Jessica Graham's Projects
This is my first API and Javascript-generated HTML. The goal is to create an API connection to Github and dynamically load Github Projects into my Portfolio site.
Based on Interview Cakes practice question "Cake Thief". Dynamic programming is implemented to solve this problem to get the most cake in the duffel bag before the thief is caught!
Inspiration from Interview Cake "Your company built an in-house calendar tool called HiCal. You want to add a feature to see the times in a day when everyone is available"
Enthusiastic Software Support Engineer eager to contribute to team success through communication, attention to detail, and excellent organizational skills. A clear understanding of coding practices, user experience, and learning new skills. Motivated to learn, grow and excel in Technology. Passionate about software development, developer advocacy, and project management.
A mini-program was meant to read out the top two levels of Folders in Hierarchy and print to a txt file for a table of contents.
This contains my github bio
A portfolio website that is designed and made from scratch. The site is intended to display projects, resume, and a blog to discuss topics of interest.
Inspired from Educative.io, the problem is to merge two linked lists together.
Inspiration from Educative.io . The problem is as follows: Find the missing number in the array You are given an array of positive numbers from 1 to n, such that all numbers from 1 to n are present except one number x. You have to find x. The input array is not sorted. Look at the below array and give it a try before checking the solution.
Inspired by Interview Cakes nth Fibonacci problem to return the nth number as requested by the user. The approach taken to resolve this problem is to implement a recursion solution.
Inspiration from Educative.io "Write an efficient method that checks whether any permutation of an input string is a palindrome.
This playbook is a wiki intended to keep notes and thoughts as I learn more about technology and programming.
This Syndrome Decoder is in relation to knowledge learned in Masters Course COSC 5P01 - Coding Theory. The idea behind this decoder is to follow the technique of syndrome decoder using a provided Parity Check Matrix, length n, syndrome y, and k values. We then take and generate potential syndromes and coset leaders to come up with our list of potential syndromes and errors. This then computes and provides the decoded syndrome.