Software Engineer
Themis Insight, LLC · Fort Meade, MD · 5 mo ago
EngineeringFull-time
About the role
The Software Engineer position at Themis Insight is located in Fort Meade, MD. The position requires a TS/SCI clearance with a polygraph.
Responsibilities
- Analyze user requirements to derive software design and performance requirements
- Debug existing software and correct defects
- Provide recommendations for improving documentation and software development process standards
- Design and code new software or modify existing software to add new features
- Integrate existing software into new or modified systems or operating environments
- Develop simple data queries for existing or proposed databases or data repositories
- Write or review software and system documentation
- Serve as team lead at the level appropriate to the software development process being used on any particular project
- Design or implement complex database or data repository interfaces/queries
- Develop or implement algorithms to meet or exceed system performance and functional standards
- Aid with developing and executing test procedures for software components
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage, and work processes; and investigate problem areas
- Modify existing software to correct errors, adapt to new hardware, or improve its performance
- Design, develop, and modify software systems using scientific analysis and mathematical models
- Confer with users or system engineers; analyze systems flow, data usage,