Stanford researchers have patented an automated computer management system which can virtualize computers as well as the network of virtual machines to automatically and easily manage a large number of computers.
Stanford researchers have proposed two learning techniques for MIMO secondary users (SU) to spatially coexist with Primary Users (PU). Today, most of the spectrum is allocated to primary users for exclusive use.
Stanford researchers have developed a simple and rapid epoxy-based method for transferring photonic crystal (PC) cavities to the tip of an optical fiber.
Researchers in Prof. William Dally's laboratory have designed a dragonfly topology that reduces the cost of high-radix networks by reducing the number of long, global cables.
Stanford researchers have developed an efficient and low-cost device which increases the energy harvest of a system by recovering these losses through module-level maximum power point tracking (MPPT).
The performance of most digital systems today is limited more by their communication or interconnection rather than their logic or memory. To increase the entire system's efficacy, the focus is on improving the system's interconnection network.
Stanford researchers have developed novel systems and methods for power-controlled shared channel access in wireless networks supporting packetized data traffic.
Proxy Identity Based Encryption (proxy IBE) is a new encryption scheme that allows a user to send data encrypted with any given public key to a receiving user who decrypts the data with their own private key which is of no relation to the key used for encryption.