Abstract: An operator node is configured to generate a visualization of the configurations of nodes communicatively coupled to the operator node via a network. The operator node scans target nodes in a network and identifies a set of attributes describing various configuration properties of each node. The operator node compares corresponding attributes across nodes and determines for each attribute a measure of variance. The variance for each attribute is displayed in a grid view, allowing a user to observe the level of similarity or dissimilarity of each attribute across the target nodes of the network. The operator node also defines and implements a policy describing a set of configuration properties with which target nodes must comply. The operator node determines if one or more target nodes is in violation of the policy, displays a differential visualization associated with each policy failure event, and enables an operator to re-configure target nodes accordingly.

Abstract: In some embodiments, an electronic and digital building block system includes modular electronic building modules that can be electrically coupled together to create various different electronic devices. In addition to physical electronic modules, the system can include digital building blocks to further enhance and integrate the functions of an assembled bit-system that can be created/assembled by a user of the block electronic building system. The digital building blocks are not a physical module, but digital content or other software or cloud applications that can be represented as virtual digital blocks, and that can interface with the physical modules. The digital blocks can provide integration between the functionality of the physical building blocks and functionality of computer-based and/or web-based applications, programs and systems. The electronic and digital building block system can include a system program and a visualizer that can be viewed on the display of a computer device.

Abstract: An operator node is configured to generate a visualization of the configurations of nodes communicatively coupled to the operator node via a network. The operator node scans target nodes in a network and identifies a set of attributes describing various configuration properties of each node. The operator node compares corresponding attributes across nodes and determines for each attribute a measure of variance. The variance for each attribute is displayed in a grid view, allowing a user to observe the level of similarity or dissimilarity of each attribute across the target nodes of the network. The operator node also defines and implements a policy describing a set of configuration properties with which target nodes must comply. The operator node determines if one or more target nodes is in violation of the policy, displays a differential visualization associated with each policy failure event, and enables an operator to re-configure target nodes accordingly.

Abstract: A solar cell comprising a bulk germanium silicon growth substrate; a diffused photoactive junction in the germanium silicon substrate; and a sequence of subcells grown over the substrate, with the first grown subcell either being lattice matched or lattice mis-matched to the growth substrate.

Abstract: A solar cell comprising a bulk germanium silicon growth substrate; a diffused photoactive junction in the germanium silicon substrate; and a sequence of subcells grown over the substrate, with the first grown subcell either being lattice matched or lattice mis-matched to the growth substrate.

Abstract: The present disclosure provides a multijunction solar cell that includes: a first sequence of layers of semiconductor material forming a first set of one or more solar subcells; a graded interlayer adjacent to said first sequence of layers; a second sequence of layers of semiconductor material forming a second set of one or more solar subcells; and a high band gap contact layer adjacent said second sequence of layers, wherein the high band gap contact layer is composed of p++ type InGaAlAs or InGaAs.

Abstract: A four junction solar cell having an upper first solar subcell composed of a semiconductor material having a first band gap; a second solar subcell adjacent to said first solar subcell and composed of a semiconductor material having a second band gap smaller than the first band gap and being lattice matched with the upper first solar subcell; a third solar subcell adjacent to said second solar subcell and composed of a semiconductor material having a third band gap smaller than the second band gap and being lattice matched with the second solar subcell; and a fourth solar subcell adjacent to and lattice mismatched from said third solar subcell and composed of a semiconductor material having a fourth band gap smaller than the third band gap; wherein the fourth subcell has a direct bandgap of greater than 0.75 eV, and the average band gap of the solar cell is equal to or greater than 1.35 eV.

Abstract: A solar cell comprising a bulk germanium silicon growth substrate; a diffused photoactive junction in the germanium silicon substrate; and a sequence of subcells grown over the substrate, with the first grown subcell either being lattice matched or lattice mis-matched to the growth substrate.

Abstract: A solar cell comprising a bulk germanium silicon growth substrate; a diffused photoactive junction in the germanium silicon substrate; and a sequence of subcells grown over the substrate, with the first grown subcell either being lattice matched or lattice mis-matched to the growth substrate.

Abstract: The disclosure describes multi-junction solar cell structures that include two or more graded interlayers.

Abstract: The disclosure describes multi-junction solar cell structures that include two or more graded interlayers.

Abstract: The present disclosure provides a multijunction solar cell that includes: a first sequence of layers of semiconductor material forming a first set of one or more solar subcells; a graded interlayer adjacent to said first sequence of layers; a second sequence of layers of semiconductor material forming a second set of one or more solar subcells; and a high band gap contact layer adjacent said second sequence of layers, wherein the high band gap contact layer is composed of p++ type InGaAlAs or InGaAs.

Abstract: A disclosed system for downhole time domain reflectometry (TDR) includes a surface electro-optical interface, a downhole electro-optical interface, a fiber-optic cable that couples the surface electro-optical interface and the downhole electro-optical interface, and an electrical transmission line that extends from the downhole electro-optical interface into a wellbore environment to enable TDR operations. A described method for downhole TDR includes transmitting an optical signal to a downhole environment, converting the optical signal to an electrical signal in the downhole environment, reflecting the electrical signal using an electrical transmission line in the downhole environment, analyzing data corresponding to the reflected electrical signal, and displaying a result of the analysis.

Abstract: A multijunction solar cell including an upper first solar subcell having a first band gap; a second solar subcell adjacent to the first solar subcell and having a second band gap smaller than the first band gap; a graded interlayer adjacent to the second solar subcell, the graded interlayer having a third band gap greater than the second band gap; and a third solar subcell adjacent to the graded interlayer, the third subcell having a fourth band gap smaller than the second band gap such that the third subcell is lattice mismatched with respect to the second subcell. A lower fourth solar subcell is provided adjacent to the third subcell and lattice matched thereto, the lower fourth subcell having a fifth band gap smaller than the fourth band gap.

Abstract: The invention relates to compositions and methods of using electrophoresis separation matrices. The invention provides nano-particle comprising separation matrices having increased conductivity at low voltage.

Abstract: A disclosed system for downhole time domain reflectometry (TDR) includes a surface electro-optical interface, a downhole electro-optical interface, a fiber-optic cable that couples the surface electro-optical interface and the downhole electro-optical interface, and an electrical transmission line that extends from the downhole electro-optical interface into a wellbore environment to enable TDR operations. A described method for downhole TDR includes transmitting an optical signal to a downhole environment, converting the optical signal to an electrical signal in the downhole environment, reflecting the electrical signal using an electrical transmission line in the downhole environment, analyzing data corresponding to the reflected electrical signal, and displaying a result of the analysis.

Abstract: Compositions comprising tetrahydroindolone derivatives in which the tetrahydroindolone moiety is covalently linked to a substituted arylpiperazine moiety and methods for treating neurological and psychiatric conditions using such compositions are disclosed.

Abstract: Systems and methods are provided for automatically building a native phonetic lexicon for a speech-based application trained to process a native (base) language, wherein the native phonetic lexicon includes native phonetic transcriptions (base forms) for non-native (foreign) words which are automatically derived from non-native phonetic transcriptions of the non-native words.