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Quantum Spatial Jobs (NOW HIRING)

Maxar

Vantor is forging the new frontier of spatial intelligence, helping decision makers and operators ... Deep understanding of emerging technology domains (e.g., AI, quantum, biotech, space systems ...

Fidelity Investments

Co-op, Designer

Boston, MA ยท On-site

$20 - $32/hr

... fintech, quantum computing, and emerging technologies to enhance customer experiences and keep ... Spatial Experience Design, AR/VR Design etc) * Presentation and Layout skills: ability to ...

Planet

Senior Camera Hardware Engineer

San Francisco, CA ยท Hybrid

$130.20K - $173.80K/yr

... on quantum efficiency, full-well capacity, and minimizing temporal/spatial noise. * Architect low-noise power delivery networks (PDN) and high-speed differential signaling (LVDS/MIPI) to ensure ...

BAE Systems

Eng I - Optical

Boulder, CO ยท On-site

$64.93K - $110.37K/yr

Perform focal plane system analysis, including radiometric (signal and noise, responsivity, dynamic range, photon transfer), spectral (bandpass performance, quantum efficiency), and spatial (MTF ...

Planet

Senior Camera Hardware Engineer

San Francisco, CA ยท On-site

$130.20K - $173.80K/yr

... on quantum efficiency, full-well capacity, and minimizing temporal/spatial noise. * Architect low-noise power delivery networks (PDN) and high-speed differential signaling (LVDS/MIPI) to ensure ...

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How much do quantum spatial jobs pay per hour?

As of Jun 2, 2026, the average hourly pay for quantum spatial in the United States is $13.72, according to ZipRecruiter salary data. Most workers in this role earn between $12.50 and $14.90 per hour, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Quantum Spatial Analyst, and why are they important?

To thrive as a Quantum Spatial Analyst, you need expertise in geospatial analysis, remote sensing, GIS technology, and a relevant degree in geography, environmental science, or a related field. Familiarity with technical tools such as ArcGIS, ERDAS Imagine, LiDAR processing software, and programming languages like Python is typically required. Strong analytical thinking, attention to detail, and effective communication skills help you interpret complex data and collaborate with interdisciplinary teams. These skills are crucial for delivering accurate spatial insights that inform decision-making in environmental management, urban planning, and related fields.

How does a professional at Quantum Spatial typically collaborate with cross-functional teams on geospatial projects?

At Quantum Spatial, professionals frequently work with multidisciplinary teams that include GIS analysts, project managers, software developers, and field technicians. Collaboration is essential for integrating data collection, analysis, and visualization to deliver comprehensive geospatial solutions. Team members often participate in regular project meetings, share updates through digital platforms, and coordinate closely to ensure project milestones are met efficiently. This collaborative environment fosters knowledge sharing and professional growth, while also helping to resolve technical challenges promptly.

What is Quantum Spatial?

Quantum Spatial is a company that specializes in geospatial data analytics and mapping solutions. They provide services such as LiDAR data collection, aerial imaging, and GIS (Geographic Information System) analysis to help organizations make informed decisions about land use, natural resources, and infrastructure. Quantum Spatial works with clients in sectors like government, utilities, forestry, and environmental management, offering both data collection and advanced spatial analysis. Their expertise helps clients visualize, interpret, and manage spatial data for various projects.

What is the difference between Quantum Spatial vs Geospatial Analyst?

AspectQuantum SpatialGeospatial Analyst
Required CredentialsBachelor's in GIS, Geography, or related field; GIS certificationsBachelor's in GIS, Geography, or related field; GIS certifications
Work EnvironmentField data collection, GIS software, remote sensingGIS analysis, data interpretation, map creation
Industry UsageGeospatial data collection and analysis for various industriesAnalyzing spatial data for urban planning, environmental management

Both roles require similar educational backgrounds and certifications, focusing on GIS and remote sensing. Quantum Spatial often involves field data collection and remote sensing projects, while Geospatial Analysts primarily analyze spatial data and create maps. They work in overlapping industries but differ in daily tasks and focus areas.

More about Quantum Spatial jobs
What states have the most Quantum Spatial jobs? States with the most job openings for Quantum Spatial jobs include:
What job categories do people searching Quantum Spatial jobs look for? The top searched job categories for Quantum Spatial jobs are:
Quantum Spatial jobs near you
Computational Mechanics Scientist (Structural Solver)

Computational Mechanics Scientist (Structural Solver)

Flexcompute Inc.

Watertown, MA โ€ข On-site

Full-time

Medical, Dental, Vision, Retirement

Posted 21 days ago

Job description

Flexcompute is a cutting-edge technology startup that specializes in ultra-fast simulation technology. Our products are utilized by companies in designing and optimizing technology products, with applications ranging from designing airplanes and cars to wind turbines and quantum computing chips. Our customer base includes both household names and startups in emerging industries. Our company was founded by world-renowned leaders in simulation technology from Stanford University and MIT. Backed by top VC firms, we are poised to disrupt the billion-dollar engineering simulation industry with our fast-growing trajectory

We prioritize fundamental understanding over tool proficiency. We are looking for an architect who can derive the governing equations from first principles and implement them into a robust numerical framework.

About Flexcompute

We are a โ€œPhysics Intelligenceโ€ company making hardware innovation as easy as software. Our solvers (Flow360, Tidy3D) are not just faster; they are effectively instant, reducing simulation times from days to minutes using massive GPU parallelism and proprietary algorithms.

  • Intellectual Density: We maintain an exceptionally high talent bar. Our team of ~90 includes over 50 PhDs from MIT, Stanford, and top research labs. You will work alongside peers who will challenge your thinking and elevate your work daily.
  • Impact: Our technology is currently used to design optical interconnects, 3D chiplets, quantum computing chips, eVTOL aircraft, and next-gen wind turbines. You are building the โ€œmath engineโ€ that drives real-world engineering breakthroughs.
  • Stability & Growth: We are a Series C stage company with significant funding, revenue-generating products, and a clear path to disrupting the $20B+ simulation market.

Requirements

  • Education: Ph.D. in Applied Mechanics, Physics, Applied Mathematics, or a related field.
  • Deep Physics Intuition: You possess an intuitive grasp of continuum mechanicsโ€”elasticity, plasticity, contact mechanics, and wave propagation. You can predict how a structure should behave before the simulation runs.
  • Advanced Numerical Analysis: You have a theoretical mastery of numerical PDEs. You can mathematically prove the consistency, stability, and convergence of a scheme. You understand the trade-offs between implicit/explicit integration and various spatial discretizations.
  • Strong General Programming: Proficiency in at least one high-level language (C++, Python, Julia, Rust, or Fortran) with a focus on algorithmic efficiency. You understand data structures, computational complexity (Big O), and how to write maintainable research code.
  • First-Principles Thinking: Demonstrated ability to solve novel problems where no textbook solution exists.

Preferred (But Not Required)

  • Interest in learning High-Performance Computing (HPC) and GPU architecture.
  • Experience with C++ for scientific computing.
  • Exposure to multi-physics coupling (fluid-structure interaction, thermal-stress).

Key Responsibilities

  • Solver Formulation: Derive and implement governing equations for structural mechanics, ensuring thermodynamic consistency and physical accuracy across linear and non-linear regimes.
  • Numerical Architecture: Design the core numerical framework. You will determine the optimal discretization strategies (FEM, DG, IGA, etc.) to balance stability, accuracy, and computational cost.
  • Algorithmic Development: Specific language is secondary to code quality. You will write clean, modular, and efficient algorithms to solve large-scale systems of equations.
  • Physics-Driven Validation: Diagnose solver behavior not just as code execution, but as physical modeling. You must distinguish between numerical instability and physical phenomena.

Benefits

  • Collaborative Autonomy: We operate with high trust. You own your module, but you have immediate access to world-class experts in electromagnetics and fluid dynamics for cross-domain problems.
  • Continuous Learning: We host regular internal seminars where team members teach each otherโ€”from โ€œAdvanced Linear Algebraโ€ to โ€œGPU Memory Hierarchies.โ€
  • Compensation: Competitive salary + meaningful equity in a fast-growing startup.
  • Well-being: Comprehensive Medical, Dental, and Vision insurance; 401(k); and a gym/fitness allowance.
  • Environment: A flat hierarchy where the โ€œbest idea wins,โ€ regardless of job title.