Abstract: An emulation apparatus includes a translator, a first memory map, a second memory map, and a rewriting unit. The translator translates an instruction output from the target program to an instruction executable by the emulation apparatus. The first memory map is located in a memory region for use by the target program and is write-protected based on operation environment of the emulation apparatus. The second memory map is write-protected based on at least one of the execution environment of the target program and content of the instruction from the target program. The rewriting unit rewrites a first write instruction output from the translator to a second write instruction to the second memory map when the first write instruction causes a write protection violation to the first memory map.

Abstract: A numerical simulation method for characterizing fluid channeling along large-aperture fractures of reservoirs relates to the field of petroleum reservoir development research and computational fluid dynamics. The conventional method can not effectively represent the rapid fluid channeling along large-aperture fractures. Aiming at solving the above technical problem, an advanced method is provided in the present invention. In the invented method, the geometric similarity and hydraulic similarity treatments of large-aperture fractures can be made simultaneously, moreover, the traditional numerical simulation software was improved to be an unstructured grid simulator. Therefore, the method of the present invention can effectively simulate the rapid fluid channeling along large-aperture fractures, consequently it can ensure the reliability of the simulation results and provide reasonable reference for the adjustment and optimization of oil field development plans.

Abstract: This invention presents various embodiments, including a system and a method, in which pressure-while-drilling data is gathered at a drilling rig and compared to modeled ECD pressure data related to the bore hole. The actual and modeled data are statistically analyzed to generate standard deviation data, which is used to infer information about how rapid a rate of penetration may safely be employed to optimize drilling results.

Abstract: A method may include generating logical transition data for the logic cell based on an analysis of a digital model for the logic cell, the logical transition data including at least one entry indicative of an output transition of the logic cell occurring in response to an input transition of the logic cell. The method may also include generating a parameterized transition based analog model for the logic cell, the parameterized transition based analog model including transition timing parameters associated with each entry of the logical transition data. The method may further include generating an analog model for the logic cell based on the parameterized transition based analog model and one or more analog netlists characterizing the logic cell.

Abstract: Methods are provided for: (i) measuring the position of the blade stagger angle axis for one or more blades of a row of blades attached to a rotor, (ii) measuring the blade tip stagger angle for one or more such blades, and (iii) measuring the blade tip axial displacement for one or more such blades. The methods use forward and rearward blade tip timing datasets for successive rotations of the blades from two axially spaced blade tip timing probes. The forward probe is forward of the rearward probe along the axial direction of the rotor. The blade tip timing datasets allow the times of arrival of the blades at the respective probes to be measured. The methods also use a once per revolution dataset for the successive rotations of the blades. The once per revolution dataset allows the angular velocity of the blades to be measured.

Abstract: Methods and systems for matching a computed curve to a target curve to enable realistic engineering simulations are disclosed. Optimization of parameter identification is achieved by adjusting the parametric inputs of a simulation model such that the discrepancy between the two curves is minimized. Because the points on the two curves to be matched are paired, matching of any two open curves, including hysteretic curves, can be handled. Curves that are completely set apart in their original coordinates can be merged to a common coordinate system for parameter identification without the computational instability problems. A partial matching scheme is used for mapping points defining the shorter one of the two curves to a set of mapped points on the longer one. One or more offsets from the first point of the longer curve are used for multiple attempts to find a best fit.

Abstract: A method and apparatus associated with the production of hydrocarbons is disclosed. The method, which relates to modeling of drilling equipment, includes constructing one or more design configurations for at least a portion of a bottom hole assembly (BHA) and calculating results from each of the one or more design configurations. The calculated results of the modeling may include one or more performance indices that characterize the BHA vibration performance of the design configurations for operating parameters and boundary conditions that are substantially the same or may be different. These results are then simultaneously displayed for a user to facilitate design selection. The selected BHA design configuration may then be utilized in a well construction operation and thus associated with the production of hydrocarbons.

Abstract: Disclosed are methods, systems, and structures for implementing an improved approach for simulating mixed-signal electronic designs. An improved approach for providing seamless interaction between analog and digital blocks during simulation, even if the digital blocks include complex types or models.

Abstract: An improved method and computer system is provided, for analyzing the two- or three-dimensional movement of a fluid in an absorbent article that comprises fluid-swellable composite material, which comprises a fluid-swellable solid material, and that comprises void spaces in the fluid-swellable composite material, the fluid-swellable composite material being defined by a virtual two-dimensional or three-dimensional mesh, to determine the performance or property of at least one feature of the fluid-swellable composite material thereof, or the absorbent article, the method comprising: inputting one or more properties for the fluid-swellable (composite) material into a model and evaluating this to determine the performance of a feature of the absorbent article or fluid-swellable composite material thereof, the virtual model.

Abstract: A circuit simulation apparatus is provided with a parameter calculating tool and a circuit simulator. The parameter calculating tool is configured to extract gate spacings between gates of a target MOS transistor and adjacent MOS transistors integrated in an integrated circuit from layout data of the integrated circuit, and to calculate a transistor model parameter corresponding to a threshold voltage of the target MOS transistor based on the extracted gate spacings. The circuit simulator is configured to perform circuit simulation of the integrated circuit by using the calculated transistor model parameter.

Abstract: A software simulation method and program storage device for software defect detection and obtaining insight into software code is disclosed, where simulation consists of executing target software program code for multiple input values and multiple code paths at the same time, thus achieving 100% coverage over inputs and paths without actually running the target software. This allows simulation to detect many defects that are missed by traditional testing tools. The simulation method runs a plurality of algorithms where a plurality of custom defined and pre-defined rules are verified in target software to find defects and obtain properties of the software code.

Abstract: A system and method for determining a desired portion of a subject to receive a radiation dose includes iteratively choosing weight vectors to run to gradually build up a Pareto surface (PS). BY examining the current points that have been found on the PS along with the weights used to produce those points, a new vector is produced and run. This process is repeated until a geometric stop tolerance is met.

Abstract: The invention relates to a method for determining the ability of an analysis body to change the shape thereof using mathematical models. The mathematical models are generated for geometric parameters, which are determined based on test experiments in which a reference body is reshaped or originally shaped in a defined manner. By means of the mathematical models, the ability of a test body to change the shape thereof is then calculated, for the geometry of which a finite element structure is available. For the geometry of the test body a shape factor is known, which characterizes said geometry. The ability of the test body to change the shape thereof is likewise calculated by a method based on the finite element method (FEM).

Abstract: A model for a silicon controlled rectifier includes three diode models connected in series, with the middle diode model being reverse biased. Each diode model corresponds to and can be configured to simulate DC operation of a junction in the silicon controlled rectifier. The model can be used to evaluate behavior of a circuit that includes the silicon controlled rectifier. For example, the circuit can include an electrostatic discharge protection circuit that includes the silicon controlled rectifier.

Abstract: Systems and methods of numerically simulating physical phenomena of firing an electromagnetic rail-gun using a coupled FEM-BEM procedure are disclosed. Electromagnetic rail-gun includes a pair of parallel rails and a projectile located therebetween. Rails and projectile are represented by a FEM model, while the ambient air surrounding the rail-gun is represented by a BEM mesh for simulating the electromagnetic fields. The BEM mesh is generated from the FEM model as a surface encasing the projectile and rails. A sliding contact interface between each of the rails and the projectile causes the BEM faces in contact to be removed and thus resulting into a hole/gap in the BEM mesh. The hole/gap is patched up with new triangular BEM faces without adding new nodes in accordance with a predefined set of rules, such that the resulting BEM mesh is suitable for carrying out the coupled FEM-BEM procedure.

Abstract: Three dimensional well block radius determiner machines, systems, program products, and computer implemented methods are provided to determine a three dimensional equivalent well block radius of a perforated grid block cell, with three dimensional flow, of a three dimensional coordinate grid block constructed over a three dimensional simulated well formation in a finite difference petroleum reservoir simulator. Various embodiments of the invention, for example, can beneficially account for both horizontal and vertical flow of oil through a well perforation without the need for complicated, expensive, and time-consuming numerical or iterative solutions. Embodiments of the present invention, for example, can be used as a part of legacy simulators thereby providing more accurate well block radius calculations, by accounting for both horizontal and vertical perforation flow, without introducing significant implementation hurdles, development costs, or simulation runtime delays.

Abstract: A method of three-dimensional optimization design for an asymmetric cusp magnetic field in an MCZ single crystal furnace is disclosed. An optimization design for structural parameters of the magnetic field includes first establishing a three-dimensional magnetic model by using ANSYS software, varying parameters of the model, determining a span between upper and lower parts of coils, determining a number of transverse turns of the coils and the thickness of a shield. An optimization design for specification parameters of the coils of the magnetic field includes determining a relationship between heat and specification parameters of the coils and between heat transfer of the coils at their copper pipe walls and the specification parameters of the coils, analyzing heat absorbed by cooling water, establishing an optimization model of a system, and optimizing the specification parameters of the coils of the magnetic field using the ANSYS software.

Abstract: Mechanisms are provided for controlling a fidelity of a simulation of a system. A model of the system is received, the model of the system having a plurality of individual components of the system. Fidelity values are assigned to models of the individual components of the system. A simulation of the system is executed using the model of the system and the models of the individual components of the system. For each component in the plurality of individual components of the system, an activity level of the component during execution of the simulation is determined. The fidelity values of one or more of the models of the individual components of the system are dynamically adjusted during the execution of the simulation based on changes in individual activity levels of the individual components.

Abstract: A computer-based system performs iterative linear solution of giant systems of linear equations with the computational acceleration capabilities of GPU's (Graphical Processing Units). Processing is performed in a heterogeneous (hybrid) computer environment composed of both computer data processing units (CPU's) and GPU's. The computational acceleration in processing provides an order of magnitude speed improvement over other methodology which utilizes only CPU's. The present invention enables reservoir studies to be carried out within time constraints, and real-time reservoir simulations to be made while keeping pace with online data acquisition.

Abstract: Emulation of a target system with a host system is disclosed. Two or more target system code instructions may be grouped into one or more fragments. A main translation function may be implemented by translating each fragment into a corresponding set of position-independent instructions executable by the host system. A target processor may be emulated by executing the corresponding set of position-independent executable instructions with the host system.