Abstract :
Intel´s research agenda includes 90-nanometer fabrication processes and work in extreme ultraviolet lithography that will help extend Moore´s law. It also embraces disruptive technologies exemplified in devices such as micro-electromechanical-systems microradiators, smart antennas, and radiofrequency components for analog switches, resonators, and filters; ad hoc sensor networks with wireless communications; and photonic devices such as optical switches and cheap tunable lasers. To implement these advances, Intel has created a network of university-based labs that group the corporation´s scientists with academic researchers to form multidisciplinary teams. These lablets leverage industry and academic synergy to nurture off-the-roadmap ideas and technologies and provide a proving ground for testing their viability.
Keywords :
DP industry; Intel research; Moore law; lablets; mart antennas; micro-electromechanical-systems microradiators; photonic devices; radiofrequency components; ultraviolet lithography; Antenna accessories; Communication switching; Lithography; Moore´s Law; Optical device fabrication; Optical resonators; Optical switches; Optoelectronic and photonic sensors; Radio frequency; Ultraviolet sources;
