... embedded systems, RTOS environments, or mobile platforms (iOS/Android) • Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models • Contributions to ...
... embedded systems, RTOS environments, or mobile platforms (iOS/Android) • Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models • Contributions to ...
Senior Engineer, Software Engineering
Melbourne, FL · On-site
$146K - $164K/yr
Must possess at least 3 years of experience with an embedded Real Time Operating Systems (RTOS) (e.g., Green Hills, Integrity, Wind River VxWorks, Linux, etc.). * Must possess at least 3 years of ...
Senior Engineer, Software Engineering
Melbourne, FL · On-site
$146K - $164K/yr
Must possess at least 3 years of experience with an embedded Real Time Operating Systems (RTOS) (e.g., Green Hills, Integrity, Wind River VxWorks, Linux, etc.). * Must possess at least 3 years of ...
Senior Engineer, Software Engineering
$146K - $164K/yr
Must possess at least 3 years of experience with an embedded Real Time Operating Systems (RTOS) (e.g., Green Hills, Integrity, Wind River VxWorks, Linux, etc.). * Must possess at least 3 years of ...
Senior Engineer, Software Engineering
$146K - $164K/yr
Must possess at least 3 years of experience with an embedded Real Time Operating Systems (RTOS) (e.g., Green Hills, Integrity, Wind River VxWorks, Linux, etc.). * Must possess at least 3 years of ...
Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android). * Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models.
Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android). * Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models.
... focus on embedded software aspects of the project life cycle * Experienced in and knowledgeable of real-time operating systems (RTOS), I/O drivers, and micro-controllers * Experienced in and ...
... focus on embedded software aspects of the project life cycle * Experienced in and knowledgeable of real-time operating systems (RTOS), I/O drivers, and micro-controllers * Experienced in and ...
Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android). * Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models.
Quick apply
Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android). * Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models.
Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android). * Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models.
Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android). * Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models.
Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android). * Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models.
Quick apply
Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android). * Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models.
Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android). * Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models.
Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android). * Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models.
Embedded Rtos information
See Melbourne, FL salary details
$64.9K - $73.6K
1% of jobs
$73.6K - $82.4K
2% of jobs
$82.4K - $91.2K
3% of jobs
$91.2K - $99.9K
6% of jobs
$99.9K - $108.7K
5% of jobs
$108.7K - $117.5K
5% of jobs
$120.5K is the 25th percentile. Wages below this are outliers.
$117.5K - $126.2K
5% of jobs
$126.2K - $135K
7% of jobs
$135K - $143.8K
3% of jobs
$143.8K - $152.5K
3% of jobs
The median wage is $153.7K / yr.
$152.5K - $161.3K
58% of jobs
$64.9K
$142.2K
$161.3K
How much do embedded rtos jobs pay per year?
As of Jun 15, 2026, the average yearly pay for embedded rtos in Melbourne, FL is $142,175.00, according to ZipRecruiter salary data. Most workers in this role earn between $121,900.00 and $160,400.00 per year, depending on experience, location, and employer.
What are some typical challenges faced when developing software for embedded RTOS environments?
Developing software for embedded RTOS (Real-Time Operating System) environments often involves unique challenges such as managing limited memory and processing resources, ensuring deterministic real-time performance, and debugging in resource-constrained systems. Team members frequently collaborate closely with hardware engineers to optimize code for specific microcontrollers or processors. Additionally, balancing task prioritization and inter-task communication to avoid deadlocks or priority inversion is a common focus. These complexities make strong problem-solving skills and attention to detail particularly valuable in this role.
Which RTOS is used in embedded systems?
Embedded RTOS (Real-Time Operating System) developers often work with popular RTOS options such as FreeRTOS, VxWorks, ThreadX, Zephyr, and QNX, depending on the application requirements. These RTOSes provide deterministic task scheduling, low latency, and resource management essential for embedded systems. Knowledge of C programming and real-time constraints is important for working with these systems.
Will AI replace embedded programmers?
Embedded RTOS programmers develop real-time operating systems for embedded devices, and while AI can automate certain coding tasks, it is unlikely to fully replace skilled embedded programmers due to the need for specialized knowledge of hardware, real-time constraints, and system integration. AI tools may assist in debugging and code generation, but human expertise remains essential for designing reliable embedded systems.
What engineers make $500,000?
Engineers in specialized fields such as software engineering, data science, or senior executive roles can earn $500,000 or more annually, especially with extensive experience, advanced skills, and in high-demand industries like technology or finance. Compensation often includes base salary, bonuses, and stock options, and reaching this level typically requires years of experience and advanced certifications.
What are the key skills and qualifications needed to thrive as an Embedded RTOS Engineer, and why are they important?
To thrive as an Embedded RTOS Engineer, you need a strong background in embedded systems programming, real-time operating system (RTOS) concepts, and a relevant degree in computer engineering or a related field. Familiarity with tools like Keil, IAR Embedded Workbench, and experience with RTOS platforms such as FreeRTOS or VxWorks, along with certifications like Certified Embedded Systems Engineer, are highly valuable. Attention to detail, problem-solving abilities, and effective teamwork are crucial soft skills that enhance performance in this role. These competencies are essential for designing reliable, efficient, and responsive embedded solutions that meet stringent real-time requirements.
What is an Embedded RTOS?
An Embedded RTOS (Real-Time Operating System) is a specialized operating system designed to manage hardware resources and run applications with precise timing requirements in embedded systems. Unlike general-purpose operating systems, an RTOS ensures that tasks are executed predictably and meet strict deadlines, which is crucial in applications like automotive systems, medical devices, and industrial automation. Embedded RTOSs provide features like multitasking, task scheduling, and inter-task communication, all optimized for resource-constrained environments. They help developers create reliable, efficient, and responsive embedded applications.
Is embedded systems still a good career in 2026?
Embedded RTOS development remains a strong career in 2026 due to ongoing demand in industries like automotive, healthcare, and IoT. Skills in real-time operating systems, C/C++, and hardware integration are valuable, and certifications can enhance job prospects in this field.
What is the difference between Embedded Rtos vs Firmware Engineer?
| Aspect | Embedded Rtos | Firmware Engineer |
|---|---|---|
| Credentials | Knowledge of RTOS, embedded systems, C/C++ | Embedded systems, C/C++, hardware understanding |
| Work Environment | Embedded systems development, real-time applications | Hardware interfacing, low-level programming |
| Industry Usage | Consumer electronics, automotive, IoT devices | Consumer electronics, aerospace, medical devices |
Embedded Rtos specialists focus on designing and implementing real-time operating systems for embedded devices, ensuring system responsiveness and multitasking. Firmware Engineers develop low-level software that directly interacts with hardware components, often working within embedded environments. While both roles require embedded systems knowledge, Embedded Rtos professionals specialize in real-time OS development, whereas Firmware Engineers focus on hardware-software integration and low-level programming.
What are popular job titles related to Embedded Rtos jobs in Melbourne, FL? For Embedded Rtos jobs in Melbourne, FL, the most frequently searched job titles are:
What job categories do people searching Embedded Rtos jobs in Melbourne, FL look for? The top searched job categories for Embedded Rtos jobs in Melbourne, FL are:
What cities near Melbourne, FL are hiring for Embedded Rtos jobs? Cities near Melbourne, FL with the most Embedded Rtos job openings:
Full-time
Posted 11 days ago
Job description
Job Summary:
Research Innovations Incorporated is redefining defense technology, seeking security researchers to explore and exploit complex systems for defense and homeland security. This role involves leading advanced vulnerability research, performing deep reverse engineering, and contributing to a collaborative research culture.
Responsibilities:
• Leading advanced vulnerability research efforts across operating systems, kernels, firmware, hypervisors, embedded platforms, and complex application stacks.
• Independently scoping ambiguous or underexplored attack surfaces and driving research from initial hypothesis through validated findings.
• Performing deep reverse engineering and in-memory analysis of compiled binaries across multiple architectures (x86/x64, ARM, PowerPC, etc.).
• Designing and executing novel exploitation techniques and mitigation evaluations, including identifying real-world weaknesses in modern defense mechanisms.
• Analyzing undocumented or partially documented system behavior and extending internal interfaces or tooling to support research goals.
• Collaborating with other senior researchers to shape technical direction, review complex work, and raise the overall quality of research output.
• Translating low-level technical findings into clear, actionable insights for internal stakeholders and, when appropriate, customers.
• Contributing to research culture through mentorship, knowledge sharing, and improvements to tools, methodologies, and workflows.
Qualifications:
Required:
• Active US Top Secret security clearance
• Ability to upgrade to TS/SCI Special Access Program access
• Leading advanced vulnerability research efforts across operating systems, kernels, firmware, hypervisors, embedded platforms, and complex application stacks
• Independently scoping ambiguous or underexplored attack surfaces and driving research from initial hypothesis through validated findings
• Performing deep reverse engineering and in-memory analysis of compiled binaries across multiple architectures (x86/x64, ARM, PowerPC, etc.)
• Designing and executing novel exploitation techniques and mitigation evaluations, including identifying real-world weaknesses in modern defense mechanisms
• Analyzing undocumented or partially documented system behavior and extending internal interfaces or tooling to support research goals
• Collaborating with other senior researchers to shape technical direction, review complex work, and raise the overall quality of research output
• Translating low-level technical findings into clear, actionable insights for internal stakeholders and, when appropriate, customers
• Contributing to research culture through mentorship, knowledge sharing, and improvements to tools, methodologies, and workflows
• Conducted high-impact vulnerability research on real-world systems with minimal guidance, producing findings that influenced security decisions or mitigations
• Demonstrated deep understanding of operating system internals (Windows, Linux, macOS), kernel subsystems, and low-level execution models
• Reverse engineered complex binaries, firmware, or kernel components and reasoned about their behavior in memory
• Developed proof-of-concept exploits or mitigation bypasses that go beyond simple crashes and demonstrate meaningful impact
• Shown strong intuition for exploit mitigations such as ASLR, DEP/NX, stack canaries, CFI, and where their assumptions break down
• Written research tooling, scripts, or frameworks (e.g., Python, C/C++) to support analysis, exploitation, or automation
• Collaborated closely with other researchers, provided technical feedback, and influenced how work is approached or evaluated
• Communicated complex technical concepts clearly in writing and discussion, including with other experts
Preferred:
• Experience with hypervisors, virtualization stacks, firmware boot chains, or trusted execution environments
• Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android)
• Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models
• Contributions to the vulnerability research community (publications, talks, open source)
• Experience with symbolic execution, constraint solving, fuzzing frameworks, or advanced program analysis techniques
• Malware analysis experience, including deobfuscation, behavioral analysis, or adversarial tooling
• Interest in shaping long-term research direction, mentoring other researchers, or acting as a technical authority without moving into management
Company:
Research Innovations Inc. (RII) supports critical defense, intelligence, and cyber customers across the U.S. Founded in 2009, the company is headquartered in Alexandria, USA, with a team of 201-500 employees. The company is currently Growth Stage.
Research Innovations Incorporated is redefining defense technology, seeking security researchers to explore and exploit complex systems for defense and homeland security. This role involves leading advanced vulnerability research, performing deep reverse engineering, and contributing to a collaborative research culture.
Responsibilities:
• Leading advanced vulnerability research efforts across operating systems, kernels, firmware, hypervisors, embedded platforms, and complex application stacks.
• Independently scoping ambiguous or underexplored attack surfaces and driving research from initial hypothesis through validated findings.
• Performing deep reverse engineering and in-memory analysis of compiled binaries across multiple architectures (x86/x64, ARM, PowerPC, etc.).
• Designing and executing novel exploitation techniques and mitigation evaluations, including identifying real-world weaknesses in modern defense mechanisms.
• Analyzing undocumented or partially documented system behavior and extending internal interfaces or tooling to support research goals.
• Collaborating with other senior researchers to shape technical direction, review complex work, and raise the overall quality of research output.
• Translating low-level technical findings into clear, actionable insights for internal stakeholders and, when appropriate, customers.
• Contributing to research culture through mentorship, knowledge sharing, and improvements to tools, methodologies, and workflows.
Qualifications:
Required:
• Active US Top Secret security clearance
• Ability to upgrade to TS/SCI Special Access Program access
• Leading advanced vulnerability research efforts across operating systems, kernels, firmware, hypervisors, embedded platforms, and complex application stacks
• Independently scoping ambiguous or underexplored attack surfaces and driving research from initial hypothesis through validated findings
• Performing deep reverse engineering and in-memory analysis of compiled binaries across multiple architectures (x86/x64, ARM, PowerPC, etc.)
• Designing and executing novel exploitation techniques and mitigation evaluations, including identifying real-world weaknesses in modern defense mechanisms
• Analyzing undocumented or partially documented system behavior and extending internal interfaces or tooling to support research goals
• Collaborating with other senior researchers to shape technical direction, review complex work, and raise the overall quality of research output
• Translating low-level technical findings into clear, actionable insights for internal stakeholders and, when appropriate, customers
• Contributing to research culture through mentorship, knowledge sharing, and improvements to tools, methodologies, and workflows
• Conducted high-impact vulnerability research on real-world systems with minimal guidance, producing findings that influenced security decisions or mitigations
• Demonstrated deep understanding of operating system internals (Windows, Linux, macOS), kernel subsystems, and low-level execution models
• Reverse engineered complex binaries, firmware, or kernel components and reasoned about their behavior in memory
• Developed proof-of-concept exploits or mitigation bypasses that go beyond simple crashes and demonstrate meaningful impact
• Shown strong intuition for exploit mitigations such as ASLR, DEP/NX, stack canaries, CFI, and where their assumptions break down
• Written research tooling, scripts, or frameworks (e.g., Python, C/C++) to support analysis, exploitation, or automation
• Collaborated closely with other researchers, provided technical feedback, and influenced how work is approached or evaluated
• Communicated complex technical concepts clearly in writing and discussion, including with other experts
Preferred:
• Experience with hypervisors, virtualization stacks, firmware boot chains, or trusted execution environments
• Background in embedded systems, RTOS environments, or mobile platforms (iOS/Android)
• Familiarity with networking or wireless stacks (Wi-Fi, Bluetooth, cellular) and their security models
• Contributions to the vulnerability research community (publications, talks, open source)
• Experience with symbolic execution, constraint solving, fuzzing frameworks, or advanced program analysis techniques
• Malware analysis experience, including deobfuscation, behavioral analysis, or adversarial tooling
• Interest in shaping long-term research direction, mentoring other researchers, or acting as a technical authority without moving into management
Company:
Research Innovations Inc. (RII) supports critical defense, intelligence, and cyber customers across the U.S. Founded in 2009, the company is headquartered in Alexandria, USA, with a team of 201-500 employees. The company is currently Growth Stage.
About Research Innovations
Sourced by ZipRecruiter
Industry
Software development
Company size
51 - 200 Employees
Headquarters location
Alexandria, VA, US
Year founded
2009