Agility Robotics is nearing the completion of a state-of-the-art factory in Salem, Oregon, designed for the mass production of their innovative humanoid robots, known as Digit. These robots, each equipped with two legs and two arms, are engineered to move freely and collaborate with humans in warehouses and factories.
The facility, named “RoboFab,” covers a vast area of 6500 square metres. According to Damion Shelton, the co-founder and CEO of Agility Robotics, RoboFab is a first-of-its-kind facility in the industry.
Aindrea Campbell, the COO of Agility Robotics and former senior director of iPad operations at Apple and an engineering manager at Ford, revealed that once fully operational, RoboFab will have an impressive annual production capacity of up to 10,000 units. Additionally, this venture will provide employment to over 500 individuals.
At present, Agility Robotics is concentrating on the careful setup and thorough testing of its initial production lines, marking a significant advancement in the field of robotics and automation.
Agility Robotics is pioneering a new era in the field of robotics as they near the completion of their state-of-the-art manufacturing facility and commence the installation of sophisticated production lines. As articulated by COO Aindrea Campbell, this venture is not a run-of-the-mill operation; it’s a carefully orchestrated, phased process aimed at achieving unparalleled growth and scaling capacity.
With substantial financial support from esteemed venture investors such as DCVC and Playground Global, Agility Robotics has made significant strides, outmaneuvering potential competitors, including Tesla’s Optimus initiative. Their crowning achievement lies in the successful development of production-ready prototype humanoid robots and the establishment of a cutting-edge factory for their mass production.
CEO Damion Shelton underscored that their humanoid robot, Digit, was intricately designed to emulate the human form. This design equips these robots with the capability to lift, sort, and navigate while maintaining perfect balance. This innovative design also enables them to operate flawlessly in environments with steps or other structural complexities that would typically impede traditional robotic counterparts. Moreover, these advanced robots are powered by rechargeable lithium-ion batteries, signifying a substantial advancement in sustainable technology.
