Laser Power Grid for Faster Cheaper Optical Data Networks

Yissum Research Development Company of the Hebrew University of Jerusalem, Ltd. (Jerusalem, IL) received U.S. Patent 7,715,714 for a laser power grid for operation with data networks that employs WDM and incorporates wavelength addressing.

According to inventor Aharon J. Agranat, Professor and Chairman of Applied Physics at Hebrew University of Jerusalem, the laser power grid includes a laser power supply station comprising a plurality of continuous-work laser sources, a laser distribution grid for distributing light propagations of different wavelengths throughout a data network and an optical switching network coupled to the laser distribution grid for locally turning the laser power on when it is needed. The laser power grid replaces systems of tunable lasers. It is considerably faster and cheaper than systems of tunable lasers and produces less waste heat within the data network surroundings. The laser power grid incorporates parallel fast optical communication in complex multi-node communication and computer networks and enables the implementation of burst switching and packet switching by wavelength addressing.

The laser power grid replaces systems of tunable lasers in known data networks; it is considerably faster and cheaper than systems of tunable lasers and produces less waste heat within the data network surroundings. The laser power grid incorporates parallel fast optical communication in complex multi-node communication and computer networks and enables the implementation of burst switching and packet switching by wavelength addressing. It is particularly cost effective as the routing paradigm in inter-chip, inter-board, and inter-cabinet applications, as well as between distant sites, in a wide spectrum of applications, in both the telecom and datacom arenas. 

Communication traffic is steadily increasing, both in size and in complexity. Leading service providers for Internet Protocol (IP), for example, report a 300 percent growth per year in Internet traffic, while traditional voice traffic has grown at a about 13 percent. [Cisco documentation, of Sep. 28 05:50:55 PDT 2002,]. In response to this explosive growth in bandwidth demand, long-haul service providers are moving away from Time division multiplexing (TDM) based systems, which were optimized for voice but now prove to be inefficient, to wavelength division multiplexing (WDM).