Abstract: A method for operating a multiprocessor computer system which has at least two microprocessors, resources which are jointly used by the microprocessors, programs executed on the computer system, and at least one resource manager. The resource manager manages resources which are assigned to said manager and can be adjusted at least in terms of their time response. The resource manager receives and processes reservation requests for reserving desired resources, which reservation requests are transmitted by programs. The reservation requests describe at least the type, scope and time response of the desired resources. The resource manager allocates the respectively desired resources to the requesting program if said resources are available. The resource manager adjusts the time response of the allocated resources according to the time response requested with the reservation request.

Abstract: The invention relates to a medical diagnostic device (1) having at least one sensor matrix (2) for capturing electrical voltage signals at a plurality of locations on the body surface of a person or animal, wherein the diagnostic device (1) is set up for capturing a signal (12) representing the position of the sensor matrix (2) relative to the body of the person or animal, and for determining position information (14) about the position of the sensor matrix (2) relative to the body, localized image information (13) is determined from the voltage signals, and the localized image information (13) is associated with the position information (14).

Abstract: A method of manufacturing of a semi-conductor element, comprising the following steps: providing a substrate, the substrate having a surface, the surface being partially coated with a coating and having at least one uncoated area, and growing a truncated pyramid of gallium nitride on the uncoated area, wherein the method comprises the following step: growing at least one gallium nitride column on the truncated pyramid.

Abstract: A method for operating a multiprocessor computer system which has at least two microprocessors, resources which are jointly used by the microprocessors, programs executed on the computer system, and at least one resource manager. The resource manager manages resources which are assigned to said manager and can be adjusted at least in terms of their time response. The resource manager receives and processes reservation requests for reserving desired resources, which reservation requests are transmitted by programs. The reservation requests describe at least the type, scope and time response of the desired resources. The resource manager allocates the respectively desired resources to the requesting program if said resources are available. The resource manager adjusts the time response of the allocated resources according to the time response requested with the reservation request.

Abstract: The present invention relates generally to signal enhancement in single-molecule-assays. In particular, the present invention relates to an array allowing signal enhancement of single molecules. The assay is in particular a Bioassay allowing single molecule analysis of biomolecules. Preferably, the signal enhancement is a fluorescence enhancement based on optical antenna. In another aspect, the present invention relates to a method for measuring irradiation of electromagnetic waves of single compounds. Based on the arrays and methods, it is possible to allow signal enhancement and, consequently, allow single molecule assays with high sensitivity and reproducibility.

Abstract: The invention relates to a method for operating a multiprocessor computer system which has at least two microprocessors (102) and resources (103, 104, 105, 106, 107, 108) which are jointly used by the microprocessors, programs (403) being able to be executed on the computer system, characterized by at least one resource manager (101) with the following features: a) the resource manager (101) manages resources (103, 104, 105, 106, 107, 108) which are assigned to said manager and can be adjusted at least in terms of their time response, b) the resource manager (101) receives and processes reservation requests (401) for reserving desired resources (103, 104, 105, 106, 107, 108), which reservation requests are transmitted by programs (403), c) the reservation requests (401) describe at least the type, scope and time response of the desired resources (103, 104, 105, 106, 107, 108), d) the resource manager (101) allocates the respectively desired resources (103, 104, 105, 106, 107, 108) to the requesting program

Abstract: A method of manufacturing of a semi-conductor element, comprising the following steps: providing a substrate, the substrate having a surface, the surface being partially coated with a coating and having at least one uncoated area, and growing a truncated pyramid of gallium nitride on the uncoated area, wherein the method comprises the following step: growing at least one gallium nitride column on the truncated pyramid.

Abstract: A method for gluing microcomponents to a substrate (1) during the production of microsystem components includes the steps of applying a reactive or non-reactive hot melt type adhesive (5) to the microcomponent (18) and/or the substrate (1), heating the hot melt type adhesive (5), and placing the microcomponent (18) onto the substrate (1). The hot melt type adhesive (5) is on the contact surfaces between the microcomponent (18) and the substrate (1) during and after gluing.

Abstract: An optical component for effecting frequency selective reflection in the gigahertz and terahertz frequency ranges and for effecting wave permeability includes at least one first layer (1, 3, 5) made of a first material (m1). The first material is optically permeable to electromagnetic radiation of a reference frequency (f) between 5 gigahertz (GHz) and 10 terahertz (THz) and has a first refractive index (n1) and an optical thickness of approximately one-fourth the wavelength (?) of the electromagnetic radiation of the reference frequency (f) in the first material (m1).