Divyamani Tripathi
About Divyamani Tripathi
Divyamani Tripathi is a Software Engineer at Synaptics Incorporated in Bengaluru, Karnataka, India, with over three years of experience in audio processing and DSP algorithm development. He has previously worked at DSP Group and Harman Connected Services, contributing to various projects involving middleware APIs and automation scripts.
Work at Synaptics
Divyamani Tripathi has been employed at Synaptics Incorporated as a Software Engineer since 2021. Based in Bengaluru, Karnataka, India, he has contributed to various projects over his three years with the company. His role involves developing software solutions and enhancing audio processing technologies.
Previous Employment Experience
Before joining Synaptics, Divyamani Tripathi worked at DSP Group for five months in 2021 as a Software Engineer in Bengaluru, Karnataka, India. He also served at Harman Connected Services Corp India Private Ltd, where he held the position of Associate Engineer from 2019 to 2020 and later transitioned to Software Engineer for six months in 2021.
Education and Expertise
Divyamani Tripathi completed his Bachelor of Technology (B.Tech.) in Computer Science & Engineering at Amity School of Engineering & Technology from 2014 to 2018. He also attended Sarvodaya Vidya Mandir Inter College, where he studied Physics, Chemistry, Mathematics, and Computer Science, achieving his Higher Secondary education from 2011 to 2013.
Technical Skills and Contributions
Divyamani Tripathi has developed cross compiler toolchains for Harman Audio Solutions on the Hexagon SNAPDRAGON S820AM ADP platform. He created scripts that automate the Audio DSP Image building and flashing process, significantly improving efficiency. His work includes developing middleware APIs for integrating audio solutions with the Common Audio Processor Interface (CAPI) framework and optimizing DSP algorithms for performance.
DSP Development Experience
Divyamani possesses expertise in SIMD (Single Instruction Multiple Data) processing, essential for algorithm efficiency. He has experience in developing both fixed-point and floating-point audio processing algorithms, including Engine Order Cancellation and Engine Sound Synthesis. He is skilled in using development environments such as Hexagon IDE and Xtensa Xplorer for DSP-based audio firmware development.