Software Engineer - Full Performance
Company: Beyond SOF
Location: Herndon
Posted on: April 2, 2026
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Job Description:
Software Engineer - Full Performance Summary : Analyzes user
interfaces, maintain hardware and software performance tuning,
analyze workload and computer usage, maintain interfaces with
outside systems, analyze downtimes, analyze proposed system
modifications, upgrades and new COTS. Defines the problem, and
develops system requirements and program specifications, from which
programmers prepare detailed flow charts, programs, and tests.
Coordinates closely with programmers to ensure proper
implementation of program and system specifications. Develops, in
conjunction with functional users, system alternative solutions.
Duties, Tasks, and Responsibilities Advise customer about, or
perform, maintenance of software system. Analyze information to
determine, recommend, and plan computer specifications and layouts,
and peripheral equipment modifications. Analyze user needs and
software requirements to determine feasibility of design within
time and cost constraints. Confer with data processing and project
managers to obtain information on limitations and capabilities for
data processing projects. Confer with systems analysts, engineers,
programmers and others to design system and to obtain information
on project limitations and capabilities, performance requirements
and interfaces. Consult with customers about software system design
and maintenance. Consult with customers or other departments on
project status, proposals and technical issues such as software
system design and maintenance. Consult with engineering staff to
evaluate interface between hardware and software, develop
specifications and performance requirements and resolve customer
problems. Coordinate installation of software system. Coordinate
software system installation and monitor equipment functioning to
ensure specifications are met. Design, develop and modify software
systems, using scientific analysis and mathematical models to
predict and measure outcome and consequences of design. Develop and
direct software system testing and validation procedures,
programming, and documentation. Develop and direct software system
testing and validation procedures. Estimate software development
costs and schedule. Evaluate factors such as reporting formats
required, cost constraints, and need for security restrictions to
determine hardware configuration. Modify existing software to
correct errors, allow it to adapt to new hardware, or to improve
its performance. Monitor functioning of equipment to ensure system
operates in conformance with specifications. Obtain and evaluate
information on factors such as reporting formats required, costs,
and security needs to determine hardware configuration. Prepare
reports and correspondence concerning project specifications,
activities and status. Review existing programs and assist in
making refinements, reducing operating time, and improve current
techniques. Specify power supply requirements and configuration.
Store, retrieve, and manipulate data for analysis of system
capabilities and requirements. Supervise the work of programmers,
technologists and technicians and other engineering and scientific
personnel. Train users to use new or modified equipment. Utilize
microcontrollers to develop control signals, implement control
algorithms and measure process variables such as temperatures,
pressures and positions. Knowledge, Skills, and Abilities Active
Learning — Understanding the implications of new information for
both current and future problem-solving and decision-making.
Complex Problem Solving — Identifying complex problems and
reviewing related information to develop and evaluate options and
implement solutions. Computers and Electronics — Knowledge of
circuit boards, processors, chips, electronic equipment, and
computer hardware and software, including applications and
programming. Critical Thinking — Using logic and reasoning to
identify the strengths and weaknesses of alternative solutions,
conclusions or approaches to problems. Deductive Reasoning — The
ability to apply general rules to specific problems to produce
answers that make sense. Design — Knowledge of design techniques,
tools, and principles involved in production of precision technical
plans, blueprints, drawings, and models. Engineering and Technology
— Knowledge of the practical application of engineering science and
technology. This includes applying principles, techniques,
procedures, and equipment to the design and production of various
goods and services. English Language — Knowledge of the structure
and content of the English language including the meaning and
spelling of words, rules of composition, and grammar. Inductive
Reasoning — The ability to combine pieces of information to form
general rules or conclusions (includes finding a relationship among
seemingly unrelated events). Information Ordering — The ability to
arrange things or actions in a certain order or pattern according
to a specific rule or set of rules (e.g., patterns of numbers,
letters, words, pictures, mathematical operations). Judgment and
Decision Making — Considering the relative costs and benefits of
potential actions to choose the most appropriate one. Mathematics —
Knowledge of arithmetic, algebra, geometry, calculus, statistics,
and their applications. Near Vision — The ability to see details at
close range (within a few feet of the observer). Operations
Analysis — Analyzing needs and product requirements to create a
design. Oral Comprehension — The ability to listen to and
understand information and ideas presented through spoken words and
sentences. Oral Expression — The ability to communicate information
and ideas in speaking so others will Understand Problem Sensitivity
— The ability to tell when something is wrong or is likely to go
wrong. It does not involve solving the problem, only recognizing
there is a problem. Programming — Writing computer programs for
various purposes. Reading Comprehension — Understanding written
sentences and paragraphs in work related documents. Speech Clarity
— The ability to speak clearly so others can understand you. Speech
Recognition — The ability to identify and understand the speech of
another person. Systems Analysis — Determining how a system should
work and how changes in conditions, operations, and the environment
will affect outcomes. Technology Design — Generating or adapting
equipment and technology to serve user needs. Telecommunications —
Knowledge of transmission, broadcasting, switching, control, and
operation of telecommunications systems. Troubleshooting —
Determining causes of operating errors and deciding what to do
about it. Written Comprehension — The ability to read and
understand information and ideas presented in writing. Minimum
Education General equivalency guidelines for education,
certifications, and experience are provided below; however, these
guidelines do not immediately qualify someone at a particular
level. Skill levels for an individual are based upon a combination
of education, training, and experience, e.g. someone may have 20
years of professional experience; however they may only be
qualified as Full Performance based upon the expertise needed to
perform the work within that category. General professional years
of experience may be substituted for specialized years of
experience at a ratio of three (3) years of general experience
within an occupation for one (1) year of specialized experience.
Relevant certifications will be considered equivalent to three (3)
months of specialized experience. An Associate’s degree in Computer
Science, Information Systems, Engineering, Business, or a
scientific or technical discipline related to the specific skill
will be considered equivalent to eighteen (18) months specialized
experience. A Bachelor’s degree in Computer Science, Information
Systems, Engineering, Business, or a scientific or technical
discipline related to the specific skill will be considered
equivalent to three (3) years specialized experience (total
equivalency is not cumulative when combined with an Associate’s
degree). A Master’s degree in Computer Science, Information
Systems, Engineering, Business, or a scientific or technical
discipline related to the specific skill will be considered
equivalent to two (2) years specialized experience (up to a total
of five (5) years when combined with a Bachelor’s). A Doctorate in
Computer Science, Information Systems, Engineering, Business, or a
scientific or technical discipline related to the specific skill
will be considered equivalent to two (2) years specialized
experience (up to a total of seven (7) years when combined with a
Master’s and a Bachelor’s). Minimum Experience Full Performance:
Someone that is fully capable of delivering capabilities related to
a particular skill, language, system, or technology. Requires a
minimum of three (3) years of experience specific to the skill.
Ability, training and actual work experience with the specific
computer language, systems, and/or technology is significantly more
important than the number of years of experience. This is
especially true with emerging technologies
Keywords: Beyond SOF, Silver Spring , Software Engineer - Full Performance, IT / Software / Systems , Herndon, Maryland
