Graduate Research Assistant, CSCE department, University of Arkansas
Former Lecturer, Dept. of EEE, Daffodil International University
B.Sc.Engg.(EEE), 2016
Fayetteville, Arkansas 72701
Tangail, Bangladesh
ialrazi@uark.edu
+1 (479) 800 8543
A performance comparison among four different architectures (linear, exponential, sqrt, add-one) ofcarry select adder (CSA) is performed based on area, power, and timing. The adders are designedusing verilog RTL and synthesized using Design Compiler. Synopsys Primetime-PX has been used forpower calculation.
1. Created a Convolutional Neural Network (CNN) based image classifier for the CIFAR-10 dataset.
2. Implemented GRU cell unit by deriving forward and backward propagation equations and comparethe results with Pytorch library cell.
The main objective of this project is to predict the designer next action based on the previous actionsusing LSTM model.
Sequence pair is used for non-slicing floorplan representation and the simulated annealing process isapplied for area optimization. Implemented the algorithms in C++ and demonstrated with PyQt GUI.
1. Python-like interpreter: coded in C having basic functionalities like data type handling, list structure handling, addition, subtraction, multiplication, and division.
2. Mastermind game: designed and demonstrated using RIBS simulator and coded in C.
3. Arduino song composer: coded in Arduino platform, which can be used for loading, playing, manipulating song using serial monitor.
4. RTOS: A basic real-time home security operating system, coded in c and demonstrated in Arduino.
Designed a 64-bit Multiplier in semi-custom design flow and 16-bit full adder in full custom design flow using cadence.
A physical EMI Fillter was designed for suppressing conducted EMI noise for buck converter.
Designed a 4 bit universal shifter using cadence. Here, schematic, layout, DRC, LVS, RTL, behavioral simulation was performed.
Using PPG sensor after data processing with the help of ARDUINO heart rate was displayed in LCD display.
A 3 input NOR gate was designed optimizing delay and area in Cadence. Here, schematic and layout was done.
Using bluetooth module, arduino a car was designed which can follow a drawn path in PC using MATLAB interface.
For control system theory course using MATLAB interface and GUI a 2D ball collision project was performed.
Using non programmable IC a 12 hours Alarm Clock was made in Digital Electronics Lab course.
Using Auto CAD and Visio complete electrical drawing of a 2 storeyed building was done.
Development of a program in MATLAB for symmetrical and unsymmetrical fault calculation for n-bus power system. (Power System Laboratory)