Discover the main functionalities of Autodesk InfoWorks WS Pro, which helps hydraulic modellers effectively plan, design and operate water distribution systems.
Multiple users can edit the same model simultaneously, with conflict resolution and version control
Build digital twins with automatic updates by connecting to third-party data such as geographic information systems (GIS) and Info360
Infer missing network values from existing data to fill in data gaps with reasonable values
Assign customer point and area-based (land use) demands to nodes in the network using various methods
Use the connexion to telemetry to perform demand area analysis, calibration and leakage simulations
Share computing resources across teams with multi-core simulations to maximise hardware resources, or use the cloud
Run a simulation many times using cloud scalability, modifying one or two values each time
Improve water systems, including fire flow, water quality, flushing and pipe shutdown
Realistically represent pump and valve controls and demands, and model elements (hydrants, meters) explicitly
Find customers affected by an incident and show where parallel pipes can add resilience with criticality link analysis
Colour-coded contours and thematic maps of the network clearly show element properties and results
Use a built-in library of SQL (Structured Query Language) queries to review results and add as many queries as you need
NEW
Demand Watch
You're now able to create demand forecasts automatically and directly apply them to IW Live baselines. All of these configurations and results are stored within the InfoWorks WS Pro database, allowing for quick version control and simplifying data management.
NEW
IWLive Pro
Simulate operational changes, such as pipe bursts and valve isolations, all within IWLive Pro. This gives you real-time insights into the impact on the network and affected customers. Every single InfoWorks WS Pro user now has access (in the 2026 version) to IW Live Pro, allowing you to build confidence in using it in your or your clients’ workflows.
ENHANCED
Water quality solver
The new default simulation option for InfoWorks WS Pro water quality solver is now Topological Node Ordering. This option improves simulations by calculating the transfer of solutes sequentially, keeping in line with the direction of the flow of water throughout the network.
Learn more (US Site)
ENHANCED
Cloud analysis
Gain a 10x speed improvement for hydraulic simulations through the use of cloud simulations over previous simulation times. (video: 44 sec.)
Learn more (US Site)
Improved model skeletonisation
The InfoWorks WS Pro Skeletonizer tool is enhanced with several improvements to reliably reduce complexity while ensuring consistent and accurate hydraulic behaviour. In several test models, the improved toolset reduced 90% of the network in a single repeatable round of reduction. (video: 54 secs)
Asset management integration
Modellers can share simulated standard operating conditions for various scenarios with Info360. This can be influential in determining the LoF (Likelihood of Failure) for certain PVC pipes, among other workflows and benefits. (video: 51 secs)
Reserved runs in the cloud
While working in collaborative cloud databases, runs can be flagged as reserved to enable testing of model changes with protected control of iterations. (video: 1:49 min.)
Model diagnostics
Simulation diagnostic information for each run’s engine log file is now available in an easier format to review, sort, map and query. The diagnostic tables summarise snapshot stability, nodes with the greatest imbalance of flow, unstable or unreliable regulator valves, pump and reservoir operation information, and suppressed demands. (video: 1:07 min.)
Better demand area analysis results
The reporting for demand area analysis has improved to make the key results easily available. These results can be copied to network objects for mapping purposes through a right-click option from the demand area grid. (video: 7:39 mins)
Database cross-version compatibility
InfoWorks WS Pro supports different versions of the database – enabling backwards compatibility – by toggling on available features and off unsupported functionality. When changing the version, you get a warning message that includes the impact of updating a master database. (video: 2:05 mins)
Supply interruption reporting
InfoWorks WS Pro now reports on how many customers were affected by an incident such as a pipe break, and for how long. (video: 2:03 min.)
Scenario management
Analyse and compare as many alternatives as you need to represent in the model, with different demands, pump controls, tank sizes and more. Scenario Manager provides a user-friendly approach to explore alternatives while maintaining data integrity. (video: 7:05 mins)
EPANET import
You can now import multiple EPANET models or files in one InfoWorks WS Pro model as scenarios. This update enables you to bring .inp files into InfoWorks WS Pro with ease, streamlining the transition process to InfoWorks WS Pro if you have data captured in other tools such as WaterGEMS, InfoWater, Mike+ and EPANET.
Import and export of SQLs
By importing and exporting, users can now share the InfoWorks WS Pro subset of SQL between models and teams to select and update network objects using specified criteria.
Large data management
Import, track, audit and interpret the large quantities of data associated with complex projects quickly and easily.
Tracing tools
Tracing tools (including Upstream/Downstream, Boundary, Connectivity, Proximity and Isolation Trace) help you locate problems or anomalies in the network, identify isolated areas and understand system layout.
Update demand patterns
from telemetry
As an essential part of the calibration process that precedes a simulation, InfoWorks WS Pro calculates a domestic demand profile within a demand management area (DMA). Automate this calculation to derive the patterns directly from observed telemetry data.
Demand area analysis
Demand area analysis interrogates live data to provide a time series of water usage, unmetered consumption and water losses, including leakage.
Compare model elements
Compare elements and results in graphs, long section profiles and annotations displayed on your network for a better understanding of the model.
