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Computer Science Engineer Jobs in Mississippi (NOW HIRING)

$74K/yr

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 ...

$74K/yr

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 ...

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Computer Science Engineer information

See Mississippi salary details

$45.9K

$115.1K

$130.2K

How much do computer science engineer jobs pay per year?

As of Jul 15, 2026, the average yearly pay for computer science engineer in Mississippi is $115,083.00, according to ZipRecruiter salary data. Most workers in this role earn between $105,600.00 and $124,500.00 per year, depending on experience, location, and employer.

What are some typical projects or tasks a Computer Science Engineer might work on within a multidisciplinary team?

Computer Science Engineers often collaborate with professionals from diverse backgrounds such as product managers, designers, and data analysts. Typical projects may include developing scalable software applications, optimizing algorithms for performance, or integrating new technologies into existing systems. These engineers are frequently involved in code reviews, planning meetings, and cross-functional brainstorming sessions to ensure solutions meet both technical and business requirements. This collaborative environment not only enhances technical skills but also fosters communication and project management abilities.

What are Computer Science Engineers?

Computer Science Engineers are professionals who apply principles of computer science, engineering, and mathematics to design, develop, test, and maintain computer systems, software, and networks. They work on a wide range of technologies, from creating applications and operating systems to improving network security and optimizing hardware performance. Their role often involves problem-solving, programming, and collaborating with other engineers and IT specialists to deliver efficient technology solutions.

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 a solid background in programming, algorithms, data structures, and computer systems, often supported by a degree in computer science or a related field. Familiarity with languages like Python, Java, or C++, as well as experience using development tools, version control systems (such as Git), and relevant certifications like AWS or Cisco, are highly valued. Strong problem-solving abilities, teamwork, and effective communication help set exceptional engineers apart. These skills are vital for designing, developing, and maintaining reliable software solutions in ever-evolving technical environments.
What are popular job titles related to Computer Science Engineer jobs in Mississippi? For Computer Science Engineer jobs in Mississippi, the most frequently searched job titles are:
Data Scientist/Developer

Data Scientist/Developer

Accord Technologies Inc.

Jackson, MS • On-site

Contractor

Posted 23 days ago


Job description

Data scientist/developer
Jackson, MS (Remote)
5 months Contract

 
 
Job Requirement:

Data scientist/software developer to support a proof of- concept demonstration using natural language processing and other machine learning methods to improve the intake process.
This work is critical to demonstrating the potential of the latest technology to improve the lives of children at risk.

The Data Scientist/Developer will be responsible for supporting the development, implementation, and testing of

statistical models, integration of NLP, and refinement and testing of the prototype. The data scientist will work closely

with State stakeholders and technical team members to ensure the quality of the results and that the derived methods

are transparent, statistically sound, relevant, and documented.

Key Responsibilities

• Current Processes & Technology

o Collectively engage with MDCPS and other team members to understand the current intake process and

outcomes.

o Identify how the State decides to deploy resources based on the intake information.

o Contribute to the identification of shortcomings in the intake process and opportunities to improve outcomes.

Use information from interviews, discovery sessions, and workshops to identify.

o Identify any internal data sources used in the intake process.

• Devise New Intake Approach Using New Technologies

o Based on an understanding of the current intake process and its shortcomings, devise and propose an

improved process using natural language processing and other machine learning methods to favorably impact child

outcomes while reducing resources.

o Quantify to the extent possible, the impact of the improved process and use of new technology.

• Map Anticipated Data Source Changes

o Determine how internal data sources might change with future modifications to core IT systems used by

MDCPS.

o Adjust the proposed intake process to account for any data source changes

• Design Review(s)

o Conduct a preliminary and a final design review of an improved intake tool proof-of-concept implementation.

o Include anticipated outcomes from the use of the technology and any differences that may be evident from the

proof-of-concept implementation.

o If an LLM is intended to be used, show how the data will be protected.

o Identify the source of the data that will be used in the proof-of-concept implementation. If data from the State is

unavailable, describe an alternative approach.

• Implementation of Proof-of-Concept

o Create a means of hosting data, whether the data is provided by the State, simulated, or other means.

o Construct a demonstrable prototype application that will illustrate the new technology’s impact on children and

State resources.

o Build the prototype application using Python, C++, JAVA, and/or SQL, or similar language. Use Postgres or a

similar database if needed.

o Integrate the proof-of-concept with the available data source.

o Conduct tests to validate the functionality of the application.

o Validate to the extent possible, the impact on children and State resources from using the prototype in a fully

implemented form.

o Seek validation of the application’s efficacy from key State stakeholders through one-on-one demonstrations.

• Conference Room Demonstration

o During 3-4 days, provide a conference room demonstration that shows how the prototype application can

improve child outcomes and reduce State resources.

o Provide stakeholders a hands-on-experience with the application.

• Agile Development Process

o Participate in the Agile development process to ensure the success of the project.

Requirement Details:

• Bachelor’s or Master’s degree in computer science, engineering, physics, or related field.

• Have participated in US Federal Gov’t data science programs requiring TS/SCI clearance, delivering solutions

requiring the combination of geospatial disciplines, and pattern of life analysis.

• Proven expertise custom developing AI programs “from the ground up”, including but not limited to, text

processing, and optimized selection and application of multiple LLMs.

• Minimum two (2) years of experience designing and implementing machine-learning solutions based on first

principles, including developing custom statistical methods without reliance on pre-built libraries.

• Minimum academic math background to include full calculus series, linear algebra, and statistics. Discrete

math, advanced statistics, and differential equations are a plus.

• Knowledge and competence in databases such as Postgres, MySQL, SQL Server, as well as Python, C++,

JAVA, React, NextJS, NodeJS, and AWS.

• Experience deploying analytic models in pilot or AWS production environments.

• Good communication skills with both technical and non-technical people.

• Strong understanding of model validation and performance measurement.

• Experience deploying advanced analytic solutions in public-sector or regulated environments.