... course, with already-globally-deployed solutions delivering real-world results and rapidly ... Sensor Architecture: Work across hardware and software teams to define sensing requirements.
... course, with already-globally-deployed solutions delivering real-world results and rapidly ... Sensor Architecture: Work across hardware and software teams to define sensing requirements.
Entry Level Golf Course Architect information
See Riverside, CA salary details
$41.7K - $50.2K
2% of jobs
$50.2K - $58.6K
3% of jobs
$58.6K - $67.1K
11% of jobs
$70.2K is the 25th percentile. Wages below this are outliers.
$67.1K - $75.5K
24% of jobs
The median wage is $81.7K / yr.
$75.5K - $83.9K
14% of jobs
$83.9K - $92.4K
17% of jobs
$95.3K is the 75th percentile. Wages above this are outliers.
$92.4K - $100.8K
12% of jobs
$100.8K - $109.3K
9% of jobs
$109.3K - $117.7K
4% of jobs
$117.7K - $126.1K
3% of jobs
$126.1K - $134.6K
1% of jobs
$41.7K
$86.7K
$134.6K
How much do entry level golf course architect jobs pay per year?
As of Jun 21, 2026, the average yearly pay for entry level golf course architect in Riverside, CA is $86,724.00, according to ZipRecruiter salary data. Most workers in this role earn between $72,000.00 and $99,100.00 per year, depending on experience, location, and employer.
What are the key skills and qualifications needed to thrive as an Entry Level Golf Course Architect, and why are they important?
To thrive as an Entry Level Golf Course Architect, you need a background in landscape architecture or a related field, strong design skills, and knowledge of golf course layout principles. Familiarity with CAD software, GIS systems, and landscape modeling tools is typically required, and a degree in landscape architecture or similar field is often preferred. Creativity, teamwork, attention to detail, and effective communication are essential soft skills for collaborating with clients and multidisciplinary teams. These competencies ensure the functional, aesthetic, and sustainable design of golf courses that meet both client and environmental expectations.
What is the difference between Entry Level Golf Course Architect vs Landscape Designer?
| Aspect | Entry Level Golf Course Architect | Landscape Designer |
|---|---|---|
| Required Credentials | Bachelor's in landscape architecture or related field, basic knowledge of golf course design | Bachelor's in landscape architecture, design, or related field |
| Work Environment | Golf course projects, outdoor settings, collaboration with golf course builders | Public and private outdoor spaces, parks, residential and commercial projects |
| Employer & Industry Usage | Golf course developers, landscape architecture firms specializing in golf courses | Landscape architecture firms, design consultancies, construction companies |
Entry Level Golf Course Architects focus on designing and planning golf courses, requiring specific knowledge of golf course features. Landscape Designers have a broader scope, working on various outdoor projects. While both roles require similar educational backgrounds, golf course architects specialize in golf-specific design elements, making their roles distinct in the industry.
What are some typical challenges faced by entry-level golf course architects when working on their first projects?
Entry-level golf course architects often encounter challenges such as balancing creative design aspirations with the practical constraints of budget, environmental regulations, and site-specific factors. They must learn to effectively collaborate with senior architects, landscape contractors, and clients, adapting their ideas to the realities of construction and maintenance requirements. Additionally, understanding the impact of land topography and local climate on playability can be complex, making attention to detail and adaptability essential for success in the role.
What does an entry level golf course architect do?
An entry level golf course architect assists in the design and planning of golf courses by supporting senior architects with drafting plans, conducting site analyses, and helping develop layout concepts. They may also be involved in researching environmental impacts, preparing presentations, and collaborating with engineers, landscapers, and construction teams. This role is typically a starting point for those looking to build a career in golf course design and requires a combination of landscape architecture knowledge, creativity, and a passion for the game of golf.
What are the most commonly searched types of Golf Course Architect jobs in Riverside, CA? The most popular types of Golf Course Architect jobs in Riverside, CA are:
What are popular job titles related to Entry Level Golf Course Architect jobs in Riverside, CA? For Entry Level Golf Course Architect jobs in Riverside, CA, the most frequently searched job titles are:
What job categories do people searching Entry Level Golf Course Architect jobs in Riverside, CA look for? The top searched job categories for Entry Level Golf Course Architect jobs in Riverside, CA are:
What cities near Riverside, CA are hiring for Entry Level Golf Course Architect jobs? Cities near Riverside, CA with the most Entry Level Golf Course Architect job openings:
Full-time
Posted 13 days ago
Job description
Field AI is transforming how robots interact with the real world. We are building risk-aware, reliable, and field-ready AI systems that address the most complex challenges in robotics, unlocking the full potential of embodied intelligence. We go beyond typical data-driven approaches or pure transformer-based architectures, and are charting a new course, with already-globally-deployed solutions delivering real-world results and rapidly improving models through real-field applications.
Hardware Team:
The Hardware Team at Field AI develops perception and compute payloads that power autonomous robotics systems in complex real-world environments. Our work spans the full hardware stack designing and integrating sensing systems (LiDAR, camera, TOF, IMU, GPS), embedded compute (CPUs, GPUs, microcontrollers, ROS, sensor drivers), electrical systems (power distribution, communication), and mechanical components (structures, thermal regulation, ingress protection). The team focuses on both development (research, design, prototyping, testing) and operations (production, testing, QA, debugging). We're a small, fast-moving team, and we care deeply about improving: 1) core capabilities, 2) system reliability, 3) system scalability. As a growing team we are also building operational systems and procedures from the ground up.
Sensor Systems Role:
As a Sensor Systems Engineer on the Hardware Team, you will contribute to the design, integration, calibration, and validation of the sensing systems that underpin our autonomy stack. You will work with a diverse array of sensors-LiDARs, depth cameras, IMUs, GPS, and more-ensuring each one delivers accurate, time-synchronized, and spatially consistent data in a range of environments and operating conditions. You will collaborate closely with the autonomy, compute, electrical, and mechanical teams to build tightly integrated solutions ready for deployment in challenging field environments. Additionally, while your focus will be on sensors you will likely contribute across all hardware domains.
What You Will Get To Do
1. Sensor System Design
- Sensor Architecture: Work across hardware and software teams to define sensing requirements. Identity, test, and select sensors such as LiDARs, depth cameras, GPS, IMUs, ToF, and other devices.
- Systems Integration: Integrate sensors with electrical (USB, Ethernet, I2C, CAN, GMSL), mechanical (mounts, jigs, isolation), and software (configurations, drivers, ROS nodes) systems. Ensuring power, thermal, and protocol compatibility.
- Spatial Performance: Architect system to meet spatial sampling performance requirements including spatial coverage, range, resolution, and transform accuracy.
- Temporal Performance: Implement and validate synchronization strategies, triggering schemes, timestamp encoding, and end-to-end latency minimization.
2. Sensor System Implementation
- Performance Characterization: Evaluate sensor performance (spatial resolution, temporal drift, EMI noise, sync errors etc.). Test under real-world environmental conditions (vibration, lighting, moisture, temperature).
- Calibration: Design and execute both intrinsic and extrinsic calibrations. Build alignment rigs and calibration boards as needed.
- Optimization: Tune sensor configurations (exposure, gain, filtering, frame rate, etc.) and processing pipeline (filtering etc.) for optimal performance
- Documentation: Create timing diagrams, sensor maps, coordinate transforms, and maintain all configuration files, launch scripts, driver references, and firmware states.
3. Sensor System Production & Servicing
- Build: Work with vendors to procure sensors. Develop QA checks for incoming units. Support payload integration and manufacturing at scale.
- Debug: Conduct root cause analysis of sensor systems including issues across hardware and software boundaries.
- Monitor: Develop protocols for monitoring the sensing system health, data quality, and calibration status during field deployments.
What You Have
- Education: B.S., M.S. or Ph.D. in Robotics, Electrical Engineering, Engineering Physics, Physics, or a related field.
- Experience Level: We are recruiting across a wide range of experience levels from entry level engineers to senior and staff engineers.
- Hands-On Sensors Experience: Hands-on work with perception sensors such as LiDAR, depth cameras, IMUs, GPS.
- Systems Thinking: Cross-functional collaboration experience across electrical, mechanical, and software teams.
- Sensor Physics: Strong foundation in optics, signal processing, and electromagnetic wave propagation.
- Lab Skills: Hands-on testing, calibration, and debugging skills (oscilloscopes, logs, vibration/thermal setups)
- Communication Protocols: Experience with protocols such as USB, Ethernet, GMSL, CAN, I2C, and CSI.
- Computer & Software: Experience working with ROS/ROS2, sensor drivers, coordinate transforms (TF), and timing protocols (PTP, NTP, etc.).
- Timing & Triggers: Experience with timestamping, synchronization, triggering, and latency constraints.
- Calibration & Characterization: Experience designing and executing intrinsic, extrinsic, and temporal calibrations, along with sensor characterization under real-world environmental conditions.
- Simulation: Experience high-fidelity simulation environments (Gazebo, Isaac Sim, RViz) for sensor modeling.
What Will Set You Apart
- Scaling: Experience taking systems from prototype to large scale production.
- Field Environments: Experience developing systems for harsh field environments.
- Deployed Robotics: Experience working on robotics deployed in real world settings such as autonomous vehicles, drones, or ruggedized robots.
- Systems Level Robotics: Fluency across software, electrical, and mechanical systems.
- Autonomy Software: Knowledge of autonomy stacks used in robotics. As well as how sensor performance impacts autonomy algorithms.
$70,000 - $300,000 a year
Compensation and Benefits
Our salary range is between ($70,000 - $300,000 annual), but we take into consideration an individual's background and experience in determining final salary; base pay offered may vary considerably depending on geographic location, job-related knowledge, skills, and experience. Also, while we enjoy being together on-site, we are open to exploring a hybrid or remote option.
Why Join Field AI?
We are solving one of the world's most complex challenges: deploying robots in unstructured, previously unknown environments. Our Field Foundational Models set a new standard in perception, planning, localization, and manipulation, ensuring our approach is explainable and safe for deployment.
You will have the opportunity to work with a world-class team that thrives on creativity, resilience, and bold thinking. With a decade-long track record of deploying solutions in the field, winning DARPA challenge segments, and bringing expertise from organizations like DeepMind, NASA JPL, Boston Dynamics, NVIDIA, Amazon, Tesla Autopilot, Cruise Self-Driving, Zoox, Toyota Research Institute, and SpaceX, we are set to achieve our ambitious goals.
Be Part of the Next Robotics Revolution
To tackle such ambitious challenges, we need a team as unique as our vision - innovators who go beyond conventional methods and are eager to tackle tough, uncharted questions. We're seeking individuals who challenge the status quo, dive into uncharted territory, and bring interdisciplinary expertise. Our team requires not only top AI talent but also exceptional software developers, engineers, product designers, field deployment experts, and communicators.
We are headquartered in always-sunny Irvine, Southern California and have US based and global teammates.
Join us, shape the future, and be part of a fun, close-knit team on an exciting journey!
We celebrate diversity and are committed to creating an inclusive environment for all employees. Candidates and employees are always evaluated based on merit, qualifications, and performance. We will never discriminate on the basis of race, color, gender, national origin, ethnicity, veteran status, disability status, age, sexual orientation, gender identity, marital status, mental or physical disability, or any other legally protected status.
We may use artificial intelligence (AI) tools to support parts of the hiring process, such as reviewing applications, analyzing resumes, or assessing responses and identifying potential inconsistencies or verification signals in application materials based on available information. These tools assist our recruitment team but do not replace human judgment. Final hiring decisions are ultimately made by humans. If you would like more information about how your data is processed, please contact us.
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