Abstract: The present disclosure relates to a curve-fitting procedure for determining proximity effect device parameters in semiconductor fabrication. Methods presented herein are adapted to determine the impact of narrow width related edge effects on device characteristics by comparing two-dimensional (2D) and/or three-dimensional (3D) device simulations. Methods presented herein are adapted to determine the accuracy of conventional extraction methods utilizing non-rectangular gate device simulation.

Abstract: A system and method for a hybrid, variational, user-controlled, 3D mesh smoothing for orphaned shell meshes. The smoothing model is based on a variational combination of energy and equi-potential minimization theories. A variety of smoothing techniques for predicting a new location for the node-to-smooth are employed. Each node is moved according to a specific smoothing algorithm so as to keep element included angles, skew and distortion to a minimum. The variational smoother selection logic is based on nodal valency and element connectivity pattern of the node to smooth. Results show its consistency with both quadrilateral and quad-dominant meshes with a significant gain over conventional Laplacian schemes in terms of mesh quality, stability, user control and flexibility.

Abstract: Provided are a gravity search adaptive apparatus and method. The gravity search adaptive apparatus includes: a system configured to process and output a received signal; a system modeling unit configured to receive the same signal as a signal input to the system, to convert the signal using a system modeling parameter, and to output the converted signal; and an adaptive controller configured to use a gravity search adaptive algorithm to detect the system modeling parameter so that an error signal which is a difference between an output signal of the system and an output signal of the system modeling unit converges on a minimum value when the system modeling parameter is applied to the system modeling unit.

Abstract: A computer method of material modeling for crash test dummy finite element models includes the steps of making a material card for the material, applying the material card to validate a finite element model of a crash test dummy component, determining whether the finite element model is acceptable, ending the method if the finite element model is acceptable, and adjusting a relative volume (J) range for the material to make the material soft or stiff if the finite element model is not acceptable.

Abstract: A method, apparatus, system, and computer program product for secure server system management. A payload containing system software and/or firmware updates is distributed in an on-demand, secure I/O operation. The I/O operation is performed via a secured communication channel inaccessible by the server operating system to an emulated USB drive. The secure communication channel can be established for the I/O operation only after authenticating the recipient of the payload, and the payload can be protected from access by a potentially-infected server operating system. Furthermore, the payload can be delivered on demand rather than relying on a BIOS update schedule, and the payload can be delivered at speeds of a write operation to a USB drive.

Abstract: Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for determining a building envelope. In one aspect, a method includes generating two-dimensional analytical faces; generating a three-dimensional shell bounding box that encompasses the analytical faces; determining, for each analytical face, one or more sample points; performing a flood-fill algorithm from a reference grid cell through other grid cells in the shell bounding box; casting one or more primary rays from each grid cell encountered by the flood-fill algorithm that does not contain any of the sample points but that directly neighbors a grid cell that does contain a sample point; for each ray, identifying as an exterior face the first analytical face within a vicinity of the grid cell from which the ray is cast that is intersected by the ray; and generating a building envelope based on the identified exterior faces.

Abstract: A method for modeling a conductor in a substrate and a dielectric coating formed between the conductor and the substrate includes meshing a surface of the conductor into multiple conductor cells, each cell including a corresponding node in network topology, modeling a first displacement current flowing from each cell through the substrate, and modeling a second displacement current flowing from each cell through the dielectric coating. Modeling the first displacement current includes determining a first branch connecting the node corresponding to each conductor cell to ground, the first branch having at least a first capacitance. Modeling the second displacement current includes determining a coating capacitance connected in series between the node corresponding to each conductor cell and the first branch, the coating capacitance representing a capacitive effect of the dielectric layer.

Abstract: A system receives a model, internals associated with a target processor, and code information associated with the target processor, and obtains a bit-true model simulation for the target processor based on the model, the target processor internals, and the target processor code information.

Abstract: Device and method for smoothing an original velocity model of a given subsurface such that a travel-time through the given subsurface is preserved. The method includes receiving the original velocity model, wherein the original velocity model has a set of model parameters that determine a given parameterization and the original velocity model has velocity discontinuities at various depths; selecting a sub-set of model parameters of the given parameterization; converting the selected sub-set of model parameters to composite parameters; smoothing with a processor the composite parameters by applying a convolutional filter (g) such that velocity moments are preserved at the velocity discontinuities; and generating a smooth velocity model by converting the smoothed composite parameters into a smoothed sub-set of model parameters.

Abstract: The disclosure relates to determining optimized parameters for mechanical ventilation comprising: obtaining data concerning a three-dimensional image of the subject's respiratory system; calculating a specific three-dimensional structural model of the subject's lung structure from the image data; calculating a specific three-dimensional structural model of the subject's airway structure from the image data; calculating a patient-specific three-dimensional structural model of the subject's lobar structure from the lung model; modeling the air flow through the airway, using the models of the airway and lobar structure of the subject at defined MV parameters; modeling the structural behavior of the airway and the interaction with the flow, using the models of the airway and lobar structure of the subject at defined MV parameters; determining the MV parameters which lead to a decrease in airway resistance and hence an increase in lobar mass flow for the same driving pressures according to the model.

Abstract: Modern high-end technology products such as aircraft consist of a number of individual systems that are controlled by independent electronic control units and increasingly interconnected. According to one exemplary embodiment of the present invention, a test system assembly for testing several such systems for an aircraft in parallel is disclosed, wherein a master network is provided in order to exchange data between the individual test systems and a control unit, and wherein original electrical wiring is provided between the test systems in order to directly interconnect the tested systems. The flexibility of system tests for aircraft may be increased in this fashion.

Abstract: Systems and methods for tuning photolithographic processes are described. A model of a target scanner is maintained defining sensitivity of the target scanner with reference to a set of tunable parameters. A differential model represents deviations of the target scanner from the reference. The target scanner may be tuned based on the settings of the reference scanner and the differential model. Performance of a family of related scanners may be characterized relative to the performance of a reference scanner. Differential models may include information such as parametric offsets and other differences that may be used to simulate the difference in imaging behavior.

Abstract: A method and apparatus for verifying and debugging a circuit design module of a high level programming system is disclosed herein. A circuit design created in a high level programming environment must undergo a number of transformations as it is compiled into a form that can be realized in hardware. At each transformative step, the behavior of the circuit must be verified with a simulation model and debugged if the transformation has changed the behavior of the circuit. The claimed invention presents a novel approach for verifying and debugging between different simulation models and achieves an advance in the art by utilizing the modularized structure of a high-level circuit design to systematically identify simulation mismatches among different simulation models and determine which portions of the circuit design are responsible for the discrepancy.

Abstract: Disclosed is a process for characterising the evolution of a reservoir over a time lapse comprising the steps of: providing a base and a plurality of monitor surveys of the reservoir, each having a set of seismic traces at different times; deriving an optimal regularization weight-map from a combination of at least three surveys; and using the optimal regularization weights to invert and obtain an improved time lapse seismic image between pairs of seismic surveys.

Abstract: A system, method, and computer program product are provided for providing validation of network model objects within a network model design process. In use, a request to create a design of at least a portion of a network model is received via an interface utilized for creating a network model design. Additionally, at least one object of the network model capable of being utilized to create the design of the at least a portion of the network model is identified, in response to the request. Furthermore, it is determined whether at least one discrepancy has been identified for the at least one object. Moreover, a response to the request to create the design of the at least a portion of the network model is provided that is based on the determination of whether the at least one discrepancy has been identified for the at least one object.

Abstract: In one embodiment, the invention is a method and apparatus for table-lookup-based models for yield analysis acceleration. One embodiment of a method for statistically evaluating a design of an integrated circuit includes simulating the integrated circuit and generating a lookup table for use in the simulating, the lookup table comprising one or more blocks that specify a device element for an associated bias voltage, wherein the generating comprises generating only those of the one or more blocks that specify the device element for a bias voltage that is required during the simulating.

Abstract: A variance estimation apparatus for an amplitude probability distribution (APD) model includes: an APD curve calculation unit for calculating an APD curve of an APD model for noise of an electronic device; and a linearity determination unit for determining a linearity of a slope of the APD curve calculated by the APD curve calculation unit. The apparatus further includes a variance processing unit for selectively performing equivalent variance processing or different variance processing based on the linearity determination result obtained from the linearity determination unit.

Abstract: Optionally-mixed highly representative real time simulation of at least part of an avionics system (2). The simulation provides at least a step of translating communications interfaces into the form of models encoded in high level language on the basis of formal files in mark-up language; and dynamically managing descriptions that provide for grouping together, updating, and sharing a database that, for each piece of equipment, incorporates signals that transit via its input and/or output interfaces.

Abstract: Methods, systems, and computer-readable media are disclosed herein for virtually planning a cranial guided surgery in a subject. These include, in some embodiments, generating a first data set based on input data obtained of a physical reference structure having a defined fixed relation to a bone structure of said subject and generating a second data set based on input data obtained of a master structure for a surgical template, where the master structure has a defined relation to said physical reference structure. Further, in some embodiments, a third data set for production of said surgical template can be generated based on the first data set and the second data set, wherein the relation of said physical reference structure to said master structure is preserved.

Abstract: A Modeling, Design, Analysis, Simulation, and Evaluation (MDASE) aspects of gyrocompassing in relation to Far-Target Location (FTL) systems include a Gyrocompass Modeling and Simulation System (GMSS). The GMSS has four major components: the 6 degree-of-freedom (6DOF) Motion Simulator, the IMU Sensor Simulator, the Gyrocompass System and Calibration Process Simulator, and the Gyrocompass System Evaluation and Analysis Module. The modular architecture of GMSS makes it very flexible for programming, testing, and system maintenance. The realization of the GMSS can be based on any computer platforms for the GMSS software is written in high level language and is portable. The stochastic signal analysis and sensor testing and modeling tools comprise a suite of generic statistical analysis software, including Allan Variance and power spectral density (PSD) analysis tools, which are available to every GMSS module and greatly enhanced the system functionality.