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Computer Integrated Machining Jobs in Georgia (NOW HIRING)

Support integration of new tooling, equipment, and technologies to improve efficiency and reduce ... Proficiency in Microsoft Office and familiarity with engineering systems (e.g., CAD, ERP/MRP ...

Are you passionate about applying machine learning to transform the future of RF hardware? At ... Tool Integration: Seamlessly integrate ML inference engines into existing RF EDA infrastructure to ...

Are you passionate about applying machine learning to transform the future of RF hardware? At ... Tool Integration: Seamlessly integrate ML inference engines into existing RF EDA infrastructure to ...

Are you passionate about applying machine learning to transform the future of RF hardware? At ... Tool Integration: Seamlessly integrate ML inference engines into existing RF EDA infrastructure to ...

Deploy and integrate machine learning models into industrial equipment and inspection systems ... Bachelor's degree in a quantitative discipline (e.g., Computer Science, Statistics, Industrial ...

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Computer Integrated Machining information

See Georgia salary details

$27.9K

$54.9K

$80.6K

How much do computer integrated machining jobs pay per year?

As of Jul 9, 2026, the average yearly pay for computer integrated machining in Georgia is $54,863.00, according to ZipRecruiter salary data. Most workers in this role earn between $42,600.00 and $67,600.00 per year, depending on experience, location, and employer.

How much is a CNC machinist paid?

A CNC machinist's average salary varies by location and experience but typically ranges from $45,000 to $70,000 annually. Skilled machinists with certifications and experience in programming and setup can earn higher wages, especially in manufacturing environments with advanced CNC equipment.

What are some common challenges faced by professionals in Computer Integrated Machining, and how can they be addressed?

Professionals in Computer Integrated Machining often face challenges such as adapting to rapidly evolving technology, maintaining precision under tight deadlines, and troubleshooting complex CNC equipment. Staying current with software updates and industry certifications, as well as collaborating closely with engineers and quality control teams, can help overcome these obstacles. Additionally, strong organizational skills and attention to detail are crucial for ensuring the accuracy and efficiency of machined parts, while continuous learning helps professionals stay competitive in the field.

What is computer integrated machining?

Computer integrated machining (CIM) is a manufacturing process that combines computer-aided design (CAD), computer-aided manufacturing (CAM), and automated machine tools to produce parts efficiently and accurately. It involves the use of software and robotics to control machining operations, reducing manual intervention and increasing precision. Professionals in this field often work with CNC machines and require knowledge of programming and automation systems.

Is a CNC job a good career?

A CNC (Computer Numerical Control) machining job is a stable career option with demand in manufacturing and aerospace industries. It requires technical skills, knowledge of CNC programming, and often certification or training, offering opportunities for advancement and good wages.

What is the difference between Computer Integrated Machining vs CNC Machinist?

AspectComputer Integrated MachiningCNC Machinist
CredentialsTechnical training, certifications in CAD/CAM softwareHigh school diploma, technical training, CNC certification
Work EnvironmentManufacturing floors with automated machinery, computer stationsWorkshop or manufacturing floor operating CNC machines
Industry UsageUsed in automated, high-volume manufacturing settingsCommon in custom, small-batch, or precision machining
Job FocusDesign, programming, and overseeing automated machining processesOperating and setting up CNC machines to produce parts

Computer Integrated Machining involves managing automated manufacturing systems with a focus on programming and overseeing production processes, often requiring knowledge of CAD/CAM software. CNC Machinists operate and set up CNC machines directly, focusing on manual operation and adjustments. Both roles are essential in manufacturing but differ in scope, automation level, and technical requirements.

What are the key skills and qualifications needed to thrive as a Computer Integrated Machining professional, and why are they important?

To excel in Computer Integrated Machining, you need a solid understanding of machining principles, blueprint reading, and mathematics, often backed by a diploma or certificate in machining or manufacturing technology. Proficiency with CNC machines, CAD/CAM software, and measuring instruments like calipers and micrometers is essential. Attention to detail, problem-solving, and effective communication are key soft skills that set top professionals apart. These competencies ensure precise manufacturing, efficient workflow, and the ability to adapt to evolving production demands.

Is AI taking over machinist jobs?

Computer Integrated Machining involves using automation and computer-controlled tools, but AI has not fully replaced machinist jobs. Instead, AI and automation are augmenting roles by increasing efficiency and precision, requiring machinists to develop skills in programming and operating advanced machinery.
Infographic showing various Computer Integrated Machining job openings in Georgia as of July 2026, with employment types broken down into 1% As Needed, 82% Full Time, 13% Part Time, 1% Temporary, and 3% Contract. Highlights an 82% Physical, 1% Hybrid, and 17% Remote job distribution, with an average salary of $54,863 per year, or $26.4 per hour.

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Medical, Dental, Vision, Retirement, PTO

Posted 23 days ago


Job description

Machining EngineerCompany Overview

At Mitsubishi Power, we're not just building better clean energy technologies; we're architecting a better future. Our team is boldly redefining power generation to accelerate the world's energy transition. We operate as one team, pushing toward our vision of the future. We value problem solvers, prioritize collaboration, and support each other in an inclusive culture built on accountability and authenticity by demonstrating our values: Safety, Family, Innovative, Inclusive, Accountable & Courageous. Together, we're building the future we all aspire to - making net zero a reality.

Role Overview

The Machining Engineer II is responsible for supporting the development, implementation, and continuous improvement of machining and manufacturing processes. This role works closely with cross-functional teams-including operations, technicians, sourcing, and project management-to drive safety, quality, efficiency, and cost effectiveness.

This position requires hands-on technical expertise, problem-solving, and ownership of assigned processes and projects.

Key Responsibilities
  • Demonstrates our core competencies: Action oriented, change champion, customer-focused, developing self & others, and ownership
  • Support new process introduction, process qualification, and continuous improvement initiatives.
  • Collaborate with cross-functional teams to troubleshoot and resolve machining and manufacturing issues.
  • Analyze process data, metrics, and performance indicators to identify inefficiencies and implement solutions.
  • Develop, update, and maintain machining process plans (MPPs), work instructions, and technical documentation.
  • Support integration of new tooling, equipment, and technologies to improve efficiency and reduce cost.
  • Experience with CNC machine programming using MasterCAM.
  • Partner with design engineering and supply chain to support design for manufacturability (DFM).
  • Ensure compliance with engineering standards, best practices, and quality requirements.
  • Participate in root cause analysis and corrective action activities for nonconformances.
  • Support continuous improvement initiatives focused on safety, quality, lead time, and cost reduction.
  • Provide technical guidance and support to shop floor personnel as needed.
  • Drive a shop-centric mindset by maintaining strong engagement with machining operations.
Requirements
  • Bachelor's degree in Engineering or related discipline required or 7+ years of related experience.
  • Experience in gas turbine or heavy manufacturing environments preferred.
  • 3+ years of experience in a machining or manufacturing environment.
  • Strong ability to read and interpret technical drawings, schematics, and process documentation.
  • Ability to write technical reports, work instructions, and standard operating procedures.
  • Solid understanding of machining processes (e.g., CNC machining, tooling, fixturing, GD&T preferred).
  • Ability to analyze data and apply basic statistical and mathematical concepts to problem-solving.
  • Strong problem-solving skills with the ability to work independently on moderately complex issues.
  • Proficiency in Microsoft Office and familiarity with engineering systems (e.g., CAD, ERP/MRP systems preferred).
  • Effective communication skills with the ability to collaborate across teams and functions.
  • Experience with process optimization, automation, or lean manufacturing.
Why Should You Apply?
  • Excellent Benefits (Medical, Dental, Vision & 401K Matching).
  • Excellent development programs and advancement opportunities.
  • Tuition reimbursement and on-the-job training.
  • Paid vacation, sick time, and holidays.
  • Committed to quality products and services.
  • Great working environment and culture.
  • Employee Appreciation Programs and Event.

Mitsubishi Power is an Equal Employment Opportunity (EEO) employer actively seeking to diversify the workforce and is committed to a policy of equal employment opportunity. Therefore, all qualified applicants regardless of race, color, religion, gender, sexual orientation, gender identity, national origin, disability, veteran status, or any other legally recognized protected basis under applicable law, are strongly encouraged to apply.