ArcGIS Pro
ArcGIS Pro is a full-featured professional desktop geographic information system (GIS) application developed by Esri.[1] First released in January 2015, it serves as the successor to Esri's earlier ArcMap software, offering advanced capabilities for exploring, visualizing, analyzing, and sharing spatial data.[2] With support for 2D maps, 3D scenes, and 4D analytics in an intuitive ribbon-based interface, ArcGIS Pro enables users to manage projects through .aprx files that organize maps, layouts, data connections, and tools.[1][3] As of November 2025, the latest stable version is ArcGIS Pro 3.6, released on November 13, 2025, featuring enhancements such as a redesigned ModelBuilder interface, support for Gaussian splat layers in 3D visualization, and improved workflows for CAD and BIM integration.[4][5] Key functionalities include data visualization through multiple views (such as maps and charts), analysis tools for spatial patterns and statistics, and integration with the broader ArcGIS platform for cloud-based sharing via ArcGIS Online or Enterprise portals.[1][6] The application supports Windows operating systems and is licensed commercially, with options for individual, organizational, or named user deployments.[7] ArcGIS Pro is widely used in fields like urban planning, environmental management, transportation, and public safety, where its 64-bit architecture and multi-threaded processing handle large datasets efficiently.[6] It emphasizes a project-centric workflow, allowing seamless transitions between 2D and 3D environments, automation via Python scripting and ModelBuilder, and output generation for web maps, reports, and animations.[8] Ongoing development by Esri focuses on AI integration, performance optimizations, and expanded support for emerging data formats, ensuring compatibility with the evolving ArcGIS ecosystem.[9]Development and History
Origins and Initial Release
ArcGIS Pro was developed by Esri starting in the early 2010s as a next-generation, 64-bit desktop GIS application intended to succeed ArcMap and overcome its architectural constraints, including the 32-bit processing limitations that restricted memory usage and performance for large datasets.[2] This transition addressed ArcMap's single-map focus, which hindered multitasking in complex workflows, by introducing a project-based structure that supports multiple views and integrated 2D/3D environments from the outset.[10] The development emphasized modernizing GIS practices through multi-threaded processing for faster computations and enhanced integration with cloud-based services like ArcGIS Online, enabling seamless data sharing and collaboration across platforms.[11] The initial beta version of ArcGIS Pro, known as Beta 1, became available for testing in May 2014, allowing early adopters to provide feedback on its core functionalities during the prerelease phase.[12] Subsequent betas refined features such as geoprocessing tools and visualization capabilities, building toward a stable product that unified Esri's desktop offerings. Version 1.0 was officially launched on January 27, 2015, as part of the ArcGIS 10.3 release, marking the introduction of a fully 64-bit application with a ribbon-based interface and support for advanced spatial analysis in a single environment, including Python 3.4 scripting.[11] Esri positioned ArcGIS Pro as the future of desktop GIS, committing to its ongoing evolution while announcing the end of support for ArcMap on March 1, 2026, to encourage migration and ensure long-term compatibility with emerging technologies.[13] This strategic shift underscored the software's role in enhancing performance for professional users handling extensive geospatial data and workflows.[14]Evolution and Key Milestones
ArcGIS Pro's evolution has been marked by a series of major version releases that introduced significant enhancements in functionality, performance, and integration capabilities, building on its foundational launch in January 2015 as a 64-bit, multi-threaded successor to ArcMap.[15] Following the initial release, version 1.1, launched on July 16, 2015, introduced enhancements in geoprocessing, imagery, raster analysis, 3D Analyst, and Network Analyst tools.[2] In June 2017, version 2.0 enhanced 3D tools with improved drawing by camera distance and advanced lighting for 3D objects, expanding visualization options for complex scenes.[16] Version 2.6, released on July 28, 2020, introduced voxel layers to support 3D subsurface data representation, such as geological models, through new APIs for slicing, sectioning, and rendering.[17] A key milestone in 2019 was the introduction of Arcade scripting with version 2.3, released on January 24, which powered attribute rules for real-time data validation and calculation using an expression-based language.[18] Version 3.0, arriving on June 23, 2022, previewed AI integration through expanded support for machine learning models and knowledge graph capabilities, laying groundwork for automated spatial analysis.[19] Version 3.5, released on May 13, 2025, focused on improved editing workflows and AI-driven analysis tools, including beta AI assistants for query generation and data actions.[4] The most recent major update, version 3.6 on November 13, 2025, emphasized performance optimizations, a redesigned ModelBuilder interface for faster model building, advanced parcel management tools, and further AI enhancements for automated geoprocessing and visualization.[4][5] Esri adopted semantic versioning (major.minor.patch) for ArcGIS Pro to clearly delineate breaking changes in major releases, new features in minor ones (typically twice yearly), and bug fixes in patches.[20] Updates are driven by user feedback gathered through Esri's community forums and support channels, with patches released as needed to address issues and security concerns, often aligning with quarterly cycles for minor enhancements.[21] Support for older 2.x versions transitioned to mature status by 2023, encouraging migration to 3.x for compatibility and new features.[22] This progression reflects accelerated adoption following Esri's announcement of ArcMap's end-of-support in March 2026, driving organizations toward ArcGIS Pro's modern architecture.[23]Core Functionality
Mapping and Visualization
ArcGIS Pro provides robust tools for creating and managing 2D maps, enabling users to layer and visualize vector and raster data effectively within map views. Map views serve as the primary workspace for authoring maps, where layers—representing features such as points, lines, polygons, or raster surfaces—are added, ordered, and symbolized to depict spatial relationships and themes.[24] These layers can be sourced from local files, databases, or web services, allowing for flexible data integration while maintaining performance through optimized drawing and caching mechanisms.[24] Layout views complement map authoring by facilitating the design of publication-ready outputs, where maps are framed and surrounded by elements like titles, scale bars, and north arrows for print or digital export. Layouts support high-resolution PDF and image exports, incorporating dynamic text elements that update based on map content or project metadata, such as page numbers or data-driven titles.[25] Legends in layouts automatically generate from layer symbology, with customizable formatting to summarize categories, classes, or value ranges for clear cartographic communication.[25] Visualization in ArcGIS Pro emphasizes advanced symbology options to represent data variations intuitively. Graduated colors symbology classifies quantitative attributes into ranges, applying a continuous color scheme—such as light to dark shades—to illustrate gradients, commonly used in choropleth maps for phenomena like population density.[26] Chart symbology overlays statistical graphics, including pie, bar, or stacked charts, on features to depict multivariate data, with chart sizes scalable by attributes like total population and colors matching underlying symbology schemes.[27] The Maplex Label Engine, enabled by default, automates label placement with conflict resolution, supporting font variations, orientations, and abbreviations for cluttered datasets.[28] To handle large datasets efficiently, ArcGIS Pro employs real-time rendering techniques, including raster pyramids that precompute downsampled versions for quick zooming and panning, ensuring smooth visualization without full dataset reloading.[29] Projects in ArcGIS Pro support multiple maps, allowing simultaneous open views for comparative analysis or workflow efficiency.[24] Version 1.0, released in January 2015, introduced scene views alongside traditional map views, enabling seamless switching between 2D and 3D perspectives within the same project for integrated visualization.[2] In version 3.6, released November 13, 2025, enhancements include displaying date-time values in the map's time zone and selecting features by right-clicking symbol classes in the Contents pane, improving temporal mapping and interaction efficiency.[4] A representative workflow for thematic mapping involves using geostatistical interpolation to generate surfaces from sampled data, which are then added as raster layers to a map view for symbology application. For instance, point observations of elevation or pollution levels can be interpolated via tools in the Geostatistical Analyst extension to create a continuous prediction surface, symbolized with graduated colors to highlight spatial patterns in a thematic map. This derived layer can briefly reference spatial analysis outputs, enhancing map interpretability without altering the core 2D display focus.Spatial Analysis and Geoprocessing
ArcGIS Pro provides a robust geoprocessing framework that enables users to perform spatial operations and data transformations through a combination of visual and scripted approaches. ModelBuilder serves as a visual programming environment where users can construct geoprocessing workflows by connecting tools, variables, and data elements into diagrammatic models, facilitating the automation and documentation of complex analyses without extensive coding. Complementing this, Python scripting via the ArcPy module allows for advanced automation of geoprocessing tasks, enabling programmatic access to all geoprocessing tools, data manipulation, and custom function development directly within the ArcGIS Pro environment. In version 3.6, released November 13, 2025, ModelBuilder features a redesigned modern interface with progress bars for better usability.[4] Key geoprocessing tools in ArcGIS Pro support a range of spatial analysis operations, categorized into overlay, proximity, and statistical functionalities. Overlay analysis tools, such as Union and Intersect, compute geometric intersections or unions of input feature classes, preserving or combining attributes from overlapping areas to derive new datasets representing spatial relationships.[30][31] Proximity tools like Buffer and Near measure distances and generate zones around features; for instance, Buffer creates polygon envelopes at specified distances, while Near calculates the shortest distance from input features to nearest features in another layer, optionally adding fields for direction and angle.[32][33] Statistical tools, including Spatial Join and Summarize Within, aggregate attributes based on spatial locations—Spatial Join matches and appends attributes from one layer to another based on proximity or containment, and Summarize Within calculates counts, sums, or other statistics for features within polygon boundaries.[34][35] The software supports big data processing through in-memory workspaces, which allow intermediate outputs to be stored temporarily in RAM for faster execution compared to disk-based storage, reducing I/O overhead during iterative analyses on large datasets. Additionally, enhancements to the Spatial Analyst extension in version 2.0 improved raster analysis capabilities, including geodesic methods for surface tools like Slope and Aspect, GPU acceleration for select operations, and native implementation of interpolation tools such as Spline with Barriers, enhancing performance and accuracy in raster-based computations akin to raster calculus operations.[36] In version 3.6, the Suitability Modeler introduces a Model Comparison interface for evaluating what-if scenarios in spatial analysis.[4] A representative example of spatial statistical analysis is hot spot analysis using the Getis-Ord Gi* statistic, available in the Spatial Statistics toolbox, which identifies statistically significant clusters of high or low values in point or polygon data by computing a z-score and p-value for each feature relative to its neighbors, helping to detect spatial patterns such as disease outbreaks or crime hotspots. Results from these geoprocessing operations can be visualized directly in ArcGIS Pro maps for interpretive purposes. The Generate Schema Report tool, new in version 3.6, produces dynamic HTML outputs for geodatabase schema documentation.[4]3D and 4D Capabilities
ArcGIS Pro supports advanced 3D visualization through scene views, which allow users to create immersive environments by extruding 2D features into three-dimensional representations and incorporating multipatch geometries for complex objects such as buildings and vegetation.[37] Multipatch feature classes store x-, y-, and z-coordinates to model irregular 3D shapes, enabling detailed representations of urban structures or natural features in local or global scenes.[38] These capabilities integrate with base mapping to provide contextual elevation and terrain for scenes. In version 3.6, released November 13, 2025, improvements include enhanced terrain rendering and faster exports for flood simulations in 3D scenes.[4] Introduced in version 2.6, voxel layers offer volumetric 3D visualization for multidimensional data, such as geological subsurface models or atmospheric simulations, by rendering regularly gridded netCDF data as interactive 3D volumes.[39] Users can explore voxel layers through slices, sections, and isosurfaces to analyze internal structures, making them suitable for applications in resource exploration and environmental modeling.[40] Version 3.6 adds support for Gaussian splat layers, enabling realistic 3D point cloud visualizations from photogrammetry data, and integrates the Google Photorealistic 3D basemap for enhanced scene context.[4] For 4D functionality, ArcGIS Pro incorporates time as a dimension using time sliders to animate temporal data across layers in scenes, revealing changes over time such as urban growth or disaster progression.[41] Space-time cubes further enable pattern analysis by aggregating point data into a 3D lattice of bins (x, y, t), supporting tools for detecting spatiotemporal trends in events like disease outbreaks or traffic flows, with visualization enhanced in version 3.5 for dynamic 3D exploration.[42][43] In version 3.6, time display can be synchronized across maps with time-configured layers for consistent temporal analysis.[4] Real-time 3D navigation is facilitated by integrating GNSS devices, allowing users to track and display live positions within scenes for fieldwork applications like surveying or augmented reality overlays. Since version 3.1, enhancements via the ArcGIS Reality extension leverage machine learning to generate 3D scenes, meshes, and point clouds directly from drone, aerial, or satellite imagery, streamlining workflows for photogrammetric modeling.[44] Common workflows include producing fly-through animations in scenes to simulate urban planning scenarios, where extruded buildings and voxel-based subsurface data inform decision-making on infrastructure development.[45] These tools support iterative design by combining 3D editing with temporal playback for predictive modeling.[46]Data Management
Supported Formats and Sources
ArcGIS Pro supports a wide array of vector and raster data formats for importing and integrating geographic information into maps and scenes. Among vector formats, it natively handles shapefiles (.shp), which store feature geometry and attributes in a simple, widely used structure; GeoJSON for web-friendly vector data exchange; KML for keyhole markup language files commonly used in Google Earth; and file geodatabases (.gdb) for efficient storage of feature classes and tables.[47] These formats enable users to add point, line, polyline, and polygon data directly from local files or shared locations. For raster data, ArcGIS Pro accommodates formats such as GeoTIFF (.tif) for georeferenced images with embedded projection information; JPEG for compressed imagery suitable for visualization; and Esri Grid (.adf) for legacy raster datasets used in spatial analysis.[47] These raster sources can be layered as imagery or elevation data, supporting tasks like terrain modeling and image classification. As of ArcGIS Pro 3.5 (released May 2025), additional supported formats include Apache Parquet files with GeoParquet spatial fields, which can be added to maps and scenes for efficient handling of large tabular data, and connections to document databases such as Elasticsearch and OpenSearch for visualizing and querying nonrelational data.[48] The software connects to various database sources, including enterprise systems like PostgreSQL with PostGIS extension for spatial queries, Oracle Spatial for robust relational storage, and Microsoft SQL Server for integrated geographic data management. Note that support for IBM Db2 11.1 and PostgreSQL 13.x was removed in ArcGIS Pro 3.5; upgrades are recommended for continued compatibility.[47][49] Users can establish direct connections to query and display features without exporting data, facilitating real-time access to large datasets. Cloud-based sources are seamlessly integrated, allowing access to hosted content from ArcGIS Online, where users can incorporate feature layers, tiles, and maps, and the ArcGIS Living Atlas, which provides ready-to-use global datasets such as basemaps and demographic layers.[47] For big data environments, ArcGIS Pro supports connections to Hadoop Distributed File System (HDFS) and cloud storage like Microsoft Azure Blob or Amazon S3 through big data file shares, enabling distributed processing with GeoAnalytics tools.[47] A notable feature is native support for LAS (LiDAR Aerial Survey) files, introduced in version 1.2 released in 2016, which allows direct ingestion and visualization of point cloud data for 3D surface analysis without conversion.[50] Additionally, ArcGIS Pro complies with Open Geospatial Consortium (OGC) standards, supporting services like Web Map Service (WMS) for raster imagery and Web Feature Service (WFS) for vector features, enabling interoperability with external servers.[51] ArcGIS Pro facilitates multi-source layering by combining data from disparate formats and sources in a single project, with on-the-fly projection transforming coordinates to match the map's spatial reference for seamless overlay and analysis.[47] This capability supports brief editing of imported vector data within the project environment.Editing and Geodatabase Management
ArcGIS Pro provides robust tools for editing spatial data, enabling users to modify features, attributes, and relationships while maintaining data integrity through topology rules and attribute constraints. Editing occurs within an active edit session, where users can create, update, or delete features in 2D maps or 3D scenes. As of ArcGIS Pro 3.5, users can customize the symbology of editing elements such as vertices, nodes, and dangles via the Vertices and Nodes dialog to improve visibility during modifications. Additionally, the COGO reader tool extracts coordinate geometry (COGO) dimensions from scanned deed images using optical character recognition (OCR), streamlining parcel editing workflows.[48] Topology rules define spatial relationships, such as ensuring no gaps between polygons or proper connectivity of lines, and are enforced during validation to detect and correct errors like overlaps or dangles. Attribute editing supports domains, which restrict values to predefined lists or ranges, and subtypes, allowing customized behaviors and default values for different feature categories within a layer. As of ArcGIS Pro 3.5, attribute rules can be assigned to multiple subtypes simultaneously, and field names in geodatabases can be up to 128 characters long. These mechanisms help enforce data quality during interactive modifications.[48] Multi-user editing is facilitated through versioned geodatabases, allowing concurrent access without locking data. In traditional versioning, multiple editors work on child versions derived from a default version, enabling long transactions with undo and redo capabilities within sessions to support iterative workflows. Branch versioning, introduced in ArcGIS Pro 2.3, offers a service-based approach for enterprise environments, supporting advanced datasets like utility networks and parcel fabrics, with finer-grained conflict management across sessions. As of ArcGIS Pro 3.5, the Prune Branch History tool allows optimization of storage by removing unneeded historical records from branch-versioned datasets. Undo and redo operations are available during editing of named versions, allowing incremental reversal of changes until saves or discards are applied.[48] Geodatabases in ArcGIS Pro come in file and enterprise types, each suited to different management needs. File geodatabases store datasets locally and support basic editing, typically by a single user, while enterprise geodatabases, hosted in relational databases, enable multi-user scenarios with advanced features like versioning. Note that support for ArcGIS Workflow Manager (Classic) was removed in ArcGIS Pro 3.5; users should migrate to modern alternatives. Archiving can be enabled on traditional versioned datasets in enterprise geodatabases or nonversioned data in enterprise or mobile geodatabases to track historical changes and support queries on past states. Replication synchronizes data across geodatabases using types such as checkout/check-in for disconnected workflows, one-way for unidirectional updates, and two-way for bidirectional changes, ensuring consistency in distributed environments.[49] A typical workflow begins with creating feature classes in a geodatabase, often within a feature dataset to group related data. Users then add these classes to a topology, define rules, and load features. Validation scans the topology for rule violations, flagging errors for correction through editing tools like snapping or merging. For versioned data, after edits in a child or branch version, reconciliation compares changes against the target version, detects conflicts such as attribute or geometric differences, and allows resolution—either manually in the Conflicts view or automatically by favoring one version. Posting integrates resolved edits into the target version, completing the multi-user cycle while preserving data lineage through archiving or replication if needed. In disconnected editing scenarios, such as offline fieldwork with sync-enabled services, conflicts arise during synchronization and are resolved via predefined policies or manual intervention to merge edits from isolated sessions.User Interface and Workflow
Project-Based Structure
ArcGIS Pro employs a project-based structure as its foundational organizational model, where a project serves as a centralized container for all elements of a geospatial workflow. The core of this structure is the project file, denoted by the .aprx extension, which encapsulates a variety of thematically related items including maps, scenes for 3D visualization, layouts for cartographic output, database connections, toolboxes for custom geoprocessing, and other resources such as reports and presentations.[52] This single-file format consolidates what were previously disparate documents in earlier systems, enabling users to manage complex, multifaceted analyses within one cohesive environment.[53] Introduced with ArcGIS Pro version 1.0 in January 2015, the project-based approach marked a significant departure from the document-per-map paradigm of its predecessor, ArcMap, which relied on individual .mxd files for each map document, often leading to fragmented workflows.[54] In contrast, an ArcGIS Pro project allows multiple maps, scenes, and layouts to coexist, streamlining the handling of interconnected data and analyses. This evolution facilitates both offline work—where users can access and edit project contents without an internet connection—and online synchronization, particularly for feature services enabled with sync capabilities, allowing edits to be reconciled with portal-based data upon reconnection.[55] For management and sharing, projects can be packaged into portable formats to facilitate collaboration and distribution. The .aprx file itself can be shared directly, while a project package (.ppkx) bundles the project along with its referenced data, toolboxes, and attachments into a compressed, self-contained archive suitable for transfer via email, cloud storage, or portals.[56] Additionally, map packages (.mpkx) enable sharing of individual maps with their data, providing flexibility for subset distribution. To promote standardized workflows, users can create project templates (.aptx files), which preconfigure items like default maps, layer structures, and geoprocessing settings, allowing new projects to be instantiated rapidly from these reusable blueprints.[57] The benefits of this structure lie in its promotion of centralized access to resources, which mitigates file sprawl by avoiding the proliferation of scattered documents and databases across multiple locations. Each project maintains a designated home folder containing the .aprx file, default file geodatabase, and toolbox, ensuring logical organization and easier backup.[53]Interface Components and Tools
ArcGIS Pro features a ribbon-based user interface that organizes commands into context-sensitive tabs, providing efficient access to functionality tailored to the current task. The ribbon includes core tabs such as View, which offers tools for navigation and display management; Analysis, which provides options for spatial processing; and Map, which includes commands specific to 2D mapping operations.[58] Contextual ribbons appear dynamically based on the active mode, such as the Edit tab that emerges when editing features, offering tools like selection, modification, and validation specific to that workflow.[59] This design replaces the toolbar system of previous ArcGIS applications, enabling a more streamlined and adaptive experience.[8] The application employs a pane-and-view system to support interactive workflows, with panes docking flexibly around central views like maps or scenes. The Contents pane serves as the primary interface for managing layers, tables, and other elements in active views, allowing users to adjust symbology, visibility, and properties directly.[58] The Catalog pane facilitates browsing and organizing project data, connections, and toolboxes, integrating seamlessly with the overall project structure.[58] Additionally, the Geoprocessing pane enables users to search, configure, and execute analysis workflows by providing a dedicated space for tool parameters and history.[60] Built on a 64-bit architecture, ArcGIS Pro leverages modern hardware for enhanced performance, including faster rendering of complex maps and scenes compared to 32-bit predecessors.[61] The customizable Quick Access Toolbar, available since version 1.0, allows users to pin frequently used commands for rapid access, further optimizing efficiency. Accessibility features enhance usability across diverse environments, including extensive keyboard shortcuts for command execution without mouse interaction, support for multi-monitor setups to extend the workspace, and a dark theme option introduced in version 1.4 to reduce eye strain during prolonged use.[58][62] These elements collectively enable intuitive interaction within ArcGIS Pro's project-based environment.Integration and Extensions
ArcGIS Platform Integration
ArcGIS Pro enables direct publishing of web layers, maps, scenes, and tools to ArcGIS Online and ArcGIS Enterprise portals, facilitating seamless integration within the broader ArcGIS ecosystem.[63] Users can share feature layers as hosted services by configuring properties in the Share As Web Layer pane and selecting the target portal, which supports vector tile, tile, and imagery formats for efficient web access. Portal integration extends to hosted feature layers, where data is registered and managed centrally, allowing for dynamic updates and synchronization across desktop and web environments.[64] Collaboration is enhanced through sharing mechanisms such as map packages, layer packages, and web maps, which can be uploaded to portals for team access and version control. These packages bundle maps, data, and layouts for distribution via email, cloud storage, or direct portal upload, enabling workflows like peer review and multi-user editing.[65] ArcGIS Pro also provides access to the ArcGIS Living Atlas of the World directly in the Catalog pane, allowing users to incorporate ready-to-use basemaps, reference layers, and analytic content for enriched visualizations and analysis without local storage.[66] The software supports seamless workflows from desktop authoring to web deployment, such as sharing web maps from ArcGIS Pro that integrate into narrative applications like ArcGIS StoryMaps for multimedia storytelling.[67] Federated server support, introduced in version 2.0, allows publishing to dedicated ArcGIS Server sites within an Enterprise portal, enabling scalable processing for geoprocessing tools and geodata services.[16] Advanced integration includes the ArcGIS Runtime SDK for developing custom native applications that consume content created in ArcGIS Pro, such as mobile maps with offline capabilities. Additionally, published services expose ArcGIS REST APIs, permitting programmatic access to features, queries, and edits from external applications or scripts.Extensions, Licensing, and Deployment
ArcGIS Pro supports a range of extensions that extend its core functionality for specialized geospatial tasks. These extensions integrate seamlessly into the application's ribbon and toolsets, allowing users to access advanced tools without switching software. Key extensions include ArcGIS 3D Analyst, which enables 3D surface modeling, visualization, and analysis such as line-of-sight calculations and volumetric measurements; ArcGIS Spatial Analyst, which provides raster-based analytical capabilities like suitability modeling, hydrological analysis, and density estimation; ArcGIS Network Analyst, which facilitates routing, service area analysis, and closest facility problem-solving for transportation and logistics applications; ArcGIS Data Interoperability, which supports reading and writing over 100 spatial formats beyond native support, including CAD and BIM files, through FME technology integration; and ArcGIS Data Reviewer, which offers quality control checks for data validation and error detection in production workflows. Other notable extensions encompass ArcGIS Image Analyst for advanced imagery processing and classification, ArcGIS Aviation Airports for aeronautical charting and obstacle management, and ArcGIS Business Analyst for location intelligence and market analysis. These extensions are available as add-ons to the base ArcGIS Pro license and can be selectively enabled based on user needs.[68][7] Licensing for ArcGIS Pro and its extensions operates through two primary models: Named User and Single Use (as of November 2025; Concurrent Use licensing was deprecated on July 1, 2025). The Named User model, the default for ArcGIS Online and ArcGIS Enterprise subscriptions, assigns licenses to individual users via user types such as Creator (includes ArcGIS Pro Basic at $700 per year), Professional (includes ArcGIS Pro Standard at $2,200 per year), and Professional Plus (includes ArcGIS Pro Advanced plus core extensions like 3D Analyst and Spatial Analyst at $4,200 per year). Additional extensions, such as Network Analyst or Data Interoperability, can be licensed separately as user type extensions or bundled with Professional Plus for comprehensive access. Single Use licensing provides perpetual or subscription-based licenses tied to a specific machine, ideal for isolated deployments, and requires authorization via an Esri authorization file or internet connection. Extensions under Single Use models are authorized similarly to the core product, often requiring separate keys. All models enforce license levels (Basic, Standard, Advanced) that determine available tools, with extensions requiring at least Standard level for full functionality. Pricing for extensions varies but typically ranges from $500 to $3,500 annually per user, depending on the bundle; organizations must contact Esri for custom quotes.[7][69][70] Deployment of ArcGIS Pro emphasizes flexibility for individual, departmental, or enterprise-scale rollouts. The standard installation uses a wizard-based setup executable (Setup.exe) that guides users through selecting features, license types, and directories, supporting Windows 11 or later with minimum hardware requirements of a 64-bit processor, 8 GB RAM, and 32 GB disk space. For enterprise environments, silent installation via command-line parameters with msiexec.exe enables unattended deployment; for example,msiexec.exe /i ArcGISPro.msi ALLUSERS=1 ACCEPTEULA=YES ADDLOCAL=ALL /qn installs per-machine with all features suppressed UI. Administrators can preconfigure licensing (e.g., SOFTWARE_CLASS=PROFESSIONAL AUTHORIZATION_TYPE=NAMED_USER), lock settings to prevent user changes (LOCK_AUTH_SETTINGS=TRUE), and specify add-in policies or update checks during setup. Integration with tools like Microsoft System Center Configuration Manager (SCCM), Microsoft Intune, or Group Policy Objects facilitates mass deployment across virtual or physical machines, including coordinate systems data via separate MSIs for regional subsets. Post-installation, licenses are authorized through the ArcGIS Pro sign-in page or software authorization wizard, with options for offline use via exported authorization files. Virtualization support allows deployment on platforms like VMware or Citrix, though performance tuning is recommended for GPU-intensive extensions.[71][72][73][74]