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Computer Science Engineering Jobs in Alaska (NOW HIRING)

Bachelor's degree in Computer Science, Engineering, Business or a related field (preferred, not required) * Strong product instincts & passion for social media, technology, and staying current with ...

Bachelor's degree in Computer Science, Engineering, or a related field. * Proven experience in managing automated systems or processes. * Strong analytical and problem-solving skills. Preferred ...

Senior Engineer - LLMOps & MLOps

Minto, AK · On-site +1

$108K - $148K/yr

Bachelor's degree in Computer Science or a related field required; Master's degree in a quantitative discipline highly desirable. Proven Execution: 6+ years of engineering experience, with a minimum ...

Senior Engineer - LLMOps & MLOps

Minto, AK · On-site +1

$108K - $148K/yr

Bachelor's degree in Computer Science or a related field required; Master's degree in a quantitative discipline highly desirable. Proven Execution: 6+ years of engineering experience, with a minimum ...

Computer Science Massachusetts Institute of Technology (MIT) Curriculum Listing: * Naval Construction and Engineering * Nuclear Engineering QUALIFICATIONS AND REQUIREMENTS * Bachelor's degree * U.S ...

Computer Science Massachusetts Institute of Technology (MIT) Curriculum Listing: * Naval Construction and Engineering * Nuclear Engineering QUALIFICATIONS AND REQUIREMENTS * Bachelor's degree * U.S ...

Computer Science Massachusetts Institute of Technology (MIT) Curriculum Listing: * Naval Construction and Engineering * Nuclear Engineering QUALIFICATIONS AND REQUIREMENTS * Bachelor's degree * U.S ...

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Computer Science Engineering information

See Alaska salary details

$52.2K

$130.9K

$148.1K

How much do computer science engineering jobs pay per year?

As of Jul 10, 2026, the average yearly pay for computer science engineering in Alaska is $130,865.00, according to ZipRecruiter salary data. Most workers in this role earn between $120,100.00 and $141,600.00 per year, depending on experience, location, and employer.

What jobs can you do with computer engineering?

Computer engineering graduates can pursue roles such as software developer, hardware engineer, systems analyst, network administrator, cybersecurity analyst, and embedded systems engineer. These positions often require knowledge of programming languages, hardware design, and networking, and may involve working in office, lab, or remote environments.

What engineers make $300,000 a year?

Senior software engineers, especially those working in high-demand areas like Silicon Valley or with expertise in AI, machine learning, or cloud computing, can earn $300,000 or more annually. These roles often require advanced skills, extensive experience, and sometimes stock options or bonuses as part of compensation packages.

What is Computer Science Engineering?

Computer Science Engineering (CSE) is a branch of engineering that integrates computer science and engineering principles to design, develop, and maintain software and hardware systems. CSE professionals work on a wide range of technologies, including programming, algorithms, computer networks, databases, artificial intelligence, and cybersecurity. The field prepares graduates for careers in software development, systems analysis, data science, and more. It is one of the most in-demand disciplines due to the increasing reliance on technology across industries.

What is the difference between Computer Science Engineering vs Software Developer?

AspectComputer Science EngineeringSoftware Developer
Required CredentialsBachelor's in Computer Science or related field; sometimes certificationsBachelor's in Computer Science, Software Engineering, or related; certifications optional
Work EnvironmentUniversities, research labs, tech companies, R&D centersTech companies, startups, freelance projects, corporate IT teams
Industry UsageAcademic, research, product development, software designApplication development, coding, testing, deployment
Common Search/ComparisonFocuses on theoretical and foundational knowledgeFocuses on practical coding and project implementation

Computer Science Engineering and Software Developer roles overlap in skills and industry usage, but differ mainly in focus. Computer Science Engineering emphasizes theoretical foundations and research, while Software Developers concentrate on coding and building applications. Both roles are vital in tech industries, with CS Engineering often leading to research or academic careers, and Software Developers working on practical software solutions.

What can a computer science engineer do?

A computer science engineer designs, develops, and maintains software systems, applications, and algorithms. They work with programming languages, data structures, and computer hardware, often collaborating in teams and using tools like integrated development environments (IDEs). Their roles can include software development, system analysis, cybersecurity, and data management.

What are some common challenges faced by Computer Science Engineers in collaborative projects, and how can they be addressed?

Computer Science Engineers often work on multidisciplinary teams where communication gaps, differing technical backgrounds, and unclear project requirements can pose challenges. To address these, effective documentation, regular cross-functional meetings, and utilizing collaborative tools (like version control and project management platforms) are essential. Building strong communication skills and fostering a culture of open feedback help ensure everyone stays aligned and project goals are met efficiently.

What are the key skills and qualifications needed to thrive as a Computer Science Engineer, and why are they important?

To thrive as a Computer Science Engineer, you need strong programming skills, a solid grasp of algorithms, data structures, and systems design, typically backed by a degree in computer science or a related field. Familiarity with languages like Python, Java, or C++, version control systems such as Git, and certifications like AWS Certified Solutions Architect or CompTIA Security+ are often valuable. Analytical thinking, problem-solving abilities, and effective teamwork are standout soft skills in this role. These competencies are essential for developing robust software solutions, adapting to emerging technologies, and collaborating efficiently in dynamic engineering environments.

What engineer makes $500,000 a year?

Senior software engineers, especially those working in high-paying industries like finance or technology, can earn $500,000 or more annually, often through base salary, bonuses, and stock options. Achieving this level typically requires extensive experience, advanced skills in programming, and working at top-tier companies or in leadership roles.
What job categories do people searching Computer Science Engineering jobs in Alaska look for? The top searched job categories for Computer Science Engineering jobs in Alaska are:
Computer Engineer

Computer Engineer

US Department of the Air Force

Joint Base Elmendorf-richardson (jber), AK

$76K/yr

Other

Re-posted 20 days ago


Job description

Click on "Learn more about this agency" button below for IMPORTANT additional information.
This is a Direct Hire Solicitation. This public notice is to gather applications that may or may not result in a referral or selection.Qualifications:In order to qualify, you must meet the specialized experience requirements described in the Office of Personnel Management (OPM) Qualification Standards for General Schedule Positions, Group Coverage Qualification Standard for Professional and Scientific Positions.
BASIC REQUIREMENT OR INDIVIDUAL OCCUPATIONAL REQUIREMENT:
A. Degree: Professional Engineering. To be acceptable, the curriculum must: (1) be in a school of engineering with at least one curriculum accredited by the Accreditation Board for Engineering and Technology (ABET) as a professional engineering curriculum; or (2) include differential and integral calculus and courses (more advanced than first-year physics and chemistry) in five of the following seven areas of engineering science or physics: (a) statics, dynamics; (b) strength of materials (stress-strain relationships); (c) fluid mechanics, hydraulics; (d) thermodynamics; (e) electrical fields and circuits; (f) nature and properties of materials (relating particle and aggregate structure to properties); and (g) any other comparable area of fundamental engineering science or physics, such as optics, heat transfer, soil mechanics, or electronics.
OR
B. Combination of education and experience: College-level education, training, and/or technical experience that furnished (1) a thorough knowledge of the physical and mathematical sciences underlying professional engineering, and (2) a good understanding, both theoretical and practical, of the engineering sciences and techniques and their applications to one of the branches of engineering. The adequacy of such background must be demonstrated by one of the following:
1. Professional Registration: Current registration as a professional engineer by any State, the District of Columbia, Guam, or Puerto Rico. Absent other means of qualifying under this standard, those applicants who achieved such registration by means other than written test (e.g., State grandfather or eminence provisions) are eligible only for positions that are within or closely related to the specialty field of their registration. For example, an applicant who attains registration through a State Board's eminence provision as a manufacturing engineer typically would be rated eligible only for manufacturing engineering positions.
OR
2. Written Test: Evidence of having successfully passed the Engineer-in-Training (EIT) examination, or the written test required for professional registration, which is administered by the Boards of Engineering Examiners in the various States, the District of Columbia, Guam, and Puerto Rico.
OR
3.
Specified Academic Courses: Successful completion of at least 60 semester hours of courses in the physical, mathematical, and engineering sciences and in engineering that included the courses specified in the basic requirements. The courses must be fully acceptable toward meeting the requirements of a professional engineering curriculum.
OR
4. Related Curriculum:
Successful completion of a curriculum leading to a bachelor's degree in engineering technology or in an appropriate professional field, e.g., physics, chemistry, architecture, computer science, mathematics, hydrology, or geology, may be accepted in lieu of a degree in engineering, provided the applicant has had at least one year of professional engineering experience acquired under professional engineering supervision and guidance. Ordinarily there should be either an established plan of intensive training to develop professional engineering competence, or several years of prior professional engineering-type experience, e.g., in interdisciplinary positions.
In addition to meeting the basic requirement above, to qualify for this position you must also meet the qualification requirements listed below:
SPECIALIZED EXPERIENCE:
GS-12: One year of specialized experience equivalent to the GS-11. Examples of specialized experience include management and directing of assigned IT systems and programs for complex programs and/or projects.
GS-13: One year of specialized experience equivalent to the GS-12. Examples of specialized experience include identifying, preparing and presenting detailed technical reports and briefings on new concepts and technical directions impacting programs/projects, and defining future technology requirements.
GS-14: One year of specialized experience equivalent to the GS-13. Examples of specialized experience include planning, organizing, and managing branch level activities and developing goals and objectives that integrate organization and objectives for computer engineering programs.
GS-15: One year of specialized experience equivalent to the GS-14. Examples of specialized experience include providing technical leadership, advice, and assistance on complex, controversial or precedent setting matters and dealing tactfully and effectively with high level officials, engineers and scientists.
KNOWLEDGE, SKILLS AND ABILITIES (KSAs):
  1. Knowledge of computer engineering policies, theories, principles and concepts, and familiarity with other engineering disciplines.
  2. Knowledge of automated data processing concepts, systems capabilities, and measurements processes to effectively accomplish assigned functions.
  3. Ability to analyze, evaluate, and applies rules, regulations, and procedures in a variety of situations.
  4. Ability to plan and organize work and coordinate with other engineering disciplines; communicate effectively, both orally and in writing; and maintain good working relations.
PART-TIME OR UNPAID EXPERIENCE: Credit will be given for appropriate unpaid and or part-time work. You must clearly identify the duties and responsibilities in each position held and the total number of hours per week.
VOLUNTEER WORK EXPERIENCE: Refers to paid and unpaid experience, including volunteer work done through National Service Programs (i.e., Peace Corps, AmeriCorps) and other organizations (e.g., professional; philanthropic; religious; spiritual; community; student and social). Volunteer work helps build critical competencies, knowledge and skills that can provide valuable training and experience that translates directly to paid employment. You will receive credit for all qualifying experience, including volunteer experience.Education:IF USING EDUCATION TO QUALIFY: If position has a positive degree requirement or education forms the basis for qualifications, you MUST submit transcriptswith the application. Official transcripts are not required at the time of application; however, if position has a positive degree requirement, qualifying based on education alone or in combination with experience; transcripts must be verified prior to appointment. An accrediting institution recognized by the U.S. Department of Education must accredit education. Click here to check accreditation.
FOREIGN EDUCATION: Education completed in foreign colleges or universities may be used to meet the requirements. You must show proof the education credentials have been deemed to be at least equivalent to that gained in conventional U.S. education program. It is your responsibility to provide such evidence when applying.Employment Type: OTHER