Alternatives to Leica GeoMoS

RockWorks is a software program that creates 2D and 3-D maps, logs, cross sections, geological models and volume reports. It also provides general geology diagrams for the petroleum, geotechnical and mining industries. RockWorks is the industry standard for environmental, geotechnical and petroleum mining data visualization. It includes popular tools like maps, logs and cross sections, fence diagrams and solid models, as well as logs and solid models. RockWorks offers numerous options for analyzing your surface and subsurface data, and accepts many different data types, such as stratigraphy, lithology, downhole geochemistry/geophysics / geotechnical measurements, color intervals, fractures, and aquifer data. RockWorks' graphic output can be displayed in the built-in 2D or 3D viewing/editing window. You can also export to CAD and Google Earth and other GIS programs. To create page layouts for posters and reports, use the ReportWorks module.

It takes a lot of work to gather your data. Do not settle for substandard visualization. Surfer's powerful modeling tools allow you to present your data in the best possible way while maintaining precision and accuracy. Surfer makes it easy to communicate information about geology, hydrology and environmental. Surfer's many analysis tools are designed for engineers, geologists, and researchers. They allow you to discover the depths of your data. Adjust gridding and interpolation parameters, assess spatial continuity of data using variograms, determine faults and breaklines, and perform grid calculations such volume, smoothing, filtering, and transformations. Surfer converts your data quickly into knowledge.

DEPRO is a comprehensive torque and drag program. This software can help reduce the risks associated with drilling and completion operations. DEPRO calculates the horizontal well's length based on specific friction factors. It also recommends rig specifications and determines the weight required to set a packer. DEPRO covers hydraulics. It includes surge and swab and equivalent circulation densities, bit optimization, hole cleansing, and volumetric displacements. DEPRO allows for the complete examination of downhole drilling hydraulic conditions and the identification of any potential problems before field execution. Stress calculation, torque, drag, and tension calculations. Models for both soft and stiff strings. Drilling, back reaming and rotation off the bottom are all possible. Prediction of sinusoidal and helical buckleling. Comparison of field data on surface torque and workload. Friction factor sensitivity analysis. Analysis of packer setting.

Pandell LandWorks, a cloud-based land asset management tool, is the core of our powerful land software suite. Pandell LandWorks uses interactive displays to show your holdings. Quick inspector panel access gives you an overview of your land information. You can view representations of your mineral assets and surface areas. You can choose from standard reports, or filter and save any search criteria to create custom Excel exports. Pandell LandWorks smart Grid queries offer flexible reporting tools that allow for detailed analysis and decision-making. Intelligent data processing workflows reduce errors and redundant data entry with time-saving shortcuts. Granular data tracking provides more detailed acreage histories, and Pandell LandWorks can create your own chain for you.

Evaluation of a variety of QC attributes in arbitrary Windows, as well their derived combinations. Interactive common source/common receiver/CMP attribut map, CMP fold map and location map for advanced analysis of data quality - all maps are fully synchronized among them and with seismic display, active templates are highlighted along with SP and RP of the current trace. Real-time QC--control data quality immediately after it is acquired. This allows you to make decisions and fix problems instantly. A complete set of industry-standard algorithms are available for data processing, including vibroseis correlation and trace editing, bandpass and FK filtering and Radon, FXY and FXY decons. TFD noise corrections, deconvolutions and amplitude corrections can all be done. Interactive velocity analysis, statics and NMO-correction can also be used. Regularization, stacking, prestack and after-stack time migrations can also be done.

Advanced velocity determination and 3D/2D model building allow for accurate, high-quality and interpretable seismic images in depth and time. An integrated suite of interactive and batch velocity analysis tools allows you to easily solve all kinds of seismic imaging problems. The workflow is simplified by integration with interpretation and modeling tools. Data loss is prevented and geologic constraints are respected. No matter how complex the structural geology, it is easy to create 3D and 2-D models. Highly parallelized to run efficiently on large 3D datasets as well as multi-line 2D datasets. Hydrocarbon exploration and production requires accurate seismic images and depth models. Aspen GeoDepth velocity calculation and modeling system provides a solution to improve seismic imaging in depth or time. It integrates interpretation, velocity analysis, model construction, time-to-depth conversion, and more.

Comprehensive seismic processing and QC software to process data acquired on-shore, offshore, or in a vertical seismic profile. VISTA desktop seismic processing software allows data processing from the early stages of acquisition QC to the final processing and interpretation 2D and 3-D seismic data acquired either onshore or on land. It also supports vertical seismic profiles (VSP) in all industry data formats. VISTA software makes it easy to navigate workflows and evaluate datasets with the interlinked and interactive displays. You can also add your own algorithms via the MATLAB SDK or C++ interface. Advanced processing capabilities are supported by the software, including AVO and angle analysis (AVA), multicomponent processing, 2D and 3D VSP processing, and AVO and angle of incidence analysis (AVA). Advanced field package, including full geometry QC and post-stack migration. The complete solution, including QC, prestack migration and time depth image analysis.

Quick and easy stability analysis of underground crown pillars or surface roofs using three different limit equilibrium analysis methods: elastic plate, rigid plate, and Voussoir plate analysis. Probabilistic analysis is used to determine the likelihood of failure. By assigning statistical distributions of variables, you can model variability in geometry, point force application, joint strength, bedding strength, water pressure, and external loads. To evaluate the impact of changing model parameters on safety factor, perform sensitivity analysis with a range of values. This method was originally designed for steeply dipping ore bodies. By estimating crown geometry, and assessing stope geometry as shallow or steep, you can apply the best empirical relationships to your model.

Maptek Vulcan GeologyCore streamlines the geology workflow, from data validation to model creation. Access cutting-edge modelling techniques via cloud-based machine-learning algorithms. Vulcan GeologyCore is a smart workflow that automates daily geology tasks. This allows geologists to spend more time on high-value work. The tasks are organized intuitively to import and validate drillhole data, define geological domains, then generate and publish geological models. Repeatable steps allow geologists to easily experiment with domain changes and see immediate effects on the model. Vulcan GeologyCore can be used for a variety of projects. Users can choose between cloud-based machine learning or traditional modelling methods like vein and implicit modeling. The intuitive ribbon automates the entire geology workflow, from importing and validating drillhole information to defining geological domains.

It is not always possible or practical for spatial phenomena to be predicted and modelled using real-world observations. ArcGIS Geostatistical Analyst allows you to generate optimal surfaces using sample data and make predictions for better decision-making. These tools are particularly useful for atmospheric data analysis and petroleum and mining exploration, precision agriculture, environmental analysis, and fish and wild life studies. ArcGIS Geostatistical Analyzer extension provides a suite interactive tools that allow you to visually examine your data before it is analysed. ArcGIS Geostatistical Analyst can help you quantify uncertainties if your data is incomplete or subject to errors. To perform risk analysis, create multiple versions of the same surface. Geostatistical simulation creates multiple surfaces that simulate the real phenomenon and give possible values.

Every project is difficult, but the geotechnical analysis does not have to be. PLAXIS 2D offers fast computations. Advanced finite element and limit equilibrium analysis of rock and soil deformation and stability. Also, soil structure interaction, groundwater and heat flow. PLAXIS 2D, a powerful and easy-to-use finite-element software for 2D analysis and stability in geotechnical and rock mechanics, is available. PLAXIS is used by the top engineering firms and institutions in civil and geotechnical engineering. PLAXIS 2D can be used for many applications, including excavations, foundations, embankments, and foundations, as well as tunneling, mining and oil and gas extraction. PLAXIS 2D provides all the necessary tools to perform safety analysis and deformation of soil and rock. It does not need to take into account creep, steady-state groundwater, thermal flow, consolidation analysis or any other time-dependent effects.

OreSense®, Platforms is Plotlogic’s collection of algorithms and API's that allow you to interface with your geological models as well as end users. OreSense®, Platforms allow mine planners, supervisors and geologists to choose how data should be integrated into their workflows. OreSense®, which captures new information from all levels of the value chain, can be used to update the relevant parts or flow of the block model. Our APIs can also be integrated with your existing scheduling tools to give you greater transparency on process variations as they happen. Platforms enable you to monitor the mining process more effectively by generating actionable reports. Data collected and analysed in real-time for your decision support system (DSS).

You can graphically edit data in vi, vi, vrms or depth domains.

Most likely, we don't know the thickness of the source rock in our kitchen area. We also don't know the heat flow or secondary migration losses. You can only rank prospects by running different scenarios with these parameters. Prospects that are charged in the most scenarios will have the lowest risk. Top seal capacity, unconformity and source rock facies are all possible risks. There is also the possibility of different interpretations of seismic. It is absurd to invoke multi-component Kinetics when we don't know the thickness, TOC or HI of the source rocks. Drag and drop your interpreted surfaces to Trinity and draw cross sections interactively through them. You can move the cross section with the mouse to move through the data. In 3D, the cross sections look similar to fence diagrams except that fences can be moved. This will reveal a lot more geology than static maps.

GeoThrust was designed with a workflow architecture in mind to produce an accurate earth model and image in time and depth from data that has been collected with irregular geometry in areas of complex topography, complex near surface, and complex subsurface. It is easy to learn and simple to use, with high technical specifications for data analysis. Nonlinear tomography is used to estimate the near-surface model. This accounts for topography and reduces vertical and lateral velocity variations. Wavefield dating is used to correct the near-surface model. This is essential for imaging from irregular topography. GeoThrust does subsurface velocity modeling, imaging, and estimation from topography. It is not based on a flat datum. Instead, it uses rms and interval speeds that are calculated at reflector positions and not at reflection positions.

This software package includes crosshole survey design and model building and modeling, data transformation, CDP transformations, tomography, wave equation migration and post-processing. It provides all the capabilities you need to complete a crosshole seismic project. The model includes P- and A-wave velocities and densities as well as anisotropic parameters. Create an arbitrary velocity model with layers, objects, faults, and other elements. Full wavefield simulation using an anisotropic finite difference method.

The initial development of mud-logging software was based on extensive market research and the extraction of their strengths and weaknesses. It was then designed natively using the expertise and knowledge of MTC specialists. This original design is customizable and can be customized to meet any requirements. Mud-Logging Software from MAPSA Technology Center also offers significant computational speed and graphical displays thanks to the use of the most up-to-date and efficient software development technology. This gives ML Pro technical superiority over its worldwide counterparts in terms computational speed and user-friendly graphical interface. Different ways of illustrating drilling parameters are possible.

To analyze soil settlement, perform immediate settlement analysis. You can easily create soil profiles with RSLog, CPT boreholes and soil classification. Ground improvement methods such as soil replacement, vibrocompaction, and stone columns offer more flexibility. They can be applied to different stages at different depths. Sensitivity analysis can also be used to analyze settlement properties, such as stiffness, top and bottom depths, spacing, etc. You can perform CPT and liquefaction analysis together or separately. CPT analysis results can yield 29 different parameter results. You can calculate liquefaction based on either Cone Penetration Test or Standard Penetration Test data.

CoreLog is a log analysis application and petrophysical modeling software. It is based on industry-standard model models and used to calculate the petrophysical properties wells. It calculates many properties, including porosity and permeability as well as volume of shale. CoreLog allows users to quickly and efficiently import and transform data, view plot information, calculate petrophysical property, and export data for other applications. CoreLog is a robust application that allows for easy manipulation and interpretation of data. CoreLog makes it easy to create markers and zones, modify plots, and print or export data. CoreLog presents data in a user-friendly format with tabbed views and tables. Tree views can also be used to improve productivity.

Comprehensive software package for near-surface seismological methods. Easily process reflection data with one application, including multi-step redo and undo. All records from a survey line can be imported at once. Use layout charts to efficiently assign geometry. CMP binning is used to correct crooked lines. AGC, trace balance, time-variant scaling, and AGC. F-K filtering, frequency filtering, Tau-p mapping. Predictive and spiking deconvolution. Random noise attenuation Muting of surgical, top, or bottom trace. Gather sorting (CMP), common shot, common receiver or common offset) Velocity analysis of CMP or common shot gathers. NMO correction and inverted NMO correction. This application is rich in features and can be used to process single-fold seismic reflection data or GPR data. Assign geometry in reverse or forward trace order. Support for SEG-2, SEG-Y, SEG-D, ASCIII, MALA and ImpulseRadar data formats. Static correction for elevation and first-arrival alignment. AGC, trace balance, time-variant scaling.

LogPlot is a simple-to-use log plotting software with an intuitive data editor and flexible log layout. Geoscientists have used LogPlot software since 1983 to display their geotechnical and environmental data. Plot single-page logs for shallow borings or multi-page/continuous logs for deep wells. Logs can be shared with clients via PDF, or posted HTML log pages to your website. Export single pages and continuous logs to JPG or BMP, TIFF, and/or PNG images.

MineScape was specifically designed to meet the stringent requirements of the mining industry. It is used in more than 200 complex mining operations, including nickel phosphate mining (Russia) and coal mining (Indonesia). It provides integrated solutions for underground and open-cut mining operations for coal and other metalliferous resources. MineScape is a world-class mine planning tool that offers extensive geological modeling and mine design functionality. GDB stores downhole survey data, lithology, quality data, and produces custom, summary, and user-definable reports. It allows geologists to perform correlations, composition, washability calculations, and classic 2D geostatistical analyses.

All geo datasets are analyzed in order to view your orebody at a fine level. This includes predictions of the next bench, hardness changes mid-bench, and predictions about mill performance. Site-wide data are combined and visualized to give a complete view of operations. You can see which decisions were made by which department and what they resulted. MinePortal is a cloud-based program. All team members have access to real-time insight on any device, from anywhere. All systems and operations can be unified for site-wide optimization. Optimizing blast performance can maximize throughput. For optimal throughput, consistent grade and hardness mixtures are essential. For improved mill performance, better planning, efficient blasting, and optimal mixing are key. Increased awareness of the impact of the orebody on production and better communication between stages. Integrated datasets that identify which geological features or performance factors are beneficial or detrimental.

GIM Suite allows for seamless integration across desktops, webs, and mobile devices. It allows you to capture, manage, and deliver geoscientific observations and measures in any environment. GIM Suite's powerful data management capabilities increase confidence in decision-making throughout the mining value chain. You are always working from one source of truth for your most valuable assets, your geological data. More data is being collected and used by miners than ever before. Companies have access to more complex deposits through smart mining techniques and practices. Your geological data is part a larger mining ecosystem and can be used to inform optimizations elsewhere if properly integrated. One trusted version of your data is accessible across all teams. This allows everyone to work with the same information.

Combine all data sources to get a complete picture. This eliminates manual processing and allows you to uncover new insights and risks. Combine 1D, 2D and 3D geometries and multiple analyses from different products to increase your problem-solving capabilities. To better understand the complexity of your problem, you can clone that analysis and modify boundary conditions or material properties. You can run multiple analyses simultaneously and monitor the results. You can run multiple processes concurrently to generate construction sequences and establish initial conditions. Perform sensitivity analyses, model complex time sequences or divide a complex problem in smaller packages. You can dive deep into your project and create a single file that defines it. Then, you can continue to review the results and reassess as needed.

Teams can work together using intuitive workflows, rapid data processing and visualization tools. This allows them to have the discussions that lead to decisions. Use user-friendly tools to build and refine geological models. You can quickly generate models from large data sets without the need for wireframing. Visualize your geological data in 3D. Gain visual insight to help you interpret it. When you add new data to a modeling, the rules and parameters that you have already established are automatically applied. You can make a change to one model, and all dependent models will be updated immediately. This ensures that models are always up-to-date. Leapfrog Geo's features make it easy to analyze data. These include exploratory data analysis and distance function. Rapidly test new ideas and refine your model. Duplicate models, and use streamlined workflows to iterate interpretations as soon as new insights become available.

GeoProbe®, the industry's leading 3D multi-volume interpretation software, is GeoProbe®. This software is designed to speed up interpretation workflows, from basin scale through detailed prospect analysis and reservoir analysis. GeoProbe software is able to analyze basin-scale volumes in the most immersive visualization environment. The software's (1) volume rendering technology, which improves fault detection and stratigraphic imaging, (2) powerful volume visualization techniques that enhance visual pattern recognition, and (3) interactive auto-trackers allow for precise interpretation. Optimized reservoir targets can be quickly created, well-defined and accurate. GeoProbe software technology supports efficient workflows with "real world" data volumes.

MFrac Suite software allows you to create and execute well stimulation designs in both traditional and unconventional plays. This will maximize production and prolong the life of your well. You can improve your planning process and integrate real-time data, minifracs and hydraulic fracturing. This will help you to make better decisions and arrive at meaningful reserves estimates. Our hydraulic fracturing analysis and design software allows you to pinpoint the most productive zones, determine effective fracture treatment options, and monitor reservoir stimulation in real time. Since the beginning of frac modeling, our software has been a support tool for engineers. We are now delivering a step-change of efficiency and capability to people responsible for unconventional well planning and stimulation modeling.

No matter if you are drilling a vertical well or an extended-reach one, a low or high equivalent circulating density (ECD), can cause serious drilling problems and compromise your project's finances. An optimal ECD is essential for a successful drilling operation. It is essential to accurately model the drilling process and optimize the drilling hydraulics. It allows engineers to plan ahead, improving drilling efficiency, reducing risk, decreasing non-productive times (NPT), and so on. Pegasus Vertex's HYDPRO hydraulics model covers all aspects of hydraulics including surge and swab and bit optimization, hole cleaning and volumetric displacements. These features allow downhole drilling hydraulic conditions to be thoroughly examined, and any potential problems identified before field execution.

DecisionSpace®, 365 Essentials is an industry-leading exploration and production (E&P), which provides the best performance at a reasonable price to help you run your business. This software is flexible and you only pay for what you use. Advanced seismic processing technology and QC workflows allow you to gain a detailed and insightful understanding of subsurface. Optimize your well operations to increase productivity Start without any data entry or report configuration. You can jump start your economics evaluations by having instant access whenever and wherever you need it. Self-service well construction software that reduces well preparation time, increases reliability, and maximizes well productivity.

Multisensor GeoStreamer is the ideal platform to perform broadband imaging. Deep towing reduces weather impacts and improves acquisition efficiency. The recorded signal is not sensitive to changes in towing depth or local sea surface variations. This significantly reduces non-repeatable noise in reservoir monitoring projects. Pre-stack phase and amplitude are consistent in a frequency-dependent and angle-dependent way. Rich low-frequency signals enhance Full Waveform Inversion and improve subsurface property prediction accuracy. Multisensor wavefield separation allows for better shallow illumination. For standalone interpretation, near-surface images can be used that are not affected by acquisition footprint effects. Enhanced broadband resolution stratigraphy allows for the recovery of small time shifts due to changes in reservoir pressure and saturation during reservoir monitoring projects. GeoStreamer employs both velocity sensors and hydrophones to remove any ghost reflections from the surface.

TomoPlus is a complete package of near-surface solutions. It's designed to produce an accurate near-surface velocity model and to derive precise long and short wavelength stats solutions to assist seismic data processing. TomoPlus provides both high-end and conventional near-surface refraction solutions for a variety near-surface problems. Conventional approaches can be used to resolve high velocity contrasts in simple situations and offer high resolution solutions. Conventional methods can be used to determine a good initial velocity model in complex areas. High-end imaging technologies such as nonlinear and full waveform tomography or joint traveltime waveformtomography may then be used to resolve additional details. TomoPlus provides advanced near-surface imaging and statics techniques in addition to several robust first-break pickers;

In-depth intelligence and analysis are required for mining operations, both in the exploration and operational phases. Bore hole drilling and analysis of samples are required to evaluate mineral deposits. Our technology platform can be used to detect changes in underground structures and the emergence air gaps during the operational phase of extracting minerals deposits. This allows mining companies to monitor these changes and prevent tunnel collapses. Mining companies can use the mDetect technology platform to help them identify. Impact of new structures, underground channels, and tunnels on existing subterranean structure.

Geomage is a global company which develops and delivers advanced seismic processing and interpretation technology, services and software to a wide range of oil and natural gas companies. Geomage's seismic processing portfolio uses the multi-faceted MultiFocusing™, which has been proven to deliver the most precise subsurface imaging with greater stratigraphic detail and structural detail at hundreds of exploration sites around world.

RS2 allows you to easily analyze stress/deformation and stability of any project, regardless of whether it is above ground or below ground. RS2's integrated Seepage Analysis Tool allows you to factor in groundwater flow for both steady-state and transient conditions. Automate your slope stability analysis using shear strength reduction. This performs a finite element analyze to determine the critical strength reduction factor. You can analyze embankments using slope stability, groundwater leakage, consolidation, or dynamic analysis. Groundwater and dynamic analysis tools are available in RS2. There is also a large library of advanced constitutive models that can be used to capture the sudden loss in strength caused by liquefaction. This tool is suitable for both underground and open-pit excavations. It can analyze stability, stress/deformation and bench design. It also supports the design and support of underground caverns.

PLAXIS 3D provides the most important functionality to perform safety analysis and deformation for soil and rocks. This software is designed to allow you to model in 3D. Easy to create and scale construction sequences. Stable-state groundwater flow calculations can be done, including boundary conditions, material parameters, drains, wells, and drains. To model soil-foundation movement, such as slipping or gapping, use interfaces and embedded piling elements. You can get reliable results using realistic soil models and a full range of visualization capabilities. PLAXIS 3D provides different calculation types to address the unique geotechnical issues of soil structure interactions.

Galaxy4D is a 2D/3D modeler and stratigraphic tool that provides reservoir engineers and geologists with a powerful and flexible tool. It greatly reduces the time required to build, update and manage reservoir models. It also increases knowledge and understanding of the reservoir. Field development programs can be developed faster and with fewer risks. Galaxy4D's strengths are in its simple and logical workflow. Its modules and displays are easy to use, interactive, and efficient. Galaxy4D can estimate saturation distribution using logs (RSTs). You can create unified catalogs that include reservoir descriptions, engineering, geophysical, seismic, and other data. Analyze the histograms for reservoir properties for single wells or multiple wells for 2D or 3D data sets on a zone-by-zone or defined area basis.

The Petrel E&P platform combines transparent data flows and a simple-to-learn graphical interface--Petrel Reservoir Geomechanics-that supports the VISAGE sim configuration and results visualization. This allows the powerful functionality of VISAGE simulator to be seamlessly combined with other interpretation, modeling and engineering workflows within Petrel. The Petrel platform-enabled workflow allows you to include multiple data types in order to create new 3D stress and geomechanics properties, or to add geomechanics data for existing reservoir subsurface models. This seamless combination within Petrel ensures that the geomechanics model can be integrated with geophysics and geology as well as reservoir data.

SPW software is an interactive seismic processor system. SPW can be parallelized to run on multi-core processors that have threads on Windows 7 or Windows 10. SPW can be used on workstations, desktop computers or laptops. It can also be installed as a client/server configuration to meet large processing requirements on high-end server PCs. The SPW 3D package provides a complete processing system to process 3D P-wave seismic reflectance data. The system's strengths include data QC and interactive analysis. These allow for rapid control of data quality, and the checking of processing results.

The advent of digital transformation via the cloud has provided an opportunity to create a new generation operations geology software that will improve collaboration and productivity. GravitasEDGE was built using the most recent technology. Users have access to a rich operations geology toolset to manage the geological workflow. It seamlessly integrates with other disciplines like drilling and asset geoscience. Winlog, EZ Correlate, PoreView, and Reporter, all world-class applications, are available for log visualization and analysis, well correlation, pore pressure monitoring, and daily and end-of-well reporting. The GravitasEDGE mobile app has been designed for smartphones and tablets. It allows users to view charts, reports, and other information on any device at any time, from anywhere.

PSD is a Windows program for processing seismological data. The software allows you to read and process event (.EVT), files in various versions (up to 1.50). This makes it easy to evaluate the quality of the data acquired. The PSD software package was designed to allow users to perform frequency analysis on the signals. The software can accept an EVT file as an input file and performs these functions: Signal/Noise Ratio uses the first 1024 signals as noise and the 1024 signals starting at the trigger point as the signal. The one-sided auto spectrum density function is used to calculate Power Spectral Density. The user can set parameters such as corner filter, order filter and overlapping window.

The location of wells, rock properties, torque, drag, cost, and cost can all affect the optimal well trajectory. COMPASS™, which is available to both oil companies as well as directional drilling contractors, is the industry's most popular application for directional well paths planning, survey data management and anti-collision analysis. This allows engineers to direct the bit into the profitable payzone. No matter how complex the task, COMPASS directional planning software can optimize drilling routes quickly based on cost and torque, drag, or other anti-collision criteria. The software's well planner can automatically recommend the best well to sidetrack when infill drilling is being done. This saves you days of tedious trial and error analysis. Interactively create anti-collision scans for your project, while you plan, survey, or project ahead. To alert users, set up email notifications and warnings.

Katalyst is a leader in geophysical preservation and seismic segment scanning services for the oil & gas industry. Our proprietary software is based on more than 25 years of experience and allows us to offer clients a valuable and unique way to convert aging hardcopy paper seismic sections into digital format. Once the data has been digitized and stored, it can be used to enhance ongoing and future processing and interpretation activities. In many cases, historical seismic data in the exploration industry is only available in hardcopy format. These seismic sections often cover areas of exploration that do not have modern seismic coverage. Conversion of hardcopy sections to digital SEGEY data is a cost-effective way to obtain greater seismic coverage in areas that may not have any other data.

The suite includes utilities that allow output files to be prepared for loading into a seismic interpretation workstation and further processing. LEAMAP can be used either as a standalone program or integrated with LEASSV to provide a complete solution for reconstructing seismic data using images of sections and basemaps. A minimum system requirement is a computer running Microsoft Windows XP or Vista, 7, 8, or 10 (x86, x64). Snowbound Software Inc supports more than 60 raster file formats via its raster library. Standard Windows printer drivers support plotting. Locprep is an interactive editor that can be used to edit Lynx or UKOOA-type location files. These files store information about seismic shotpoint locations and general location information. Locprep can be used to perform many tasks with LOC files.

Multi-survey structural interpretation and visualization is fast and easy. Multiple users can collaborate in one shared environment. Integrated analysis of multi-scale geophysical, seismic and geological data allows for reliable prediction of facies from well data. Comprehensive, integrated solution for seismic interpretation that includes industry-leading facies classifications and volume visualization workflows. Visual integration and interpretation at all scales, from regional to prospect. You can easily share data and projects with other members of your team without duplication. Interactivity and consistency among views speed up the interpretation process. This makes full use of high-speed graphics and large memory, as well as the fast connectivity of modern workstations. The user interface is intuitive and easy to use.

We are streamlining the collection of geotechnical data for ground control engineers, geotechnical engineering and geologist. Our platform allows engineers and geologists the ability to collect 3D point cloud data and then convert it into useful geological measurements. It can be dangerous and time-consuming to take measurements in a mine. Our tool is designed to make it safer and more efficient to get the information you need to run your mining operations. Our handheld and mobile mapping technology automatically calculates joint set orientations for rock masses using flash LiDAR and our software platform. We also offer an intuitive platform to document RMR, Q, as well as other geological measurements. In minutes, engineers and geologists can get highly accurate and consistent data. Our team is determined to create an industrial product that doubles up as an intelligent, simple, and practical device that adds unprecedented value for the mining industry.

There are many reasons why a pipe might become stuck. These causes are usually related to mechanical sticking or differential sticking. Key seating, undergauge holes, wellbore instability and poor hole cleaning can all lead to mechanical sticking. Differential sticking is caused by high-contact forces due to low reservoir pressures or high wellbore pressures. Stuck pipe problems are the most costly drilling problem facing the petroleum industry. The cost of correcting them can run into the millions. It is becoming more important to analyze well data to predict the stuck chance for a drill string.

Genesis Campaign Builder is a powerful software tool that allows you to statistically estimate the time it will take to execute a well-planned campaign. It can also be used to estimate campaigns that include several wells. You can plan well campaigns over multiple years and then monitor their performance later. Genesis' product provides insight into operational performance and benchmarking throughout the entire cycle of front-end loading. It also tracks several KPIs to keep managers and operations teams informed. It provides companies with a method to analyze results. They can also use historical data and statistical analysis to plan for future wells. Campaign Builder allows companies to create a multi-well development plan for a field. Campaign Builder can be used to generate the campaign in the early stages of design. This allows companies to identify potential risks and costs in developing the fields.

It draws on the strengths of the geoscientific data to efficiently and effectively meet the needs of multiple industries. It can be used to assess contaminants, soil and rock properties, as well as mineral deposits and oil and gas deposits. It is ideal for the environmental, geotechnical, mining, oil sands, and petroleum industries.GaeaSynergy is comprised of a base application and several optional modules. The base application is completely free and serves as the foundation for all other modules. The optional modules allow you to generate geotechnical reports and test results, lab analyses reports and boring and well logs, cross sections, fence diagrams, and boring and well logs. GaeaSynergy's base application consists of many components that offer functionality to both the base and optional modules.

GM-SYS can be used to train your earth models. Integrate seismic, well and geology data with observed gravitation and magnetics. International government surveys and exploration programs of the most successful energy companies worldwide trust GM-SYS extensions. Rapidly create new interpretations using the latest survey data. Then, use interactive tools to see if the model's calculated response matches the observed data. All your data can be gathered together to reduce risks when planning expensive surveys and drilling targets. Oasis montaj integrates GM-SYS extensions, allowing you to view your gravity and magnetic data alongside your other earth models. In a seamless workflow, import and integrate grids, slices, numeric data, and other teams' data. You can run efficient QA/QC checks in Oasis montaj, and immediately extract your clean data into GM–SYS to ensure that your model is based upon the most accurate data.