Abstract: A computer-implemented method for constructing structures using beams bounded by quadric surfaces of revolution includes generating a quador beam within a computer-aided design (CAD) tool. The quador beam comprises two spheres at opposing endpoints, and the beam is bounded by a quadric surface of revolution around an axis of symmetry joining the center of the two spheres. The quadric surface of revolution abuts with tangent continuity with the surface of each of the spheres. Once generated, the quador beam can be visualized in the CAD tool or another display medium.

Abstract: The disclosed techniques relate to validating and optimizing a quantum computing simulator. A quantum computing simulator executes a quantum executable file to obtain a first result. A second result is received from a quantum computer which also computes the quantum executable file. The hardware metadata associated with the quantum computer, and defining hardware conditions during a time in which the quantum executable file was executed to create the second result, is also received. In response to determining a difference between the first result and the second result, updated hardware metadata is created based on the received hardware metadata associated with the quantum computer. The quantum computing simulator performs a second execution of the quantum executable file based at least in part on the updated hardware metadata to obtain a third result.

Abstract: A production plan supporting apparatus and method capable of effectively supporting making of a production plan for a product whose production process has a branch(es). According to the production plan supporting apparatus and method when sequentially inputting a work(s) on a production unit basis to a production process in accordance with a predetermined input plan, first models regarding each of which probability of existence of the work in each time slot of each process is calculated are generated for respective production units, and a second model in which all the generated first models for the respective production units are stacked over one another is generated; and the time slot of the process which will become a bottleneck is identified and displayed on the basis of the second model.

Abstract: A methods and computer systems can automatically identify and fill gaps in a computer aided design. One method includes identifying a first set of points on a first solid in a CAD design. The method includes identifying a second set of points on the second solid in the CAD design. The method also includes determining a volume of the gap between the first solid and the second solid based on a Delaunay tetrahedralization of the first set of points and the second set of points.

Abstract: Systems and methods for cooling computing device expansion modules based on airflow rates are disclosed. According to an aspect, a method includes determining airflow rates in areas available for operable connection of expansion modules within a computing device during operation of the computing device. The method also includes determining expected power consumption of the expansion modules. Further, the method includes presenting placement of the expansion modules in the areas based on the determined airflow rates and the expected power consumption of the expansion modules.

Abstract: A computer-implemented method for modelling a driveline, the driveline comprising a plurality of components. The method comprising the steps of: a) receiving a parametric description of the driveline; b) creating a thermal model of the driveline from the parametric description; c) calculating a temperature distribution for one or more components of the driveline using the thermal model; d) determining a deflection of one or more components of the driveline caused by the thermal distribution, based on the parametric description and the temperature distribution; and e) calculating a performance metric of the driveline based on the determined deflection of the one or more components.

Abstract: A method, apparatus, and system for managing a composite part. An acceptable level of a warpage is identified for the composite part. The warpage for the composite part is a change in the composite part as manufactured that deviates from design specifications for the composite part. Orientations in a stacking sequence for plies in the composite part are selected that result in the composite part having the acceptable level of the warpage and a desired strength to form selected orientations. The composite part is manufactured using the selected orientations.

Abstract: A method includes accessing a three-dimensional architectural file of a building. The method further includes extracting architectural data from the three-dimensional architectural file and rendering, from the architectural data, a two-dimensional construction floorplan. Additionally, the method includes filtering the architectural data to generate a set of filtered data and storing the set of filtered data in high-availability storage. Further, the method includes overlaying a set of shapes corresponding to a set of assemblies on the two-dimensional drawing. Furthermore, the method includes assigning a set of measurements identified in the set of filtered data to the set of assemblies, where assigning a measurement to an assembly includes modifying a color of a shape corresponding to the assembly to identify the assembly being assigned the measurement. The method also includes compiling values associated with the measurements of the set of assemblies to generate a bid value.

Abstract: A system and method for generating computerized floor plans is provided. The system comprises a mobile computing device, such as a smart cellular telephone, a tablet computer, etc. having an internal digital gyroscope and camera, and an interior modeling software engine interacts with the gyroscope and camera to allow a user to quickly and conveniently take measurements of interior building features, and to create computerized floor plans of such features from any location within a space, without requiring the user to stay in a single location while taking the measurements. The system presents the user with a graphical user interface that allows a user to quickly and conveniently delineate wall corner features using a reticle displayed within the user interface. As corners are identified, the system processes the corner information and information from the gyroscope to calculate wall features and creates a floor plan of the space with high accuracy.

Abstract: A repository is configured in a hybrid data processing environment comprising a classical computing system and a quantum computing system, to hold a plurality of quantum circuit components (QCC(s)). A degree of difficulty in simulating the received QCC in the classical computing system is transformed into a classical hardness score. A degree of difficulty in implementing the received QCC in the quantum computing system is transformed into a quantum hardness score. A first parameter in a metadata data structure associated with the received QCC is populated with the classical hardness score. A second parameter in the metadata data structure associated with the received QCC is populated with the quantum hardness score. The received QCC is transformed into a library element by at least augmenting the received QCC with the metadata data structure. The library element is added to the repository.

Abstract: In various embodiments, the data visualization system imports and displays, on an electronic device (e.g., a tablet, desktop computing device, etc.), a representation of a construction drawing, or the like, of a project and corresponding one or more shapes. In one or more embodiments, the one or more shapes may represent an area of the construction drawing. In one or more embodiments, the data visualization system may track project completion and assign colors to the one or more shapes indicating work completion for those shapes.

Abstract: The present disclosure is directed to methods and apparatus for improving existing buildings or for improving new buildings. This process may include identifying factors and related metrics that leverage one or more building quality index values when an overall quality of a building is accessed and improved. Such a building quality index value may be a single value within a possible range of values. The index value may be a compilation or other transformation of values associated with various categories that may include building materials, types of businesses contained within the building, environmental impact of the building, and other metrics. This building quality index value may be a function of characteristics that may be associated with people that use the building, environmental conditions that surround the building, a location, a risk likelihood, past and future projected climatic conditions, or other factors.

Abstract: Apparatus and method for a full quantum system simulator. For example, one embodiment of a method comprises: initializing a quantum computing system simulator for simulating multiple layers of a quantum system including one or more non-quantum layers and one or more physical quantum device layers of the quantum system; simulating a first set of operations of the one or more non-quantum layers of the quantum system to generate first simulation results; simulating a second set of operations of the one or more quantum device layers of the quantum system to generate second simulation results; analyzing the first and second simulation results to provide at least one configuration recommendation for the quantum system.

Abstract: A hybrid emulation system includes a hardware emulation system, a simulation system, and a co-simulation interface. The hardware emulation system emulates a first portion of a design under test (DUT) during a hybrid emulation. The emulation runs in a first time domain local to the hardware emulation system. The simulation system simulates a second portion of the DUT during the hybrid emulation. The simulation runs in a second time domain local to the simulation system. The first time domain and the second time domain are unsynchronized. The co-simulation interface is coupled to the simulation system and the hardware emulation system. The co-simulation interface communicates transactions and events between the hardware emulation system and the simulation system. For each transaction, the co-simulation interface captures a transaction time in the first time domain, and for each event, the co-simulation interface captures an event time in the first time domain.

Abstract: The present disclosure provides a method for automatic modeling of an architecture based on an architectural drawing, comprising steps of: reading parameter information of the architectural drawing, identifying a category to which any architectural object belongs by acquiring line segments constituting the architectural object and coordinate data of endpoints of the line segments; generating a binary file or a preset number of binary files based on the coordinate data and elevation data of the endpoints of all the line segments of architectural objects belonging to the same category for all storeys of the architectural drawing; optimizing the binary file or the binary files corresponding to the architectural objects belonging to the same category for all the storeys of the architectural drawing; and generating a three-dimensional model of the architecture. The modeling precision and modeling efficiency of the architecture can be improved by adopting the technical solution of the present disclosure.

Abstract: A method for assessment of an oil and gas flow network comprises: gathering historical data and/or live data relating to the status of multiple control points at different branches within the flow network and to one or more flow parameter(s) of interest in one or more flow path(s) of the flow network d; identifying time intervals in the data during which the control points and the flow parameters are in a steady state; and extracting statistical data representative of some or all steady state intervals identified in step to thereby represent the original data from step in a compact form.

Abstract: A method of modifying CAD documents is provided, the method including use of a CAD modifying application that enables a user to modify a plurality of CAD documents outside of a native CAD environment. In another embodiment, the application may be integrated into a native CAD environment. The method includes using the CAD modifying application to build a workflow environment from existing CAD files, configure parameters and components of the workflow environment according to desired modification, and generating the modified CAD documents by instructing the CAD modifying application to communicate with existing CAD software.

Abstract: Described herein are systems and methods for building information modeling. An embodiment of the method includes: receiving a BIM; and transforming the BIM to flatten solid-volume geometry for space bounding elements into thin-walled boundaries of the thermal zones by: determining wall volumes from the BIM; collapsing the wall volumes to provide single surface walls; determining wall center surfaces and end points from the single surface walls; aligning, and trimming or extending, the single surface walls using the wall end points to create closed spaces; connecting the closed spaces vertically to generate a single water tight volume for the closed spaces; and creating interfaces between the single water tight volume for the closed spaces to generate thermal zones.

Abstract: Methods and systems are provided for evaluating robustness of engineering components. An example method includes receiving an engineering problem definition for a multidimensional engineering domain of an engineering component, in which the engineering problem definition includes a description of a plurality of engineering features of the engineering component. Executing an optimal stratified sampling algorithm that obtains a plurality of probabilistic samples from the multidimensional engineering domain. Selecting optimal combinations of higher fidelity models, reduced order models and response surfaces for execution of the probabilistic samples. Executing the probabilistic samples using the selected combinations to determine a respective engineering response for each engineering feature of the plurality of engineering features.

Abstract: A subsurface representation may define simulated subsurface configuration of a simulated subsurface region. The simulated subsurface region may include simulated wells, and the simulated subsurface configuration may define simulated correlation between the simulated wells. Subsurface configuration of wells may be compared with the simulated subsurface configuration to generate similarity maps for the wells. Simulated wells may be matched to the wells based on the similarity maps and the arrangement of the wells. Correlation between the wells may be determined based on the simulated correlation between the matched simulated wells.