About this role
The FPGA Implementation Specialist will drive the implementation, integration, and optimization of FPGA-based solutions for 5G Radio Units, focusing on Digital Front End processing and High-PHY functionality. This role is integral to delivering robust, low-latency, power-efficient wireless infrastructure solutions, working closely with multidisciplinary engineering teams.
• Implement and optimize FPGA-based solutions for 5G Radio Unit platforms, emphasizing Digital Front End (DFE) and High-PHY processing functions. • Integrate and validate FPGA IP blocks for signal processing, including digital up/down conversion, filtering, CFR, DPD, beamforming, and timing synchronization. • Implement High-PHY processing functions like FFT/IFFT, resource mapping, modulation, coding interfaces, and MIMO processing. • Develop and maintain RTL code using VHDL, Verilog, or SystemVerilog, adhering to coding standards and implementation methodologies. • Optimize solutions for AMD Versal adaptive SoCs, including Programmable Logic, Processing System, Network-on-Chip, and AI Engine subsystems. • Implement and optimize AI Engine-based signal processing functions for DFE and High-PHY applications, ensuring efficient resource utilization. • Support hardware/software co-design activities involving AI Engine kernels, FPGA fabric, and high-speed communication interfaces. • Perform FPGA synthesis, place-and-route, timing closure, and power analysis, ensuring optimal resource utilization and performance. • Integrate FPGA designs with embedded processors, RF transceivers, and system-level software components for seamless operation. • Develop and execute verification activities, including simulation, testbench development, and hardware validation, to ensure functionality.
• Bachelor's degree in Electrical, Electronics, Telecommunications, or Computer Engineering. • 3-5 years of experience in FPGA development, implementation, and integration in telecommunications or wireless infrastructure. • Strong knowledge of FPGA implementation methodologies and RTL development using VHDL, Verilog, or SystemVerilog. • Experience with AMD/Xilinx Vivado and Vitis development environments for FPGA solutions. • Understanding of digital signal processing concepts and FPGA implementation techniques. • Experience with FPGA synthesis, place-and-route, timing closure, and hardware debugging. • Familiarity with high-speed digital interfaces and communication protocols. • Knowledge of FPGA verification methodologies, simulation tools, and debugging techniques. • Experience with laboratory equipment for hardware testing and validation. • Strong analytical, problem-solving, and technical communication skills.