Designed and produced new web applications using React and Java to advance the digitization of deal origination workflows, leading to significantly improved banker efficiency and firm data capture.
Developed and executed thorough automated and QA testing using Cypress and Jest and provided documentation for all implemented projects to ensure quality production releases with high uptime and minimal impact on business operations.
Collaborated with users to understand unique business requirements and establish build criteria while identifying workflow pain points, usage exceptions, and gathering feedback on system performance.
Developed the front-end for a new React application driven by Formik to replace a legacy .NET application, modernizing the workflow for Commitment Letter and Credit Agreement stages of a deal. Integrated usage analytics with Kibana and continued to support the application used by thousands of bankers globally.
Implemented a new functionality using React and Java which enabled editing of tranche information for approved deals, altering data flow to adhere to reporting requirements, ensuring data capture to safeguard a paper trail for any post deal amendments.
Lead front-end developer for Pre-Deal application, allowing bankers to create and track financials for potential future deals, with the ability to later transfer that data directly into the core deal approval workflow.
Played a key role in the overhaul of a complex dependency tree for validations and calculations within a tranche creation tool utilized by bankers for evaluating financial transactions and took initiative to generalize the tool and utilize it in other stages of the workflow.
Contributed to the creation of the first cloud-based application in the division-wide cloud migration strategy.
Mentored summer interns, providing technical and professional guidance.
Coordinated and led half of Haverford’s pulsar timing astrophysics research team meetings and conducted one-on-one sessions eight hours per week with members of the research team in order to provide project guidance and assistance.
Engineered a demo frontend in HTML, CSS, and JavaScript and coded Python backend for the creation of gravcalc.org, a scientific tool that allows scientists outside of the field to understand gravitational wave emission sources and produce results using real pulsar timing data.
Reviewed, evaluated, and automated the download and processing of NICER time series data using Unix and Python, ultimately saving valuable time and improving process consistency.
Designed a Python program which performed a new method of X-Ray data filtering for the NICER space telescope data, leading to effective extraction of target data from a dataset comprised of multiple background noise sources.
