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Quant Engineer Jobs in Arizona (NOW HIRING)

Structural Engineer I Role Overview & Purpose Kelaca is seeking a Structural Engineer I for a ... Applying quantitative methods and structured problem-solving to check and validate work.

Quality Engineer

Chandler, AZ · On-site

$73K - $95K/yr

The Quality Engineer operates within their local STC Quality team. The Quality Engineer must ... quantitative Quality management tools and techniques desirable. * Experience / knowledge of ...

Quality Engineer

Chandler, AZ · On-site

$70K - $91K/yr

The Quality Engineer operates within their local STC Quality team. The Quality Engineer must ... quantitative Quality management tools and techniques desirable. * Experience / knowledge of ...

Quality Engineer

Chandler, AZ · On-site

$70K - $91K/yr

The Quality Engineer operates within their local STC Quality team. The Quality Engineer must ... quantitative Quality management tools and techniques desirable. * Experience / knowledge of ...

AI Engineer

Phoenix, AZ

$125K - $175K/yr

One previously worked as a Quant at Goldman Sachs, and the other built the computer vision system ... AI Engineer As AI Engineer, you will work directly under the Head of AI - a researcher with ...

AI Engineer

Phoenix, AZ · On-site

$125K - $175K/yr

One previously worked as a Quant at Goldman Sachs, and the other built the computer vision system ... AI Engineer As AI Engineer, you will work directly under the Head of AI - a researcher with ...

AI Engineer

Phoenix, AZ · On-site

$125K - $175K/yr

One previously worked as a Quant at Goldman Sachs, and the other built the computer vision system ... AI Engineer As AI Engineer, you will work directly under the Head of AI -- a researcher with ...

Infrastructure Engineer

San Francisco, CA · On-site

$125K - $175K/yr

One previously worked as a Quant at Goldman Sachs, and the other built the computer vision system ... Infrastructure Engineer As Infrastructure Engineer, you will own every dollar that moves through ...

Infrastructure Engineer

Phoenix, AZ · On-site

$125K - $175K/yr

One previously worked as a Quant at Goldman Sachs, and the other built the computer vision system ... Infrastructure Engineer As Infrastructure Engineer, you will own every dollar that moves through ...

One previously worked as a Quant at Goldman Sachs, and the other built the computer vision system ... Infrastructure Engineer As Infrastructure Engineer, you will own every dollar that moves through ...

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Showing results 1-20

Quant Engineer information

What engineer makes $500,000 a year?

Quantitative engineers, or quants, working in finance or hedge funds with extensive experience, advanced degrees, and strong programming skills can earn $500,000 or more annually through base salary, bonuses, and profit sharing. Such compensation typically requires expertise in mathematics, programming languages like Python or C++, and a deep understanding of financial markets. These roles are often located in major financial hubs and demand high levels of performance and specialization.

How much do quants get paid?

Quantitative analysts, or quants, typically earn between $100,000 and $200,000 annually at entry to mid-level positions, with senior roles often exceeding $300,000 including bonuses. Compensation varies based on experience, location, firm size, and performance, with many quants also receiving performance-based bonuses and benefits. Strong skills in mathematics, programming, and finance are essential for higher salaries in this field.

What engineers make $300,000 a year?

Senior quantitative engineers, often called quant researchers or quant developers, can earn $300,000 or more annually, especially with experience, advanced degrees, and expertise in programming languages like Python or C++, as well as knowledge of financial markets and risk management. Compensation typically includes base salary, bonuses, and profit sharing, particularly in hedge funds, investment banks, and proprietary trading firms.

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

To thrive as a Quant Engineer, you need strong quantitative and programming skills, typically supported by a degree in mathematics, physics, computer science, or a related field. Proficiency in programming languages such as Python, C++, or Java, as well as familiarity with statistical analysis tools and financial modeling systems, is essential. Analytical thinking, problem-solving abilities, and effective communication distinguish top performers in this role. These skills enable Quant Engineers to develop robust models and algorithms that drive accurate trading strategies and risk management in fast-paced financial environments.

What are Quant Engineers?

Quant Engineers, or quantitative engineers, are professionals who apply mathematical models, statistical techniques, and computer programming to solve complex problems in finance and related industries. They often work on designing trading algorithms, risk management tools, and pricing models for financial instruments. Quant Engineers typically have strong backgrounds in mathematics, computer science, and finance, and are skilled in programming languages such as Python, C++, or R. Their work helps financial firms make data-driven decisions and optimize strategies in highly competitive markets.

Do I need a PhD to be a quant?

A PhD is not strictly required to become a quantitative engineer, but many roles prefer candidates with advanced degrees in fields like mathematics, physics, or engineering. Strong programming skills, proficiency in tools like Python or C++, and solid quantitative knowledge are essential for success in the field.

What is the difference between Quant Engineer vs Quant Analyst?

AspectQuant EngineerQuant Analyst
Required CredentialsDegree in Math, Finance, or Computer Science; often requires programming skillsDegree in Finance, Economics, or Math; less emphasis on programming
Work EnvironmentDevelops models, algorithms, and software tools for trading and risk managementAnalyzes data, interprets models, and provides insights for trading strategies
Employer & Industry UsageFinancial firms, hedge funds, investment banksFinancial firms, asset management, hedge funds

While both roles involve quantitative analysis, Quant Engineers focus on building and implementing models and software, whereas Quant Analysts primarily analyze data and interpret models to inform trading decisions. The roles often overlap but differ in technical depth and responsibilities.

How do Quant Engineers typically collaborate with traders and other team members to develop and implement trading strategies?

Quant Engineers work closely with traders, researchers, and software developers to design, test, and refine quantitative trading models. They often translate mathematical models into efficient code, analyze large datasets, and ensure strategies are both robust and scalable for real-time trading environments. Frequent communication is key, as Quant Engineers must gather requirements from traders, iteratively backtest ideas, and adapt models based on feedback and market changes. This collaborative process helps ensure strategies are both scientifically sound and practically viable for deployment.
What cities in Arizona are hiring for Quant Engineer jobs? Cities in Arizona with the most Quant Engineer job openings:
Chief Mine Engineer

Full-time

Posted 13 days ago


Job description

Chief Mining Engineer – Gunnison Copper Project
Position Title
Chief Mining Engineer
Reports To
Senior Vice President, Projects
Dotted-Line Reporting Relationship
JCM Mine Manager
Location
Phoenix, Arizona HQ office with frequent travel to JCM mine site. In-Office position

Position Summary
The Chief Mining Engineer is responsible for leading the mining engineering strategy, optimization, and technical development of the Gunnison Copper Project. Reporting directly to the Senior Vice President, Projects, the role serves as the senior mining engineering authority for mine planning, pit optimization, mine design, production forecasting, technical studies, and life-of-mine planning. This is a hands -on role.
The primary focus of the role is maximizing the value, efficiency, and long-term performance of the Gunnison Copper Project through rigorous technical analysis, project optimization, and integration of mining, heap leach, and SXEW operations. The Chief Mining Engineer will lead mining engineering inputs to project execution, expansion planning, economic evaluations, and operational readiness activities while ensuring alignment with corporate objectives and project development milestones.
The position maintains a collaborative dotted-line relationship with the JCM Mine Manager to ensure consistency of technical standards and sharing of operational knowledge across Gunnison Copper assets.
Key Responsibilities
Gunnison Project Optimization amp; Value Creation
  • Lead continuous optimization of the Gunnison Copper Project mine plan, production strategy, and development sequencing.
  • Identify opportunities to increase project value through pit optimization, mine scheduling, production improvements, operating cost reductions, and capital efficiency initiatives.
  • Evaluate trade-offs between mining, heap leach, and SXEW operations to maximize overall project economics.
  • Develop and maintain economic models supporting project optimization and strategic decision-making.
  • Lead technical evaluations of alternative mine plans, production scenarios, expansion opportunities, and development strategies.
  • Support executive decision-making through quantitative analysis and technical recommendations.
Mine Planning amp; Design
  • Develop and maintain strategic mine plans, annual plans, and life-of-mine schedules.
  • Lead pit optimization, phase design, pushback development, and mine sequencing activities.
  • Ensure mine plans support production objectives, processing requirements, and business goals.
  • Coordinate mine planning activities with geology, metallurgy, processing, environmental, and project teams.
  • Manage updates to mine planning assumptions and optimization parameters.
Technical Studies amp; Project Development
  • Lead mining engineering components of prefeasibility, feasibility, expansion, and execution-stage studies.
  • Support development of technical work programs and engineering studies required for project advancement.
  • Manage external mining consultants and technical advisors.
  • Review and validate engineering studies, technical reports, and economic evaluations.
  • Support future project expansion opportunities and long-range development planning.
Mine-to-Process Integration
  • Work closely with metallurgy, process engineering, and operations teams to optimize the integration of mining activities with heap leach and SXEW facilities.
  • Evaluate ore delivery strategies, blending opportunities, and leach pad utilization.
  • Support initiatives to improve copper recovery, operating efficiency, and project economics.
  • Ensure mine plans support processing requirements and long-term production objectives.
Operational Readiness amp; Transition to Operations
  • Support development of operating plans, production forecasts, and technical systems required for future operations.
  • Assist in establishing mine planning processes, technical standards, and performance metrics.
  • Provide technical leadership during project execution and commissioning phases.
  • Ensure mine planning systems and technical support structures are established to support sustainable operations.
Resource amp; Reserve Management
  • Support resource model updates, reserve estimation activities, and reconciliation programs.
  • Ensure mine plans accurately reflect current geological interpretations and economic assumptions.
  • Participate in technical reviews and reserve reporting activities.
  • Support preparation of technical disclosures and regulatory reporting requirements.
Technical Leadership
  • Serve as the senior mining engineering authority for the Gunnison Copper Project.
  • Establish and maintain mining engineering standards, procedures, and best practices.
  • Mentor and support mine planning and technical services personnel.
  • Foster a culture of technical excellence, innovation, and continuous improvement.
  • Provide technical leadership across multidisciplinary project teams.
JCM Technical Support
  • Maintain alignment with the JCM Mine Manager on mine planning standards, operational lessons learned, and technical best practices.
  • Provide technical review and support for strategic mine planning initiatives as required.
  • Facilitate knowledge transfer between operating and development assets.
Success Measures
  • Demonstrated increases in Gunnison Copper Project value through optimization initiatives.
  • Achievement of key project development and technical study milestones.
  • Improvement in project economics, operating cost assumptions, and production forecasts.
  • Delivery of robust life-of-mine plans and development schedules.
  • Successful integration of mine planning with heap leach and SXEW operations.
  • Effective support of project execution, expansion planning, and operational readiness.
  • Development of technically sound and economically optimized mining strategies.
Education
  • Bachelor's degree in Mining Engineering from an accredited university is required.
  • Professional Engineer (P.Eng. or P.E.) designation, or eligibility to obtain registration, is preferred.
  • Master's degree in Mining Engineering, Mineral Economics, Geotechnical Engineering, or a related discipline is considered an asset.
Experience
  • Minimum 15 years of progressive mining engineering experience, including significant experience in open-pit mining operations and project development.
  • Minimum 5 years in a senior technical leadership, chief engineer, technical services manager, or similar role.
  • Demonstrated experience in mine planning, pit optimization, production scheduling, and life-of-mine planning.
  • Experience supporting prefeasibility studies, feasibility studies, project execution, mine expansions, and operational readiness programs.
  • Experience with copper mining operations, including heap leach and SXEW processing environments, is strongly preferred.
  • Experience managing multidisciplinary technical teams, consultants, and engineering studies.
  • Demonstrated ability to evaluate and improve project economics through mine optimization and operational improvement initiatives.
Technical Knowledge amp; Skills
  • Advanced knowledge of open-pit mine design, mine planning, scheduling, and optimization principles.
  • Strong understanding of mining economics, capital planning, and value optimization methodologies.
  • Experience with resource and reserve estimation processes and mine reconciliation practices.
  • Familiarity with heap leach operations and mine-to-process optimization strategies.
  • Strong analytical, problem-solving, and decision-making capabilities.
  • Excellent technical report writing, presentation, and communication skills.
  • Ability to translate complex technical concepts into actionable business recommendations.
Software Proficiency
Experience with one or more of the following is preferred:
  • Deswik
  • Vulcan
  • MineSight
  • Whittle
  • Leapfrog
  • AutoCAD
  • Microsoft Project
  • Power BI
  • Advanced Microsoft Excel modeling and data analysis tools