The market for communication has grown into more than billions of dollars, and will exceed tens of billions in the near furture. We will explore new approaches of high precision nano-manufacturing, and high speed memory. The principle of high-speed manufacturing breaks the traditional optical manufacturing limit and provides a new path to extend Moore's law to the 5-nanometer feature size. At the same time, we will develop the ultra-fast memory with nanomaterials which have unique advantages including robust athermal operation, small size, wafer scale integration, high-speed,broadband, low loss performance,etc. The technologies have a huge market potential, and can be used to any application restricted by memory speed, including environmental informatics and the weather forecast.