We’re working with an established technology business operating at the forefront of the audio technology space. They’re looking for an FPGA Engineer to help design ultra-low-latency audio platforms used in demanding live environments globally. What You’ll Be Working On Building FPGA-based audio engines focused on low latency and high accuracy Developing signal-processing features and audio routing solutions Designing and implementing communication between audio systems and external devices Writing clear, testable HDL and supporting software Verifying designs using simulation and industry-standard verification approaches Working closely with electronics and systems engineers to shape overall architectures Reviewing schematics, selecting components and supporting hardware bring-up Producing clear documentation to support long-term maintainability What We’re Looking For Commercial experience in FPGA or low-level firmware development Strong VHDL skills Solid grounding in digital signal processing Understanding of high-speed digital design, memory, clocking and data movement Experience interfacing with audio and serial protocols (e.g. I2C, SPI, UART, I2S) Comfortable collaborating with cross-disciplinary and geographically distributed teams A genuine interest in audio technology and real-time systems Useful (But Not Essential) Experience Xilinx FPGA platforms and toolchains Audio-over-IP technologies (e.g. Dante, AES67) Ethernet and networking concepts DSP programming (including SHARC) C/C++ alongside HDL Embedded Linux or bootloader experience Exposure to digital audio products or mixing systems Why This Role? Work on technically challenging products where performance really matters Play a hands-on role across architecture, development and verification Join a collaborative, engineering-driven environment Ongoing training and development to support long-term career growth Competitive package and international collaboration opportunities If you’re passionate about FPGA, DSP and audio, and want to work on systems that push the limits of real-time performance, then please apply now.