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View PortfolioPhysical-world sensors by the billions are giving us high-resolution data that was previously unavailable.
Machine learning and edge computing make computational power stronger and more affordable than ever, allowing us to discover complex patterns and make better predictions.
Advances in engineering, robotics, 3D printing, and CRISPR make it possible to translate insights into physical and biological action quickly, effectively, and affordably.
This phenomenon is giving rise to an exponential increase in the rates of experimentation, iteration, and progress.
Learn MorePhysical-world sensors by the billions are giving us high-resolution data that was previously unavailable.
Machine learning and edge computing make computational power stronger and more affordable than ever, allowing us to discover complex patterns and make better predictions.
Advances in engineering, robotics, 3D printing, and CRISPR make it possible for us to translate insights into physical and biological action quickly, effectively, and affordably.
This phenomenon is giving rise to an exponential increase in the rates of experimentation, iteration and progress.
Learn MorePhysical-world sensors by the billions are giving us high-resolution data that was previously unavailable.
Machine learning and edge computing make computational power stronger and more affordable than ever, allowing us to discover complex patterns and make better predictions.
Advances in engineering, robotics, 3D printing, and CRISPR make it possible for us to translate insights into physical and biological action quickly, effectively, and affordably.
This phenomenon is giving rise to an exponential increase in the rates of experimentation, iteration and progress.
Learn More