Mira - PSA
Our advanced 3D petroleum systems analysis and modeling software, Mira, provides a comprehensive platform to simulate and understand the complex geological processes that govern the formation and accumulation of oil and gas.
By integrating diverse geological, geochemical, and geophysical data, our software empowers exploration teams to model the complete lifecycle of hydrocarbons within a sedimentary basin.
Mira enables users to reconstruct burial and thermal histories, evaluate source rock maturation, predict hydrocarbon generation, map migration pathways, and assess the potential of traps and seals. Whether you are performing initial screening of frontier basins or detailed prospect-level analysis, our software offers robust modelling capabilities to reduce exploration risk, optimize drilling strategies, and ultimately enhance your ability to locate and evaluate hydrocarbon resources.
Innovative
Effortless Model Construction
Visual Workflow & Data Integration
Build complex geological models with remarkable ease. Simply drag and drop your surfaces, shapefiles, and maps directly into the workspace to populate your model. This significantly reduces setup time and minimizes the learning curve, allowing users to focus on geological interpretation rather than software operation.
Experience a highly visual and interactive environment where data integration becomes straightforward. This approach enhances understanding of the spatial relationships between different data types and simplifies the quality control process for all inputs.
Industry-Standard
Easily import well log data using common industry-standard formats, ensuring smooth data integration from various sources.
Visualize well paths in 3D, with options to color-code these paths based on specific log data (e.g., lithology, porosity, saturation). This provides an immediate understanding of subsurface conditions along the wellbore.
On-the-Fly Visualization
Benefit from simplified, real-time visualization of oil and gas generation, retention, and expulsion directly within the source rock definition module. This immediate feedback allows users to interactively tweak and calibrate source rock properties (e.g., thickness, TOC, HI) and instantly see the impact on hydrocarbon output, fostering a deeper understanding of source rock behavior.