Jason Liang
About Jason Liang
Jason Liang is the VP of Business Development with an MBA from UC Berkeley and an undergraduate degree from MIT, known for his significant contributions in technology partnerships and machine learning deployments.
Jason Liang - Vice President of Business Development
Jason Liang currently serves as the Vice President of Business Development. His role involves overseeing the business development strategies and initiatives, aiming to drive the growth and expansion of the company. His expertise lies in identifying and securing key partnerships that foster technological advancement and market penetration.
Jason Liang's MBA from UC Berkeley's Haas School of Business
Jason Liang holds a Master of Business Administration from UC Berkeley's Haas School of Business. This prestigious program provided him with advanced knowledge and skills in business management, leadership, and strategic decision-making, which he applies in his professional role to drive business growth and development.
Jason Liang's Undergraduate Degree from MIT
Jason Liang earned his undergraduate degree from the Massachusetts Institute of Technology (MIT). His education at one of the leading institutions in science and technology laid a solid foundation in technical expertise and analytical skills, essential for his career in business development within tech-centric companies.
Director of Business Development at DataRobot
Before his current role, Jason Liang worked as the Director of Business Development at DataRobot. There, he was responsible for leading key technology alliance partnerships in cloud, analytics, and data management. His work contributed to DataRobot's strategic partnerships and broadened their technological reach.
Business Development at Qeexo
Jason Liang also led business development and operations at Qeexo, where he played a pivotal role in deploying nearly 200 million machine learning models into production. This work significantly contributed to the advancement and application of machine learning technologies in real-world scenarios.