(Senior) Engineer, DSP Systems Engineering, meoSphere

About The Position

Requirements

• MS/PhD in Electrical Engineering, Signal Processing, or related field with 5 years of relevant DSP algorithm design experience.
• Proven background in digital beamforming, MIMO signal processing, and calibration algorithms for phased arrays.
• Strong experience with system-level modelling in MATLAB/Simulink and Python, including model-based design.
• Proficiency in DSP algorithm simulation in C/C++ or SystemC, especially fixed-point modelling for ASIC implementation.
• Deep understanding of OFDM, modulation schemes, adaptive filtering, channel estimation, and RF impairment modelling.
• Familiarity with ASIC flow integration of DSP algorithms — RTL handoff, verification, and bit-accurate modelling.
• Experience in lab-based silicon bring-up, calibration, and verification of beamforming performance.
• Understanding of FPGA prototyping, hardware emulation, and verification flows used for DSP system validation.
• Eligibility for ESA/EU/NATO/National SECRET personnel security clearances. Candidates must be prepared to undergo a security clearance procedure, as this position may require holding such clearance, is considered an asset.
• Able to travel nationally & internationally

Nice To Haves

• Strong grasp of digital communications theory and antenna array processing.
• Capability to bridge system, algorithm, and implementation levels in custom beamforming ASICs.
• Excellent communication skills for cross-functional coordination (DSP, RTL, RF, firmware, system integration).
• Analytical mindset for trade-off evaluations: precision vs. power, latency vs. accuracy, hardware cost vs. performance.
• Working Experience of radiation and thermal constraints relevant to satellite ASIC system design.

Responsibilities

• Develop and model DSP algorithms for digital beamforming and channelization, MIMO, DPD, CFR, calibration, and digital compensation in phased-array and satellite communication systems.
• Develop DUC/DDC blocks using multi-rate DSP techniques and ensure optimized implementation for low-power fixed point hardware (FPGA/ASIC).
• Create system-level MATLAB/Python/C++ models representing end-to-end RF and baseband processing, including beamforming algorithms, channelization, quantization effects, and channel impairments.
• Translate high-level system requirements into implementable DSP blocks for ASIC design, collaborating with RTL and physical design teams to define fixed-point accuracy, throughput, and latency targets.
• Evaluate fixed-point vs. floating-point architecture trade-offs for ASIC efficiency and precision across multiple channels.
• Develop hardware/software co-design models to partition algorithms between firmware, digital logic, and analog front end.
• Prototype and validate system performance via FPGA or simulation platforms; assist with pre-silicon and post-silicon validation workflows.
• Optimize DSP algorithms for low power and high throughput suitable for space or high-reliability communication ASICs.
• Support beamforming calibration strategies, including array calibration, gain/phase mismatch correction, and RF impairment compensation.
• Generate technical reports, design documentation, and test plans to validate DSP architecture performance.