Nithasha M Shastry

LinkedIn: nithasha-m-*****a*** adgo8s@r.postjobfree.com 996-***-**** Bangalore, Karnataka EDUCATION:

BE, Electronics and Communication Engineering: R N S Institute of Technology, Bangalore (2017-2021) GPA: 9.2/10 Pre-University, PCM-Electronics, R N S Pre University, Bangalore (2015-2017) Percent: 94.83 School, Sri Jnanakshi Vidyaniketan, Bangalore (2007-2015) GPA: 10/10 COURSE CERTIFICATIONS

Physical Design, Clock Tree Synthesis, TCL programming (Basics) from Udemy by Kunal Gosh, Labview from VI solutions, Python from 5quare Lab.

TECHNICAL SKILLS

Hardware Description Language and Programming Language: Verilog, C++, Python (Basics) and R (Basics) Backend Concepts: Physical Design, Logic Synthesis, Clock Tree synthesis, Floor plan, Timing Constraints, VLSI tech files. Other skills: UI design, Fundamentals of Machine Learning and Neural Networks, RPA, Embedded C, Cadence tool. INTEREST

VLSI Physical Design, Clock tree Synthesis, STA, Logic Synthesis, UI /UX design, Image Processing, IoT. EXPERIENCE-INTERNSHIP:

1. Entuple Technologies, Bangalore, Karnataka- June-July 2020 (Design Verification using Verilog) 2. Aeronautical Development Agency (ADA), Bangalore, Karnataka – January-February 2020 (Embedded Programming) TECHNICAL PROJECTS:

1. Sign to Speech talking glove for disabled

The flex sensors in the gloves are bent and the threshold value is found, respective words are recorded and the sound is produced based on ASL. This is highly effective communication tool for disabled person. 2. Title: Proposal of Brain computer interfaced sight for visually impaired Description: This prototype can be built for giving microvolt image processed voltage readings so that user can visualize the complete surroundings 3. Number Detection using Artificial Intelligence and LabVIEW Simulation of an 8*8 matrix of pixels where a number is handwritten and the simulation returns a correct value of number entered with the help of its training of samples provided by the team. Objective is to understand numbers of different languages in our own language.

4. Neuron Controlled Quadruped (Presently working – Selected for IICDC 2019 by TI and DST) The quadruped robot has been designed based on inverse kinematic Equations. Trying to control complete working through BCI. 5. Super Resolution of images on FPGA (Final project in process) Spatial Domain analysis of images for improvising the resolution of images. Creating Degradation models and then applying Super Resolution algorithms on Simulink and using Xilinx system generator for implementation of FPGA ACHIEVEMENTS:

Semi-finalist of IICDC 2019 by TI, DST

Runner up in intra college project competition (social category) NCC- A- certificate (A grade)