Abstract: A curable composition for production of coatings for thermal, electrical and/or acoustic insulation, where the composition has at least one aqueous binder can be made. The composition has a first component based on spray-dried fumed silica pellets. The composition also has at least one second component selected from the group of the silicon dioxides, preferably microsilica, pellets based on pyrogenically produced silicon dioxide, silica aerogels, silicate glass (foamed glass/expanded glass), hollow silicon dioxide particles (hollow glass beads), or pellets selected from perlites, preferably expanded perlites, vermiculites, polymers, preferably expanded polystyrene pellets, and mixtures thereof.

Abstract: A system associated with quantifying a density level of tumor-infiltrating lymphocytes, based on prediction of reconstructed TIL information associated with tumoral tissue image data during pathology analysis of the tissue image data is disclosed. The system receives digitized diagnostic and stained whole-slide image data related to tissue of a particular type of tumoral data. Defined are regions of interest that represents a portion of, or a full image of the whole-slide image data. The image data is encoded into segmented data portions based on convolutional autoencoding of objects associated with the collection of image data. The density of tumor-infiltrating lymphocytes is determined of bounded segmented data portions for respective classification of the regions of interest. A classification label is assigned to the regions of interest. It is determined whether an assigned classification label is above a pre-determined threshold probability value of lymphocyte infiltrated.

Abstract: A device may receive a widget template of a widget. The widget template may include information relating to one or more fields of the widget and content for the one or more fields. The device may receive a stylesheet of the widget. The stylesheet may include information relating to respective style identifiers of the one or more fields. The device may generate a markup object of the widget based on the widget template. The markup object may include respective markup object entries for populating the one or more fields with the content. The device may assign the respective style identifiers to the respective markup object entries, and cause an action to be performed in connection with the markup object.

Abstract: A system associated with quantifying a density level of tumor-infiltrating lymphocytes, based on prediction of reconstructed TIL information associated with tumoral tissue image data during pathology analysis of the tissue image data is disclosed. The system receives digitized diagnostic and stained whole-slide image data related to tissue of a particular type of tumoral data. Defined are regions of interest that represents a portion of, or a full image of the whole-slide image data. The image data is encoded into segmented data portions based on convolutional autoencoding of objects associated with the collection of image data. The density of tumor-infiltrating lymphocytes is determined of bounded segmented data portions for respective classification of the regions of interest. A classification label is assigned to the regions of interest. It is determined whether an assigned classification label is above a pre-determined threshold probability value of lymphocyte infiltrated.

Abstract: A device may receive a widget template of a widget. The widget template may include information relating to one or more fields of the widget and content for the one or more fields. The device may receive a stylesheet of the widget. The stylesheet may include information relating to respective style identifiers of the one or more fields. The device may generate a markup object of the widget based on the widget template. The markup object may include respective markup object entries for populating the one or more fields with the content. The device may assign the respective style identifiers to the respective markup object entries, and cause an action to be performed in connection with the markup object.

Abstract: The present invention relates to a method and a corresponding system for analyzing a digital signal, in particular a method for determining bit error rates of a digital signal, said method comprising the step of: sampling said digital signal or sampling a sampled signal of said digital signal with a sampling unit at sampling points, wherein said sampling points are subject to a controllable phase shift, said method being characterized by the step of masking said sampling points such that an output of said sampling unit comprises information on the validity of said digital signal for the respective phase shift.

Abstract: A signal shaping circuit for shaping a test signal to be provided to a device under test includes a first signal path with a first transmission behavior and adapted to receive an input signal, and at least one second signal path with a second transmission behavior and adapted to receive an input signal, wherein the outputs of the signal paths are connected to a signal combiner adapted to combine the output signals of the signal paths to the test signal as an output signal of the signal shaping circuit.

Abstract: High melt balls dispersed on the surface of a ball grid array package in such a manner that the collapse of eutectic solder balls is controlled during reflow heating in order to ensure appropriate solder ball standoff, pitch and coplanarity of the ball grid array package from the substrate or printed circuit board surface to which it is being attached.

Abstract: High melt balls dispersed on the surface of a ball grid array package in such a manner that the collapse of eutectic solder balls is controlled during reflow heating in order to ensure appropriate solder ball standoff, pitch and coplanarity of the ball grid array package from the substrate or printed circuit board surface to which it is being attached.

Abstract: A signal generation unit (10, 20) for providing digital test signals for a device under test—DUT—(40) comprises a signal generator (10) for generating a digital test signal with defined timing. A controllable delay unit (20) receives and delays the digital test signal by a controllable variable time delay, whereby a control unit (35) controls the time delay of the delay unit (20) in order to induce a defined jitter function as well as a defined jitter spectrum to the digital test signal.

Abstract: A slope generator generates, in response to an input signal, a slope between a first and a second voltage level of an output voltage at an output node. The slope generator comprises a capacitor coupled to the output node, a first current source for providing a first current to the output node, and a second current source for providing a second current to the output node controlled by a first current switch. A control electrode of a first current path of the first current switch is coupled to and controlled by the input signal, a second current path is coupled to the output node, and the first current switch provides the first and the second voltage levels, or corresponding voltage levels derived therefrom, to the output node.