05-2015 - 11-2015 Energy / Materials / Mechanics• The primary objective was to perform functional verification of Mixed Signal Voltage Regulator.
• The verification environment was developed in UNIX by employing concepts of OVM methodology, assertions, functional coverage and System Verilog features. VCS Simulator was used to analyze the waveforms.
• Designed Golden Reference model for Voltage Droop Recovery Block to mimic the logic of RTL, and developed cover groups to measure the functional coverage.
• Developed test cases specific to each feature of the controller and designed reference models for various blocks of IP, moreover, created UPF files and simulated along with the design for low power verification.
Education & training
Texas A&M University
2017 - 2019 College Station, Brazos CountyEnergy / Materials / Mechanics, IT development
Indian Institute Of Technoogy Indore
2012 - 2016 Indore, Madhya Pradesh, India, IndoreEnergy / Materials / MechanicsSERDES on chip networking (2014-15)
May 2014 – Mar 2015
Project description1. Implemented a low power SERDES (Serialization, Deserialization) transreceiver for on chip networking in order to achieve maximum rate of data transmission.
2. Achieved reduction of power and area and attained ease of scaling in building this all-digital SERDES transreceiver.
Edit project Automatic Night Lamp with morning alarm using Microprocessor
Project nameAutomatic Night Lamp with morning alarm using Microprocessor
Sep 2014 – Nov 2014
Project description1. Implemented a hardware which automatically switches the night lamp and alarm using the principles of Microprocessor.
2. The interfacing concepts of the programmable peripheral interface 8255 with 8085 were used, where the alarm was controlled by IC 555 timer and sensor was programed using the concept of LDR.
Edit project Ball-Beam Balancing Control System
Project nameBall-Beam Balancing Control System
Sep 2014 – Nov 2014
Project description1. Designed a feedback control system to stabilize a ball at a specified position on a horizontal beam by modifying the beam angle using PID Controller.
2. Arduino Uno was configured as a PID controller and a control algorithm was implemented to compute the angle of the motor that rotated the beam.
Edit project PID controller design for DC Motor speed control
Project namePID controller design for DC Motor speed control
Oct 2014 – Nov 2014
Project descriptionDesigned a PID controller to maintain the speed of a DC motor at the desired value under various conditions. Depending on the error between the reference speed and the actual speed, the PID controller controls the plant input such that the error is minimized.
Edit project Classification of voiced and unvoiced speech signals using Fourier Transform
Project nameClassification of voiced and unvoiced speech signals using Fourier Transform
Jan 2014 – Apr 2014
Project description1. Designed an application to compare the periodic pulse voiced speech with an aperiodic unvoiced speech signals using Fast Fourier Transform technique
2. Achieved 95% accuracy while comparing the voiced speech and unvoiced speech.
Finite State Machine (FSM) based implementation on working of vending machine
Jan 2014 – Apr 2014
Project description1. Designed a coin operated vending machine which accepts Dimes, Quarters, Nickels and dispenses various products such as coffee, snacks and cold drinks.
2. Improved the serving efficiency and design cost of vending machine by optimizing the FSM to fewer states.
Edit project Obstacle Detecting Line Follower Robot
Project nameObstacle Detecting Line Follower Robot
Feb 2014 – Feb 2014
Project description1. Built an obstacle detecting Line Follower robot, controlled by an Arduino Microcontroller, where the objective is to aid the robot to move on a grid of black lines over a white background and reach its final destination while avoiding the obstacles.
2, Line following sensing is accomplished by an IR Transmitter (LED) and an IR Receiver Diode (Photodiode). A wireless transmitter and receiver was used to transmit the distances to a local machine.