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Robotics Software Engineering Jobs in Boston, MA

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Robotics Software Engineering information

See Boston, MA salary details

$65.2K

$135.3K

$194.5K

How much do robotics software engineering jobs pay per year?

As of Jul 15, 2026, the average yearly pay for robotics software engineering in Boston, MA is $135,282.00, according to ZipRecruiter salary data. Most workers in this role earn between $113,000.00 and $165,100.00 per year, depending on experience, location, and employer.

What is the difference between Robotics Software Engineering vs Mechanical Engineer?

AspectRobotics Software EngineeringMechanical Engineer
Required CredentialsBachelor's in Robotics, Computer Science, or related; programming skillsBachelor's in Mechanical Engineering; design and analysis skills
Work EnvironmentSoftware development labs, robotics companies, research facilitiesManufacturing plants, design offices, testing labs
Industry UsageRobotics, automation, AI developmentManufacturing, automotive, aerospace
Common Search/ComparisonYesNo

Robotics Software Engineers focus on developing the software that controls robots, requiring programming and computer science skills. Mechanical Engineers design and analyze physical components of machines, including robots, emphasizing mechanics and materials. While both roles may collaborate in robotics projects, their core responsibilities and skill sets differ significantly.

What is robotics software engineering?

Robotics software engineering is the field that focuses on designing, developing, testing, and maintaining the software that controls and interacts with robotic systems. This involves programming robots to perform tasks, process sensor data, and make autonomous decisions. Robotics software engineers work with various programming languages and tools to create algorithms for navigation, perception, and manipulation. They collaborate closely with hardware engineers to ensure seamless integration between software and robotic hardware.

What are some common challenges faced by Robotics Software Engineers when integrating software with hardware systems?

Robotics Software Engineers often encounter challenges related to hardware-software integration, such as managing communication latency, handling sensor noise, and ensuring real-time performance. Debugging can be complex due to the interplay between code and physical hardware, requiring close collaboration with hardware engineers. Additionally, adapting algorithms to work efficiently on embedded systems and maintaining system reliability during continuous operation are frequent hurdles in this field.

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

To thrive as a Robotics Software Engineer, you need strong programming skills (especially in C++ and Python), a solid understanding of algorithms, robotics theory, and a relevant degree in computer science, engineering, or a related field. Familiarity with robotics platforms (such as ROS), simulation tools (like Gazebo or MATLAB), and version control systems is typically required, along with certifications in robotics or embedded systems being advantageous. Problem-solving, teamwork, and effective communication are crucial soft skills that set candidates apart in this collaborative and innovative field. These skills and qualifications are vital for designing, developing, and optimizing reliable robotic systems that function safely and efficiently in real-world environments.
What job categories do people searching Robotics Software Engineering jobs in Boston, MA look for? The top searched job categories for Robotics Software Engineering jobs in Boston, MA are:
Senior Robotics Software Engineer

Senior Robotics Software Engineer

Tutor Intelligence

Watertown, MA • On-site

$140K - $200K/yr

Full-time

Re-posted 5 days ago


Job description

The Company

We believe general-purpose, generally-intelligent robots will be built in our lifetimes. Robots will work in our factories, move our goods, walk on our streets and eventually be in our homes. To build that future, research and deployment must work in lockstep: real-world operation must make the technology better and better technology must make deployment easier. We're looking for the thinkers, builders, and researchers who want to be part of that loop.

As an AI robotics company that deploys its inventions directly into the facilities that need them, on state-of-the-art hardware, every line of code written at Tutor has a direct impact on the global, physical economy.

Our Culture

We believe that something truly special can happen when talented, motivated people work together; at Tutor, every member of our team is empowered to have real impact in everything that they do. We’re characterized by both technical excellence and next-level collaboration and respect.

The Role
Not content to sit on the sidelines, we work efficiently towards this goal by combining human and artificial intelligence into something greater than the sum of its parts- a Tutor Intelligence.
 
We enable anyone to teach robots complicated vision and manipulation skills. Our robots observe, copy, adapt, and improve on what we show them. They are the students, we are the Tutors.
 
The robot problems we tackle range from the classical to the unsolved. We solve problems in planning, computer vision, SLAM, optimization, machine learning, and more.
 
If this sounds like you, read on!
 
Across the board we write software to make our robots more capable, faster and safer. We work mostly in Python and Linux.
 
What follows is a list of things we find interesting. Depending on your passions, your role might fit one or all of the following.
 
Robot Vision
  • Improving 2D and 3D sensing capabilities
  • Building visual representations of the world
  • Geometric perception
  • Perception of seen and unseen objects
  • Supervised learningSelf supervised learning
Robot Motion
  • Control of robot arms
  • Planning motion in the presence of obstacles
  • Optimizing grasps and other basic manipulation primitives
  • Motion planning
  • Tools such as Drake, OMPL, KLAMPT, etc
  • Multi roboti planning
  • Reinforcement learning
Robot Software
  • Proficiency programming in a Python-Linux environment
  • Comfort with programming linters (Flake8, Mypy)
  • Software support of real-time systems
  • Visualization of robot data
  • Advanced command of Python (dunder methods, lambdas, exception handling, decorators)
Robot Hardware
  • Design and control of end effectors
  • Experience integrating and programming robot arms
  • Mechanical design of mounts and stands.
About Our Roles & Titles

At Tutor, we believe great engineers and researchers are defined by what they build and the impact they have — not where they sit in an org chart or what title they have. Therefore, everyone in our R&D org holds the title Member of Technical Staff (MoTS). Our job postings use standard titles so you can find us, but if you join Tutor, you'll be a MoTS — with a level that is determined through the interview process.

That also means we hire people, not slots. Work at Tutor evolves every quarter, and we set the expectation of flexibility from day one — it's common for people to start on one thing and shift to another based on where the team needs them most. A high technical bar across the board is what makes that flexibility possible: it's what allows people to contribute meaningfully whatever problem they take on.

Tutor offers competitive benefits including fully employer-covered health insurance, a managed 401(k), and regular in-office meals. We host social events and maintain a collaborative, low-ego work culture where people are trusted to take ownership and solve real problems. Tutor is an equal opportunity employer and welcomes applicants from all backgrounds.