Updates for 2019.04

_data/docs.yml

@@ -2,6 +2,7 @@
   docs:
   - home
   releasenotes:
+  - releasenotes_2019_04
   - releasenotes_2018_11
    
 - title: Getting Started
@@ -33,8 +34,11 @@
   - contourmaps
   - formations
   - casegroupsandstatistics 
+  - annotations
+  - measurement
   - preferences
   - memorymanagement
+  - keyboard
   
 - title: Plot Window
   docs:
@@ -49,6 +53,8 @@
   - rftplot
   - pltplot
   - flowdiagnosticsplots
+  - gridcrossplots
+  - saturationpressureplots
      
 - title: Import 
   docs:
@@ -64,6 +70,7 @@
   - exportfluxnummultnum
   - completionexport
   - exportwellpaths
+  - exportsectormodel
   
 - title: Scripting
   docs:

_data/project.yml

@@ -1,7 +1,7 @@
 - title: Project
   docs:
   - testimonials
-  - contact
+  - support
   - releasenotification
   - about
 - title: Download

_posts/2019-04-26-resinsight-2019.04-released.md

@@ -0,0 +1,15 @@
+---
+layout: news_item
+title: "ResInsight 2019.04 Released"
+date: "2019-04-30 16:00:00 +0200"
+author: magnesj
+version: 2019.04
+categories: 
+  - release
+---
+We are happy to announce the release of ResInsight 2019.04. 
+
+See [Release Notes]({{ site.baseurl }}/releasenotes/releasenotes_2019_04) for an overview.
+
+### Download
+Have a look at the [GitHub release-page](https://github.com/OPM/ResInsight/releases) for details or download the new release from the [Download]({{site.baseurl}}/project/download) page.

docs/Annotations.md

@@ -0,0 +1,74 @@
+---
+layout: docs
+title: Annotations
+permalink: /docs/annotations/
+published: true
+---
+
+ResInsight supports displaying a few types of annotations in 3D views and Contour Map view.
+- Text annotations
+- Reach circle annotations
+- Polyline annotations
+  - User defined polylines
+  - Polylines imported from file
+
+![]({{ site.baseurl }}/images/Annotations.png)
+
+## Global scope vs local scope annotations
+Global annotations may be displayed in all views and are located in the **Annotations** project tree node right below **Grid Models** (Global annotations sub tree). Local annotations are associated with a specific view and are located in the **Annotations** project tree node below the view node (Local annotations sub tree). All annotation types except text annotations are global only. Text annotation may be either global or local.
+
+All global annotations also have a representation in the local **Annotation** tree node in order to toggle visibilty per view. Those annotations are located in tree nodes starting with **Global**.
+
+![]({{ site.baseurl }}/images/LocalAnnotationsTree.png)<br/>
+Local annotations sub tree
+
+![]({{ site.baseurl }}/images/GlobalAnnotationsTree.png)<br/>
+Global annotations sub tree
+
+## Text Annotations
+There are two ways of creating a new text annotation.
+- Right click **Annotations** or **Text Annotations** tree node in either the global annotatyion sub tree or the local annotations sub tree. The scope of the annotation depends on which node was clicked. When text annotations are created this way, all text annotation fields must be entered manunally in the property editor.
+- Right click on an object in the view and select **Create Text Annotation**. ResInsight will then create a text annotation at the clicked point. In this case, only th text must be entered manually in the property editor. When creating a text annotation this way, it will become a local annotation by default.
+
+![]({{ site.baseurl }}/images/TextAnnotationPropertyEditor.png)
+
+- **Anchor Point** - The interesting point in the view
+- **Label Point** - The point where the text label is placed
+- **Text** - The text to display. Multiline supprted. The first line will be the name of the annotation in the project tree
+- **Text appearance** - Set font size, font color, background color and anchor line color
+
+When a text annotation tree node is selected, target markers in each end of the anchor line are displayed. The targets can be clicked and dragged. Clicking the blue part lets the user drag the target vertically (along Z axis). Clicking the magenta part lets the user drag the target in the XY plane.
+
+## Reach Circle Annotations
+To create a reach circle annotation, right click **Annotations** or **Reach Circle Annotations** tree node in the global annotations sub tree. Then enter values in the property editor.
+
+![]({{ site.baseurl }}/images/CircleAnnotationPropertyEditor.png)
+
+- **Name** - Name of the circle annotation
+- **Center Point** - Center point of the circle. Format 'x-pos y-pos depth'
+- **Radius** - Circle radius
+- **Line Appearance** - Set circle color and line thickness
+
+## User Defined Polyline Annotations
+To create a user defined polyline annotation, right click **Annotations** or **User Defined Polyline Annotations** tree node in the global annotations sub tree. The property editor for the newly created annotation is displayed and is in picking points mode. The user may now click on objects in the view to create polyline points. When finished, click **Stop Picking Points** in the property editor.
+
+![]({{ site.baseurl }}/images/UserDefinedPolylineAnnotationPropertyEditor.png)
+
+- **Targets** - Polyline points. Can be edited in the table or interactively in the view
+- **Start Picking Points / Stop Picking Points** - Button to start / stop picking mode
+- **Line Appearance** - Set line color and thickness
+
+When a user defined polyline annotation tree node is selected, the polyline target markers become visible. Those can be dragged around as decribed above.
+
+## Polyline Imported From File
+To import a polyline annotation from file, right click **Annotations** or **Polylines From File** tree node in the global annotations sub tree. Then select the file to import and click OK. Imported polyline annotations are not editable.
+
+![]({{ site.baseurl }}/images/PolylineFromFileAnnotationPropertyEditor.png)
+
+- **File** - Name of the imported file
+- **Line Appearance** - Set line color and line thickness
+
+## Annotations visibility
+Local annotations visibility is controlled by the check boxes in the local annotations sub tree only. Global annotations visibility, on the other hand, is controlled by the check boxes in both the global and local annotations sub trees. So in order to display a global annotation in a specific view, both the annotation tree note itself and its representation in the local sub tree must have visibilty enabled.
+
+

docs/BuildInstructions.md

@@ -22,13 +22,23 @@ GCC version 4.9 or later is supported. On RedHat Linux 6 you need to install dev
     
     source /opt/rh/devtoolset-3/enable
 
-### Qt
+### Qt4
 
-[Qt](http://download.qt.io/archive/qt/) Qt4 version 4.6.2 or later is supported. Qt5 is not supported yet, but we are currently working on moving ResInsight to Qt5. On Windows we recommend Qt-4.8.7, while the default installation will do under Linux. 
+[Qt](http://download.qt.io/archive/qt/) Qt4 version 4.6.2 or later is supported. On Windows we recommend Qt-4.8.7, while the default installation will do under Linux. 
 
 You will need to patch the Qt sources in order to make them build using Visual Studio 2015 using this : 
 [Qt-patch](https://github.com/appleseedhq/appleseed/wiki/Making-Qt-4.8.7-compile-with-Visual-Studio-2015) 
 
+### Qt5 (BETA)
+Qt5 is now supported as beta functionality. To use Qt5, specify the cmake variable 
+
+`RESINSIGHT_BUILD_WITH_QT5=TRUE`
+
+and then specify location of Qt5
+
+`Qt5_DIR=d:\Qt\5.11.3\msvc2017_64\lib\cmake\Qt5`
+
+
 ### CMake
 [CMake](https://cmake.org/download/) version 2.8 or later is supported.
 
@@ -52,7 +62,6 @@ ResInsight has been verified to build and run on Windows 7/8/10 using Microsoft
 Typical usage on Windows is to follow the build instructions above, and then open the generated 
 solution file in Visual Studio to build the application.
 
-
 ### Linux
 
 Typical usage is to follow the build instructions above to build the makefiles. Then go to the build directory, and run:
@@ -80,8 +89,6 @@ You will find the ResInsight binary under the Install directory in your build di
 | `RESINSIGHT_BUILD_DOCUMENTATION`                  | OFF     | Use Doxygen to create the HTML based API documentation. Doxygen must be properly installed. |
 | `RESINSIGHT_HDF5_DIR`                             | Blank   | Windows Only: Optional path to HDF5 libraries on Windows |
 | `RESINSIGHT_INCLUDE_APPLICATION_UNIT_TESTS`       | OFF     | Include Application Code Unit Tests |
-| `RESINSIGHT_OCTAVE_PLUGIN_MKOCTFILE`  			| Blank   | Optional path to the Octave tool mkoctfile used to compile Octave plugins. Needed for octave support |
-| `RESINSIGHT_OCTAVE_PLUGIN_QMAKE`                  | Blank   | Windows Only: Set this equal to RESINSIGHT_OCTAVE_PLUGIN_MKOCTFILE |
 | `RESINSIGHT_ODB_API_DIR`                          | Blank   | Optional path to the ABAQUS ODB API from Simulia. Needed for support of geomechanical models |
 | `RESINSIGHT_USE_OPENMP`                           | ON      | Enable OpenMP parallellization in the code |
 
@@ -89,25 +96,26 @@ You will find the ResInsight binary under the Install directory in your build di
 
 | CMake Name                                        | Default | Description                              |
 |---------------------------------------------------|---------|--------------------------------------------------------|
-| `RESINSIGHT_ENABLE_PROTOTYPE_FEATURE_FRACTURES`   | ON     | Enable Fracture features |
 | `RESINSIGHT_ENABLE_PROTOTYPE_FEATURE_SOURING`     | ON     | Enable Souring features |
 | `RESINSIGHT_PRIVATE_INSTALL`                      | ON      | Linux only: Install the libecl shared libraries along the executable |
 | `RESINSIGHT_ENABLE_COTIRE`                        | OFF     | Experimental speedup of compilation using cotire |
-| `RESINSIGHT_OCTAVE_PLUGIN_32_BIT`                 | OFF     | Windows Only: Set 32-bit MSVC compiler environment while running mkoctfile |
+| `RESINSIGHT_HDF5_BUNDLE_LIBRARIES`                | OFF     | Bundle HDF5 libraries with ResInsight  |
 
 ### Optional Libraries and features
 
 #### HDF5
 
-HDF5 is used to read SourSimRL result files. On windows this is optional, while on linux the installed HDF5 library will be used if present.
+HDF5 is used to read SourSimRL result files. On Windows this is optional, while on Linux the installed HDF5 library will be used if present.
+
+Use an advanced flag RESINSIGHT_HDF5_BUNDLE_LIBRARIES to enable bundling of HDF5 libraries.
 
 Tested with 1.8.18 on windows, and default installation on RedHat 6.
 
 #### Octave
 
-To be able to compile the Octave plugins, the path to the Octave development tool _`mkoctfile`_ must be provided in the RESINSIGHT_OCTAVE_PLUGIN_MKOCTFILE. On linux this is populated automatically if Octave is installed.
+Octave is now detected searching the file system, and will usually find Octave on Linux. If Octave is not detected, the following file path variable must be defined
 
-The path to a compatible qt library must also be provided, controlled by RESINSIGHT_OCTAVE_PLUGIN_QMAKE. On linux this can be left blank. 
+`OCTAVE_CONFIG_EXECUTABLE : d:\octave\Octave-4.0.0\bin\octave-config.exe`
 
 It is possible to build ResInsight without compiling the Octave plugins. This can be done by specifying blank for 
 the Octave CMake options. The Octave plugin module will not be built, and CMake will show warnings like 'Failed to find mkoctfile'. 

docs/CommandFile.md

@@ -43,6 +43,7 @@ Once the command file is finished executing, ResInsight will exit.
 * [setFractureContainment](#setfracturecontainment)
 * [createMultipleFractures](#createmultiplefractures)
 * [createLgrForCompletions](#createlgrforcompletions)
+* [createSaturationPressurePlots](#createSaturationPressurePlots)
 
 ## Syntax
 
@@ -445,3 +446,17 @@ Create temporary LGRs for completions on the selected well paths. The splitType
 
 `createLgrForCompletions(caseId=0, timeStep=0, wellPathNames=["B-1H", "B-2H"], `
 `refinementI=2, refinementJ=3, refinementK=4, splitType=LGR_PER_WELL)`
+
+
+### createSaturationPressurePlots
+
+Create saturation pressure plots for the specified cases.
+
+| Parameter               | Description                                                                  | Type           | Required |
+|-------------------------|------------------------------------------------------------------------------|----------------|----------|
+| caseIds   | IDs of cases to create plots for. Default is all cases  | List of Integer |          |
+
+
+#### Example
+
+`createSaturationPressurePlots(caseIds=[0])`

docs/Completions.md

@@ -35,7 +35,7 @@ A combined view of well connection factors and the derived result **Completion T
 
 ## Perforation Intervals
 
-A new perforation interval on a well can be set up by right-clicking on the well in the **3D View** or in the **Project Tree**, and choosing the command **New Perforation interval**. 
+A new perforation interval on a well can be set up by right-clicking on the well in the **3D View** or in the **Project Tree**, and choosing the command **Create Perforation interval** in the **Create Completions** sub-menu. In the 3D View the completion will be created at the specific depth the right-click occured at.
 
 ![]({{ site.baseurl }}/images/CreateCompletionOnWellPath.png)
 
@@ -82,6 +82,45 @@ There are three options for Non-Darcy Flow. **None**, **User defined D-factor**
   - **Permeability Scaling Factor**
   - **Porosity Scaling Factor**
   
+### Perforation Interval Valves
+
+Perforation Intervals can have valves (ICDs/AICDs/ICVs) associated with them.
+
+![]({{ site.baseurl }}/images/ValveVisualisation.png)  
+
+These valves can be created by right-clicking on the Perforation Interval and selecting **Create Valve**.
+
+![]({{ site.baseurl }}/images/NewValve.png)  
+
+Each Valve require a **Valve Template** containing properties which can be shared among multiple Valves. If you have no Valve Template, a new one can be created by clicking the **New** button next to the Valve Template selection list.
+
+![]({{ site.baseurl }}/images/NewValveWithoutTemplate.png)  
+
+This will create a new **Valve Template** which can be of three different types:
+- **ICD** - In-flow Control Device, allowing the setting of **Orifice Diameter** and **Flow Coefficient**. ICDs are displayed in Orange.
+- **AICD** - Autonomous In-flow Control Device, providing several more parameters associated with the Eclipse simulation and seen in the picture below. AICDs are displayed in Dark Purple.
+- **ICV** - Interval Control Valves. Contains the same parameters as ICDs. The difference between the two in ResInsight is that many ICDs can be added at the same time, while there is only expected to be one ICV per perforation interval. ICVs are displayed in Pink.
+  
+An example of the ICD parameters can be seen below:
+![]({{ site.baseurl }}/images/ValveTemplate.png)  
+
+An example of the AICD parameters:
+![]({{ site.baseurl }}/images/ValveTemplate_AICD.png)  
+
+New templates can also be added by selecting the **New Valve Template** option from the context menu of the **Valve Templates** entry in the **Completion Templates** Project Tree item.
+
+![]({{ site.baseurl }}/images/NewValveTemplate.png)  
+
+For ICDs and AICDs, multiple valves can be added in the same go by specifying the number of valves, spacing of valves or specific positions of valves as chosen in the **Location Defined By** drop down list.
+
+![]({{ site.baseurl }}/images/ValveProperties_ICD.png)
+
+For ICVs only one valve is added at a time so only the measured depth of that valve can be chosen.
+
+![]({{ site.baseurl }}/images/ValveProperties_ICV.png)
+
+When you have a valid valve template selected, there is an **Edit** button next to the valve template selection. Clicking this will take you straight to modify the valve template.
+
 ### Import Perforation Intervals
 
 Perforation intervals can be imported into ResInsight from _`*.ev`_ files. These files consist of a list of wells, and their corresponding measured depth values for perforation start and end. 
@@ -122,10 +161,10 @@ Here is an example:
 
 ## Fishbones
 
-Fishbones are completions created by drilling or etching a set of small holes nearly perpendicular to the main bore.
-Each set of holes is created in the same operation and is callea a _sub_ while each individual hole is called a _lateral_.
+Fishbones are completions created by drilling or by jetting a set of small lateral holes with a high deviation from the main bore.
+Each set of holes created at the same location along the main bore, is referred to as a _sub_ while each individual hole is called a _lateral_.
 
-For each well path there is a top level folder in the **Project Tree** containing all the fish bone definitions containing settings that applies to all the fishbones for this well path. 
+For each well path there is a top level folder in the **Project Tree** containing all the Fishbones definitions containing settings that applies to all the fishbones for this well path. To make use of the Multi Segment Well option for pressure loss along laterals, the grid resolution needs to be fine enough to allow a grid cell to be connected to only one lateral. 
 
 ![]({{ site.baseurl }}/images/Fishbones_PropEdit.png)
 
@@ -148,7 +187,7 @@ To add new fishbones completions, select the **New Fishbones Subs Definition** c
 
 ![]({{ site.baseurl }}/images/CreateCompletionOnWellPath.png)
 
-The new **Fishbones Subs Definition** (a group of fishbone subs) is created in the Project tree. Several subs definitions can be created on the same well trajectory to give more flexibility in placing of the fishbones. 
+The new **Fishbones Subs Definition** (a group of fishbone subs) is created in the Project tree. Several subs definitions can be created on the same well trajectory to give more flexibility in placing of the fishbones. The default sub definition is based on the Fishbones Drilling System with 3 laterals exiting per sub in a 8 1/2" main bore. 
 
 ![]({{ site.baseurl }}/images/Fishbones_SubDefPropEdit.png)
 - **Appearance**
@@ -215,13 +254,15 @@ The **Fractures** item in the **Project Tree** controls whether to show the mode
   
 ### Fracture Templates
 
-To create a fracture you first need a **Fracture Template**. The template collects settings that are likely to be shared among several fractures, most importantly the fracture geometry. A fracture at a particular place refers to the template, and it is thereby possible to share fracture geometry and other settings between fracture instances. 
+To create a functioning fracture you first need a **Fracture Template**. The template collects settings that are likely to be shared among several fractures, most importantly the fracture geometry. A fracture at a particular place refers to the template, and it is thereby possible to share fracture geometry and other settings between fracture instances. 
 
-Fracture Templates are listed in a folder with the same name in the **Project Tree**
+Fracture Templates are listed in a folder with the same name in the **Project Tree**.
 
 ![]({{ site.baseurl }}/images/FractureTemplates.png)
 
-To create a new fracture template, right-click the **Fracture Template** item in the tree, and select either **New Ellipse Fracture Template** or **New StimPlan Fracture Template**. 
+To create a new fracture template, right-click the **Fracture Template** item in the tree, and select either **New Ellipse Fracture Template** or **New StimPlan Fracture Template**. If you have no existing fracture templates, you will be given the opportunity to create such templates through two buttons in the Fracture Property Editor as seen below.
+
+![]({{ site.baseurl }}/images/CreateFractureTemplate.png)
 
 #### Common Fracture Template Options
 
@@ -314,13 +355,14 @@ Instances of fractures can be created along well paths and simulation wells by r
 ![]({{ site.baseurl }}/images/FractureInstancePropertyPanel.png)
 
 - **Name** -- User editable name
+- **Fracture Template** -- Select the fracture template to use for this fracture. Click the **Edit** shortcut next to the template selection list to go directly to modify the selected template.
 - **Location/Orientation**
   - **Measured depth Location** -- The measured depth
   - **Azimuth** -- Azimuth orientation of fracture. 
   - **Dip** -- Dip of fracture plane
   - **Tilt** -- Rotation of fracture about its plane normal
 - **Properties**
-  - **Fracture Template** -- Select the fracture template to use for this fracture.
+  - **Fracture Unit System** -- Read only display of the units used for the current template
   - **StimPlan Time Step** -- Displays the time step used by the template 
   - **Perforation Length** / **Perforation Efficiency** / **Well Diameter** -- These values are copied from the new template when selecting a different one. See [Common Fracture Template Options]({{ site.baseurl }}/docs/completions#common-fracture-template-options)  
 - **Fracture Center Info** -- This group displays info on where the center of the fracture is positioned. The center is defined to be where the well path intersects the fracture.

docs/ExportSectorModel.md

@@ -0,0 +1,57 @@
+---
+layout: docs
+title: Export Sector Model
+permalink: /docs/exportsectormodel/
+published: true
+---
+
+Sub-sections of the Eclipse Grid with Parameters and Faults can be exported to Eclipse ASCII files in order to create new
+Simulations on the sub-section.
+
+### Exporting an Eclipse Sector Model
+
+To launch the export dialog, right-click on either the **3D-view** in question or the **Cell Result**.
+
+![]({{ site.baseurl }}/images/ExportSectorModel_RightClick.png) 
+
+### Exporting Grid and Faults
+
+![]({{ site.baseurl }}/images/ExportSectorModel_Grid.png) 
+
+#### Grid Export
+
+The Export dialog will allow the user to export grid data as ascii (An Eclipse Input Grid) to a specific file name by checking the **Export Grid Data** option.
+If the option **Export in Local Coordinates** is checked, the UTM-portion of the coordinates will be stripped and the Grid will
+be exported in a local coordinate system with no reference to actual location.
+
+#### Grid Box Selection
+
+The Grid Box selection group will allow the user to choose whether to export an IJK bounding box surrounding:
+- **All Visible Cells** -- Controlled by range and property filters in the current view.
+- **All Active Cells** -- All active cells in the Grid.
+- **The Full Grid** -- The complete grid including inactive cells.
+- **User Defined Selection** -- This will make the min and max IJK selection available to the user.
+
+Furthermore, by checking **Make Invisible Cells Inactive** any cells that are within the IJK bounding box, but are invisible, will be made
+inactive (ACTNUM = 0) in the exported grid.
+
+#### Grid Refinement
+
+The grid can be refined by a different integer in all three directions by changing the default value of Cell Count = 1 for I, J or K. The grid results will be not be interpolated but all new cells will inherit the value of their original cell.
+
+#### Faults
+
+Optionally export fault data to a separate fault file or append to the existing grid. Also, fault data can be ommitted by choosing "Do not Export" from the
+**Export Fault Data** drop down list.
+
+### Exporting Parameters
+
+![]({{ site.baseurl }}/images/ExportSectorModel_Parameters.png) 
+
+The Static result values in the Grid may be exported as Eclipse Input Parameters. The default parameters are 
+EQLNUM, FIPNUM, NTG, PERMX, PERMY, PERMZ, PORO, PVTNUM, SATNUM and SWATINIT. ACTNUM is exported by default in the Grid Export file.
+
+Other statuc result variables may be selected.
+
+By default the Parameters will be exported to a separate file per parameter in the grid folder location. However it is possible to
+append them to the grid file, export them all into a single parameter file or omit them completely be selecting different options in the **Export Parameters** drop down list.

docs/GettingStarted.md

@@ -51,7 +51,7 @@ A selected subset of actions are presented as controls in the toolbar. The diffe
 
 In the main area of the application, several 3D views or plot windows can be open at the same time. One of them will be active and the active view can be either maximized to use the whole main area, or restored so that you can see the open windows.
 
-Standard window management for applying minimized, normal and maximized state is available in the upper right corner.
+Standard window management for applying normal and maximized state is available in the upper right corner.
 
 ![Restore Down]({{ site.baseurl }}/images/RestoreDown.PNG)
 
@@ -62,6 +62,8 @@ Commands to arrange the windows in the standard ways are available from the **Wi
 - **Cascade Windows** -- organize all open view windows slightly offset on top of each other
 - **Close All Windows** -- close all open view windows
 
+When **Tile Windows** is activated, the windows will remain tiled until a view window is manually resized or another window arranging is selected.
+
 #### Editing 3D Views and Plot Windows Content
 
 Most of the settings and features of ResInsight is accessible through the **Project Tree** and the **Property Editor**. Selecting an item in the **Project Tree** activates the corresponding Window, and shows the item properties in the **Property Editor** available for editing. 

docs/GridCrossPlots.md

@@ -0,0 +1,72 @@
+---
+layout: docs
+title: Grid Cross Plots
+permalink: /docs/gridcrossplots/
+published: true
+---
+
+![]({{ site.baseurl }}/images/GridCrossPlot.png)
+
+ResInsight supports the creation of scatter / cross plots of two Eclipse results against each  other, with each cell in the grid
+representing one data point in the plot. The data points can be grouped by a third result, by time step or by **Formations**.
+giving a separate color and label for each group. The above example shows a classic Porosity vs Permeability plot, grouped by
+formations, showing different trends for each formation.
+
+For continuous grouping parameters, the parameter will be divided into a set of equally sized intervals depending on the number of Color Legend intervals.
+
+Each cross plot can contain any number of **Data Sets**, representing a collection of cross plot points, where the **Data Set** can have a case source, time step and cell filter associated with it. This way, dynamic parameters for different time steps can be compared, or results from different case realizations.
+
+The Grid Cross plots may have a Symbol Legend below the plot, separating the Data Sets, and a Color Legend within the plot separating between the different Grouping categories or intervals. In addition, an Info Box will be added to the upper right corner of the plot, showing the different data sets in the plot and the parameters used. The Color Legends and Info Box can be moved to other parts of the plot and will snap to edges and corners when moved close to them.
+
+## Creating Grid Cross Plots
+![]({{ site.baseurl }}/images/GridCrossPlot_CreateFromView.png)
+![]({{ site.baseurl }}/images/GridCrossPlot_Create.png)
+
+Grid Cross Plots can be created in a couple of ways:
+1. Select a 3D view or Cell Result in the main ResInsight window, right-click and select **Create Grid Cross Plot from 3d View**. The resulting cross plot will display the current 3d Result x DEPTH and only contain data points for the visible cells.
+2. Right-click on the **Grid Cross Plots** entry under **Plots** in the **Plot Window**. By default the plot will contain the result values PORO x PERMX and will be grouped by formations (if any are loaded in the project). Data for all active cells will be displayed.
+
+Having created a Grid Cross Plot, the appearance of the Legends, the Info box and the Plot Title can be set in the Property Editor of the Grid Cross Plot.
+
+![]({{ site.baseurl }}/images/GridCrossPlot_PropertyEditor.png)
+![]({{ site.baseurl }}/images/GridCrossPlotAxis_PropertyEditor.png)
+
+The plot also have some available settings for the two plot axes (X and Y), where the title position and font size can be altered plus the axis range may be controlled and the axis may be set as logarithmic and inverted so the smallest value is first (default for DEPTH on the Y-axis).
+
+
+## Grid Cross Plot Data Sets
+Further Grid Cross Plot data sets can be added to a Plot by right clicking on the plot in the Project Tree and selecting **New Data Set**.
+
+![]({{ site.baseurl }}/images/GridCrossPlotDataSet_Create.png)
+
+The Data Sets contain all the parameters controlling the data source and types of data being plotted.
+
+![]({{ site.baseurl }}/images/GridCrossPlotDataSet_PropertyEditor.png)
+
+The available parameters are:
+
+| Parameter | Description            |
+|-------|--------------------------------|
+| Case   | The Eclipse Case containing the data |
+| Time Step  | Show data for All Time Steps or just a specific time step |
+| Filter by 3d View Visibility | Pick a view to use only the cells visible in that view. Allows the use of range and property filters |
+| Group Data by | Group and color data points by **Time Step**, **Result Property** or **Formations** |
+| Data Grouping Property | Available if grouping by **Result Property** and lets you pick any Eclipse result property and the number of intervals to divide the data into |
+| X-Axis Property | The property representing the X-axis in the cross plot |
+| Y-Axis Property | The property representing the Y-axis in the cross plot |
+| Name Configuration | Add Case Name, Axis Variables, Time Step and/or Data Group to the name of the Data set |
+
+## Show Plot Data
+The data used to create the Cross Plot can be exported by either right-clicking on the Cross Plot in the project tree or right clicking on the plot itself and selecting **Show Plot Data**.
+
+![]({{ site.baseurl }}/images/GridCrossPlot_ShowData_ProjectTree.png)
+![]({{ site.baseurl }}/images/GridCrossPlot_ShowData_PlotContext.png)
+
+Either method will bring up a dialog containing column-based text showing the X and Y result values, the Group index and Group Description (the latter two if Grouping is enabled). One tab in the dialog will be added for each Data Set. The data can be copied to the clipboard or exported to file by right-clicking on the text area.
+
+![]({{ site.baseurl }}/images/GridCrossPlot_ShowData.png)
+
+## Swap Axes
+The X- and Y-axes can be swapped, both for invididual data sets, by choosing **Swap Axis Properties** from the right-click menu of the Grid Cross Plot **Data Set**, or for all data sets by right clicking on either the Cross Plot in the Project Tree or on the plot itself and selecting **Swap Axis Properties for all Data Sets in Plot**. The X- and Y-axis will swap place retaining the properties, such as Logarithmic or inverted axes.
+
+![]({{ site.baseurl }}/images/GridCrossPlot_SwapAxes.png)

docs/Home.md

@@ -1,6 +1,6 @@
 ---
 layout: docs
-title: ResInsight 2018.11
+title: ResInsight 2019.04
 permalink: /docs/home/
 published: true
 ---

docs/KeyboardShortcuts.md

@@ -0,0 +1,24 @@
+---
+layout: docs
+title: Keyboard Shortcuts
+permalink: /docs/keyboard/
+published: true
+---
+
+ResInsight supports a selection of Keyboard Shortcuts for convenience. These include **Delete** for removing deletable items
+from the project tree, **Ctrl-Alt-A** for Zoom All and **Ctrl-Alt-S/N/W/E/D/U** for changing the camera view to South, North, West, East, Down and Up respectively.
+
+![]({{ site.baseurl }}/images/KeyboardDel.png)
+![]({{ site.baseurl }}/images/KeyboardEast.png)
+![]({{ site.baseurl }}/images/KeyboardPlot.png)
+
+Other available keyboard shortcuts are
+- **Ctrl-Shift-P** for opening up the plot window when you are in the 3d View 
+- **Ctrl-Shift-3** for opening up the 3d View while you are in the Plot Window
+- **Ctrl-X** for Cut and **Ctrl-V** for Paste of project tree items where this functionality is available.
+- **Ctrl-O** for opening a project
+- **Ctrl-S** for saving the project
+- **F1** for opening the online User Guide
+- **Ctrl-M** for single line measurement
+- **Ctrl-Shift-M** for poly line measurement
+

docs/Measurement.md

@@ -0,0 +1,32 @@
+---
+layout: docs
+title: Measurement
+permalink: /docs/measurement/
+published: true
+---
+
+![]({{ site.baseurl }}/images/Measurement.png)
+
+ResInsight supports measurements in the 3D views. To enter measurement mode, press the ruler toolbar button ![]({{site.baseurl}}/images/MeasurementButton.png) or the keyboard shortcut **Ctrl-M**. This mode can also be activated from the context menu in a 3D view.
+
+
+![]({{ site.baseurl }}/images/MeasurementToolbar.png)
+
+When ResInsight is in measurement mode, clicking on an surface in the 3D view will set the first measurement point. Clicking on a different surface will set the second measurement point, and display a label with measurements. Additional clicking will start a new measurement between two points.
+
+The measurement label contains the following:
+- **Length** - The length of the measurement segment
+- **Horizontal Length** - The length of the measurement segment projected onto the XY plane
+
+ResInsight also supports measuring a polyline (a set of line segments), which can be activated with the polyline ruler toolbar button ![]({{site.baseurl}}/images/PolylineMeasurementButton.png) or **Ctrl-Shift-M**. The measurement label will now contain additional measurements.
+
+![]({{ site.baseurl }}/images/PolylineMeasurement.png)
+
+The measurement label contains several lengths.
+- **Segment Length** - The length of the last segment
+- **Segment Horizontal Length** - The length of the last segment projected onto the XY plane
+- **Total Length** - The total length of the measurement polyline
+- **Total Horizontal Length** - The total length of the measurement polyline projected onto the XY plane
+- **Horizontal area** - The area of the polyline projected onto the XY plane
+
+To leave measurement modes, press the toolbar button, press the **Esc** button  or press the keyboard shortcut used to activate the mode again.

docs/PltPlot.md

@@ -91,18 +91,21 @@ Please see the [full documentation]({{site.baseurl}}/docs/formations) on the for
 ![]({{site.baseurl}}/images/PltLegendAndAxis.png)
 
 This property editor lets the user control visual properties for the legend and axis.
-- **Depth Type** -- Select depth type, _Measured Depth_ or _Pseudo Length_
-- **Depth Unit** -- Select depth unit, _Meter_ or _Feet_
-- **Show Legends** -- Toggle on/off legends in plot
-- Visible X Axis Range
-  - **Auto Scale** -- Automatically set X axis range based on data values
-  - **Logarithmic Scale** -- Toggle between linear and logarithmic X axis
+- Title and Legends
+  - **Show Title** -- Toggle on/off title in plot
+  - **Show Legends** -- Toggle on/off legend in plot
+  - **Legend Orientation** -- Vertical or horizontal
+- X Axis Settings
+  - **Logarithmic Scale** -- Toggle between linear and logarithmic
   - **Min** -- Set X axis minimum value
   - **Max** -- Set X axis maximum value
-- Visible Depth Range
-  - **Auto Scale** -- Automatically set depth axis range based on data values
+  - **Show Grid Lines** -- Enable grid lines in background in plot
+- Depth Axis
+  - **Type** -- Toggle between True Vertical Depth (MSL) or Measured Depth (MD)
+  - **Unit** -- 
   - **Min** -- Set depth axis minimum value
   - **Max** -- Set depth axis maximum value
+  - **Show Grid Lines** -- Enable grid lines in background in plot
   
 ### Plot
 The PLT plot displays groups of curves. A group consists of the components oil, gas and water. The curves within a group are stacked, the biggest component first.

docs/Preferences.md

@@ -9,30 +9,43 @@ In this section the different settings that controls the default behavior of Res
 
 ![]({{ site.baseurl }}/images/Preferences.png)
 
-The preferences are not stored in the project files, but rather in a platform specific way for each user. 
+When changing the preferences, any default color, font or Z-scale Factor that has not been changed by the user in the various views, will be applied immediately. If the user has changed font sizes in specific plots or annotations from the default value, ResInsight will ask if the user wants the new defaults applied to all existing views and plots even where custom settings have been set.
+
+![]({{ site.baseurl }}/images/Preferences_ApplyToAll.png)
+
+The preferences are not stored in the project files, but rather in a platform specific way for each user.
 
 ## General - tab
 
-### Default settings
+### Default Colors
 
-This group of options controls visual settings that will be used when creating new views.
+This group contains the colors that will be applied to the 3D views.
 
 - **Viewer Background** 
-- **Gridlines** -- Controls whether to show the grid lines by default.
 - **Mesh Color** 
 - **Mesh Color Along Faults**
 - **Well Label Color**
-- **Font Size** -- This font size is used for all labels shown in the 3D Views.
-- **Default Z Scale Factor** -- Default depth scale for grid models.
-- **Enable Legend Background** -- Apply a semi-transparent background to the legends in the 3D Views.
 
-### 3D Views
+### Default Font Sizes
+
+This group contains the different fonts which are used through ResInsight.
+- **Viewer Font Size** -- The fonts used for axes labels, legends and info boxes in the 3d View.
+- **Annotation Font Size** -- The font used as default for Text Annotations.
+- **Well Label Font Size** -- The font used for all Well Path labels.
+- **Plot Font Size** - The font used for legends, axes labels, values in Plots. This affects the docked plots in the main 3D window as well (Result Plot, Relative Permeability etc), although because of the reduces space available in these plots, the font size applied will be one less than the **Plot Font Size**.
+
+### 3d Views
+
+This group of options controls visual settings that will be used when creating new views.
+
+- **Show Grid Lines** -- Controls whether to show the grid lines by default for all cells or just along faults.
 - **Navigation mode** -- Defines how to use the mouse to interact with with the 3D model. Please refer to [Model Navigation]({{ site.baseurl }}/docs/modelnavigation) for details.
+- **Default Z Scale Factor** -- Default depth scale for grid models.
+- **Show Box around Legends** -- Create a semi-transparent box containing each legend in the 3D Views.
 - **Use shaders** -- This option controls the use of OpenGL shaders. Should be left **On**. Available only for testing purposes.
 - **Show 3D Information** -- Displays graphical resource usage as text in the 3D view.
 
 ### Other
-
 - **SSIHUB Address** -- Optional URL to Statoil internal web service used to import well paths.
 - **Show LAS Curve Without TVD Warning** - Turn off the warning displayed when showing LAS curves in TVD mode.
 

docs/ResultColorLegend.md

@@ -5,7 +5,7 @@ permalink: /docs/resultcolorlegend/
 published: true
 ---
 
-The color mapping of the displayed cell result is controlled by the **Legend Definition** located below a result node in the **Project Tree**. The legend can be shown or hidden by checking or unchecking the box in front of the Legend Definition.
+The color mapping of the displayed cell result is controlled by the **Color Legend** located below a result node in the **Project Tree**. The legend can be shown or hidden by checking or unchecking the box in front of the Legend Definition.
 
 ![Legend Configuration]({{ site.baseurl }}/images/legend_configuration.PNG)
 
@@ -28,6 +28,6 @@ The color mapping of the displayed cell result is controlled by the **Legend Def
   - **Current Timestep** -- use current (one) time step to find min and max values  
   - **User Defined Range** -- user specifies numeric values for min and max  
 
-Furthermore the legend can have a semi-transparent background applied to it by selecting the **Enable Legend Background** option in the Preferences dialog.
+Furthermore the legend can have a semi-transparent background applied to it by selecting the **Show Box around Legends* option in the Preferences dialog.
 
-![Legend Background]({{ site.baseurl }}/images/legend_background.png) ![Legend With or Without Background]({{ site.baseurl }}/images/legend_with_background.png)
+![Legend Background]({{ site.baseurl }}/images/legend_background.png) ![Show Box around legends]({{ site.baseurl }}/images/legend_with_background.png)

docs/RftPlot.md

@@ -7,7 +7,7 @@ published: true
 
 ![]({{site.baseurl}}/images/RftPlot.png)
 
-An RFT (_Repeated Formation Tester_) plot is a special well plot for comparing observed formation pressure and simulated formation pressure. The curves are plotted as pressure against true vertical depth (TVD). Simulated pressure data is retrieved directly from the grid model or from the corresponding (\*.rft) files, while observed pressure data are loaded from well log files (\*.las).
+An RFT (_Repeated Formation Tester_) plot is a special well plot for comparing observed formation pressure and simulated formation pressure. The curves are plotted as pressure against true vertical depth (TVD) or measured depth (MD). Simulated pressure data is retrieved directly from the grid model or from the corresponding (\*.rft) files, while observed pressure data are loaded from well log files (\*.las).
 
 
 ## Create New RFT Plot
@@ -23,7 +23,7 @@ There are several ways to create new RFT Plots.
 - Right-click a simulation well select **Well Plots -> New RFT Plot**.
 
 ## Import Observed RFT Data
-To be able to plot observed pressure data for a well in an RFT plot, at least one well log file from that well (e.g. \*.las) have to be imported to ResInsight. This file must contain a pressure column, which must have the name _PRESSURE_ or _PRES_FORM_. If the well log file itself does not contain a TVD column (named _TVDMSL_), a well path file (See [Well Trajectories]({{site.baseurl}}/docs/wellpaths)) for the same well must also be imported to ResInsight.
+To be able to plot observed pressure data for a well in an RFT plot, at least one well log file from that well (e.g. \*.las) has to be imported to ResInsight. This file must contain a pressure column, which must have the name _PRESSURE_ or _PRES_FORM_. If the well log file itself does not contain a TVD column (named _TVDMSL_), a well path file (See [Well Trajectories]({{site.baseurl}}/docs/wellpaths)) for the same well must also be imported to ResInsight.
 
 If no TVD data for a well is found when the user tries to plot a curve, ResInsight will present a warning dialog to the user.
 
@@ -66,7 +66,7 @@ This property editor lets the user control the visibility of formations lines. T
 
 ![]({{site.baseurl}}/images/RftPltFormationNames.png)
 
-Formation source *Well Path* is not available for RFT plots, as this source use MD as depth type, and RFT always use TVD. Please see the [full documentation]({{site.baseurl}}/docs/formations) on the formations property editor for details about formations.
+Please see the [full documentation]({{site.baseurl}}/docs/formations) on the formations property editor for details about formations.
 
 <div class="note">
   When the formation names property editor is used in the context of RFT plots, the fields <b>Trajectory</b> and <b>Simulation Well</b> are hidden because those values are given by the RFT plot definition.
@@ -76,13 +76,18 @@ Formation source *Well Path* is not available for RFT plots, as this source use
 ![]({{site.baseurl}}/images/RftLegendAndAxis.png)
 
 This property editor lets the user control visual properties for the legend and axis.
-- **Show Legends** -- Toggle on/off legends in plot
-- Visible X Axis Range
-  - **Auto Scale** -- Automatically set X axis range based on data values
-  - **Logarithmic Scale** -- Toggle between linear and logarithmic X axis
+- Title and Legends
+  - **Show Title** -- Toggle on/off title in plot
+  - **Show Legends** -- Toggle on/off legend in plot
+  - **Legend Orientation** -- Vertical or horizontal
+- X Axis Settings
+  - **Logarithmic Scale** -- Toggle between linear and logarithmic
   - **Min** -- Set X axis minimum value
   - **Max** -- Set X axis maximum value
-- Visible Depth Range
-  - **Auto Scale** -- Automatically set depth axis range based on data values
+  - **Show Grid Lines** -- Enable grid lines in background in plot
+- Depth Axis
+  - **Type** -- Toggle between True Vertical Depth (MSL) or Measured Depth (MD)
+  - **Unit** -- 
   - **Min** -- Set depth axis minimum value
   - **Max** -- Set depth axis maximum value
+  - **Show Grid Lines** -- Enable grid lines in background in plot

docs/SaturationPressurePlots.md

@@ -0,0 +1,14 @@
+---
+layout: docs
+title: Saturation Pressure Plots
+permalink: /docs/saturationpressureplots/
+published: true
+---
+
+![]({{site.baseurl}}/images/SaturationPressurePlot.png)
+
+A Saturation Pressure Plot a plot displaying bubble and dew point pressures, together with initial pressure in model, versus depth. Fluid contacts (GOC and/or OWC) are displayed as annotation lines in the generated plots. One Saturation Pressure Plot is created for each equilibrium region.
+
+To be able to create these plots, output of saturation pressures need to be specified in the **SOLUTION** section of the Eclipse ".DATA" file.
+
+To create these plots, right click on the view in the **Property Editor**, and select **Create Saturation Pressure Plots**. It is also possible to create these plots by right click on the item **Saturation Pressure Plots** in the **Property Editor** in the **Plot Window**.

docs/SimulationWells.md

@@ -77,10 +77,15 @@ Open Simulation Wells will be drawn with a slightly larger radius than closed we
 
 ![]({{ site.baseurl }}/images/SimulationWellsColorsProperties.png)
 
+![]({{ site.baseurl }}/images/SimulationWellsColorsProperties_Uniform.png)
+
 - **Color Pipe Connections** -- Applies a red, green, blue or gray color to the section of the pipe touching a connection cell indicating the production status of the connection. Gas injection, oil production, water injection or closed respectively.  
 - **Label Color** -- Sets the well label color in the 3D view.
-- **Unique Pipe Colors** -- Pushing this apply button will apply unique colors to all the wells, overwriting the colors they had.
-- **Uniform Pipe Colors** -- Pushing the apply button will apply the displayed color to all the wells.
+- **Individual Pipe Colors** - Select how each pipe will be colored.
+
+The **Individual Pipe Color** setting has two different options:
+- **Unique Colors** -- Selecting this will apply unique colors from a pre-defined color palette to all the wells, overwriting the colors they had.
+- **Uniform Default Color** -- Selecting this will apply the same color (made available in the **Uniform Well Color** option to all simulation wells.
 
 ### Well Pipe Geometry
 

docs/WellBoreStabilityPlots.md

@@ -19,4 +19,19 @@ The fourth track contains curves showing the angular orientation of the well pat
 
 These plots can be created from the context menu for a well path in the 3D view or from the the context menu of the Well Log Plots entry in the 2D Plot Window. In the former case the well bore stability plot will be created for the selected **Well Path**. In the latter case it will be created for the first well path in the well path list and the well path for the entire plot can be changed with the [Change Data Source Feature]({{site.baseurl}}/docs/welllogsandplots#change-data-source-for-plots-and-curves).
 
+In order to calculate **FG**  and **SFG** these curves the following input parameters are required:
+
+| Curve | Required Parameters            |
+|-------|--------------------------------|
+|  FG   | Pore Pressure (PP), Poissons' Ratio |
+|  SFG  | Uniaxial Compressive Strength (UCS) |
+
+These parameters may be read in in the following ways. The numbering for import is order of preference if multiple sources are found.
+
+| Parameter     | Default | Import mechanisms |
+|---------------|---------|-------------------|
+| PP | Hydrostatic PP (TVD x 9.81 / 100 bar) | 1. Grid (Grid units), 2. LAS-file as mud-weight (Variable: "PP", Units: kg / m^3), 3. Element Property Table (Variable: "POR", Units: Pascal)|
+| Poissons' Ratio | 0.25 | 1. LAS-file (Variable: "POISSON_RATIO"), 2. Element Property Table (Variable: "POISSON_RATIO")|
+| UCS             | 100 bar | 1. Las-file (Variable: "UCS", Units: bar), 2. Element Property Table (Variable: "UCS", Units: Pascal) |
+
 ![]({{ site.baseurl }}/images/WellBoreStabilityCreation.png) ![]({{ site.baseurl }}/images/WellBoreStabilityCreation2.png)

index.html

@@ -47,7 +47,7 @@ overview: true
 	
         Sign up to be notified of new releases:<br> <a href="{{ site.baseurl }}/project/releasenotification">Release Notification &rarr;</a>
       </p>  
-       Latest release is 2018.11.1
+       Latest release is 2019.04
       </div>
     <div class="clear"></div>
   </div>

project/download.md

@@ -5,8 +5,8 @@ permalink: /project/download/
 published: true
 ---
 
-Windows : [ResInsight-2018.11.2_oct-4.0.0_souring_win64.zip](https://github.com/OPM/ResInsight/releases/download/v2018.11.2/ResInsight-2018.11.2_oct-4.0.0_souring_win64.zip)
+Windows : [ResInsight-2019.04_oct-4.0.0_souring_win64.zip](https://github.com/OPM/ResInsight/releases/download/v2019.04/ResInsight-2019.04.0_oct-4.0.0_souring_win64.zip)
 
-Linux - RHEL6 : [ResInsight-2018.11.2_oct-3.4.3_souring_el6.tar.gz](https://github.com/OPM/ResInsight/releases/download/v2018.11.2/ResInsight-2018.11.2_oct-3.4.3_souring_el6.tar.gz) 
+Linux - RHEL6 : [ResInsight-2019.04_oct-3.4.3_souring_el6.tar.gz](https://github.com/OPM/ResInsight/releases/download/v2019.04/ResInsight-2019.04.0_oct-3.4.3_souring_el6.tar.gz) 
 
 For older versions, release notes and source code, please visit [ResInsight on Github](https://github.com/OPM/ResInsight/releases/)

project/support.md

@@ -1,14 +1,17 @@
 ---
 layout: project
-title: Contact
-permalink: /project/contact/
+title: Support
+permalink: /project/support/
 published: true
 ---
 
-For inquiries for new features, enhancements or support and maintenance agreements, please contact us for an offer:
+For inquiries for new features, enhancements or support and maintenance agreements, please contact us for an offer.
+
+Bug reports and general feature requests can be filed directly on [GitHub](https://github.com/OPM/ResInsight/issues?state=open)
 
-Web : [Ceetron Solutions AS](http://www.ceetronsolutions.com) <br>
 Phone : +47 73 60 43 00 <br>
 e-mail : info@ceetronsolutions.com
 
-Bug reports and general feature requests can be filed directly on [GitHub](https://github.com/OPM/ResInsight/issues?state=open)
+[Ceetron Solutions AS](http://www.ceetronsolutions.com) <br>
+![]({{ site.baseurl }}/images/CeetronSolutionWebPage.png)
+

releasenotes/releasenotes_2019_04.md

@@ -0,0 +1,60 @@
+---
+layout: docs
+title: What's New in 2019.04
+permalink: /releasenotes/releasenotes_2019_04/
+published: true
+---
+
+ResInsight 2019.04 is the latest version of ResInsight, the professional quality, open source 3D visualization, curve plotting and post-processing tool for Eclipse reservoir models. Version 2019.04 contains a larger number of new and exciting features, some of which are listed below.
+
+## Grid Cross Plots
+![]({{ site.baseurl }}/images/GridCrossPlot.png)
+
+ResInsight supports the creation of cross plots of two results against each other, with each cell in the grid representing one data point in the plot. The data points can be grouped by a third result, by time step or by Formations, giving a separate color and label for each group.
+
+See [Grid Cross Plots]({{ site.baseurl }}/docs/gridcrossplots)
+
+## Saturation Pressure Plots
+![]({{ site.baseurl }}/images/SaturationPressurePlot.png)
+
+ResInsight can create plots displaying bubble and dew point pressures, together with initial pressure in model, versus depth. Fluid contacts (GOC and/or OWC) are displayed as annotation lines in the generated plots.
+
+See [Saturation Pressure Plots]({{ site.baseurl }}/docs/saturationpressureplots)
+
+## Sector Model Export
+![]({{ site.baseurl }}/images/ExportSectorModel_Grid.png)
+
+Sub-sections of the Eclipse Grid with Parameters and Faults can be exported to Eclipse ASCII files in order to create new Simulations on the sub-section. These sub-sections can also be refined to a higher resolution.
+
+See [Export Sector Model]({{ site.baseurl }}/docs/exportsectormodel)
+
+## Well model for ICD, AICD and ICV
+![]({{ site.baseurl }}/images/ValveVisualisation.png)
+
+ResInsight supports interactive modeling of ICD, AICD and ICV. It is possible to export completions to a text file containing the Eclipse input data keywords needed to represent the completions as a Multi Segment Well - **MSW**. 
+
+See [Completions]({{ site.baseurl }}/docs/completions) and  [Completion Export]({{ site.baseurl }}/docs/completionexport)
+
+## Grid Model Annotations
+![]({{ site.baseurl }}/images/Annotations.png)
+
+Annotation objects like text, lines and plolylines can easily be added to a view.
+
+See [Annotations]({{ site.baseurl }}/docs/annotations)
+
+## Grid Measurements
+![]({{ site.baseurl }}/images/Measurement.png)
+
+ResInsight now supports measuring distances and polyline lengths across a Grid.
+
+See [Measurements]({{ site.baseurl }}/docs/measurement)
+
+## Keyboard Shortcuts
+Several new keyboard shortcuts have been added to ResInsight for convenience. The shortcut can be seen by hovering over tool bar icons to show the tooltip for the given action, or seen in the right-click menu for project tree items.
+
+![]({{ site.baseurl }}/images/KeyboardDel.png)
+![]({{ site.baseurl }}/images/KeyboardEast.png)
+
+For instance will the **Delete** key now delete any deletable item in the project tree and **Ctrl-Alt-S/N/W/E/D/U** will change the 3d Camera view to South, North, West East, Down and Up respectively.
+
+See [Keyboard Shortcuts]({{ site.baseurl }}/docs/keyboard)