Training Program to Study the Computation of Molecular Reaction Mechanisms using Gaussian on High Performance Computing (HPC) Systems

Submission information

Submission Number: 188

Submission ID: 4257

Submission UUID: 2a0a3204-cb4e-4cab-9f14-ec4be4a1ce08

Submission URI: /form/project

Created: Tue, 12/12/2023 - 10:39

Completed: Tue, 12/12/2023 - 10:39

Changed: Wed, 09/04/2024 - 15:31

Remote IP address: 128.6.36.25

Submitted by: Udi Zelzion

Language: English

Is draft: No

Webform: Project

Project Title	Training Program to Study the Computation of Molecular Reaction Mechanisms using Gaussian on High Performance Computing (HPC) Systems
Program	CAREERS
Project Image
Tags
Status	Complete
Project Leader	Alan Goldman
Email	alan.goldman@rutgers.edu
Mobile Phone
Work Phone
Mentor(s)
Student-facilitator(s)	Millie Trusler
Mentee(s)
Project Description	We propose to develop an introductory training program, and supplementary monitoring and reporting tools in the form of an interactive Excel spreadsheet. This program is designed for new graduate and undergraduate students to learn how to use computational chemistry software packages on HPC systems. For this purpose, we will be using the Rutgers HPC cluster Amarel and a general purpose computational chemistry package Gaussian. The program will provide a practical workflow for testing various molecular systems and molecular reactions. It will help students develop their skills in computational chemistry and bolster their confidence in creating computations for their own molecular systems. This program will aid in defining and refining the commands and functions in Gaussian that are most commonly used in the field of computational organometallic and organic chemistry. It will also assist in job management and processing on the Amarel cluster and any other HPC system operating with a SLURM scheduler.
Project Deliverables
Project Deliverables
Student Research Computing Facilitator Profile
Mentee Research Computing Profile
Student Facilitator Programming Skill Level
Mentee Programming Skill Level
Project Institution
Project Address	123 Bevier Road Piscataway, New Jersey. 08854
Anchor Institution	CR-Rutgers
Preferred Start Date
Start as soon as possible.	Yes
Project Urgency	Already behind3Start date is flexible
Expected Project Duration (in months)	6
Launch Presentation
Launch Presentation Date	12/15/2023
Wrap Presentation
Wrap Presentation Date
Project Milestones	Milestone Title: Launch Milestone Description: Give a launch presentation during the CAREERS monthly meeting. Completion Date Goal: 2023-12-15 Actual Completion Date: 2023-12-15 Milestone Title: Setting up Milestone Description: Review literature on computational chemistry, specifically on Density-Functional Theory (DFT). Set up an account on the Rutgers HPC cluster, Amarel, and become familiar with job submission and the Gaussian electronic structure modelling program. Completion Date Goal: 2024-01-15 Milestone Title: Using Gaussian Milestone Description: • Run examples for water molecule optimization, ranging from 1 molecule to an ensemble of 5 molecules. Identify the key parts in the resulting log files • Optimize and find the transition states/energies associated with nucleophilic substitution reactions (SN1 and SN2). • Create an example of a 2-step mechanism for ring opening from epoxides to alcohols. • Optimize transition states of larger molecules using Wilkinson’s Catalyst. Completion Date Goal: 2024-04-15 Milestone Title: Documentation Milestone Description: 4. Set up an interactive Excel sheet with all the examples, outputs and documentation from previous milestones. The Excel sheet will be made available on GitHub serving as a guide for anyone who would like to learn how to run Gaussian and analyze its results. Completion Date Goal: 2024-05-15 Milestone Title: Warp-up Milestone Description: Give a wrap-up presentation at the CAREERS monthly meeting. Exit interview with Udi Zelzion. Completion Date Goal: 2024-06-15
Github Contributions
Planned Portal Contributions (if any)
Planned Publications (if any)
What will the student learn?	The student will learn how to run Gaussian on a HPC system.
What will the mentee learn?
What will the Cyberteam program learn from this project?
HPC resources needed to complete this project?	Access to Amarel ,Rutgers' HPC cluster.
Notes
What is the impact on the development of the principal discipline(s) of the project?
What is the impact on other disciplines?
Is there an impact physical resources that form infrastructure?
Is there an impact on the development of human resources for research computing?
Is there an impact on institutional resources that form infrastructure?
Is there an impact on information resources that form infrastructure?
Is there an impact on technology transfer?
Is there an impact on society beyond science and technology?
Lessons Learned
Overall results