Circa £58,000 to £65,000; bonus of up to 21% of ba...
Hybrid (3-4 days on-site)
Complex high speed digital electronics design
Mpsoc fpga and ai hardware
Si and pi analysis
MBDA is seeking a High Speed Digital and Hardware Design Lead to join their team in either Stevenage or Bristol, focusing on high-speed digital electronics design using MPSoC FPGAs and AI hardware. The ideal candidate will possess strong technical skills and have the ambition to grow into a technical lead role within the company
Job Summary
MBDA offers an exceptional opportunity to develop a career as a high-speed Digital and Hardware Electronics Design Lead using state-of-the-art MPSoC FPGAs and AI acceleration hardware.
As Hardware Lead, you will support the Technical Lead/Architect in collaborating with various teams to specify and lead the detailed design of high-speed digital aspects through the full product development lifecycle.
Benefits include a long-term career path, company bonus up to 21%, a maximum pension contribution of 14%, flexible working, and enhanced parental leave.
Matching Summary
Match Score: 85
MBDA is seeking a High Speed Digital and Hardware Design Lead to join their team in either Stevenage or Bristol, focusing on high-speed digital electronics design using MPSoC FPGAs and AI hardware. The ideal candidate will possess strong technical skills and have the ambition to grow into a technical lead role within the company.
Salary
circa £58,000 to £65,000; Bonus of up to 21% of base salary; Pension: Maximum total (employer and employee) contribution of up to 14%
Skills & Requirements
Must-have
complex high speed digital electronics design
MPSoC FPGA and AI hardware
SI and PI Analysis
VHDL for board level test
C, C++, or Python for test
DSP concepts for SDR/radar/sensors
Nice-to-have
drive collaboration and successful delivery
configure and document designs professionally
Key Requirements
Solid experience in complex, high speed digital electronics design
Experience in MPSoC FGPA, DDR and Flash memory
Experience in high speed serial interconnect design