DSM2: Delta Simulation Model II

The Delta Simulation Model II (DSM2) is a is a river, estuary, and land modeling system. It is a one-dimensional mathematical model for dynamic simulation of one-dimensional hydrodynamics, water quality and particle tracking in a network of riverine or estuarine channels. DSM2 can calculate stages, flows, velocities, mass transport processes for conservative and non-conservative constituents including salts, water temperature, dissolved oxygen, and trihalomethane formation potential, and transport of individual particles. DSM2 thus provides a powerful simulation package for analysis of complex hydrodynamic, water quality, and ecological conditions in riverine and estuarine systems.

  • River - Can simulate riverine systems, and has been extended from Sacramento to Shasta Dam. Has been tested with high flow/stage simulations for flood modeling.
  • Estuary - Completely flexible estuary model; stages and flows may be specified at boundary and internal points.
  • Land - Includes effects from land-based processes, such as consumptive use and agricultural runoff.

DSM2 can calculate stages, flows, velocities; many mass transport processes, including salts, multiple non-conservative constituents, temperature, THM formation potential and individual particles.

DSM2 currently consists of three modules, all of which come with the current distribution: HYDRO, QUAL, and PTM. HYDRO simulates one-dimensional hydrodynamics including flows, velocities, depth, and water surface elevations. HYDRO provides the flow input for QUAL and PTM. QUAL simulates one-dimensional fate and transport of conservative and non-conservative water quality constituents given a flow field simulated by HYDRO. PTM simulates pseudo 3-D transport of neutrally buoyant particles based on the flow field simulated by HYDRO. PTM has multiple applications ranging from visualization of flow patterns to simulation of discrete organisms such as fish eggs and larvae.

DSM2 Version 8 is currently in Version 8.1.2. These changes required a recalibration of the model and those results are available in this package as well as documented in the annual reports. Please click here to download DSM2 V8.1.2. DSM2 Source Code (267 MB) (Updated: 11/12/2013) 

License information: DSM2 is copyrighted by the State of California Department of Water Resources. It is licensed under the GNU General Public License. This means it can be copied, distributed, and modified freely, but you may not restrict others in their ability to copy, distribute, and modify it. See GNU General Public License for more details.

Downloads

Calibrations

Reports & Publications

Resources

DSM2 comes with a numerical model and scripting capabilities. It is easier to use the model if you also have a text editor with syntax highlighting, a tool for differencing text files ("diff tool"), a dss viewer and an hdf5 viewer.

  • Open Command Window Here is a free "power tool" distributed by Microsoft (the download links are on the right-hand side next to the description of the tool). It allows you to get a command window by right clicking a location in Windows file explorer. The tool is essential for working with DSM2 efficiently.
  • Notepad++ is a text editor that works well with DSM2 input data and integrates nicely into the Windows file explorer. We support the editor with syntax highlighting. See the /extras folder.
  • DiffMerge is a good free differencing tool for text files. Beyond Compare is an inexpensive commercial product that is intuitive and compares Word files.
  • Vista, one of the first graphical tools for examining data in HEC-DSS format, comes with DSM2 in the /dsm2/vista/bin directory.
  • HEC-DSSVUE is distributed by HEC and is actively maintained. Most people use DSSVUE as their primary tool with Vista for specific tasks. An Excel add-in for DSS data is also available on the HEC web page.
  • HDFView and HDF-Explorer are two independent browsers for the HDF5 file format. This lets you look inside a tide file, one of the outputs of the model. You only need one of them.

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