Our global team is growing, and we are looking for bold, collaborative and creative people to help us lead the industry transformation to build an adaptable intelligent world. We believe that by embracing diverse ideas, striving for excellence in all that we do, and working together as a unified team, we can accomplish anything. Come do your best work and live your best life as part of the ONEXILINX team!
The Wired and Wireless Group in Xilinx design communication interfaces for Wired and Wireless applications. This involves the design of high performance analog and digital circuits such as ADCs, DACs, references and high speed serial interfaces which are integrated into FPGA devices. These devices are used in a variety of applications such as automotive, wireless communications and medical imaging.
At Xilinx, the successful candidate will work as part of an IC design team and will get exposure to the process of analog and mixed signal design, digital design and/or digital functional verification. In particular the candidate will get to use industry standard design tools ( Spice simulators, Virtuoso layout tools , Cadence schematic capture ) as well as data post processing methodologies using standard approaches ( e.g. Matlab, Python, Perl )
Xilinx develops highly flexible and adaptive processing platforms that enable rapid innovation across a variety of technologies - from the endpoint to the edge to the cloud. Xilinx is the inventor of the FPGA, hardware programmable SoCs and the ACAP (Adaptive Compute Acceleration Platform), designed to deliver the most dynamic processor technology in the industry and enable the adaptable, intelligent and connected world of the future in a multitude of markets including Data Center (Compute, Storage and Networking); Wireless/5G and Wired Communications; Automotive/ADAS; Emulation & Prototyping; Aerospace & Defence; Industrial Scientific & Medical, and others. Xilinx's core strengths simultaneously address major industry trends including the explosion of data, heterogeneous computing after Moore's Law, and the dawn of artificial intelligence (AI).
- knowledge of analog and digital electrical circuits ( EE undergraduate )
- Competence in at least one mainstream programming language ( Perl, Java, C, e.t.c. )
- Desire to “roll up sleeves” and learn as much as possible about the chip design process in a leading edge company