Collaborate with machinists, manufacturing engineers, suppliers, and quality teams to optimize ... Work effectively in a collaborative team environment emphasizing continuous learning, innovation ...
Collaborate with machinists, manufacturing engineers, suppliers, and quality teams to optimize ... Work effectively in a collaborative team environment emphasizing continuous learning, innovation ...
Machine Learning Cfd information
See Orem, UT salary details
$9.6K - $19.1K
0% of jobs
$19.1K - $28.7K
0% of jobs
$28.7K - $38.3K
10% of jobs
$38.3K - $47.8K
0% of jobs
$47.8K - $57.4K
0% of jobs
$57.4K - $66.9K
7% of jobs
$71K is the 25th percentile. Wages below this are outliers.
$66.9K - $76.5K
18% of jobs
The median wage is $81.8K / yr.
$76.5K - $86.1K
27% of jobs
$93.7K is the 75th percentile. Wages above this are outliers.
$86.1K - $95.6K
16% of jobs
$95.6K - $105.2K
19% of jobs
$105.2K - $114.8K
3% of jobs
$9.6K
$80.9K
$114.8K
How much do machine learning cfd jobs pay per year?
As of Jun 1, 2026, the average yearly pay for machine learning cfd in Orem, UT is $80,864.00, according to ZipRecruiter salary data. Most workers in this role earn between $74,300.00 and $95,600.00 per year, depending on experience, location, and employer.
What are the key skills and qualifications needed to thrive as a Machine Learning CFD (Computational Fluid Dynamics) Engineer, and why are they important?
To thrive as a Machine Learning CFD Engineer, you need a strong background in fluid dynamics, numerical methods, and machine learning, often supported by a degree in engineering, physics, or computer science. Familiarity with CFD software (such as ANSYS Fluent or OpenFOAM), programming languages like Python or C++, and machine learning frameworks (TensorFlow or PyTorch) is essential. Critical thinking, problem-solving, and effective communication are standout soft skills for interpreting data and collaborating on interdisciplinary teams. These competencies are crucial for developing innovative solutions that enhance simulation accuracy and computational efficiency in engineering projects.
How does a Machine Learning CFD professional typically collaborate with domain experts and software engineers in a project setting?
As a Machine Learning CFD (Computational Fluid Dynamics) professional, you’ll frequently collaborate with domain experts such as mechanical or aerospace engineers to ensure your models accurately reflect physical phenomena. You’ll also work closely with software engineers to integrate machine learning algorithms into simulation pipelines and optimize computational performance. Effective communication is key, as you’ll need to translate complex data-driven insights into actionable engineering solutions and vice versa. These collaborative efforts help streamline workflows, improve model accuracy, and ensure practical deployment of ML-enhanced CFD tools.
What are Machine Learning CFD jobs?
Machine Learning CFD (Computational Fluid Dynamics) jobs focus on integrating machine learning techniques with traditional fluid dynamics simulations and analyses. Professionals in this field use AI and data-driven models to accelerate simulations, improve prediction accuracy, and optimize fluid flow processes. These roles often require knowledge of both CFD principles and machine learning algorithms, and are commonly found in industries such as aerospace, automotive, and energy. Typical responsibilities include developing surrogate models for simulations, automating data analysis, and implementing deep learning approaches for complex flow problems.
What is the difference between Machine Learning CFD vs Data Scientist?
| Aspect | Machine Learning CFD | Data Scientist |
|---|---|---|
| Required Credentials | Degree in Engineering, Computer Science, or related fields; knowledge of CFD software | Degree in Statistics, Computer Science, or related fields; strong programming skills |
| Work Environment | Engineering firms, aerospace, automotive industries, research labs | Business, finance, tech companies, research institutions |
| Industry Usage | Simulation, fluid dynamics, engineering analysis | Data analysis, predictive modeling, business insights |
Machine Learning CFD focuses on applying machine learning techniques to computational fluid dynamics simulations, often within engineering contexts. Data Scientists analyze large datasets to extract insights and build predictive models across various industries. While both roles require programming skills and a strong analytical background, Machine Learning CFD emphasizes simulation and engineering applications, whereas Data Scientists focus on data-driven decision-making across diverse sectors.
What job categories do people searching Machine Learning Cfd jobs in Orem, UT look for? The top searched job categories for Machine Learning Cfd jobs in Orem, UT are:
Job description
Mechanical Engineer
Position Description
The Mechanical Engineer will investigate, design, prototype, test, validate, and support the production of firearms and firearm accessories. This role will work within established engineering and manufacturing standards at ZEV Technologies while also contributing to the development of new standards, processes, and innovative product solutions for future programs. The engineer will collaborate cross-functionally with manufacturing, quality, product development, and operations teams to ensure products meet performance, reliability, manufacturability, and regulatory requirements.
Job Responsibilities
Position Description
The Mechanical Engineer will investigate, design, prototype, test, validate, and support the production of firearms and firearm accessories. This role will work within established engineering and manufacturing standards at ZEV Technologies while also contributing to the development of new standards, processes, and innovative product solutions for future programs. The engineer will collaborate cross-functionally with manufacturing, quality, product development, and operations teams to ensure products meet performance, reliability, manufacturability, and regulatory requirements.
Job Responsibilities
- Design and develop firearms, and firearm accessories from concept through production release
- Create detailed 3D CAD models, engineering drawings, assemblies, and bills of materials
- Conduct engineering analysis including tolerance stack-ups, thermal analysis, stress analysis, and design-for-manufacturing reviews
- Develop and execute test plans for validation, durability, safety, reliability, and performance testing
- Analyze test data and provide recommendations for design improvements and corrective actions
- Support prototype builds and transition products into manufacturing
- Collaborate with machinists, manufacturing engineers, suppliers, and quality teams to optimize product manufacturability and assembly efficiency
- Participate in root cause analysis and troubleshooting of product or manufacturing issues
- Ensure designs comply with applicable industry standards, regulations, and internal quality requirements
- Create and maintain engineering documentation including drawings, specifications, work instructions, test reports, and engineering change orders (ECOs)
- Assist with continuous improvement initiatives related to product performance, cost reduction, manufacturability, and production efficiency
- Support new product development timelines and project milestones while managing multiple projects simultaneously
- Participate in hands-on testing, product evaluations, and range testing activities
- Maintain a clean, organized, and safe work environment
- Work effectively in a collaborative team environment emphasizing continuous learning, innovation, and cross-functional support
- Proficiency with a modern CAD system (preferably SolidWorks)
- Proficiency with MS Office Suite or Google Workspace
- Demonstrated mechanical design ability in previous roles or projects
- Strong understanding of mechanical engineering principles including materials, machining processes, GD&T, and tolerance analysis
- Experience with prototyping and manufacturing processes such as CNC machining, sheet metal, additive manufacturing, and assembly methods
- Strong mathematical, analytical, and problem-solving skills
- Ability to interpret and create engineering drawings and technical documentation
- Experience with product testing, data collection, and validation methods
- Excellent organizational skills with the ability to prioritize and manage multiple projects
- Efficient workflow management to meet project timelines and budgets
- Demonstrated ability to work effectively in a team environment emphasizing continuous learning and cross training
- Lead Engineer experiance preferred
- Experience successfully managing projects from start to finish, including delegating tasks efficiently
- Experience with Lean Manufacturing or Six Sigma methodologies desired
- Familiarity with firearms platforms, especially pistols, or related products preferred
- Basic understanding of FEA, CFD, or simulation tools preferred
- Hands-on mechanical aptitude and troubleshooting ability preferred
- Bachelor's degree in Mechanical Engineering or equivalent work experience
- Ability to lift 50 lbs occasionally and navigate stairs to testing areas
- Ability to safely participate in product testing and range activities
- Ability to work in a fast-paced product development and manufacturing environment
About SilencerCo
Sourced by ZipRecruiter
Industry
Manufacturing
Company size
51 - 200 Employees
Headquarters location
West Valley City, UT, US
Year founded
2008