Join Sonance as a Digital Signal Processing Engineer
Are you a talented engineer passionate about audio DSP technology? Sonance is excited to announce an opportunity for a Digital Signal Processing Engineer to join our innovative team. Help us develop groundbreaking algorithms that enhance the capabilities of our audio equipment.
Key Responsibilities
- Develop, tune, and optimize DSP algorithms for audio signal processing.
- Implement these algorithms in C/C++ for production systems.
- Collaborate with engineers and product developers to integrate DSP algorithms into commercial products.
- Conduct experimental tests and prototype evaluations to refine DSP techniques.
- Stay abreast of the latest trends in DSP, AI, and ML to boost product features and performance.
- Document development processes and algorithm functionalities for future reference.
- Provide technical guidance and mentorship to junior engineers and team members.
Requirements
- Bachelor’s or Master’s degree in Electrical Engineering, Computer Science, or a related field.
- Minimum of 3 years’ experience in DSP engineering with hands-on experience in C/C++ programming.
- Proven track record of developing novel DSP algorithms, including filter design and Fourier transforms.
- Solid understanding of digital audio signal processing techniques and theory.
- Ability to benchmark and measure performance in low-level C and assembly.
- Willingness to engage at the hardware level as needed.
Preferred Qualifications
- Experience with digital modeling and simulation of speakers and amplifiers.
- Experience developing and testing gstreamer codecs.
- Experience with AI and ML applications in DSP.
- Proficiency with GitLab, Jira, Confluence, and Agile/SCRUM workflows.
- Knowledge of additional programming languages such as Python.
- Experience in the audio technology industry, particularly with speaker and amplifier products.
- Published research or projects in the field of DSP, AI, or ML.
Company Name: Sonance
Job Title: Digital Signal Processing Engineer
At Sonance, we push the boundaries of audio technology. Join us, and let's redefine the future of audio signal processing together.