Sr. Database Reliability Engineer II (Remote)
Crowdstrike- Full Time
- Senior (5 to 8 years)
Candidates should possess a Bachelor's degree in Computer Science, Engineering, or a related field, and have 1-5 years of relevant experience in database administration. Proficiency in managing and administering PostgreSQL database systems on Amazon RDS is required, along with strong SQL skills for writing and optimizing database queries. Familiarity with AWS platform and knowledge of monitoring and observability tools for DB systems, such as Prometheus and Grafana, is beneficial.
The Data Reliability Engineer will assist in the deployment, configuration, and management of cloud-based database systems on Amazon RDS, setting up and configuring monitoring and alerting tools, responding to alerts and incidents, and developing automation scripts and infrastructure as code (IAC) templates. They will participate in on-call rotations for database-related incidents, assist in implementing and maintaining security best practices, configure and manage database backup and recovery strategies, analyze database query performance, and participate in continuous improvement initiatives to enhance database reliability and performance. Additionally, they will assist in the design and optimization of database schemas for cloud environments.
Cloud-native payment card processing platform
Zeta provides a platform for payment card processing that is designed for banks, financial institutions, and fintech companies. Their main product, the Omni Stack, allows clients to easily create and manage digital credit, debit, and prepaid card programs. This platform works by integrating with existing systems through APIs, which helps streamline the payment processing experience. Zeta stands out from its competitors by focusing on cloud-native solutions and ensuring compliance with important regulations, which helps build trust with their clients. The company's goal is to make payments seamless and less noticeable in everyday transactions, moving towards a future where payments are 'invisible'.