LexisNexis is looking to hire early-career professionals to contribute to the development and launch of innovative legal technology products, leveraging AI and advanced technologies to improve productivity and transform the practice of law.
Requirements
- Be on track to receive a bachelor’s or master’s degree in computer science, computer engineering, information technology, or a related field of study.
- Have proficiency in at least one programming language, including but not limited to Angular, C, Java/J2EE, JavaScript, JSP, C/C++, HTML, XML, SQL, Windows, UNIX, and .NET
- Possess a basic understanding of software development methodologies (e.g., Agile, Waterfall), storage systems, and data modeling principles.
- Display an interest in test-driven development and continuous learning.
- Demonstrate enthusiasm for technology with the ability and desire to learn new processes and technologies.
- Have a collaborative mindset with solid communication skills.
- Be able to engage with leading-edge technologies while working alongside accomplished peers.
Responsibilities
- Writing and reviewing portions of detailed specifications for the development of system components of simple complexity.
- Completing simple bug fixes and resolving basic technical issues.
- Implementing development processes, coding best practices, and code reviews under the guidance of Senior Engineers.
- Operating in various development environments (Agile, Waterfall, etc.) while collaborating with key stakeholders.
- Troubleshooting basic technical challenges.
- Staying current with emerging technologies and development practices.
- Performing any other duties as assigned.
Other
- Aspire Program is a twelve-month initiative designed for recent graduates from various fields.
- Contribute to real-world projects from day one.
- Collaborate with experienced professionals to create cutting-edge legal tech solutions.
- Engage in comprehensive training to enhance both technical and soft skills.
- Work with international leaders in legal tech to make a global impact.
