Systems Engineer - Experienced Level (Maryland) at National Security Agency
Fort Meade, MD
About the Job
As an Engineering and Physical Science professional, you will use your skills to create the systems and tools that will be used to enhance the operation of intelligence
You will advise, administer and perform scientific projects, such as planning, designing, and constructing specialized equipment, and ensuring adherence to sound engineering and scientific standards and principles
The NSA offers multiple areas of focus for facilities engineers, including computer, architectural, electrical, mechanical, and structural
In addition, we are seeking skills that include computer design, microelectronics, radio frequency design, and systems engineering
Apply your science and engineering skills to protect the nation
The qualifications listed are the minimum acceptable to be considered for the position
\n\nDegree must be in either Engineering or a relevant technical field (for example, computer science, mathematics, or physics).\n\nFor all of the above degrees, if program is not ABET accredited, it must include specified coursework.*\n\n*Specified coursework includes courses in differential and integral calculus and 5 of the following 18 areas: (a) statics or dynamics, (b) strength of materials/stress-strain relationships, (c) fluid mechanics, hydraulics, (d) thermodynamics, (e) electromagnetic fields, (f) nature and properties of materials/relating particle and aggregate structure to properties, (g) solid state electronics, (h) microprocessor applications, (i) computer systems, (j) signal processing, (k) digital design, (l) systems and control theory, (m) circuits or generalized circuits, (n) communication systems, (o) power systems, (p) computer networks, (q) software development, (r) any other comparable area of fundamental engineering science or physics, such as optics, heat transfer, or soil mechanics.\n\nRelevant experience must be in engineering systems over their lifecycle (for example, conception, design & development, testing, production, distribution/deployment, operation, maintenance & support, decommissioning).\n\nFULL PERFORMANCE\nWith an Engineering degree, entry is with a Bachelor's degree plus 3 years of relevant experience, or a Master's degree plus 1 year of relevant experience, or a Doctoral degree and no experience
OR with a degree in a relevant technical field (for example, computer science, mathematics, or physics), entry is with a Bachelor's degree plus 3 years of relevant experience, or a Master's or Doctoral degree plus 1 year of relevant experience.\n\nSENIOR\n\nEntry is with a Bachelor's degree plus 7 years of relevant experience, or a Master's degree plus 5 years of relevant experience, or a Doctoral degree plus 3 years of relevant experience
With ever-accelerating technological advances and growing system complexity, a diverse and inclusive professional workforce of Systems Engineers builds, integrates, and optimizes complex systems and services
World-class technical professionals solve challenging systems engineering problems with unprecedented speed and scale utilizing innovative solutions
Systems engineers perform trade studies to generate and translate conceptual designs into technical specifications, participate in the evaluation of prototype hardware systems and software solutions, and integrate into the current architecture
Backgrounds such as Cybersecurity, SIGINT, hybrid-cloud, machine learning (ML), artificial intelligence (AI), integrated network architecture, information technology infrastructure and hybrid-communications all have a place in the spectrum of implementations ranging from commercial/government off-the-shelf solutions to the development of new and unique technologies.\n\nMID-CAREER SYSTEMS ENGINEERS\n\nMid-career systems engineers have experience leading systems engineering efforts, and are ready to apply, or expand that knowledge in the Intelligence Community
These engineers have experience in specific lifecycle phases, as well as an understanding of the full lifecycle
They develop their expertise, grow their breadth of knowledge, and mentor the next generation of systems engineers
Mid-career systems engineers come from a wide variety of experiences such as Cybersecurity, SIGINT, communications, and systems of systems or networking infrastructure
These professionals are adept at communicating with technical teams, and making recommendations to senior leadership that drive mission initiatives.\n\nSENIOR SYSTEMS ENGINEERS\n\nSeasoned professionals drive the Agency's largest and most challenging technical projects to ensure success
These engineers participate in technical decision-making, or function in an advisory role
Working in collaborative teams, these professionals define and manage technical requirements throughout product lifecycle; identify and manage technical program risk; evaluate the architectural design for efficiency improvements; capture, analyze and recommend updates to the enterprise and mission architectures to ensure resiliency; design and enforce configuration management and interoperability standards; and define, manage and perform testing and evaluation
Senior Systems Engineers mentor other systems engineers in their tradecraft, which lays the foundation for future successes
The ideal candidate demonstrates applicable knowledge or experience in a technical field with a familiarity of systems engineering practices and concepts in areas such as Cybersecurity, SIGINT, communications, telecommunications, data management, data processing, network architecture, or software design, development, and implementation
The ideal candidate has a desire for continual learning as well as excellent problem-solving, communication, and interpersonal skills
Finally, ideal candidates are innovative and willing to share out-of-the box ideas, motivated to drive projects to completion, and able to work across different functional areas in a collaborative environment.\n\nKnowledge, skills, and experience in one or more of the following is desired: systems engineering principles such as technology/system readiness assessment, modeling and simulation, security design engineering, and developmental test and evaluation; systems architecture, framework, and standards
Systems Engineering Certifications (i.e., DAWIA Certification, INCOSE) are beneficial, but not required.
You will advise, administer and perform scientific projects, such as planning, designing, and constructing specialized equipment, and ensuring adherence to sound engineering and scientific standards and principles
The NSA offers multiple areas of focus for facilities engineers, including computer, architectural, electrical, mechanical, and structural
In addition, we are seeking skills that include computer design, microelectronics, radio frequency design, and systems engineering
Apply your science and engineering skills to protect the nation
The qualifications listed are the minimum acceptable to be considered for the position
\n\nDegree must be in either Engineering or a relevant technical field (for example, computer science, mathematics, or physics).\n\nFor all of the above degrees, if program is not ABET accredited, it must include specified coursework.*\n\n*Specified coursework includes courses in differential and integral calculus and 5 of the following 18 areas: (a) statics or dynamics, (b) strength of materials/stress-strain relationships, (c) fluid mechanics, hydraulics, (d) thermodynamics, (e) electromagnetic fields, (f) nature and properties of materials/relating particle and aggregate structure to properties, (g) solid state electronics, (h) microprocessor applications, (i) computer systems, (j) signal processing, (k) digital design, (l) systems and control theory, (m) circuits or generalized circuits, (n) communication systems, (o) power systems, (p) computer networks, (q) software development, (r) any other comparable area of fundamental engineering science or physics, such as optics, heat transfer, or soil mechanics.\n\nRelevant experience must be in engineering systems over their lifecycle (for example, conception, design & development, testing, production, distribution/deployment, operation, maintenance & support, decommissioning).\n\nFULL PERFORMANCE\nWith an Engineering degree, entry is with a Bachelor's degree plus 3 years of relevant experience, or a Master's degree plus 1 year of relevant experience, or a Doctoral degree and no experience
OR with a degree in a relevant technical field (for example, computer science, mathematics, or physics), entry is with a Bachelor's degree plus 3 years of relevant experience, or a Master's or Doctoral degree plus 1 year of relevant experience.\n\nSENIOR\n\nEntry is with a Bachelor's degree plus 7 years of relevant experience, or a Master's degree plus 5 years of relevant experience, or a Doctoral degree plus 3 years of relevant experience
With ever-accelerating technological advances and growing system complexity, a diverse and inclusive professional workforce of Systems Engineers builds, integrates, and optimizes complex systems and services
World-class technical professionals solve challenging systems engineering problems with unprecedented speed and scale utilizing innovative solutions
Systems engineers perform trade studies to generate and translate conceptual designs into technical specifications, participate in the evaluation of prototype hardware systems and software solutions, and integrate into the current architecture
Backgrounds such as Cybersecurity, SIGINT, hybrid-cloud, machine learning (ML), artificial intelligence (AI), integrated network architecture, information technology infrastructure and hybrid-communications all have a place in the spectrum of implementations ranging from commercial/government off-the-shelf solutions to the development of new and unique technologies.\n\nMID-CAREER SYSTEMS ENGINEERS\n\nMid-career systems engineers have experience leading systems engineering efforts, and are ready to apply, or expand that knowledge in the Intelligence Community
These engineers have experience in specific lifecycle phases, as well as an understanding of the full lifecycle
They develop their expertise, grow their breadth of knowledge, and mentor the next generation of systems engineers
Mid-career systems engineers come from a wide variety of experiences such as Cybersecurity, SIGINT, communications, and systems of systems or networking infrastructure
These professionals are adept at communicating with technical teams, and making recommendations to senior leadership that drive mission initiatives.\n\nSENIOR SYSTEMS ENGINEERS\n\nSeasoned professionals drive the Agency's largest and most challenging technical projects to ensure success
These engineers participate in technical decision-making, or function in an advisory role
Working in collaborative teams, these professionals define and manage technical requirements throughout product lifecycle; identify and manage technical program risk; evaluate the architectural design for efficiency improvements; capture, analyze and recommend updates to the enterprise and mission architectures to ensure resiliency; design and enforce configuration management and interoperability standards; and define, manage and perform testing and evaluation
Senior Systems Engineers mentor other systems engineers in their tradecraft, which lays the foundation for future successes
The ideal candidate demonstrates applicable knowledge or experience in a technical field with a familiarity of systems engineering practices and concepts in areas such as Cybersecurity, SIGINT, communications, telecommunications, data management, data processing, network architecture, or software design, development, and implementation
The ideal candidate has a desire for continual learning as well as excellent problem-solving, communication, and interpersonal skills
Finally, ideal candidates are innovative and willing to share out-of-the box ideas, motivated to drive projects to completion, and able to work across different functional areas in a collaborative environment.\n\nKnowledge, skills, and experience in one or more of the following is desired: systems engineering principles such as technology/system readiness assessment, modeling and simulation, security design engineering, and developmental test and evaluation; systems architecture, framework, and standards
Systems Engineering Certifications (i.e., DAWIA Certification, INCOSE) are beneficial, but not required.