Job ID 2610675
Location
Crane, IN, US
Date Posted
2026-03-31
Category
Engineering and Sciences
Subcategory
Electrical Engr
Schedule
Full-Time
Shift
Day Job
Travel
Yes - 10% of the time
Minimum Clearance Required
Interim_Secret
Clearance Level Must Be Able to Obtain
Secret
Potential for Remote Work
ORA_HYBRID
Description
SAIC is seeking an
FPGA Firmware Engineer – RF Systems Development
to design and implement cutting-edge firmware for advanced receiver (Rx) and transmitter (Tx) systems operating in the microwave frequency band of the electromagnetic spectrum. This role supports the development of sea-based and aerospace platforms, leveraging field-programmable gate arrays (FPGAs) to enable high-performance signal processing, system interfaces, and hardware integration.
The selected individual will play an integral role in implementing Digital Signal Processing (DSP) algorithms, designing high-speed system interfaces, and optimizing embedded architectures for RF systems. This position also involves lab-based hardware integration, testing, and debugging of FPGA-based systems, with a focus on ensuring compliance with stringent operational and environmental requirements, including MIL-STD standards.
This position supports onsite or collaborative work at Naval Surface Warfare Center, Crane Division and provides the opportunity to advance critical aerospace and sea-based RF systems at the forefront of defense technology.
FPGA-Based Design of Tx/Rx Systems
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Develop and implement FPGA firmware to enable Rx/Tx system operations across the microwave spectrum (1 GHz to 100+ GHz).
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Utilize VHDL and/or Verilog for FPGA design, including coding, simulation, synthesis, and static timing analysis.
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Apply DSP algorithms for RF applications, including digital filtering, modulation/demodulation, FFTs, and error correction.
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Collaborate with RF engineers to ensure FPGA designs are optimized for signal fidelity, low latency, and efficient bandwidth utilization.
High-Speed Interfaces and System Integration
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Design and implement high-speed interfaces for protocols such as PCIe, Ethernet, UART, I²C, SPI, and DDR memory.
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Integrate FPGA solutions with RF front-end systems, ensuring seamless interaction between digital and analog components.
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Enable real-time system monitoring and control via FPGA-based architectures, ensuring high reliability in mission-critical scenarios.
Hardware Bring-Up and Debugging
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Perform lab-based system integration of FPGA firmware, employing hardware bring-up methods to validate Tx/Rx functionality.
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Use equipment such as oscilloscopes, logic analyzers, and protocol analyzers to debug firmware-hardware interactions.
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Troubleshoot and resolve performance issues linked to hardware-software integration and high-speed data flows.
Testing, Validation, and Compliance
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Support system testing and characterization under sea-based and aerospace operating conditions, emphasizing MIL-STD compliance.
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Develop automated test harnesses using scripting tools (e.g., TCL, Python, Bash) to validate FPGA performance and system interfaces.
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Assist in ensuring firmware designs meet environmental and operational specifications, including performance during atmospheric reentry.
Collaboration and Technical Leadership
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Collaborate with multidisciplinary teams, including RF engineers, hardware engineers, and system architects, to deliver integrated solutions.
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Lead trade studies evaluating design alternatives, balancing performance against factors such as size, weight, power, and cost.
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Mentor junior engineers on FPGA development best practices, DSP implementation, and industry-standard design methodologies.
Qualifications
Required Education and Experience
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Bachelor’s degree (or higher) in Electrical Engineering, Computer Engineering, or a related technical field.
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Five (5) or more years of FPGA firmware engineering experience, with expertise in VHDL/Verilog, simulation tools (e.g., ModelSim/Questasim), synthesis, and static timing analysis.
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Interim secret clearance required to start with the ability to obtain a Secret Clearance. SAIC will sponsor the clearance process if necessary.
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Hands-on proficiency in FPGA-based DSP algorithm implementation, including digital filtering, FFTs, and modulation/demodulation techniques.
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Experience designing and implementing high-speed protocols and interfaces, such as PCIe, Ethernet, SPI, DDR, and I²C.
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Proven expertise in hardware debugging and integration, utilizing tools like oscilloscopes, protocol analyzers, and logic analyzers.
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Familiarity with scripting languages like TCL, Python, or Bash for automation and test development.
Preferred Experience
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Experience working with aerospace and sea-based systems, with knowledge of MIL-STD compliance requirements.
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Prior development experience with RF and microwave systems, including integration with RF front-end components.
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Familiarity with tools for high-speed circuit design and electromagnetic simulation (e.g., HFSS, CST).
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Experience with FPGA families from vendors like Xilinx, Intel (Altera), and Microsemi, including their embedded IP cores.
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Certifications in FPGA design, digital systems, or RF engineering are a plus.