What are the responsibilities and job description for the High-Performance Networking Specialist position at beBee Careers?
Job Description:
This is an exciting opportunity to join our team as a highly skilled FPGA engineer. The successful candidate will design and develop advanced FPGA-based solutions for high-performance networking, cybersecurity, and cryptographic applications.
About the Team:
We are a dynamic team of engineers who are passionate about developing innovative solutions that make a real difference. We believe in collaboration, open communication, and continuous learning.
Key Qualifications:
- Bachelor's degree in electrical engineering, computer engineering, or related field.
- Expertise in System Verilog, Verilog, or VHDL, required.
- Proven experience with high-speed serial interfaces (e.g., PCIe, 100G Ethernet) and data transfer protocols.
What You'll Do:
- Drive new product innovation by contributing to architecture design and rapid prototyping from concept to hardware.
- Lead FPGA design and development tasks with a focus on high-throughput and resource-optimized implementations.
This is an exciting opportunity to join our team as a highly skilled FPGA engineer. The successful candidate will design and develop advanced FPGA-based solutions for high-performance networking, cybersecurity, and cryptographic applications.
About the Team:
We are a dynamic team of engineers who are passionate about developing innovative solutions that make a real difference. We believe in collaboration, open communication, and continuous learning.
Key Qualifications:
- Bachelor's degree in electrical engineering, computer engineering, or related field.
- Expertise in System Verilog, Verilog, or VHDL, required.
- Proven experience with high-speed serial interfaces (e.g., PCIe, 100G Ethernet) and data transfer protocols.
What You'll Do:
- Drive new product innovation by contributing to architecture design and rapid prototyping from concept to hardware.
- Lead FPGA design and development tasks with a focus on high-throughput and resource-optimized implementations.
