Patent application number | Description | Published |
20080218869 | INJECTION MOLDED MICROLENSES FOR OPTICAL INTERCONNECTS - Disclosed are a microlens array, and a method of positioning and aligning the microlens array on another device. Generally, the microlens array comprises an array of injection molded microlens elements, and a supporting flange. Each of the microlens elements has a generally spheroid or spherical shape, and the supporting flange connects together the array of microlens elements to facilitate positioning that array of lenses on a printed circuit board, semiconductor package or wafer. This array is well suited for use with vertical cavity surface emitting lasers (VCSELs); and, in particular, the preferred embodiment of the invention addresses the problem of VCSEL laser array alignment by using arrays of microlenses elements fabricated by injection molding. | 09-11-2008 |
20080256381 | METHOD AND SYSTEM FOR ANALOG FREQUENCY CLOCKING IN PROCESSOR CORES - A method of and system for frequency clocking in a processor core are disclosed. In this system, at least one processor core is provided, and that at least one processor core has a clocking subsystem for generating an analog output clock signal at a variable frequency. Digital frequency control data and an analog signal are both transmitted to that at least one processor core; and that processor core uses the received analog signal and digital frequency control data to set the frequency of the output clock signal of the clocking subsystem. In a preferred implementation, multiple cores are asynchronously clocked and the core frequencies are independently set. | 10-16-2008 |
20080256382 | METHOD AND SYSTEM FOR DIGITAL FREQUENCY CLOCKING IN PROCESSOR CORES - Disclosed are a method of and system for digital frequency clocking in a processor core. At least one-processor core is provided, and that processor core has a clocking subsystem for generating an output clock signal, which may be an analog signal at a variable frequency. Digital frequency control data are transmitted or distributed to the processor core; and that one processor core receives the digital frequency control data transmitted to the core, and uses that received digital frequency control data to set the frequency of the output clock signal of the clocking subsystem of the processor core. Preferably, multiple cores are asynchronously clocked and the core frequencies are independently set, and, there is no phase relationship between the core clocks. | 10-16-2008 |
20080282074 | METHOD OF OPTIMIZING PERFORMANCE OF MULTI-CORE CHIPS AND CORRESPONDING CIRCUIT AND COMPUTER PROGRAM PRODUCT - A method of optimizing performance of a multi-core chip having a plurality of cores includes the steps of determining a V | 11-13-2008 |
20080285136 | INJECTION MOLDED MICROOPTICS - A wafer-scale apparatus and method is described for the automation of forming, aligning and attaching two-dimensional arrays of microoptic elements on semiconductor and other image display devices, backplanes, optoelectronic boards, and integrated optical systems. In an ordered fabrication sequence, a mold plate comprised of optically designed cavities is formed by reactive ion etching or alternative processes, optionally coated with a release material layer and filled with optically specified materials by an automated fluid-injection and defect-inspection subsystem. Optical alignment fiducials guide the disclosed transfer and attachment processes to achieve specified tolerances between the microoptic elements and corresponding optoelectronic devices and circuits. The present invention applies to spectral filters, waveguides, fiber-optic mode-transformers, diffraction gratings, refractive lenses, diffractive lens/Fresnel zone plates, reflectors, and to combinations of elements and devices, including microelectromechanical systems (MEMS) and liquid crystal device (LCD) matrices for adaptive, tunable elements. Preparation of interfacial layer properties and attachment process embodiments are taught. | 11-20-2008 |
20080310799 | HYBRID OPTICAL/ELECTRONIC STRUCTURES FABRICATED BY A COMMON MOLDING PROCESS - Disclosed is a method of fabricating a molded structure including both micro lenses and metallic pins. The method comprises the steps of providing a mold apparatus having a set of first cavities and a set of second cavities, depositing a first material in the first cavities to form a set of metallic pins, and depositing a second material in the second cavities to form a set of micro lenses. The formed molded structure comprises a substrate, a set of molded microlenses on said substrate, and a set of molded metallic pins on that same substrate. The metallic pins may be formed as alignment pins or as electrical connectors. The invention enables the micro lenses and metallic pins to be manufactured by way of molding on a common substrate for the first time. | 12-18-2008 |
20090022181 | OPTICAL SPECTRAL FILTERING AND DISPERSION CONTROL FOR WAVELENGTH MULTIPLEXED LASER SOURCES USING FIBER BRAGG GRATINGS - The embodiments of the invention provide an apparatus for optical spectral filtering and dispersion control for wavelength multiplexed laser sources using fiber Bragg gratings. More specifically, the apparatus includes a laser diode having a first end and a second end opposite the first end. The first end of the laser diode has a first semi-transparent portion; and, the second end of the laser diode has a second semi-transparent portion. The apparatus further includes an optical fiber connected to the second end of the laser diode. The optical fiber has a first end and a second end opposite the first end, wherein the first end of the optical fiber is connected to the second end of the laser diode. The laser diode comprises a laser cavity; and, the optical fiber comprises an extension of the laser cavity. Moreover, the second end of the optical fiber has a reflective surface. | 01-22-2009 |
20090106576 | METHODS AND SYSTEMS FOR DIGITALLY CONTROLLED MULTI-FREQUENCY CLOCKING OF MULTI-CORE PROCESSORS - A method and system for digitally controlled multi-frequency clocking are provided. The method includes receiving a system reference oscillator clock frequency at a microprocessor including multiple cores. The system reference oscillator clock frequency provides a reference frequency to a local oscillator. The local oscillator supplies a core clock frequency to at least one of the cores. The method further includes adjusting the local oscillator to output the core clock frequency at a frequency greater than the system reference oscillator clock frequency as a function of digital frequency characteristic data associated with the core or cores. The method supports extendibility to larger systems and may support enhanced power management through frequency adjustments at the core level. | 04-23-2009 |
20090161877 | Method, system, and computer program product for encryption key management in a secure processor vault - A method for encryption key management including accepting authenticated unencrypted data into a processor of a server computing device that is configured as a private key secure processor vault, the operation of which is isolated from other components of the server computing device thereby preventing unauthorized access to the processor and the data contents therein; encrypting the authenticated unencrypted data based on an existing private key stored in the processor thereby converting it to encrypted data; and transmitting the encrypted data out of the processor. A system and computer program product is also provided. | 06-25-2009 |
20090165076 | METHOD, SYSTEM, AND COMPUTER PROGRAM PRODUCT FOR DATA SECURITY POLICY ENFORCEMENT - A method for data security policy enforcement including inspecting incoming and outgoing data packets from a server computing device for attributes in accordance with a data security policy, processing the data packets in accordance with the security policy based on the inspected attributes, and routing the data packets in accordance with the security policy based on the inspected attributes, wherein incoming and outgoing data from the server computing device composed of the data packets is processed and routed in accordance with the security policy on a per-packet basis. A system and computer program product is also provided. | 06-25-2009 |
20090285525 | METHOD FOR REDUCING BANDWIDTH LOSS IN DATA CENTER APPLICATIONS WITH MULTILPLE FIBER TYPE CONNECTIVITY - A communications coupling for a low bandwidth fiber optic cable and a high bandwidth fiber optic cable, includes: a guiding ferrule adapted for coupling to a surrogate fiber optic cable comprised of one of the low bandwidth fiber optic cable and the high bandwidth fiber optic cable, the guiding ferrule including at least one mounting feature for aligning the guiding ferrule with an optical axis of the surrogate cable; the guiding ferrule further including at least one guiding feature for aligning the optical axis of the surrogate fiber optic cable with an optical axis of a connecting fiber optic cable, the connecting fiber optic cable comprised of the other one of the low bandwidth fiber optic cable and the high bandwidth fiber optic cable. A method and a communications infrastructure are provided. | 11-19-2009 |
20100026352 | ALL DIGITAL FREQUENCY-LOCKED LOOP CIRCUIT METHOD FOR CLOCK GENERATION IN MULTICORE MICROPROCESSOR SYSTEMS - A (DFLL) circuit residing on a local core of a multi-core microprocessor for generating a local core clock with a frequency for driving the local core includes a micro-controller configured to receive core characterizing digital data; a ring oscillator configured to generate the local core clock for the local core, and having a delay chain disposed between an output and a feedback input of the ring oscillator, the delay chain having delay taps each receiving the local core clock enabling quantum changes in the frequency of the local core clock; and a counter device configured to continually validate the frequency by generating a digital signal representative of the frequency to the micro-controller, the micro-controller compares the frequency of the local core clock to a desired clock frequency, and selects one of the delay taps based on the comparison to adjust the frequency value of the local core clock. | 02-04-2010 |
20100265507 | INJECTION MOLDED MICROLENSES FOR OPTICAL INTERCONNECTS - Disclosed are a microlens array, and a method of positioning and aligning the microlens array on another device. Generally, the microlens array comprises an array of injection molded microlens elements, and a supporting flange. Each of the microlens elements has a generally spheroid or spherical shape, and the supporting flange connects together the array of microlens elements to facilitate positioning that array of lenses on a printed circuit board, semiconductor package or wafer. This array is well suited for use with vertical cavity surface emitting lasers (VCSELs); and, in particular, the preferred embodiment of the invention addresses the problem of VCSEL laser array alignment by using arrays of microlenses elements fabricated by injection molding. | 10-21-2010 |
20140084314 | INJECTION MOLDED MICROOPTICS - A wafer-scale apparatus and method is described for the automation of forming, aligning and attaching two-dimensional arrays of microoptic elements on semiconductor and other image display devices, backplanes, optoelectronic boards, and integrated optical systems. In an ordered fabrication sequence, a mold plate comprised of optically designed cavities is formed by reactive ion etching or alternative processes, optionally coated with a release material layer and filled with optically specified materials by an automated fluid-injection and defect-inspection subsystem. Optical alignment fiducials guide the disclosed transfer and attachment processes to achieve specified tolerances between the microoptic elements and corresponding optoelectronic devices and circuits. The present invention applies to spectral filters, waveguides, fiber-optic mode-transformers, diffraction gratings, refractive lenses, diffractive lens/Fresnel zone plates, reflectors, and to combinations of elements and devices, including microelectromechanical systems (MEMS) and liquid crystal device (LCD) matrices for adaptive, tunable elements. Preparation of interfacial layer properties and attachment process embodiments are taught. | 03-27-2014 |