Azzedine Touzni serves as the Senior Director of Technology at Qualcomm, where he plays a pivotal role in shaping the future of mobile and embedded computing through his expertise in System on Chip (SoC) architecture and software development. With over 25 years of experience in...
Azzedine Touzni serves as the Senior Director of Technology at Qualcomm, where he plays a pivotal role in shaping the future of mobile and embedded computing through his expertise in System on Chip (SoC) architecture and software development. With over 25 years of experience in the industry, Azzedine has been instrumental in driving key projects that leverage Snapdragon platforms, focusing on the intricate design of CPU and DSP software micro-architecture. His work emphasizes heterogeneous software architecture, which is crucial for optimizing performance across various applications, including image processing, machine learning, and real-time use cases.
In his current role, Azzedine leads initiatives that enhance the efficiency and security of SoC systems, particularly in the realms of mobile devices and Internet of Things (IoT) applications. His deep understanding of embedded virtualization and SoC security allows him to address the growing challenges of data integrity and system reliability in an increasingly connected world. Azzedine's expertise extends to digital signal processing and statistical signal processing for communication, where he applies advanced techniques in ASIC and FPGA design to create robust solutions that meet the demands of modern computing environments.
Azzedine's leadership in application processor architecture not only drives innovation at Qualcomm but also sets industry standards for mobile and compute platform design. His collaborative approach and management skills foster a culture of creativity and technical excellence, enabling his teams to push the boundaries of what's possible in embedded systems. As Qualcomm continues to lead in mobile technology, Azzedine Touzni's contributions are vital in navigating the complexities of next-generation computing architectures.