... execution. Supported by leading investors, Xcimer is uniquely positioned to deliver limitless ... This role spans algorithm development, hardware integration, and systemlevel validation in an ...
... execution. Supported by leading investors, Xcimer is uniquely positioned to deliver limitless ... This role spans algorithm development, hardware integration, and systemlevel validation in an ...
Junior Trader, Money Markets
Denver, CO · On-site
$110K - $125K/yr
... Execution. * A robust balance of technical and quantitative skills. * In-depth knowledge of Mathematical Finance and Financial Markets, including Algorithmic Trading and Market Microstructure.
Junior Trader, Money Markets
Denver, CO · On-site
$110K - $125K/yr
... Execution. * A robust balance of technical and quantitative skills. * In-depth knowledge of Mathematical Finance and Financial Markets, including Algorithmic Trading and Market Microstructure.
Junior Data Scientist
Denver, CO · On-site +1
$70K - $85K/yr
We want curious minds who love fast execution and real impact. Kickstart your career in an ... A solid understanding of core machine learning algorithms, statistical concepts, and data analysis ...
Junior Data Scientist
Denver, CO · On-site +1
$70K - $85K/yr
We want curious minds who love fast execution and real impact. Kickstart your career in an ... A solid understanding of core machine learning algorithms, statistical concepts, and data analysis ...
Algorithmic Execution Quant information
What is the difference between Algorithmic Execution Quant vs Quantitative Trader?
| Aspect | Algorithmic Execution Quant | Quantitative Trader |
|---|---|---|
| Primary Focus | Developing and implementing algorithms for trade execution to minimize market impact | Creating trading strategies to generate alpha and profit from market movements |
| Work Environment | Quantitative research teams, trading desks, technology-driven | Trading floors, portfolio management teams, research departments |
| Required Skills | Programming, market microstructure, execution algorithms | Quantitative modeling, market analysis, strategy development |
While both roles involve quantitative skills, an Algorithmic Execution Quant specializes in optimizing trade execution processes, whereas a Quantitative Trader focuses on developing strategies to generate profits. The roles often collaborate but serve different functions within trading firms.
What are the key skills and qualifications needed to thrive as an Algorithmic Execution Quant, and why are they important?
What are some common challenges faced by Algorithmic Execution Quants when developing and deploying trading algorithms?
What does an Algorithmic Execution Quant do?
Full-time
Medical, Dental, Vision, Life, Retirement, PTO
This job post has expired 1 day ago. Applications are no longer accepted.
Job description
- Design, implement, and tune adaptive optics control algorithms for highenergy laser systems, including wavefront correction, beam pointing, and jitter rejection
- Develop control strategies for fast steering mirrors (FSMs) and slow steering mirrors (SSMs), including multiloop, multirate, and hierarchical control architectures
- Integrate and commission beam diagnostics and position sensors, such as wavefront sensors, quad cells, high-speed cameras, and wave meters, into realtime closedloop optical control systems
- Design, implement, and validate timeofflight (TOF)-based tracking, synchronization, and timing systems for target insertion, engagement timing, and laser coordination
- Perform systemlevel modeling and analysis of optical control performance, including latency, bandwidth, stability margins, noise propagation, and timing error budgets
- Plan and execute laboratory, subsystem, and insitu commissioning tests to validate algorithms and control performance against system requirements
- Collaborate with laser physics, optical, mechanical, electrical, and controls teams to define system interfaces, sensor/actuator placement, and operational concepts
- Generate and maintain rigorous technical documentation, including control specifications, algorithm descriptions, requirements, interface definitions, test plans, and validation reports
- Support technical reviews (SRR, PDR, CDR, TRR) with quantitative analysis and experimental data
- Support system commissioning, operations, and iterative performance improvement of deployed optical control systems
- Education: Bachelor's degree or higher in Optical Engineering, Electrical Engineering, Mechanical Engineering, Physics, Mechatronics, or a closely related field
- Experience: 5+ years of experience in optical systems, control systems, or adaptive optics, with demonstrated handson implementation experience
- Adaptive Optics (AO) experience demonstrated through prior handson experience with:
- Development and tuning of adaptive optics closedloop control systems, including wavefront reconstruction and correction
- Practical experience with wavefront sensing technologies (e.g., ShackHartmann or equivalent), including calibration, alignment, and noise characterization
- Design and implementation of realtime AO control algorithms, with attention to latency, bandwidth, and stability
- Handson integration and control of fast steering mirrors (FSMs) and slow steering mirrors (SSMs)
- Ability to model AO system performance endtoend, including sensor noise, actuator dynamics, timing, and controllaw effects
- Experience validating AO performance through laboratory testing and insystem commissioning, not simulation alone
- Strong understanding of beam quality, pointing error, jitter, and wavefront error budgeting
- Strong foundation in control theory, including classical and modern methods applied to realtime physical systems
- Proficiency with algorithm development and analysis tools such as MATLAB/Simulink, Python, or equivalent numerical environments
- Hands-on experience integrating sensors and actuators into closedloop optical or electromechanical control systems
- Ability to work safely in laboratory and industrial environments involving highpower lasers, high voltage, and precision equipment
- Must be a U.S. citizen or national, U.S. permanent resident (Green Card holder), or otherwise authorized to work in the United States
- Experience with highenergy or highaveragepower laser adaptive optics, including thermal and dynamic beam distortions
- Familiarity with advanced or predictive control techniques applied to AO systems (e.g., LQG, modelbased observers)
- Implementation of AO or beamcontrol algorithms on realtime hardware platforms (FPGA, DSP, GPU, or similar)
- Integration of AO systems with precision timing or TOFbased synchronization systems
- Experience with optical metrology and interferometric techniques for wavefront and beam characterization
- Participation in AOrelated design reviews, test readiness reviews, or commissioning campaigns
- Exposure to operation in demanding environments such as vacuum systems, vibration, thermal gradients, or highpower laser facilities