AFT Impulse is a powerful dynamic simulation and analysis software used to calculate pressure surge transients in liquid piping systems caused by waterhammer.

Easily model a wide range of system components and surge devices
Understand the transient response of your system, knowing how valves, pumps and other components will dynamically interact with each other.
Evaluate the effect of pressure surges due to vapor cavity collapse by modeling vapor cavitation and liquid column separation.
Validate the design of safety features to produce safer, more economical pipe systems.

Design and Operate Your System with Greater Safety and Reliability
Avoid potentially catastrophic effects of waterhammer and other undesirable system transients
Prevent transient pressure issues by properly sizing and locating surge equipment, such as surge tanks, gas accumulators, and relief valves
Initiate transients based on time or events in the system
Reduce surge magnitudes by adjusting system component transients such as valve closure time or pump speed
Easily animate and visualize a waterhammer event to improve fundamental understanding
Calculate transient unbalanced forces and define forces sets as location pairs or single points
Specify design alerts that automatically highlight output values that are out of range for flow, peak pressure, velocity, and more
Compile libraries of your frequently used piping components and quickly select them from a drop down list

 

    

Altair Activate software is an open & flexible tool for rapidly modeling and simulating products as multi-disciplinary systems in the form of 1D models (expressed as signal-based or physical block diagrams), optionally coupled to 3D models. Leverage a flexible spectrum of simulations throughout your development cycle – ranging from early concept design (with models involving more abstraction and typically shorter simulations) to later detailed design (with less model abstraction & longer simulations).

Holistic Assessment
Simulate the performance of your entire product, including as a system-of-systems, to better assess overall behavior as well as interactions between components & subsystems.

Better Insight, Faster
Gain an increased understanding of your product’s performance by incorporating multi-disciplinary aspects in your system simulations (e.g., mechanical & electrical; fluids & structures; electromagnetic and thermal effects; etc.), including coupling 1D and 3D models.

Open & Flexible
Powerful built-in functionality is further extended by use of open standards such as Modelica and FMU. Complements, and works well with, Altair’s broad suite of engineering simulation software (e.g., MotionSolve, Flux, FEKO, etc.)

Features
1D System Simulation
Simulating at the system-level enables performance assessment of the complete product, rather than only of a portion of the product.

Block Diagrams; Control System Design
Providing a natural modeling approach for developing today’s smart systems involving sensors, actuators, feedback, and built-in logic.

Mix Signal-based and Physical Modeling in Same Diagram
Leveraging the power of pre-defined Modelica libraries for modeling common Mechanical, Electrical, and Thermal physical components.

Typically much Faster than 3D Simulations
Relying on greater levels of model abstraction enables more product-performance insight earlier (i.e., nearer the Concept Design stage) and rapid design exploration.

Connections to Other Altair Tools
Enabling true multi-disciplinary system simulation via model exchange or co-simulation with MotionSolve for controlled multi-body dynamics, with Flux for controlled motor dynamics models, etc.

Support for Functional Mockup Interface (FMI)
Including Functional Mockup Units (FMU) enables model exchange or co-simulation connections to non-Altair tools which also support the FMI standard.

 

    

Altair Inspire Extrude (ex Click2Extrude) Metal and Polymer are simulation based environments designed to help metal and polymer extrusion companies meet the ever increasing demands to produce complex profiles with tight tolerances, quality surface finishes and high strength properties at reduced cost. Altair Inspire Extrude Metal and Polymer are virtual presses where users can visualize material flow and temperature inside a die during extrusion and make necessary changes to ensure balanced flow, while identifying and eliminating product defects.

 

 

 

    

Inspire PolyFoam is the newest simulation analysis tool of Altair. It is an integral part of Inspire for manufacturing platform. With Inspire Polyfoam, learn and perform a mold filling simulation and evaluate design concepts. Understand how to incorporate Inspire PolyFoam into traditional design process to efficiently optimize designs and avoid typical Foam defects.

An enhanced version of S&WISE’s solver will be released within Altair Inspire™ PolyFoam, providing the ease-of-use and productivity of other Inspire solutions.Customers will be able to
Check manufacturing feasibility early
Reduce manufacturing defects
Reduce cycle time by designing accurate gating locations and feed rates
Leverage the best-in-class solver technology with a fast, highly accurate solution
Utilize the included material database for commonly used foaming and tooling materials

“Polyurethane foam is used in a vast array of industries and products including automotive interiors, recreational equipment, and medical devices. S&WISE enables us to offer another critical manufacturing simulation and design solution to our customers,” said James Scapa, Altair’s chief executive officer and founder.

The S&WISE solver and technology complements Altair’s existing Inspire manufacturing simulation offerings including casting, forming, mold-filling, extrusion, and additive manufacturing. S&WISE brings deep technical knowledge and more than a decade of experience serving global manufacturing customers.

 

    

Accelerating power electronics and motor drive design. PSIM has been a leading power electronics and motor drive simulation and design software for over 25 years. With an intuitive, user-friendly interface and a robust simulation engine, PSIM is the all-in-one solution that meets users’ simulation and design needs.

PSIM can handle quick power converter loss calculations, motor drive efficiency calculations, conducted EMI analysis, and analog/digital control. PSIM also offers automatic embedded code generation for rapid control prototyping. Additionally, with PSIM’s various Design Suites, users can design power supplies, electromagnetic interference (EMI) filters, and motor drive systems quickly and conveniently.

PSIM also integrates seamlessly with other Altair products (Activate, Embed, Flux/FluxMotor, MotionSolve) and with third-party software, and offers an integrated solution for multi-domain, multi-physics systems.

 

    

SimLab is a process-oriented multidisciplinary simulation environment to accurately analyze the performance of complex assemblies. Multiple physics including structural, thermal and fluid dynamics can be easily setup using highly automated modeling tasks, helping to drastically reduce the time spent creating finite element models and interpreting results. Altair’s robust, accurate and scalable solvers can run either locally, on remote servers or in the cloud.

An intuitive and self-explanatory graphical user interface covers all aspects of the modeling process. Instead of tedious geometry clean-up, work is performed directly on the geometry – imported and updated via the bi-directional CAD coupling - by defining mesh specifications for individual regions.

Key Features
Robust, Repeatable Simulation Workflows
Increase efficiency of simulation cycles with shareable, robust, and repeatable simulation workflows. Eliminate manual solid meshing, model setup, solver execution and post-processing for high accuracy and consistency across the organization.

Intuitive User Environment
Solve statics, dynamics, heat transfer, fluid flow, and electromagnetic problems in minutes directly from within SimLab’s intuitive user environment.

Live Syncing to Parametric CAD
Rapidly explore and evaluate design changes on-the-fly with live synching to popular parametric CAD systems including CATIA, Pro/E Siemens NX, and SolidWorks.

Automation: DOE/Optimization
Automation enables easy setup of results and convergence, DOE, and Optimization.

Comprehensive Solver Support
A common environment across pre- and post-processing with interfaces to several common FE solvers enables users to be versatile even when projects require to work with various tools.

Multiphysics
SimLab enables efficient model setup of multidisciplinary, and multiphysics problems including co-simulation of disciplines, such as structural, CFD, electromagnetics, and thermal analysis.

 

    

Aquaveo GMS stands for Groundwater Modeling System software capable of modeling and simulation for groundwater Aquaveo. Ibn application modeling tools complete the modeling geometry, hydraulic engineering, planning, management and visualization of data and has and also includes a range of numerical models streams including:MODFLOW, MODFLOW-LGR, MODFLOW-USG, MODPATH, MT3DMS, RT3D, SEAWAT, & PHT3D. In addition to the online map, PEST, Parallel PEST and Nir supported.

The program for three-dimensional modeling of underground aquifers and to determine the various parameters detailed simulations on them. Groundwater Modeling System as well as the company's other products Aquaveo conceptual design and flexible approach is proposed. Data processing speed, especially in the simulation is very satisfying and you will encounter the least amount of delay.

Features and Applications Aquaveo GMS
-The interface is simple and efficient with high functionality
-Suitable interact with three-dimensional models
-Improved OpenGL graphics processing technology
-Realistic rendering and creating photorealistic models
-Take notes anywhere on the investment project in the form of text, image, logo and...
-Import and export in different formats such as dxf, dgn, dwg and video formats and GIS, etc.
-Subsurface water simulation tools with advanced statistical analysis
-Step by Step Guide to Understanding the different parts of the program
-And an active online user community to respond to questions

 

    

Navisworks® project review software products enables architecture, engineering, and construction professionals to holistically review integrated models and data with stakeholders to gain better control over project outcomes.

Facilities and features Navisworks Manage Autodesk
-professional tools for manufacturers and production line engineering
-creation of a special activity or Snty
-geometry can collect and engine project planning software according to the position of project is best to expand your business succeed
-Ability to plan,
-Store and view files NWD and DWF format
-Ability to gather documents,
-very powerful tool for analyzing, communication, help coordinate disciplines, resolve disputes and application projects
-Manage the components of the model using a hierarchy of categories, families, types and examples Revit
-Advanced tools for simulation 5D
-Manage projects
-Integration of factory and workshop
-Utilities for coordination between sectors
-library of ready architectural objects

 

    

Cadence Fidelity Pointwise utilizes industry leading mesh generation techniques as well as geometry model preparation capabilities for high fidelity characterization of the fluid domain.

If you ask any engineer or computational fluid dynamics (CFD) enthusiast, meshing is the most time-intensive part of the CFD workflow with one of the highest impacts. We know that the process can be time-intensive but is vital to ensuring high-accuracy and high-efficiency CFD simulations moving forward.

Fidelity Pointwise doesn’t settle just for industry leading CFD meshing. One of our greatest points of pride in Fidelity Pointwise is its capacity to integrate into just about any CFD simulation workflow. Through our mesh export and import tools and pre-built relationships with other strong solvers and simulation tools, you can trust that Fidelity Pointwise will enhance existing workflows. The entire team dedicated to supporting and advancing Fidelity Pointwise is deeply connected to the meshing community and involved in industry roundtables, panels, and influential guidelines like the CFD 2030 plan(opens in a new tab). With Pointwise you can trust in progress.

Save Time and Improve Fidelity With Excellent Quality Mesh Generation
Depending on where you are in your production cycle, you might be looking for fundamentally different highlights in your CFD tools. Whether you’re in final verification and want the utmost accuracy or are just starting out in your simulations and want speed and computational efficiency, Fidelity Pointwise has what you need.

Hybrid, Overset, and High-Order Meshes
With meshes growing into the hundreds of millions and even billions of cells, having an assortment of hexahedral, overset, and high-order cell definitions enables explorative examination.

Ease of Interface With Any Simulation Workflow
Fidelity Pointwise recognizes that CFD users will often be getting the best available solution from a multitude of products and ensures that you will maintain access to your top quality meshes no matter the workflow.

Fidelity Pointwise Technologies Changing the World
Realize your CFD potential with the utmost in mesh generation, geometry preparation, and pre-processing fidelity. Peruse through our video library for webinars and demonstrations for what Fidelity Pointwise can do in your CFD workflow.

 

    

VERICUT is a 3D solids-based software program that interactively simulates the material removal process of an NC program. The program depicts multi-axis milling/drilling as well as multi-axis turning and combination mill/turn machining. It enables you to verify the accuracy and quality of your NC program. Inefficient motion or programming errors that could potentially ruin a part, damage the fixture, or break the cutting tool can be corrected before the program is run on an CNC machine tool.

Verification is the foundation of the VERICUT product line and is required to run any of the other add-on modules. Superior Performance: VERICUT’s unique algorithm provides fast, accurate results. Performance does not degrade with increased cuts, so VERICUT can process programs with millions of cuts and virtually any type of material removal technique.

Base Verification verifies 3-axis milling and 2-axis turning (including multiple setup positions). The Multi-Axis module is required to detect collisions between the tool, stock and fixture for rotary 4 & 5-axis positioning/indexing motion. Add Multi-Axis to detect collisions during positioning and to remove material during continuous four and five axis milling, drilling, turning, and combination mill/turn operations.

Verification detects errors such as
Incorrect or misread blueprints
Inaccurate programming
Incorrect tool path motions
Rapid motion contact
Collisions with fixtures and clamps
Tool shank and holder collisions
CAD/CAM and post-processor bugs

 

    

Powerful, artist-friendly simulation software for 3ds Max and Maya. Versatile dynamics simulator that seamlessly integrates with Autodesk 3ds Max, Maya, V-Ray and Corona. Chaos® Phoenix is capable of a wide range of effects including fire, smoke, liquids, flames, explosions, rigid body simulations, ocean waves, mist and splashes to list just a few. Quick presets and fast setup make it easy to get started, and its powerful simulation engine offers complete control over more complex effects.

Powerful
Chaos Phoenix is an all-in-one solution for fluid dynamics in 3ds Max and Maya. Simulate realistic fire, smoke, liquids, ocean waves, splashes, spray, mist and more.

Artist-friendly
Built for 3D artists who want to create fluid dynamic effects that are fast to set up and easy to control.

Interactive
Preview and render interactively in the viewport. Fine-tune simulations on the fly.

Creative control
Create all types of physically-based fluid effects with fast, smart controls for rendering, retiming and refining simulations.

Smart integration
Phoenix is integrated seamlessly with Autodesk 3ds Max and Maya and optimized to render with V-Ray® and Corona.

Compatibility
Compatible with industry-standard tools and formats such as OpenVDB and Alembic, as well as Krakatoa and thinkingParticles for 3ds Max.

 

    

SIMULIA XFlow offers unique, particle-based Lattice Boltzmann technology for high fidelity Computational Fluid Dynamics (CFD). This state-of-the-art technology enables users to address complex CFD problems involving high frequency transient aerodynamics, real moving geometries, complex multiphase flows, fluid structure interactions and aero acoustics.

XFlow’s automatic lattice generation and adaptive refinement capabilities minimize user inputs thereby reducing time and effort in the meshing and pre-processing phase of a typical CFD workflow. This enables engineers to focus the majority of their efforts on design iteration and optimization, rather than the time consuming meshing process.

With XFlow’s discretization approach, surface complexity is also not a limiting factor. The underlying lattice can be controlled with a small set of parameters; the lattice is tolerant to the quality of the input geometry and adapts to the presence of moving parts.

In addition, advanced rendering capabilities provide realistic visualization to gain deeper insight into flow and thermal performance. Xflow’s unique capabilities enable companies to reduce physical testing while making to make better design decisions faster.

 

    

GRAITEC announces the release of ArchiWIZARD. This solution provides accurate thermal, light, solar gains and shadows analysis, renewable energy simulation (photovoltaic & thermal solar systems).

About Graitec ArchiWIZARD. ArchiWIZARD is a real-time 3D analysis software based on BIM model directly connected to the architectural CAD solutions. ArchiWIZARD provides accurate thermal, light, solar gains and shadows analysis, renewable energy simulation (photovoltaic & thermal solar systems). It embeds EnergyPlus v8.1 building energy simulation program (STD) to combine even more accurate building performance analysis still with the advanced usability of ArchiWIZARD user interface and interoperability capacities. ArchiWIZARD has been evaluated for french regulation RT2012 compliance by CSTB. From the sketch, for new constructions and refurbishment, ArchiWIZARD informs you about the relevance and performance of your architectural and technical choices regarding to energy performance, thermal and visual comfort, and bioclimatic quality. It comes with numerous building elements libraries and easy-to-use configuration, results visualization and reports production tools.

About GRAITEC. Founded in 1986, GRAITEC is an Autodesk Platinum Partner in Europe and America and a long standing international Autodesk Partner and independent developer of high performance BIM Solutions for the AEC industry.

Operating throughout 29 offices across 12 countries worldwide, GRAITEC offers its clients an extensive range of established software solutions combined with the full portfolio of Autodesk products and BIM suites which help address the most demanding projects needs and maximize productivity, efficiency and performance. GRAITEC is an innovation focused company whose products are used by more than 40,000 construction professionals worldwide.

 

    

For individual investigators who require a powerful set of tools to analyze large volumes of visual data. Analyze DI Pro offers advanced analytical features and capabilities, and the flexibility to ensure a smooth and efficient workflow.

Take your investigations to the next level
Although more digital files mean more potential evidence, it’s nearly impossible to review and make sense of such large quantities of material without the proper tools. The process is not only time-consuming and frustrating, but it also results in missed leads and unidentified connections.
Analyze DI Pro puts an end to that. With a wide set of advanced features and functions, investigators can finally take their investigations to the next level. The computer does the heavy lifting so you can focus on doing what you do best: assembling clues, analyzing relationships and solving cases.

Top features
SEAMLESS IMPORT/EXPORT
Import everything from CCTV to native forensic image formats and start analyzing them straightaway.

ROBUST IMAGE AND VIDEO HASHING
Save valuable time and energy by pre-categorizing known data and stacking duplicates.

GROUP AND SEARCH METADATA
Leap ahead in your analysis by correlating metadata to open sources on the internet.

ADVANCED ANALYSIS
Bring critical clues to the surface faster with analysis algorithms for filtering, sorting and searching.

CUSTOMIZED REPORTING
Cut down on your admin work with handy functions for detailed and fully customized reporting.

OPEN API
Use the third-party apps you need to crack the case thanks to the ability to add plug-ins through the API.

GRIFFEYE BRAIN CSA (AI)
Automatically classify child sexual abuse content with outstanding accuracy.

GRIFFEYE BRAIN OBJECTS (AI)
Automatically label image content based on thousands of concepts.

FACE RECOGNITION
Detect and recognize faces in image and video using technology applied to mass volume and “real world” imagery.

 

    

PLECS® is the tool of choice for high-speed simulations of power electronic systems. It is available in two editions: PLECS Blockset for seamless integration with MATLAB®/Simulink®, and PLECS Standalone, a completely independent product.

Thanks to its optimized engine, PLECS Standalone runs much faster than the PLECS Blockset. With the comprehensive block library, PLECS Standalone offers a cost-effective yet powerful solution for dynamic system simulation in general.
Dedicated solvers

Dedicated Solvers
PLECS Standalone comes with its own engine for solving circuit equations. The user can choose between variable-step and fixed-step solvers. Variable time-step solvers are generally preferred for accurate and efficient simulations, because they adopt the step size during the simulation depending on model dynamics. PLECS Standalone provides optimized implicit and explicit variable-step solvers for stiff and non-stiff systems.

Sampled Data Systems
The simulation engine allows the user to model sampled data systems, i.e. discrete systems that change only at distinct times. Users can model systems that are sampled periodically or at variable intervals, systems containing blocks with different sample rates, and systems that mix continuous and discrete blocks.

Interoperability
Simulation models can be exchanged with users of PLECS Blockset via import and export functions. All library components and modeling tools offered in PLECS Standalone are also available in PLECS Blockset. When importing a model created with the PLECS Blockset, the Simulink part is ignored.

 

    

PIPESIM Steady-State Multiphase Flow Simulator The new generation in multiphase flow simulation to overcome fluid flow challenges and optimize production.

Continuous innovation incorporating leading science
For over 30 years, the PIPESIM simulator has been continuously improved by incorporating not only the latest science in the three core areas of flow modeling—multiphase flow, heat transfer, and fluid behavior—but also the latest innovations in computing, and oil and gas industry technologies. The simulator includes advanced three-phase mechanistic models, enhancements to heat transfer modeling, and comprehensive PVT modeling options. The ESRI-supported GIS map canvas helps deliver true spatial representation of wells, equipment, and networks. Networks can be built on the GIS canvas or generated automatically using a GIS shape file. The interactive graphical wellbore enables rapid well model building and analysis. Faster simulation runtime has also been achieved for all modeling though the implementation of a new parallel network solver to spread the computational load across all processors.

Steady-state flow assurance, from concept to operations
The PIPESIM simulator offers the industry’s most comprehensive steady-state flow assurance workflows for front-end system design and production operations. The flow assurance capabilities of the simulator enable engineers to ensure safe and effective fluid transport—from sizing of facilities, pipelines, and lift systems, to ensuring effective liquids and solids management, to well and pipeline integrity. In addition, where dynamic analysis is needed to add further insight, the PIPESIM-to-OLGA converter tool enables rapid conversion of models. Shared heat transfer, multiphase flow, and fluid behavior methodologies ensure data quality and consistency between the steady-state and transient analyses.

New Python Toolkit environment
The previous Python Toolkit environment from Enthought has been replaced with a new Python distribution manager from Anaconda. A new script editor VSCodium has also been added. Various new PIPESIM steady-state multiphase flow simulator functionalities are now supported, such as rate constraints in network simulation and sensitivity in NODAL analysis task.

Multiflash version 7.1
Multiflash is an advanced fuid characterization software from KBC. In PIPESIM 2021.1, Multiflash 7.1 is added and will be downloaded automatically. You may refer to KBC website for more details. Multiflash license is sold separately.

Prediction of gas lift multi-pointing
Gas lift multipointing is a nondesirable condition that can be modeled using the gas lift diagnostics task. Now the PIPESIM simulator can predict this condition in pressure and temperature and system analysis tasks

 

    

From whole-core CT to SEM, Thermo Scientific PerGeos Software is a unique solution for Digital Rock Analysis trusted by Oil & Gas peers.Its visualization, processing, and analysis of 2D and 3D digital rock imagery enables improved evaluation of reservoir quality and faster understanding of static and dynamic rock properties that impact production

Digital Rock Analysis: Run advanced geological analysis from your rock imagery data
Digital Rock Analysis ( DRA ) is the study of rock samples by use of rock imagery data with the goal of understanding rock properties.

Digital Rock Analysis encompasses a multi-disciplinary approach involving advanced microscopy and physics combined with geology, geochemistry, petrophysics, and petroleum engineering to understand the pore-scale microstructure of reservoir rock. It is used to help E&P operators reduce exploration and production risk while informing decision-making to improve recovery.

Rock core plug analysis using X-ray computed tomography
-Using whole-core X-ray CT and micro-CT plug data: Understand lamination. Analyze core and heterogeneity logs. Measure fracture density and orientation. Characterize the pore space.

-Segment pores, clays, and grains. Run accurate grain size and shape analysis. Perform advanced porosity calculation and pore size distribution analysis.

Perform multi-scale geological and petrophysical analysis of your core imaging data
-From Core to Pore, using imagery from large CT to FIB/SEM systems, PerGeos Software helps you digitally understand and validate observations and properties of your rock data with a high level of confidence.

-Ability to interpret images at multiple resolutions from multiple modalities, advanced 2D/3D and 3D/3D registration tools and adaptive thresholding make PerGeos Software a unique digital platform for powerful up-scaling workflows.

-This allows geological and petrophysical properties to be numerically obtained with confidence since all scales of the pore space can be analyzed and interpreted to calculate properties such as global porosity or relative permeability.

Digital rock analysis with focused ion beam milling
-Focused Ion Beam coupled with Scanning Electron Microscopy systems (FIB-SEMs) are invaluable tools that produce high-resolution imagery of nanoporous structures of tight reservoirs and for multi-scale analysis.

-Using FIB/-SEM image data: Quantify pores, clays, organic matter, grains. Perform 3D pore-space characterization. Analyze organic versus mineral porosity. Run 3D size and shape analysis on grains.

Whole Core CT data
-Perform geological, petrophysical, core-flooding, or Dual Energy specific analyses on virtual assemblies of your whole core CT imaging data.

-Import and pre-process CT imaging data. Assemble multiple large core scans, generate logs, perform dip and strike analyses, conduct rock typing and facies classification, generate automated reports. Evaluate and select sub-regions of interest for down-scale investigations.

Core CT plugs
-Obtain actionable insights on your core plug imagery data acquired using X-ray Computed Tomography.
-Perform rock typing, porosity estimation or saturations analysis. Extract and analyze wormholes. Use Dual Energy CT (DECT) technique to obtain actual density information that can be compared with density logs and used for further characterization of rock formations. Identify and select sub-plugs for further down-scale analysis.
Micro-CT core plugs

Microfocus X-ray tomography (micro-CT) allows to capture high-resolution imaging on core samples at the millimeter scale.
-From this imaging data, PerGeos Software allows geologists, petrophysisists and reservoir engineers to obtain advanced information on the rock micro-structure, from pore space and pore network analysis to fluid flow properties calculation, such as pore size distribution, grain classification, or absolute permeability and two-phase flow properties.

SEM rock thin sections
-Scanning Electron Microscopy (SEM) systems allow geologists to capture high-quality images of thin sections of rocks.

-PerGeos Software offers a dedicated digital platform to extract petrology or mineralogy information from this thin section imagery data. It allows for the characterization of properties such as pore size distribution, intergranular porosity, or grain shape and orientation. It also provides tools to perform mineralogical analysis using SEM-EDS data.

-PerGeos Software also provides the unique ability to perform Process-Based Modeling, which is the simulation of the formation of the rock by generating a 3D model from 2D images analyses.

Scanning electron microscopy for geological thin section analysis
-Scanning Electron Microscopy (SEM) systems allow geologists to capture high-quality images of thin sections of rocks.

-Using SEM thin sections: Perform petrography workflows. Run grains size and shape analysis, pore-space characterization. Get high-resolution mineralogy information.

-Thermo Scientific PerGeos Software is a comprehensive Digital Rock Analysis solution that provides geologists with advanced analytical tools to better evaluate the reservoir quality.