Pinned Repositories
ARM-Assembly-Labs
ARM assembly labs that were done as a part of ECE253 (Digital and Computer Systems course) at the University of Toronto
Bridge-Design-Failure-Load-Calculator
As part of the Structures and Materials course of the Engineering Science Program at the University of Toronto, the Matboard Bridge Design Project challenges students to design a bridge that can resists a force upwards of 400 Newton under 2 different types of loading. However, this program is only applicable to loading under the Baldwin Universal Testing Machine. Using different concepts and equations taught throughout the course, students must calculate all possible failure method of their bridge and predict ultimately what load will cause their bridge to fail. Such concepts include drawing and reading Shear Force and Bending Moment diagrams, using Jourawski's equation, applying the knowledge of thin plate buckling, etc. Once the design is finalized, students must construct the bridge using the provided limited materials:1 sheet of matboard and 2 tubes of contact cement glue. After the construction of the bridge, it is then tested in a lab under a train loading and the Baldwin loading. The more force the bridge is able to resist is desired. #basic helper functions
C-Sorting-Algorithms
Chess-AI
ECE532-Materials
Frontline-First
Website platform for student run initiative (Frontline First) which provides PPEs to Ottawa hospitals
galapagos
galapagos-automation
Python-Sorting-Algorithms
Various sorting algorithms implemented in Python
Verilog-Labs
Verilog labs that were done as a part of ECE253 (Digital and Computer Systems course) at the University of Toronto
smilepengg's Repositories
smilepengg/ARM-Assembly-Labs
ARM assembly labs that were done as a part of ECE253 (Digital and Computer Systems course) at the University of Toronto
smilepengg/Bridge-Design-Failure-Load-Calculator
As part of the Structures and Materials course of the Engineering Science Program at the University of Toronto, the Matboard Bridge Design Project challenges students to design a bridge that can resists a force upwards of 400 Newton under 2 different types of loading. However, this program is only applicable to loading under the Baldwin Universal Testing Machine. Using different concepts and equations taught throughout the course, students must calculate all possible failure method of their bridge and predict ultimately what load will cause their bridge to fail. Such concepts include drawing and reading Shear Force and Bending Moment diagrams, using Jourawski's equation, applying the knowledge of thin plate buckling, etc. Once the design is finalized, students must construct the bridge using the provided limited materials:1 sheet of matboard and 2 tubes of contact cement glue. After the construction of the bridge, it is then tested in a lab under a train loading and the Baldwin loading. The more force the bridge is able to resist is desired. #basic helper functions
smilepengg/C-Sorting-Algorithms
smilepengg/Chess-AI
smilepengg/ECE532-Materials
smilepengg/Frontline-First
Website platform for student run initiative (Frontline First) which provides PPEs to Ottawa hospitals
smilepengg/galapagos
smilepengg/galapagos-automation
smilepengg/Python-Sorting-Algorithms
Various sorting algorithms implemented in Python
smilepengg/Verilog-Labs
Verilog labs that were done as a part of ECE253 (Digital and Computer Systems course) at the University of Toronto
smilepengg/Personal-Portfolio
smilepengg/PID
smilepengg/Tic-Tac-Toe-Java
Tic-Tac-Toe game for single (against an opponent simulation) and double players.