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Robotics Operations Jobs in Texas (NOW HIRING)

About the Role We are seeking a Site Operations Manager to lead the deployment and operation of ... Translate complex robotic systems into clear, practical operating instructions. * Certify that ...

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... operations and safety · Design and implement autonomous capabilities for high-performance robotic platforms · Develop algorithms for localization, mapping, path planning, and navigation · ...

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... operations and safety · Design and implement autonomous capabilities for high-performance robotic platforms · Develop algorithms for localization, mapping, path planning, and navigation · ...

This engineer will focus on operations employees' safety as well as product quality and integrity throughout the manufacturing process. The ideal Robotics Engineering candidate will also be ...

This engineer will focus on operations employees' safety as well as product quality and integrity throughout the manufacturing process. The ideal Robotics Engineering candidate will also be ...

We believe that achieving general physical intelligence requires solving real customer problems in the real world, where robots can learn from rich operational data at scale. Following our ...

This engineer will focus on operations employees' safety as well as product quality and integrity throughout the manufacturing process. The ideal Robotics Engineering candidate will also be ...

We believe that achieving general physical intelligence requires solving real customer problems in the real world, where robots can learn from rich operational data at scale. Following our ...

We believe that achieving general physical intelligence requires solving real customer problems in the real world, where robots can learn from rich operational data at scale. Following our ...

Robotics Intern, Deployment

Austin, TX · On-site

$14.75 - $19.75/hr

Robotics Intern, Deployment Intro Contoro Robotics is an Austin, Texas-based startup building AI-powered industrial robots to transform warehouse operations. Our mission is to deliver reliable robots ...

Occasionally, performs troubleshooting and support activities on existing in-operation systems previously implemented by other Daifuku-Daifuku team members * Follows industrial robot teaching and ...

Our interests include developing sensors and robotic systems for automating our Upstream operations. Duties & Responsibilities: * Rapidly design software and firmware architecture * Develop software ...

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Robotics Operations information

What are Robotics Operations?

Robotics Operations refers to the management, monitoring, and maintenance of robotic systems within various environments, such as manufacturing, logistics, or research facilities. Professionals in robotics operations ensure that robots perform tasks efficiently and safely, troubleshoot issues, and coordinate with other teams to optimize workflow. This role typically involves overseeing both software and hardware aspects of robotic systems, implementing updates, and ensuring compliance with safety regulations. Robotics operations specialists play a critical part in maximizing robotic productivity and minimizing downtime.

What do robotics operators do?

Robotics operators are responsible for controlling, monitoring, and maintaining robotic systems used in manufacturing, logistics, or other industries. They set up robots, troubleshoot issues, and ensure smooth operation, often using specialized software and safety protocols. The role requires technical skills and attention to detail to optimize robot performance and safety.

What are the key skills and qualifications needed to thrive in Robotics Operations, and why are they important?

To thrive in Robotics Operations, you need a solid background in robotics engineering, automation, and troubleshooting, often supported by a degree in engineering or related fields. Familiarity with programming languages (such as Python or C++), robotics control systems, and commonly used platforms like ROS (Robot Operating System) is typically expected. Strong problem-solving abilities, attention to detail, and effective teamwork are crucial soft skills in this role. These competencies ensure the smooth operation, maintenance, and optimization of robotic systems, minimizing downtime and supporting organizational efficiency.

What is the difference between Robotics Operations vs Robotics Engineering?

AspectRobotics OperationsRobotics Engineering
Required CredentialsAssociate's or Bachelor's in Robotics, Automation, or related fieldBachelor's or Master's in Robotics, Mechanical, Electrical, or Software Engineering
Work EnvironmentManufacturing plants, automation facilities, maintenance settingsDesign labs, development centers, research environments
Employer & Industry UsageManufacturers, automation companies, service providersResearch institutions, tech companies, R&D departments
Common Search & ComparisonYesNo

Robotics Operations focuses on maintaining, troubleshooting, and managing robotic systems in industrial or service settings. Robotics Engineering involves designing, developing, and testing robotic systems. While both roles require technical knowledge, Operations emphasizes hands-on system management, whereas Engineering centers on creation and innovation.

What are some common challenges faced by professionals in Robotics Operations, and how can they be addressed?

Professionals in Robotics Operations often encounter challenges such as troubleshooting hardware or software malfunctions, maintaining high uptime for robotic systems, and adapting to rapidly evolving technologies. To address these, it’s important to develop strong problem-solving skills, stay updated with the latest industry advancements, and collaborate closely with engineering and IT teams. Additionally, effective communication and thorough documentation help ensure smooth handoffs during shift changes and enable the team to respond quickly to operational issues.

How much do robotics operators make?

Robotics operators typically earn a median annual salary of around $50,000 to $70,000, depending on experience, location, and industry. Entry-level positions may start lower, while experienced operators with certifications and technical skills can earn higher wages, especially in manufacturing or automation environments that require troubleshooting and programming skills.

Which 3 jobs will survive AI?

Robotics operations roles such as robotics engineers, maintenance technicians, and systems integrators are likely to persist as they require specialized technical skills, hands-on problem-solving, and understanding of complex hardware and software systems. These jobs involve tasks that are difficult for AI to fully automate, especially in dynamic or unstructured environments. Continuous learning and certification in robotics tools and programming languages can enhance job security in this field.

What is the highest paid job in robotics?

The highest paid roles in robotics often include robotics engineers, robotics directors, and automation executives, with senior-level positions such as robotics CTOs or VP of Robotics earning the highest salaries. These roles typically require advanced technical skills, leadership experience, and often a background in engineering, computer science, or related fields. Salaries can exceed six figures, especially in large tech companies or specialized industries like aerospace or defense.
What are the most commonly searched types of Robotics Operations jobs in Texas? The most popular types of Robotics Operations jobs in Texas are:
What are popular job titles related to Robotics Operations jobs in Texas? For Robotics Operations jobs in Texas, the most frequently searched job titles are:
What job categories do people searching Robotics Operations jobs in Texas look for? The top searched job categories for Robotics Operations jobs in Texas are:
What cities in Texas are hiring for Robotics Operations jobs? Cities in Texas with the most Robotics Operations job openings:
Infographic showing various Robotics Operations job openings in Texas as of July 2026, with employment types broken down into 1% As Needed, 85% Full Time, 11% Part Time, 1% Temporary, 1% Contract, and 1% Nights. Highlights an 95% Physical, 1% Hybrid, and 4% Remote job distribution.
Systems Development Engineer, Managed Edge Compute (Amazon Robotics)

Systems Development Engineer, Managed Edge Compute (Amazon Robotics)

Amazon

Austin, TX • On-site

Full-time

Medical, Dental, Vision, Retirement, PTO

Posted 3 days ago


Amazon rating

7.4

Company rating: 7.4 out of 10

Based on 6,959 frontline employees who took The Breakroom Quiz

6th of 39 rated national retailers


Job description

We're seeking a Systems Development Engineer to join the Unified Workcell Compute team. This is a hands-on, high-impact role where you'll design and build systems that manage Amazon's edge device fleet - over a million devices across thousands of locations worldwide. You'll work at the intersection of cloud infrastructure, device management, robotics systems, and operational excellence, solving complex technical problems that enable Amazon's robotics and fulfillment operations to scale globally.
As a SysDE II, you'll be a strong individual contributor who delivers high-quality technical solutions, contributes to architectural discussions, and builds reliable systems that enable robotics and automation teams to deploy and manage their edge compute solutions with the same ease as deploying to AWS

You'll work within established technical strategies while identifying opportunities for improvement, translating well-scoped business problems into concrete technical solutions, and balancing short-term delivery with long-term system health. This role requires solid technical depth across multiple domains - Linux systems, AWS services, IoT platforms, robotics compute infrastructure, and distributed systems - combined with the ability to partner effectively with engineers across the team and organization.
Key job responsibilities
- Build and maintain resilient, scalable distributed systems that operate at Amazon scale, contributing to the management of robotics device fleets across thousands of sites with 99.99%+ availability requirements.
- Contribute to the technical strategy for your team's systems within the UWC architecture, participating in decisions around hyperscale deployments, robotics compute patterns, fleet management, and edge device automation.
- Participate in architectural reviews and design discussions across UWC and robotics customer teams, contributing technical input on device lifecycle management, software distribution, multi-compute workcell assistance, and operational excellence patterns


- Develop automation solutions using Python, Rust, CDK, and AWS services that eliminate entire classes of operational load and enable self-service for robotics solution teams.
- Implement and optimize Linux-based systems, OS image creation pipelines (Yocto/mkosi), and BSP solutions for diverse robotics hardware platforms including x86, ARM, NVIDIA GPU systems, and embedded devices.
- Create tooling and frameworks that enable robotics teams to provision, configure, and manage their edge compute fleets - from AI perception systems to manipulation robotics - with minimal hands-on-keyboard time.
- Apply established standards for engineering, testing, and operational excellence best practices, and suggest improvements to processes within your team.
- Identify and implement opportunities to streamline or eliminate excess processes, improving agility and reducing complexity for robotics teams building on UWC


- Proactively identify and escalate risks at the product and service level, contributing to the resilience, performance, and cost efficiency of UWC systems aiding critical robotics operations.
- Troubleshoot complex production issues across the full stack - from robotics device hardware and Linux kernel to AWS cloud services - identifying patterns and implementing solutions that prevent future incidents.
- Partner with robotics solution teams (Amazon Robotics, manipulation systems, AI perception, workcell automation) to translate their device management challenges and contribute to solutions that meet their specific requirements.


- Foster the growth of peers on your team through code reviews, knowledge exchange, and collectively problem-solving that raises the technical bar.
- Deliver solutions that are inventive, resilient, and extensible, making it easier for robotics teams to build on UWC.
- Participate in hiring and contribute to technical assessm
A day in the life
Your day might start by investigating an issue where robotics devices across multiple fulfillment centers are experiencing intermittent kernel panics during high-load operations.

You dive deep into kernel logs, memory dumps, and device telemetry, correlating the failures with a recent driver update for NVIDIA GPU systems. You develop a Python or Rust-based diagnostic tool to capture more granular system metrics and partner with senior engineers to roll back the problematic driver version while working on a fix that addresses the underlying memory management issue.
Mid-morning, you're troubleshooting why a new OS image isn't booting correctly on ARM-based manipulation robotics devices. You boot into a recovery environment, examine the initramfs, trace through systemd unit reliances, and discover a race condition in the device initialization sequence

You modify the Yocto recipe to fix the boot ordering, test across multiple hardware variants, and document the pattern for other teams building custom images. You then join a sync with an Amazon Robotics team to help them debug why their software components are failing to deploy - walking through IoT certificate validation, network linkage from the edge device, and AWS IAM permissions until you identify a misconfigured security group.
After lunch, you're participating in a code review for a new credential rotation service - providing written feedback on error handling patterns, memory safety, and how to better structure the state machine for resilience. You spend time optimizing a Linux system configuration that's causing performance bottlenecks on AI perception systems - configuring and tuning Linux system parameters to enable high-performance compute workloads

You pair with a teammate who's working through a complex Yocto build failure, exchanging what you know about layer reliances and BitBake recipe inheritance while partnering on debugging techniques.
The afternoon includes answering to a page where devices in a specific building can't link to AWS IoT Core. You systematically eliminate possibilities - checking DNS resolution, testing TLS handshakes, examining certificate chains, and analyzing network packet captures - until you discover a misconfigured firewall rule blocking MQTT traffic. You implement a monitoring enhancement to detect this class of issue proactively across all sites

You then contribute to a technical design document proposing improvements to UWC's device provisioning workflow that will reduce provisioning time from 20 minutes to under 10 minutes by parallelizing certificate generation and optimizing the Linux boot sequence. You'll end your day reviewing system metrics across the fleet, flagging devices with degraded disk I/O that need proactive maintenance, and syncing with your team on priorities for tomorrow.
Amazon offers a full range of benefits that support you and eligible family members, including domestic partners. Benefits can vary by location, the number of regularly scheduled hours you work, length of employment, and job status such as seasonal or temporary employment

The benefits that generally apply to regular, full-time employees include:
1. Medical, Dental, and Vision Coverage
2. Maternity and Parental Leave Options
3.

Paid Time Off (PTO)
4. 401(k) Plan
If you are not sure that every qualification on the list above describes you exactly, we'd still love to hear from you. At Amazon, we value people with unique backgrounds, experiences, and skillsets.

If you're passionate about this role and want to make an impact on a global scale, please apply.
About the team
The Unified Workcell Compute (UWC) team is at the forefront of Amazon's robotics and automation efforts, building and operating the foundational device management platform for Amazon's on-premise edge compute fleet. Our services manage over a million robotic devices across thousands of locations worldwide - from the latest NVIDIA GPU offerings enabling AI perception efforts to bleeding-edge manipulation robotics systems, industrial PCs, thin clients, Drive Units, and embedded devices across Amazon's global fulfillment network.
Our mission is to enable robotics solution teams to deploy to Operations buildings with the same self-service, ownership, and accountability as deploying to AWS cloud

We're revolutionizing Amazon's logistics and fulfillment operations by pushing the boundaries of what's possible in automation and compute management at unprecedented scale.
We're a team of builders who value automation, operational excellence, and customer obsession. We own a critical technology ecosystem that powers device provisioning, software distribution, credential management, and fleet operations for robotics workcells and fulfillment systems. Our work directly impacts millions of customer orders and enables Amazon's promise to fast, reliable delivery

We're solving problems that few organizations face, building systems that have never existed before, and defining the future of edge compute management for robotics at Amazon scale.
We foster a culture that encourages personal and professional growth, empowering our team members to continually expand their skills and knowledge. Work-life balance is a priority for us, and we strive to create an environment where our team can thrive both professionally and personally.


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About Amazon

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Amazon.com, Inc., commonly known as Amazon, is an American multinational technology company. It was founded by Jeff Bezos in 1994 and initially started as an online marketplace for books. Since then, Amazon has expanded its operations and become one of the largest e-commerce companies in the world. Amazon's primary business is its online retail platform, where customers can purchase a vast array of products, including electronics, clothing, books, home goods, and much more. The company offers a convenient and user-friendly shopping experience, with features such as fast shipping, customer reviews, and personalized recommendations. In addition to its e-commerce platform, Amazon has diversified its business into various other areas. One of its notable ventures is Amazon Web Services (AWS), a comprehensive cloud computing platform that provides services such as storage, compute power, and database management to individuals and businesses. AWS has become a leader in the cloud computing industry, powering many websites and applications worldwide. Amazon has also developed its own consumer electronics, including the popular Amazon Kindle e-reader, Fire tablets, Fire TV streaming devices, and the Alexa-powered Echo smart speakers. The Alexa voice assistant, integrated into these devices, allows users to interact with their devices using voice commands, perform tasks, and access information. Furthermore, Amazon has expanded into media and entertainment. It operates Prime Video, a streaming service that offers a wide range of movies, TV shows, and original content. Amazon Music provides a platform for streaming and purchasing digital music, while Audible offers audiobooks and other audio content. The company's commitment to customer satisfaction and convenience is demonstrated by its membership program, Amazon Prime. Prime members receive various benefits, including free two-day shipping, access to streaming services, exclusive deals, and more.

Industry

It services, book publishers, retail, real estate and computer and electronic product manufacturing

Company size

10,000+ Employees

Headquarters location

Seattle, WA, US