Principal Software Engineer – Algorithm Sw Engineer (26-300)

Northrop Grumman Northrop Grumman · Aerospace · Huntsville, AL +1 · Software

Northrop Grumman is seeking a Principal Software Engineer – Algorithm SW Engineer to support the C2BMC program. This role involves designing and developing Java-based mathematical algorithms, implementing software changes, supporting reviews and testing, and participating in Agile planning. The position requires a Secret security clearance and experience with full life-cycle development, Java, Unix/Linux, mathematical algorithms, Agile, MATLAB, DevSecOps, and systems integration.

What you'd actually do

  1. Will help generate software design artifacts, implement Java-based software changes, support design and code reviews, and support software testing and the resolution of issues arising from software testing
  2. Will be involved in presenting the developed designs
  3. Will actively participate in Agile planning and execution using established C2BMC processes

Skills

Required

  • Bachelor’s Degree in Computer Science, Software Engineering, Mathematics, Physics, or a related field from an accredited university, along with 5 years of experience; or a Master’s degree in a related field with 3 years of relevant work experience; or 9 years of relevant work experience
  • current, active in-scope DoD-issued Secret security clearance
  • full life-cycle development
  • Java application development
  • Unix/Linux
  • software implementation of mathematical algorithms
  • Agile development
  • MATLAB
  • DevSecOps
  • systems integration
  • strong problem-solving skills
  • verbal and written communication skills
  • work independently
  • thrives in a highly dynamic environment
  • work with cross-disciplinary teams

Nice to have

  • current, active DoD 8140 certification at IAT Level II or higher
  • full life-cycle development of complex mathematical algorithms (including tracking, correlation, guidance, battle management, and radar management) for Java-based military applications
  • developing software within an Agile development process, decomposing work, and providing active leadership during sprint planning
  • developing software in a structured, process-driven, integrated team environment
  • developing software within a DevSecOps framework for Java-based applications on Unix/Linux platforms
  • Git/GitLab, Eclipse, Maven/Gradle, and SonarQube or similar toolsets
  • developing automated unit tests and verifying requirements
  • reviewing system engineering artifacts such as ICDs, use cases, and sequence diagrams
  • Creating software design artifacts and presenting design materials and test results to internal and external customers
  • implementing MATLAB algorithms before integrating them into tactical Java software
  • BMDS domain

What the JD emphasized

  • Secret security clearance
  • full life-cycle development
  • Java application development
  • Unix/Linux
  • software implementation of mathematical algorithms
  • Agile development
  • MATLAB
  • DevSecOps
  • systems integration