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Geometric Engineering Jobs (NOW HIRING)

We are seeking Senior Software Engineers to contribute to our core geometric modeling technologies that support design, presentation, and analysis of homes. We are remote-first, this role can sit ...

Engineering Intern

Middlebury, CT · On-site

$16.75 - $21.50/hr

Create designs and drawings based on engineering specifications or descriptions of customer requirements Apply Geometric Dimensioning and Tolerancing (GD&T) to facilitate inspection and manufacturing ...

... to geometric dimensioning and tolerancing (GD&T) standards (ANSI/ASME Y14.5M-1994). Hardware ... Demonstrates the ability to fabricate hardware and prototypes per instructions or engineering ...

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Thinkpath Engineering Services (TES) is recruiting for an Engineering Manager (Airline Support) to ... Conceptual design, analysis, layout, form/fit and function analysis, drafting (including Geometric ...

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Engineering Intern

Middlebury, CT · On-site

$16.75 - $21.50/hr

... Geometric Dimensioning and Tolerancing (GD&T) to facilitate inspection and manufacturing • Interact with internal customers as an engineering representative Required Skills, Education and ...

Train and assist team in knowledge of geometric dimensioning and tolerance standards and practices ... Work directly with Engineering to complete new designs and modifications, incorporate engineering ...

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Geometric Engineering information

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How much do geometric engineering jobs pay per hour?

As of Jul 3, 2026, the average hourly pay for geometric engineering in the United States is $31.55, according to ZipRecruiter salary data. Most workers in this role earn between $20.19 and $37.98 per hour, depending on experience, location, and employer.

What are some common challenges faced by geometric engineers when collaborating with multidisciplinary teams?

Geometric engineers frequently work alongside professionals from civil, mechanical, and software engineering backgrounds. A common challenge is ensuring that geometric designs integrate seamlessly with other technical requirements, such as structural integrity or manufacturing constraints. Effective communication and a strong understanding of both geometric principles and the broader project goals are essential. Regular cross-team meetings and the use of shared digital modeling tools help address these challenges and facilitate smooth collaboration.

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

To thrive as a Geometric Engineer, you need a strong background in mathematics, spatial analysis, and engineering principles, often supported by a degree in civil engineering, geomatics, or a related field. Familiarity with CAD software, GIS platforms, and surveying equipment is typically required, and certifications like Professional Engineer (PE) or Certified Survey Technician (CST) can be advantageous. Strong problem-solving abilities, attention to detail, and effective communication skills help professionals excel in collaborating with multidisciplinary teams and ensuring precision in project execution. These skills and qualifications are crucial for delivering accurate designs, optimizing project outcomes, and maintaining safety and compliance in engineering projects.

What engineers make $500,000?

Senior engineers in specialized fields such as petroleum engineering, aerospace engineering, and certain software engineering roles can earn $500,000 or more annually, often with experience, advanced skills, and bonuses. High-level positions in management or executive roles within engineering companies may also reach or exceed this salary level.

What is the difference between Geometric Engineering vs Civil Engineering?

AspectGeometric EngineeringCivil Engineering
Required CredentialsBachelor's or Master's in Geomatics, Geotechnical, or Civil Engineering; certifications in surveying or GISBachelor's or Master's in Civil Engineering; PE license often required
Work EnvironmentField surveys, construction sites, GIS labsConstruction sites, urban planning, infrastructure projects
Industry UsageSurveying, mapping, geospatial analysisBuilding, transportation, water resources, infrastructure

Geometric Engineering focuses on surveying, mapping, and geospatial data, often working in field environments. Civil Engineering covers a broader range of infrastructure projects, including design and construction. While both roles require engineering degrees and involve site work, Geometric Engineering specializes in spatial data and surveying techniques, whereas Civil Engineering emphasizes structural design and project management.

What engineers make $300,000 a year?

Senior engineers in specialized fields such as petroleum engineering, aerospace engineering, and certain software engineering roles can earn $300,000 or more annually, especially with extensive experience, advanced skills, and leadership responsibilities. High-level positions often require advanced degrees, certifications, and experience working in high-demand industries or companies.

What is geometric engineering?

Geometric engineering is a field that focuses on applying mathematical and computational principles to design, analyze, and optimize the shapes and structures of objects. It involves using geometry, computer-aided design (CAD), and advanced modeling techniques to create efficient and functional products, components, or systems. Geometric engineers often work in industries like automotive, aerospace, architecture, and manufacturing, contributing to improvements in performance, aesthetics, and manufacturing processes.

What does a geometric engineer do?

A geometric engineer designs and analyzes geometric aspects of structures, products, or systems, often using computer-aided design (CAD) software. They focus on ensuring precise measurements, spatial relationships, and geometric accuracy in engineering projects, working closely with other engineering disciplines to optimize design and functionality.

What jobs can I get with a geometry degree?

A geometry degree can lead to careers in fields such as civil engineering, architecture, surveying, GIS (Geographic Information Systems), and computer graphics. These roles often require strong spatial reasoning, proficiency with CAD software, and sometimes additional certifications or technical training.
More about Geometric Engineering jobs
What cities are hiring for Geometric Engineering jobs? Cities with the most Geometric Engineering job openings:
What states have the most Geometric Engineering jobs? States with the most job openings for Geometric Engineering jobs include:
Infographic showing various Geometric Engineering job openings in the United States as of June 2026, with employment types broken down into 96% Full Time, and 4% Part Time. Highlights an 65% Physical, 2% Hybrid, and 33% Remote job distribution, with an average salary of $65,624 per year, or $31.6 per hour.
Principal Computational Engineer, 3D CAD & Geometric Intelligence

Principal Computational Engineer, 3D CAD & Geometric Intelligence

Xometry

Waltham, MA

Other

Medical, Dental, Vision, Life, Retirement, PTO

Posted 12 hours ago


Job description

Xometry is seeking a Principal Computational Engineer to set the multi-year technical direction for our 3D geometry and Design for Manufacturability (DFM) platform. You will be the senior individual contributor in this domain, owning the architecture that turns every customer-uploaded CAD model into a manufacturable, priced, and routed part across CNC, sheet metal, additive, injection molding, casting, and finishing processes. This role also serves as the technical architect for one of Xometry's highest-leverage strategic initiatives: the embedded DFM AI + IQE integration with our partner. You will lead the integration of Xometry's proprietary computational geometry and AI directly into the partner's industrial software ecosystem - including Solid Edge, NX, Designcenter, and Teamcenter - integrated within the native DesignCenter environment to deliver real-time manufacturability feedback and pricing insights. The goal is a "science fiction speed" design-to-source digital thread from ideation to physical parts, with no export, no round-trip, and no translation loss. This is a hands-on role. You will write production C++ and Python that ships to millions of quotes per year, define the kernel and toolchain strategy, publish or patent novel methods where they create durable advantage, and raise the technical bar of the team through mentorship, design review, and hiring. The role requires demonstrated mastery of computational geometry, geometric modeling kernels, and the messy reality of consuming arbitrary customer CAD - STEP, IGES, X_T, JT, SLDPRT, CATPart, and DXF - at scale.

Responsibilities

  • Technical Vision & Roadmap: Own and drive a multi-year technical roadmap for Xometry's geometric reasoning stack - B-Rep ingestion and healing, feature recognition, DFM analysis, sub-process routing, geometric pricing signals, and downstream CAM/CAE integration - balancing research ambition with disciplined business value delivery.
  • Partnership Integration (DFM AI + IQE): Serve as the technical architect for the embedded DFM AI + IQE track inside the partner's ecosystem. Lead the integration of Xometry's geometric and AI capabilities directly into Solid Edge, NX, Designcenter, and Teamcenter, operating directly on native 3D geometry through the Parasolid kernel. Define the integration architecture, the geometry contract between the two systems, the precision and latency budgets required for in-CAD real-time feedback, and the long-term roadmap for an end-to-end digital thread from designer intent to manufactured part.
  • Geometric Kernel Architecture: Architect and personally implement the hardest components of the geometric kernel layer - robust intersection, offset, Boolean, projection, and trimming operations on NURBS curves and surfaces - plus the resilience layer that absorbs malformed CAD that arrives in the wild. Establish precision, robustness, and performance contracts (floating-point error budgets, predicate selection, tolerancing, numerical stability) that the rest of engineering builds on top of.
  • DFM & Sub-Process Intelligence: Drive the methodology for combining classical computational geometry (B-Rep traversal, parametric surface analysis, medial axis, geodesic distance, curvature analysis) with modern learning-based approaches (graph neural networks on B-Reps, point-cloud and voxel encoders, differentiable geometry, neural implicit representations) to detect manufacturability risk across 12+ CNC sub-processes and the broader process catalog.
  • Research-to-Production Translation: Translate research from computational geometry, computer-aided geometric design, and computational fabrication into shipped systems. Publish, patent, or open-source where doing so strengthens recruiting, partnerships, or the platform itself.
  • Technical Leadership & Standards: Provide technical leadership across geometry, ML, and platform teams. Lead design reviews, define the technical interview bar, and partner with engineering leadership on hiring, calibration, and IC-track career progression. Mentor Staff, Senior, and mid-level engineers.
  • Cross-Functional Leadership: Partner with Product, Manufacturing Engineering, Pricing, and Operations leadership to translate business outcomes (margin, lead time, yield, defect rate) into precisely specified geometric and algorithmic problems. Influence roadmaps, priorities, and resourcing across partner teams.
  • External Representation: Represent Xometry externally - conferences, standards bodies, academic collaborations, technical reviews, and customer engagements - as the recognized technical authority for our DFM and geometry platform.

What You'll Bring to Xometry

  • Experience & Education: M.S. or PhD in applied mathematics, computer science, mechanical engineering, computational physics, or a closely related field. Typically 12+ years of progressive experience applying computational methods to geometry, CAD/CAE, or simulation problems, with a demonstrable record of shipped algorithms in commercial or production systems. PhD with 8+ years of relevant industry experience is equivalent.
  • Geometric Modeling Mastery: Deep expertise across the geometric modeling stack - analytical geometry, parametric and free-form geometry (NURBS, etc.), trimmed surfaces, B-Rep topology, geometry healing and repair, robust predicates, and high-performance spatial data structures.
  • Kernel & CAD Interoperability: Hands-on experience with one or more commercial or open geometric kernels - Parasolid, ACIS, CGM, Granite, ShapeManager, Open CASCADE / pythonOCC - including a working understanding of where each kernel fails on real-world inputs and how to compensate. Strong working knowledge of CAD interchange and translation: STEP (AP203/AP214/AP242), IGES, JT, Parasolid XT, native CATIA / NX / Creo / SolidWorks formats, DXF, and HOOPS Exchange / PRC.
  • Technical Mastery: Expert-level C++ (C++14/17/20) with modern build systems (CMake), debugging (GDB, sanitizers), profiling, and binding generation (SWIG, pybind11). Strong Python for tooling, prototyping, and ML integration. Comfort with cloud platforms (AWS) for large-scale geometry processing and model training. Experiences or exposures of using code generation tools (e.g. Claude) with geometry engines. Ability to work in a large computational geometry codebase involving C++ and Python (numpy, numba) code.
  • Mathematical Rigor: Rigorous grounding in linear algebra, multivariable and differential calculus, numerical methods, differential equations, and floating-point error analysis. Comfort with differential geometry and topology as it applies to surface and curve modeling.
  • Recognized Track Record: Demonstrable record of research-to-production translation: peer-reviewed publications, issued patents, significant open-source contributions, or shipped commercial capabilities that you can point to and explain end-to-end.
  • AI/ML Fluency: Familiarity with ML/AI methods relevant to geometry - graph neural networks on B-Reps (BRepGAT, BRepFormer, AAGNet, UV-Net), point-cloud / voxel / SDF encoders, neural implicit representations, NURBS-aware learning - and clear judgment about when classical methods beat learned ones.
  • Manufacturing Domain Fluency: Familiarity with industry standards (ISO, ASME Y14.5, GD&T) and a working command of manufacturing processes (subtractive, additive, formative, finishing) and materials science sufficient to converse credibly with senior manufacturing engineers and partner engineers.
  • Leadership: Track record of mentoring and elevating Staff- and Senior-level engineers. Able to set technical direction by influence rather than mandate, and to align executives and cross-functional partners around ambitious scientific directions.
  • ITAR Compliance: Must be a US Citizen or Green Card holder (ITAR).

Qualifications

  • Partner Ecosystem Experience: Prior development experience inside the partner's stack - Parasolid kernel programming, NX Open / NX Customization, Solid Edge API, Teamcenter integration, or Designcenter / Mendix-based workflow development.
  • Published Research: PhD with a published thesis or sustained publication record in computational geometry, geometric modeling, computer-aided geometric design (CAGD), computational fabrication, isogeometric analysis, or computational dynamics.
  • Open-Source Authorship: Authorship of, or substantial contribution to, a recognized open-source geometric modeling library, kernel, or framework (e.g., NURBS / B-spline
    modeling frameworks, mesh generation toolkits, CAD interoperability libraries).
  • Industry Pedigree: Experience inside a CAD vendor, kernel vendor, simulation vendor, or vertically integrated manufacturing platform - Dassault Systemes, PTC, Autodesk, Onshape, Shapr3D, ANSYS, Altair, Desktop Metal, Markforged, Align Technology, ConforMIS, or comparable.
  • Scale: Designed and operated geometry algorithms at large scale - cloud compute, distributed geometry processing, GPU-accelerated computational geometry, parallel meshing, or geometry serving behind a real-time API.
  • Hiring & Calibration: Experience hiring, calibrating, and growing computational-geometry talent - a domain where the global talent pool is small and the hiring bar is notoriously difficult to set.

What Success Looks Like in 12 Months

  • The Partner DFM AI + IQE integration is in production inside the partner's ecosystem with measurable adoption, in-CAD latency contracts being met, and a clear roadmap for expanding the digital thread across additional processes and partner surfaces. 
  • The geometric reasoning stack has a coherent, documented architecture with explicit precision, robustness, and latency contracts; new sub-processes and DFM rules plug in without bespoke rewrites. 
  • DFM coverage spans 12+ CNC sub-processes plus the broader process catalog, with per-sub-process precision/recall measured and on a known improvement trajectory. 
  • At least one piece of methodology has been published, patented, or open-sourced in a way that strengthens Xometry's recruiting and external technical brand.
  • Two to three Staff and Senior engineers can credibly cite you as the reason they leveled up.

The estimated base salary range for new hires into this role is $200,000-$230,000.00 annually + commission depending on factors such as job-related skills, relevant experience, and location. We also offer a competitive benefits package, including 401(k) match, medical, dental and vision insurance; life and disability insurance; generous paid time off including vacation, sick leave, floating and fixed holidays, maternity and bonding leave; EAP, other wellbeing resources; and much more.

#LI-Hybrid


Xometry logo

About Xometry

Sourced by ZipRecruiter

Xometry (NASDAQ: XMTR) powers the industries of today and tomorrow by connecting the people with big ideas to the manufacturers who can bring them to life. Xometry's digital marketplace gives manufacturers the critical resources they need to grow their business while also making it easy for buyers at Fortune 1000 companies to tap into global manufacturing capacity.

Industry

Software development

Company size

501 - 1,000 Employees

Headquarters location

Gaithersburg, MD, US

Year founded

2013