[ Flagship Product ]

SigmaX™ Reservoir Geomechanics Platform

A 3D reservoir geomechanics platform that turns complex subsurface data into practical engineering insight — with workflows spanning the entire asset lifecycle, from exploration and drilling to production, injection, and abandonment.

SigmaX is a 3D reservoir geomechanics platform designed to turn complex subsurface data into practical engineering insight for the energy industry. Built for applications ranging from oil & gas field development, well construction, and reservoir management to unconventional development, CO₂ storage, and underground gas storage, it provides an integrated environment that helps technical teams build, analyze, and apply field-scale geomechanical models more efficiently and consistently.

SigmaX bridges the gap between geoscience interpretation, geomechanical modeling, and engineering decision-making. It works within existing industry software ecosystems — connecting with widely used G&G platforms such as Petrel and leading geomechanical numerical simulators such as FLAC3D and Abaqus — complementing them with dedicated geomechanics workflows, data-processing tools, model-building utilities, and application-focused analysis capabilities.

Built for geoscientists, geomechanics engineers, drilling engineers, reservoir engineers, and field-development teams, its modern and intuitive interface supports fast adoption by entry-level users while maintaining the technical depth and flexibility required by advanced geomechanics specialists.

[ Platform Architecture ]

One core, three application modules

A core 3D geomechanics module supports field-scale model building, data processing, model preparation, analysis management, and visualization — the foundation for importing, organizing, validating, and preparing data for 3D geomechanical modeling. Three application-focused modules build on top of it.

01

Drilling Geomechanics

Wellbore stability, mud-weight windows, trajectory and casing support for safe, optimized well construction.

02

Reservoir Geomechanics

Stress-path, compaction, subsidence and coupled reservoir-simulation workflows across the producing life of the field.

03

Unconventional Reservoir Geomechanics

Hydraulic-fracture design, fracture-gradient prediction and stimulation workflows for unconventional development.

SigmaX is designed for flexible deployment across local and cloud-based environments, supporting both individual technical users and scalable team workflows. Its architecture supports future AI-assisted capabilities — guided workflows, faster model setup, quality control, and interpretation assistance — while keeping technical judgment and final decisions with the user.

[ Integrated Workflows ]

From objective to outcome

SigmaX™ maps every customer objective to an intelligent workflow and a concrete engineering outcome.

Customer Objective SigmaX™ Workflow Key Outcome
Import and organize all geomechanical dataData ManagementUnified project database
Calculate dynamic rock propertiesWell Log InterpretationElastic property profiles
Estimate static mechanical propertiesRock Property ModelingYoung’s Modulus, Poisson’s Ratio, UCS, Cohesion
Determine formation pore pressurePore Pressure PredictionPore pressure profile
Compute vertical stressOverburden Stress CalculationVertical stress profile
Calculate minimum and maximum horizontal stressesHorizontal Stress EstimationComplete stress model
Match calculated stresses with field measurementsStress CalibrationCalibrated stress profile
Build field-wide geomechanical modelMechanical Earth Model (3D MEM)3D Mechanical Earth Model
Evaluate drilling stabilityWellbore Stability AnalysisMud Weight Window
Determine safe drilling windowMud Weight OptimizationCollapse & Fracture Pressure Limits
Predict breakouts and tensile failuresBorehole Failure PredictionStability maps
Optimize well azimuth and inclinationWell Trajectory OptimizationRecommended well path
Select casing depthsCasing Design SupportOptimized casing program
Predict stress evolution during depletionReservoir Stress Path AnalysisStress path curves
Estimate reservoir deformationReservoir Compaction AnalysisCompaction maps
Forecast land subsidenceSurface Subsidence PredictionSubsidence contours
Predict sanding riskSand Production AnalysisSafe production limits
Optimize stimulation designHydraulic Fracture DesignFracture pressure & orientation
Determine fracture initiation pressureFracture Gradient PredictionFracture gradient profile
Evaluate fault slip potentialFault Stability AssessmentSlip tendency maps
Assess seal integrityCaprock Integrity AnalysisLeakage risk assessment
Analyze water, gas, or CO₂ injection effectsInjection GeomechanicsInjection operating limits
Evaluate CO₂ storage safetyCCS Geomechanics WorkflowStorage integrity assessment
Couple geomechanics with reservoir simulatorReservoir Simulation CouplingDynamic coupled model
Optimize production while minimizing geomechanical risksProduction OptimizationSafe operating envelope
Identify low-risk drilling locationsInfill Well PlanningOptimized infill locations
Update models during drillingReal-Time Drilling SupportLive drilling recommendations
Identify operational hazardsRisk AssessmentRisk matrix
Forecast drilling and production issuesPredictive AnalyticsEarly warning indicators
Evaluate uncertainty of model parametersSensitivity AnalysisParameter sensitivity report
Compare development strategiesScenario SimulationScenario comparison
Evaluate cost vs. geomechanical riskEconomic Impact AnalysisDecision support metrics
Display results in 3DVisualization & MappingInteractive maps and models
Generate engineering reportsAutomated ReportingProfessional reports and plots
Share models across teamsProject CollaborationCollaborative workflows
Track geomechanical changes over timeAsset MonitoringPerformance dashboards
Integrate engineering results for managementDecision SupportActionable recommendations

[ E&P Life Cycle ]

Intelligence at every stage

SigmaX™ applies across the full exploration & production life cycle — one platform, one continuous flow of intelligence.

01

Exploration

Prospect evaluation

Well planning

Stress prediction

02

Drilling

Wellbore stability

Mud weight optimization

Casing design

Trajectory optimization

03

Completion

Perforation design

Hydraulic fracturing

Sand control

04

Production

Reservoir management

Compaction prediction

Subsidence analysis

Production optimization

05

Carbon Storage

CO₂ sequestration

Injection monitoring

Seal integrity

Long-term storage assessment

[ Why SigmaX™ ]

A platform built on engineering intelligence

01

Advanced Mechanical Earth Modeling

Build calibrated, field-scale 3D Mechanical Earth Models that capture rock properties, pore pressure, and the full stress state.

02

Integrated Reservoir Workflows

Seamlessly connect interpretation, model-building, simulation, and visualization in one repeatable workflow layer.

03

Enterprise-Scale Performance

Handle large, complex field models with the speed and stability demanded by enterprise engineering teams.

04

High-Speed Calculations

Accelerated geomechanical computations compress lengthy analyses into fast, iterative engineering cycles.

05

Interactive 3D Visualization

Explore models, stresses, and results in fully interactive 3D maps for clear, confident interpretation.

06

Automated Reporting

Generate professional, presentation-ready reports and plots directly from your models.

07

Modular Architecture

A core module plus drilling, reservoir, and unconventional modules — adopt only what you need.

08

Cloud & On-Premise Deployment

Deploy flexibly across local and cloud environments for individual users or scalable team workflows.

09

Expert Technical Support

Backed by domain experts in reservoir engineering, geomechanics, and data science.

[ Industries ]

Engineered for demanding sectors

Oil & Gas

Carbon Capture & Storage (CCS)

Underground Gas Storage

Mining & Rock Engineering

Geomechanics

Energy

Civil & Infrastructure

Geothermal

Engineering Intelligence. Built for the Subsurface.

See SigmaX™ in action