Software training,tutorials,download,torrentPowerLog delivers intuitive and comprehensive petrophysical technology for the industry’s toughest interpretation challenges. Interpret thousands of wells at once with interactive viewers and processors while accessing a robust Python Ecosystem for the latest machine learning solutions. PowerLog empowers geoscientists to develop and refine integrated petrophysical interpretations and rock physics models iteratively and interactively, ensuring accurate and thorough results.
Optimize efficiency and conserve resources using machine learning workflows
Harness machine learning tools and technology by connecting your preferred Python distribution to PowerLog and perform in-house advanced processing and interpretation to save your company time and money. Interactive clustering, synthetics, and data analysis workflows read and write directly to a PowerLog project database.
powerlog 2024 Machine learning in PowerLog enables a clearer reservoir understanding and faster, more efficient data analysis so you can predict curves based on existing log data, correlate core analysis to log data, model complex porosity and permeability relationships, and quickly edit logs for data conditioning with automated tools.
Rock Physics Module (RPM)
Improved Interpretation with Rock Physics Modeling
Build accurate rock physics models from log data and petrophysical interpretation results with easy-to-use, collaborative Rock Physics Module (RPM). RPM bridges the gap between PowerLog and other Jason geophysical software applications. This user-friendly module is integrated with PowerLog so you can iterate on your petrophysical parameters using rock physics models and improve your petrophysics interpretation for a better understanding of the subsurface.
RPM enables a fundamental modeling approach — a petrophysical rock model is used to derive rock structure information and effective elastic rock properties from fluid and mineral parameters. Users can easily analyze fluid-substitution studies and invasion corrections once a rock model is constructed. The rock model also enables prediction of elastic curves for lithology parameters that are not present in the wells.
Accurately Calculate Lithology, Mineralogy, Porosity and Fluids
In complex environments, deterministic methods are insufficient. StatMin is a stochastic analysis tool for determining volumes of fluids and minerals and statistical methods for petrophysical analysis of difficult formations. StatMin generates meaningful interpretations in complex lithologies that enable solid decisions for optimum reservoir completions.
StatMin obtains valuable outputs such as porosity, water saturation and quartz, which are key petrophysical parameters needed to make critical completion decisions. It also solves balanced, over determined and underdetermined models. Under determined models are more common where insufficient log data is available to compute all the needed minerals in one pass. StatMin provides users multiple methods to solve this challenge and allows for more accurate analysis of these complex reservoirs.
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Product: Powerlog 2024.2
Version: 2024.2
Supported Architectures: x64
Language: english
Supported Operating Systems: Windows 7even or newer
Size: 1DVD