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Computational Geometry Jobs in Utah (NOW HIRING)

... geometry, and combinatorics. * Curriculum Awareness & Adaptive Instruction: Familiar with ... computational to proof-based problems and managing contest time pressure. Adapts instruction using ...

Competition Math Tutor

Provo, UT · Remote

$18 - $40/hr

... geometry, and combinatorics. * Curriculum Awareness & Adaptive Instruction: Familiar with ... computational to proof-based problems and managing contest time pressure. Adapts instruction using ...

Competition Math Tutor

Logan, UT · Remote

$18 - $40/hr

... geometry, and combinatorics. * Curriculum Awareness & Adaptive Instruction: Familiar with ... computational to proof-based problems and managing contest time pressure. Adapts instruction using ...

... geometry, and combinatorics. * Curriculum Awareness & Adaptive Instruction: Familiar with ... computational to proof-based problems and managing contest time pressure. Adapts instruction using ...

Computational Geometry information

See Utah salary details

$37

$50

$67

How much do computational geometry jobs pay per hour?

As of Jul 14, 2026, the average hourly pay for computational geometry in Utah is $50.00, according to ZipRecruiter salary data. Most workers in this role earn between $42.69 and $66.97 per hour, depending on experience, location, and employer.

What types of projects do Computational Geometry professionals typically work on?

Computational Geometry professionals often work on projects involving the development and optimization of algorithms for spatial data processing, 3D modeling, collision detection, mesh generation, and pathfinding. These projects can support a wide range of industries, including computer-aided design (CAD), robotics, computer graphics, and geographic information systems (GIS). Team members may collaborate closely with software engineers, data scientists, and hardware designers to integrate geometric algorithms into larger systems. The work environment is typically collaborative, innovative, and detail-oriented, offering opportunities to contribute to cutting-edge technologies and industry advancements.

What is a Computational Geometry job?

A Computational Geometry job involves designing, analyzing, and implementing algorithms to solve geometric problems. These roles are common in fields like computer graphics, robotics, geographic information systems (GIS), and computer-aided design (CAD). Professionals in this field work with spatial data structures, optimization methods, and geometric modeling techniques to improve efficiency and accuracy in applications. Strong skills in algorithms, mathematics, and programming (often in C++, Python, or specialized libraries) are essential.

What are the key skills and qualifications needed to thrive in the Computational Geometry position, and why are they important?

To excel in Computational Geometry roles, a strong background in mathematics, algorithms, and computer science, often supported by an advanced degree, is essential. Proficiency in programming languages like C++, Python, or Java, as well as experience with computational geometry libraries and tools, is highly valued. Strong analytical thinking, problem-solving ability, and collaboration skills enable professionals to effectively tackle complex geometrical challenges with teams. These competencies are critical for developing efficient algorithms and innovative solutions in fields such as computer graphics, robotics, CAD, and geographic information systems.

Infographic showing various Computational Geometry job openings in Utah as of July 2026, with employment types broken down into 2% Internship, 72% Full Time, 24% Part Time, 1% Temporary, and 1% Contract. Highlights an 70% Physical, 1% Hybrid, and 29% Remote job distribution, with an average salary of $104,009 per year, or $50 per hour.
Post-Doctoral Researcher - Civil & Construction Engineering - Hypersonic Flow Solvers and Computa...

Post-Doctoral Researcher - Civil & Construction Engineering - Hypersonic Flow Solvers and Computa...

Brigham Young University

Provo, UT

Full-time

Posted 3 days ago

New


Brigham Young University rating

7.5

Company rating: 7.5 out of 10

Based on 86 frontline employees who took The Breakroom Quiz

273rd of 553 rated colleges and universities


Job description

Job Title:Post-Doctoral Researcher - Civil & Construction Engineering - Hypersonic Flow Solvers and Computational Mechanics

Posting End Date:July 30, 2026

*NOTE: Last day to apply is Wednesday, July 29, 2026, at 11:59 pm (MT)

Position Start Date:September 1, 2026

Required Degree:

PhD in Mechanical Engineering, Aerospace Engineering, Civil Engineering, Applied Mathematics, Computational Science, Computer Science, or a closely related field, completed prior to the start date.

The required degree must be completed by the start date.

Required Qualifications:

  • Strong background in computational mechanics, numerical methods, scientific computing, or solver development.
  • Demonstrated experience developing scientific or engineering simulation software.
  • Strong written and verbal communication skills.
  • Ability to work independently while contributing effectively to a collaborative research team.

Preferred Qualifications:

  • Experience developing or using computational fluid dynamics solvers, particularly for compressible, high-speed, or hypersonic flows.
  • Experience with computational solid mechanics solvers.
  • Experience with high-order mesh generation, computational geometry, adaptive meshing, moving meshes, or mesh optimization.
  • Experience with fluid-structure interaction or other multiphysics coupling strategies.
  • Experience with isogeometric analysis, high-order finite element methods, discontinuous Galerkin methods, finite volume methods, or related advanced discretizations.
  • Experience with C++, Fortran, Python, Julia, MATLAB, or other scientific computing languages.
  • Experience with MPI, OpenMP, CUDA, Kokkos, RAJA, PETSc, Trilinos, MFEM, deal.II, libMesh, SU2, OpenFOAM, FUN3D, or related computational science software.
  • Experience with collaborative software development practices, including Git, GitHub/GitLab, testing frameworks, continuous integration, and technical documentation.

Position Summary:

A post-doctoral researcher position is available to support advanced research and software development in computational mechanics, with a primary emphasis on high-performance hypersonic flow solvers and related multiphysics simulation technologies. The researcher will contribute to the development, implementation, verification, validation, and application of advanced numerical methods for high-speed compressible flows and related multiphysics simulation capabilities. Depending on the candidate's background and project needs, research may involve spline-based finite element methods, coupled fluid-structure interaction, space-time solvers, solid mechanics, mesh generation, and related computational modeling capabilities.

The position is intended for a highly motivated researcher with strong technical depth in numerical methods, scientific computing, solver development, and computational mechanics. Experience with one or more of the following areas is especially desirable: computational fluid dynamics, computational solid mechanics, mesh generation, multiphysics coupling, parallel programming, and/or isogeometric analysis.

This role emphasizes rigorous computational research, high-quality scientific software development, and close collaboration with faculty, students, and external research partners. The successful candidate will help advance next-generation simulation capabilities for challenging hypersonic and multiphysics applications.

Duties/Expectations:

The Post-Doctoral Researcher will contribute in the following areas:

Hypersonic Flow Solvers, Computational Mechanics, and Numerical Methods

  • Develop, implement, test, and improve numerical methods for hypersonic and high-speed compressible flow simulation.
  • Contribute to scalable solver capabilities for complex flow physics, which may include shocks, boundary layers, thermal effects, fluid-structure coupling, solid mechanics, mesh motion, and other challenging multiphysics phenomena.
  • Develop and evaluate numerical discretizations, nonlinear and linear solvers, preconditioners, time-integration strategies, and stabilization approaches relevant to large-scale simulation.
  • Support research involving advanced discretization technologies, potentially including finite element methods, high-order methods, space-time methods, and related approaches.
  • Assist in integrating solver components across fluid, solid, mesh, and multiphysics modules.
  • Support verification and validation activities, including benchmark problems, code-to-code comparisons, manufactured solutions, and comparison with available experimental or reference data.
  • Develop robust workflows for simulation setup, execution, post-processing, and analysis of hypersonic flow problems.

High-Performance Scientific Software Development

  • Design, implement, and maintain high-quality scientific computing software in modern programming environments.
  • Develop scalable parallel algorithms and simulation workflows for distributed-memory, shared-memory, and GPU-accelerated high-performance computing.
  • Use and contribute to computational tools involving linear algebra, sparse matrix methods, iterative solvers, preconditioning, mesh data structures, and parallel communication.
  • Support code testing, documentation, reproducibility, version control, and software engineering best practices.

Applied Research, Publications, and Technical Communication

  • Conduct original research related to hypersonic simulation, computational mechanics, numerical methods, and scientific computing.
  • Co-author peer-reviewed journal articles, conference papers, technical reports, and research presentations.
  • Present research results at project meetings, technical reviews, conferences, and sponsor-facing discussions.
  • Contribute to proposal development, technical documentation, and research planning as appropriate.

Collaboration and Mentorship

  • Work closely with faculty, graduate students, undergraduate researchers, and external collaborators on research and software development activities.
  • Provide technical guidance to students contributing to solver development, computational mechanics, mesh generation, or multiphysics simulation tasks.
  • Support internal knowledge transfer through documentation, tutorials, code reviews, and collaborative development practices.
  • Help maintain a productive, rigorous, and collegial research environment.

Documents Required at the Time of Application: Please attach the following documents to your faculty application:

  • Cover letter describing research interests, relevant experience, and fit for the position.
  • Curriculum vitae.
  • Mission Alignment Statement
  • Names and contact information for three professional references.
  • Representative publications or technical writing samples.
  • Optional: links to relevant software repositories, computational projects, or research codes.

Note: Failure to attach the required documents may result in your application not being considered.

This position requires the successful candidate to relocate and/or reside in Utah for the duration of their employment.

MISSION ALIGNMENT STATEMENT INSTRUCTIONS

If you are a member of the Church of Jesus Christ of Latter-day Saints:

BYU is committed to hiring faculty members who enthusiastically embrace and energetically advance its unique mission. To this end, please include a one-page mission alignment statement as part of your application that addresses how you might, as a BYU faculty member: (1) live a life of loyalty to Jesus Christ and His restored Church and align yourself with doctrine and teachings declared by living prophets, seers, and revelators; (2) demonstrate intentionality in building faith in Jesus Christ and testimony of His restored gospel among students and others in the BYU community; and (3) teach your subject matter with the Spirit of God and strive to keep it "bathed in the light and color of the restored gospel" (Spencer W. Kimball).

If you are not a member of the Church of Jesus Christ of Latter-day Saints:

Applicants who are not members of The Church of Jesus Christ of Latter-day Saints include a one-page mission alignment statement that describes understanding of and commitment to the Mission of Brigham Young University and the AIMS of a BYU Education.

EMPLOYMENT REQUIREMENTS

All new employees who are members of The Church of Jesus Christ of Latter-day Saints will be required to hold and be worthy to hold a current temple recommend.

All faculty are required to abide by the university's Honor Code and Dress &Grooming Standards. Preference is given to qualified candidates who are members in good standing of the affiliated church, The Church of Jesus Christ of Latter-day Saints. Successful candidates are expected to support and contribute to the academic and religious missions of the university within the context of the principles and doctrine of the affiliated church.


EQUAL OPPORTUNITY

Brigham Young University is an equal opportunity employer, including disability and protected veteran status.


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