

• Make smooth transition of knowledge among team members.

 Description of Project:

UART is Universal Asynchronous Receiver Transmitter. It is usually a programmable LSI device having necessary hardware for implementing asynchronous serial communication. Computers and microprocessor-based system often send and receive the data in a parallel format. Frequently, these systems must communicate with external devices that send and/or receive serial data. An interfacing device used to accomplish these conversions is the UART.

 The project involves:

• SIMULATION of UART using VHDL, which is a barebones type of test to see if the basic logic works according to design and concept.

• SYNTHESIS of UART that allows timing factors and other influences of actual field programmable gate array (FPGA) devices to effect the simulation thereby doing a more thorough type of check before the design are committed to the FPGA.

Software Used: 

1) Operating System: MS Windows 2000.

2) Coding: VHDL93.

3) Simulation Tool: ModelSim SE 5.5e.

4) Synthesize Tool: Leonardo Spectrum.

 

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Remote Medical Diagnostic system

This project involved acquisition of body temperature, X-ray (scanned) and pulse rate of a patient using a hardware toolkit. Data acquisition was done using a simple IC741 system. This data was packed in a predefined format and then transmitted via internet to the specialist who views the patient’s details on his Desktop. The Desktop programming was done with Lab Windows CVI (C for Virtual Instrumentation) software available from National Instruments. ECG packets could be sent to the physician anywhere and at any place in the world via internet. Lab Windows CVI is a very effective package giving instrumentation a visual look with all time powerful C Language

Software Used
                       
1. Operating System : MS Windows 98.

2. Languages : Visual C.

3. Special Software : National Instruments Lab Windows CVI.

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