Logging equipment is the tool to acquire the hydrocarbon reservoir information directly. As the most important method, Logging equipment can quickly locate and accurately identify oil and gas. ULOG (Ultra-Speed Networked Logging System) is a technology with integrated and application-oriented data acquisition platform and is based on 20-year design and manufacture experience of logging equipment and grand slam. It includes conventional combinational logging tools, imaging serial logging tools.
ULOG has the faster communication rate, more flexible combination and shorter tool string length. Furthermore, ULOG can associate to some kinks of special logging tools like imaging serial logging tools and MDT.
Curve Acquisition: Save the logging acquisition data as logging files in real time. Data Playback: Recalculate and playback saved logging files.
Post-processing: By graphic method, editing the logging curves conveniently, such as the digital filter and correction.
Data Format Transformation: Transform logging files’ format to standard format such as XTF, LAS and LIS, making it easy to be edited.
Data Management: By means of managing all logging data through database, it is convenient to manage, inquire and playback logging files for user.
Remote Monitoring: Through satellite communication or WAN, it transmits logging information by Field Logging Software real-timely and provides field diagnosis and logging data monitoring.
Real-time operating system: Data acquisition is completed by multi-tasking and real-time operating system, namely VxWorks. Data processing is completed in Windows system with good user interface. Modularized Design: Either conventional tools or imaging tools can be loaded dynamically because of dynamic link library. It is convenient to maintain and update software. Powerful Background Database: All logging data are managed by background database, so it is convenient to manage, inquire and playback logging files for user. Remote logging and monitoring: Through satellite communication or WAN, field logging data can be transmitted to the base real-timely, which makes the quick interpretation and monitoring be possible. Advanced Time-Depth Conversion: In the way of system time drived logging, Software utilizes the advanced arithmetic of time-depth conversion to ensure the integrity and the accuracy of data.
Wavenology EM -Full Wave Transient Electromagnetic Field Solver
Wavenology EM is a general-purpose 3D full-wave based field-circuit-particle co-simulation software package for the design of high-speed electronic circuits, smart antenna systems, non-linear quantum, RF/microwave and optical devices. Wavenology EM utilizes 3D full-wave domain decomposition and discontinuous Galerkin techniques combining the enlarged cell technique (ECT, an improved version of the conformal finite difference time-domain method (FDTD)), spectral element time-domain (SETD) method, and finite-element time-domain (FETD) method to simulate electromagnetic wave propagation and scattering behaviors in complex multiscale environments. It also combines SPICE circuit solver and particle in cell trajectory solver within the full-wave package so that the user can perform co-design of circuit controlled, reconfigurable transmitters and receivers, investigate system-level.
non-linear EMC/EMI issues and model novel quantum devices.