Using Revit as a Team. Use Same Builds.

When using Revit on a project, make sure everyone on the team is using not only the same version, (2011, 2012, etc), but the same build number as well.  The build number can be found by clicking on the question mark pull down in the upper right corner, and click the About button….

From there, you’ll see the splash screen of the version, and the build.  The first 4 numbers in the year the build was released, (2010) The next 2 are the month of the release, (09-September), the next 2 are the day of the release, (03-third).  The last four are the actual build number 2115, and the service pack number is new to the newer versions.  Might not be shown for earlier versions.

 

I’ve seen fatal errors in Revit when teams are using the same version, but different build numbers, and users are syncing their builds local file to the central file, and the central file is receiving updates from multiple builds, when there have been some changes to the software code, and there is a discrepancy  between two items, one new version, one old version, and Revit doesn’t know what to do. 

In order to make sure everyone is using the same build, everyone should be using the latest build.  For 2011, its build 20100903_2115 Web Update 2 Service Pack.  For 2012, it’s build 20110916_2132 Update Release 2.

Revit MEP 2012 Update 2 – September 2011

In case you are too lazy to search to the Autodesk site... I've posted it here

http://images.autodesk.com/adsk/files/Enhancements_List_RME_2012_UR2.pdf

Update 2 is not a full install; rather it is using service pack technology similar to AutoCAD®- based products. Update 1 is built into Update 2, so you don't need to worry about installing the first one before installing the second one.

Improvements made in Update 2 build (20110916_2132):

Autodesk® Revit® MEP 2012 Enhancements

• Improves stability when routing ducts which utilize an elbow or takeoff to complete the run.
• Improves stability when dragging a Panel Schedule into a sheet.
• Corrects the classification of embedded windows within a curtain wall contained within a linked file which is used as the boundary to create spaces.
• Improves the regeneration time of Ducts after applying a Visibility/Graphics Override.
• Improves stability when creating a new zone in the zone editor and specifying an already existing name in the properties palette.
• Improves performance when adding an air terminal to a system.
• Retains System Type when coping elements from one project to another.
• Retains pipe and fitting connections when moving piping layout to another level.
• Improves the display of duct with insulation and lining for hidden line views when contained within a linked file.
• Improves display of insulation on segments when viewed in ceiling plans.
• Maintains the type parameter values for panel schedules viewed on a sheet.
• Maintains circuits when upgrading Revit MEP 2011 projects in Revit MEP 2012.

Autodesk Revit® Platform 2012 Enhancements

• Improves stability when switching the visibility setting of linked file from By Linked View to By Host View.
• Corrects Ambient Shadow on objects which are contained within a mirrored linked file.
• Improves the import of IFC files which contain overlapping walls.
• Improves stability when exporting a project to DXF which contains a dimension style that is referenced more than 255 times within the project.
• Corrects the resolution of the background image when calculating offset and scale.
• Corrects duplicate column creation when using Create columns by Grid when some columns are already created on the grid.
• Improves stability when setting a view to Realistic display mode.
• Improves stability when navigating in 3D view after canceling a Print operation.
• Corrects silhouette display for perspective views in projects with linked files.
• Corrects the angle of Photometric Web based light sources when exported to FBX.
• Retains the original IES files when exporting to FBX.
• Reduces the scenarios where element IDs may become remapped or removed when Synchronizing to Central.
• Improves stability when removing layers from floors, roofs and walls.
• Corrects gbXML export of curtain walls where window openings were classified as air opening when using simple complexity mode.
• Improves stability when accessing HELP
• Help
• Corrects mapping of Cable Tray, Cable Tray Fittings, Conduit and Conduit Fittings when exported to IFC.
• Improves the consistency of beams being unique objects when exported to IFC.
• Improves the placement of slabs when exported to IFC.
• Improves the creation of beams, such as length, when imported from IFC.
• Disables switching to 3D view if current view only is set when exporting to IFC.
• Enables the export of filled regions to IFC.
• Enables mass based curtain panels and mullions to be individual elements when exported to IFC.
• Enables Structural Columns to be exported to IFC.
• Allows elements hidden by category to be ignored when project is exported to IFC.
• Enables Unicode support for both Import and Export of families.
• Changes setting for "Export views on sheets and links as external references" to be enabled when exporting to DGN.
• Allows exporting to DWFx if the view is blank.
• Improves stability when exporting to DWG.
• Improves the export of custom wall hatch patterns to DWG.
• Improves stability after displaying a warning message.
• Enables the use of Family Parameter when using the Material Browser Paint tool.
• Improves stability when modifying part assemblies.
• Improves stability when working within the Phases dialog.
• Improves placement of linked point clouds based upon their origin.
• Improves stability when printing to PDF in batch mode.
• Improves stability when saving a family into the same folder as the type catalog.
• Improves stability when upgrading projects.
• Improves stability when setting a workset from Editable to non-Editable.  

Revit MEP 2012 New Features

I've been kicking the tires on the beta release of Revit MEP 2012 for the past few months, and I am really looking forward to using the new version.  In last years 2011 version, most improvements came from the enhancements to the electrical portion of the software.  This year, plumbing was the big winner.  Trying to create plumbing systems that worked in real world designs took a lot of effort to make work.  Especially sloped pipe.  A lot of firms used workarounds and created Revit plumbing layouts based off of pipe types or worksets or other means other than by system as Autodesk had intended.  It now looks as though firms should rethink these workarounds, and actually create pipe systems based off of real pipe types the way Autodesk intended it to be used.  Of course, there are other enhancements to existing tools, and totally new tools and features that were added as well. 

Even though there are numerous improvements to the software that will make our Revit MEP world a lot easier, we can't open the box, install the software, and just jump into the new version on our next project.  One of the disadvantages of a user of MEP, is that we have to follow the architects lead.  While there are enhancements in Revit Architecture, the architectural new features aren't as much of a game changer as the new features in Revit MEP.  The Revit Architecture software is on it's 25th release in 11 years while Revit MEP is on its 7th release in 5 years.  So it isn't as mature as it's architectural big brother.  So architects might not see the need to upgrade until maybe June... September... or even next year on their projects.  And because project teams should always work in similar Revit build numbers, MEP users might not have the chance to become more productive with the new features until an architect decides to either A) Upgrade an existing project, or B) Start a new project in the new 2012 version.

But when teams do decide to work in 2012, this is just a few of the things you have to look forward to.

• Tagging Elements in Linked Files.   I'm not sure on this first feature.  I'm sure I'll find a way this feature will help me in the future, but right now, it just confused me as to where my room/space tags were derived from.  Were they created from the copy rooms feature, or are they tagged from the linked file?
• MEP Fixture Copy/Monitor improvements.  This was one of my favorite 2011 new features, and it just got better.  When an architect takes the time, and places generic plumbing fixtures and generic light fixtures in their model, why spend our time repeating their work?  With the copy/monitor tool, we can swap out all of the architects fixtures with MEP fixtures that match our specifications.  And now there are more fixture types that we can do this swapping with.  There was a stadium type project I was working on, where there were hundreds and hundreds of water closets in the project.  It would have taken me hours to place our spec WC over the architects generic WC for all the locations.  But using the Copy/Monitor tool, I had all of our Kohler WC families replace the architects "out-of-the-box" Revit WC.  And when the architect decided to move those fixtures 12 inches to the left, I received a notification that they moved because my fixtures were monitoring their fixtures.  Love this tool.
• Revit Server. Will now support running either Revit 2011 and/or Revit 2012 projects.  Also supports the new worksharing enhancements in 2012.  (See worksharing enhancements below).  Using Revit Server in an office environment that has multiple offices connected over the LAN, this tool is essential to becoming more efficient.  Trying to create a local Revit file over the LAN will take forever, and while the file is opening, it will tie down the central file making it impossible for current uses to modify elements that haven't been checked out or save to central.  In the past, I was asked to make a construction bulletin that would take me about 5 minutes, but opening my local file took over an hour over the LAN.  Thank goodness for multi-tasking.
• Worksharing Enhancements.  It surprising to me how long this feature has been in the software, and never worked right.  It seems like it was a placeholder for something bigger and better to come.  Well, that time might be now.  When you wanted to modify a fixture or system, and it was being used by another user, Revit had a dialog box that made it seem like you could make a request through Revit, and ask that user to relinquish it.  But that user need to open the "Editing Requests" dialog box to see these requests.  And that never happened at a time when you needed it to happen, like right now.  So you ended up just calling them on the phone.  Then there was the Worksharing Monitor Add-In.  This at least had a dialog box that could stay open while you were working that you could throw up on a second monitor or something so that you could see these requests as they happened.  But A)It was a separate install that seemed to never get installed. and B) It was a separate program that needed to be opened and running after you opened Revit.    Well, now that we have a little background, here is a couple of the new features.  First is that you could never disable worksharing.  Once you enabled worksharing on a project, that project was going to be workshared forever.  Second, you can set the visibilty of worksets in a view template now.  Third, there are new color display modes allowing users to visualize owners of objects by color, or ownership status of elements by color, or elements that are out of date by color, or which elements are assigned to particular worksets by color.  It can be toggled on and off.  Fourth, Revit now provides balloon notifications when editing requests are placed, granted, and denied.  So now you don't have to check the Editing Requests box to see if someone is waiting on you, or install the Worksharing monitor and open a separate dialog box to check these requests. 
• Starting View.  This was a known issue, that Revit opened slow if the last view that was open when the project was saved, was a complex view.  So users had to remember to create a simple view, usually with just text of the project name and number, and to have that as the last view open when saving and closing the project down.  But now there is a setting under the Manage Tab, where you can specify which view you want to be the Starting View so users don't have to remember which view they should go to when saving the project.
• Workset changeable without editablity. In the properties palette, the workset parameter can now be edited without first borrowing the element.  Before, that parameter was greyed out until you had ownership of that element.
• Enhancements to DWG Export tool. The export setting are displayed on a series of tabs making it easier to map layers, lines, patterns, text and fonts to AutoCAD styles.
• Locking 3D Views and Tagging 3D views.  This is a biggy.  In the past, you could only put dumb text in a 3D view.  Never a smart tag.  And if you rotated that view, the text would skew because it was on another plane.  Now, as long as you lock a 3D view down, (which is new) you can tag a Revit element.  You won't be able to lock the default 3D view, but create a copy, and that one will be lockable.  Just beware, you can't tag a room/space in a 3D view.
• Schedule and Legend Creation from Project Browser.  This is nice.  Before, you had to open up the Views Tab on the ribbon to create a view of these types.  Now just right click on Schedule or Legend in the project browser, and create new.
• Save all Families.  Users can save all families that are loaded into a project to a directory.  This is nice for helping create future project templates.  You might finish a hospital project using a lot of hospital families, and you want to now create a Revit hospital project template.  You can now save those families in a batch type of method from the previous hospital project and load them into your new template.
• Round Function in Formulas.  Values in formulas can be now rounded up or down. Round(x), Roundup(x), rounddown(x).
• Materials.  There is significant changes to using materials in elements in Revit 2012.  While there is a significant amount of work "under the hood" that is not user visible, the items that are available to users this version focus around efficiency in managing materials within Revit, and introducing a library concept that will be extended in the future.
• WikiHelp.  Revit online help is now provided as WikiHelp. In addition to viewing the Autodesk-provided help content, users can rate and comment on content, and they can add their own articles, images, and videos. If you are online and you access context-sensitive help (click a Help button or press F1), by default you go to the WikiHelp. If you are offline and access context-sensitive help, by default you will go to a locally stored copy of the help system.
• Sloped Piping.  A user can now create the pipe slope values in the Mechanical Settings. The slope values can be transferred from project to project.  This new method, along with additional new sloped fittings seems to allow the creation of sloped piping systems much easier and consistent.  There still needs to be best practices and methods that should be followed when creating sloped pipe.  You won't be able to just draw sloped pipe in any direction from any starting point.  There needs to be a thought out strategy to where you are going to start your main sloped pipe system, and where it's going to end, and how it's going to be integrated by the fixtures.  It was hard, but I've had success creating sloped piping in previous versions, but this version is much less work and headache to create a sloped system.  I'm not saying it's going to be easy, but with a well laid out plan, you can be very successful creating sloped pipe is a rather short period of time.
• System Browser.   This was always an overlooked feature in the past because so many engineers just wanted construction documents and not an engineered system.  So systems were rarely created in MEP projects.  But this tool should be used more for multiple reasons, but one is just based off of better performance of the model.  Unconnected systems dramatically decrease the speed of the project.  You can view all of the connected and disconnected systems from the System Browser.  Selecting elements in the system browser also selects the element in the project.  And if you press Shift or CTRL, you can select multiple connectors.  Also, in the old version, if you selected elements in your model, they were not selected in the system browser.  Now they will be selected in both areas when you pick them.
• Graphical Overrides for Duct and Piping Systems.  You can now create and name duct and piping system types from a predefined set of "basic" system types. A duct or piping system type contains properties for graphical overrides. You have the ability to control the color, line weight, and line pattern for the collection of objects assigned to a system using these. The graphic overrides applies to the project, they are not view specific like Filters are.   Similar to other system families, the duct and piping system types are now available in the Project Browser similar to how pipe types are in the Project Browser. The duct and piping system types are sorted under Families in the family category folder "Duct Systems" and "Piping Systems".   Use the "Other" system type when creating a custom system of a type that is not native to Revit MEP.  For example, if you wanted to create an Oxygen System, duplicate the Other system type and rename it to Oxygen. You can get to the system type properties for a particular duct or pipe by pre-selecting the element and pressing Tab until the system is highlighted. With the system selected, in the Property palette, click Edit Type to access the type properties of the system.  In the Type Properties dialog for duct and piping systems, click Graphic Overrides to display a dialog where you can override the Line Weight, Color, and Line Pattern.  The "system" overrides for the graphic attributes are prioritized between Phasing and Filters. This means the color, line pattern, material, etc. per system type, will override the settings per category. However, a view filter takes precedence over the system type settings.
• Rendering Material for Duct and Pipe systems.  This was something users always asked me, and I always told them that you couldn't change the material for system families.  But it looks like the game has changed when it comes to materials.  You can apply a specific rendering material that is different from the physical material.
• Ability to Specify a System When Placing a Duct or Pipe.  Another game changer.  You know have the ability to specify a "system" on a duct or pipe without attaching it to a fixture or equipment.  When inserting a duct or pipe, a new System Type parameter is available in the properties palette.
• Create Duct and Pipe Systems from a Selection of Fixtures.  When you create a system from a fixture or equipment, it is now possible to select a system type and a system name for the system and start in the system editor right away.  In the past, you had to first create the system, then go to the system editor to edit the system.  It took multiple steps, when now it's all in one step and much faster to do with less mouse clicks to do the same thing.
• Graphical Warnings for Analyzing and Validating Duct and Pipe Systems.  This is a feature that AutoCAD MEP has had for years.  It's a toggle on/off that can show system disconnects with a warning marker.
• Turning off System Calculations.    When I first read this, I thought to myself, "That's not new."  But now you can turn off a particular system, rather than turning off all calculations.  There is a new parameter on the system type properties to limit or turn off system calculations.
• System Connector Labels.  This is nice.  In the past, you had to hover over a connector and wait to see what type of connector you were dealing with.  Now you can identify the properties of a connector from the leader and a label showing the system type, size, flow, direction, and fixture units. 
• Modify Systems while Adding Duct or Pipe.    This will save a lot of time too.  You can modify the system of fixtures or equipment while laying out duct or pipe instead of ending your command, and opening the system editor, and editing the system of that equipment.  So for example, if you connect an unassigned return grille to a return duct system, it will automatically place that grille on the return duct system, rather than having to edit the return system, and add the grille manually.
• Ability to Create Interconnected Systems.   You can now connect systems that use different system types.  For example, vent and sanitary systems may now be connected.  In the past, as soon as you connected a vent sub-system to a sanitary system, the vent system changed to sanitary and your override filters that showed the linetypes of the two different systems all changed to one linetype in your drawings, thus not showing any venting on your project.  Very bad.  So workarounds were developed to evercome this.  But you no longer need to use those workarounds now that we can interconnect systems, and they stay separated.
• Create Duct or Pipe Placeholder Elements.   Placeholder objects are ducts and pipes that can be used early in the design stage to indicate the approximate location of a duct or pipe run, or to show a layout that hasn’t been fully sized and you do not want to show the ducts or pipes as double line geometry. You are able to create a duct or pipe placeholder layout path. The placeholder layout path is a simplified duct or pipe without fittings. These objects allow for easy creation, modification, and future conversion to the more detailed ducts or pipe layouts currently available. The workflow is that you create placeholder layout path, modify the layout path, and then converts to the real two-line duct or pipe layout. In the past, the automatic layout path that Revit created was useless.  And editing the path was more work than just manually drawing pipe or duct.  I can't imagine that the automatic layout path tool got any better, but I can imagine that modifying the layout path that was generated has improved.  The jury will be out on the benefit of this feature, as it gets used in real world applications.
• Parallel Conduits and Parallel Pipe Runs.  You can now create new conduit runs or pipe runs parallel with the existing conduit or pipe run.  The key to this feature is that you draw one baseline run, and then run the parallel runs afterwards to match the first run.  There will be two options for the fittings.  Either the same bend radius or concentric bend radius.
• Insulation and Lining.  In the past, the best way to add insulation and lining was to create a pipe/duct schedule, and create columns to show different systems, and add insulation and lining through a schedule.  That still might be the best way, but now you cn add insulation to an entire duct or pipe run with a single command.  Before, you could only do it to one piece. 
• Interference Check for duct/pipe Insulation.  A new option in the Run Interference Check is Duct insulation and pipe insulation.  In the past, you could only run interference checks on the pipe or duct objects themselves.  And if you wanted to check if the insulation would interfere, you had to draw pipe/duct by not the actual size, but by the size that included the insulation without insulation.
• Panel Schedules.  You can now choose to display panel schedule totals in either current or load values.  Previously it was only load values.  You can also change the way that multi-poled circuits are displayed in the panel schedule.  There is a new toggle to wither merge 2 or 3 pole circuits into a single thicker cell, or leave them as 2 or 3 separate cells.  There a new feature to show the number of slots from the equiment instead of a setting.  You can also now control various capitalization options for a circuit's load name.  And finally, you now have the ability to display connected load classifications in the panel schedule.  For any load classification used by a load connected to the circuit, the connected load classification can show in the properties palette for an electrical circuit.

While there are a ton of new enhancements to make Revit MEP 2012 better than before, they haven't solved every wishlist item we've been asking for.  Some tools take years to develop and to work correctly in a final release.  Autodesk won't release a new feature if it hasn't been tested internally or by the beta users and works flawlessly.  Sometimes new features are introduced in segments, where you'll only see a portion of what the final feature will look like in years to come.  The developers can't create the world in 6 days like someone I know, but it's a process. 

I hope you learned something new by this post, and I look forward to this new release.

The New “Revit Server”

Link to AECbytes "Revit’s New Server Extension" Article (September 28, 2010) by Lachmi Khemlani.  Lachmi Khemlani is founder and editor of AECbytes. She has a Ph.D. in Architecture from UC Berkeley, specializing in intelligent building modeling, and consults and writes on AEC technology. She can be reached at lachmi@aecbytes.com.

The Autodesk® Revit® Server Extension helps geographically dispersed teams more easily collaborate on projects of varying size and complexity. Web-based services help keep teams coordinated as they work on a single project from separate locations.

The Autodesk Revit Server Extension helps you to:

• Work more effectively as a single project team over a distributed wide area network (WAN) with higher performance and efficiency
• Maintain a seamlessly integrated collection of Revit central models on a single server that team members can access from local servers
• Easily manage products on Revit central server using the web-based Revit Server Administrator tools
• Benefit from built-in redundancy in case of WAN connectivity loss

This Subscription Advantage Pack consists of two separate components: an application update, Revit 2011 SAP, and a server component, called Revit Server 2011. An installation of Revit Server may function as a local server or a central server. However this document does not draw any distinction between the two, as the installation and removal requirements are essentially the same for both.

Revit Server 2011

Systems hosting Revit Server 2011 must have:

• Microsoft Windows Server^® 2008, 64 bit (not 2008 R2)
• Microsoft IIS 7.0
• Microsoft .NET 3.5 SP1

Refer to the Revit Sever Installation Guide supplemental documentation for more detail on system prerequisites.

Revit’s New Server Extension 2011 Video

Troubleshooting Revit MEP

A 20 minute video from Autodesk's Harlan Brumm and Jerry Lee Smith covering:

Overview of the Revit MEP Workflow

• Create new project using MEP template
• Save Arch model as central file on server
• Link in models using origin-to-origin
• setting links to be room bounding
• copy/monitor levels
• Setting up views and apply view templates to views
• create levels to account for plenum spaces

Troubleshooting Spaces and Zones

• space not visible in view
• rooms are "unoccupied"

Troubleshooting Revit MEP Performance

• Not following workflow
• not creating logical systems
• large connected duct networks
• complicated families
• poorly connected elements
• Limit color schemes
• place endcaps on open ducts
• ensure flow direction on connectors is correct

Don't Go Half Way Using Revit MEP - Creating Systems is a Must

I just got done verifying an process that I've heard mixed issues that result if your workflow process is not correct when using Revit MEP. And it's great news in my opinion.

When you place plumbing fixtures in your Revit Model, it is placed in the Default System.

You can connect multiple plumbing fixtures to each other with pipe, and get all the wonderful flow information - all without adding those fixtures to a specific system that you create. If you select the pipe and look at it's Instant Properties, you can not only see the flow going through those pipes, but you can see that it has a "System TYPE" of Domestic Cold Water and a "System NAME" of Default Domestic Cold Water. Make sure not to confuse the two.




The default View Filter displays System Types of Domestic Cold Water in a blue color. So everything looks good, but there is a limitation of how many plumbing fixtures you can connect to each other that are put on the Default System Name. And that limitation is 50 fixtures.



Below is a thread from Jason Martin at Autodesk explaining the history of this Warning further:

One of the things that is most expensive in the “calculation process” is maintaining the “pressure losses” in sections of a duct or pipe system. To do yhis we divide any connected system into sections at any junction or size change in the system (there are additional reasons for a section to be created, like a resistance change, and I’m sure a few others). For each of the sections we track things like pressure loss, static pressure etc. Maintaining these types of calculations for relatively small sets of elements is relatively inexpensive compared to the time it takes to do things like actually move the things. In systems with thousands of elements, however, these calculations became exponentially more expensive as the element counts increase. We decided at that point that when there are more than a set number of “system assignable-1” elements assigned to a system that we would turn off these types of calculations. After quite a few rounds of testing (as well as some arguing) we decided that a “tolerable” number of elements to turn off these “complex” calculations at was 50. So, now, as soon as the number of elements in a system goes above 50 you’ll get an error message that says something like:

“The default system "Default Supply Air" is now over 50 elements. To improve performance, Revit is no longer calculating the critical path pressure drop and the more complex duct sizing has been disabled. If you want to use these features, you must define logical systems in the model instead of using the default system.”

If you receive this error message it doesn’t have anything to do with things not updating in elevations / sections, and it doesn’t make the application automatically disconnect things. In versions prior to 2009 WU3 (or whichever one it was) it was very true that creating systems improved performance “massively”. Since the introduction of the “50 element” rule, it isn’t as significant as it once was.

For other “performance” things, it really, really, really depends. In 2010 a significant portion of effort was spent on improving the performance of what we referred to as “model manipulation”. This includes things like dragging, connecting, moving, sizing (either with sizing tools or just changing the size), and deleting items like pipe, duct and fittings. As a few others have mentioned here, “model manipulation” in 2010 is significantly faster than it was in previous releases.

If you are moving a connected duct / pipe / fitting - our internal testing has shown that it is actually “slightly” faster to not have systems defined than it is to have systems defined. If you are making new connections between things - our internal testing has shown that it is actually “slightly” faster to have systems defined than it is to not have them defined. If you are changing the flow of elements in the system (like air terminals) - it is “slightly” faster to have systems defined than it is to not have them defined. If you are creating systems - it is significantly faster to create them before things are connected with ducts and pipes.

System assignable elements are things like air terminals, mechanical equipment etc. Things that when you select them you see a create system button (or edit system button) but don’t include things like ducts, fittings, pipes, etc.

Once you create your user defined system, you can move your plumbing fixtures to that system and they are moved out of the default system.

Your piping properties will now take on that System Name as well.

With this, you can create piping annotation tags that can be smart and extract the pipe size and the pipe system. Once I connect a tag to that pipe, it will read, 1" CW. And the tag will automatically update and change if I ever make a change to my design. I don't need to worry about the annotation being incorrect. I like to use these piping annotation tags in my "plot" views for my construction documents.

I also use another piping annotation tag that displays fixture units and flow at certain points of my system in my "modeling" views. That way I can make sure my system is connected, and I'm engineering it properly.

I asked Martin Schmid from Autodesk if you could theoretically put every cold water plumbing fixture in a job in one user defined cold water system, and not have a large performance hit. He says there is a trade-off - and that, even though you can put all of your mechanical fixtures in a user defined system name, the more connections and fittings you have, the longer the calculation time for edits done to the system or its layout. But it's not as bad as when you are using the default system name. Martin tells me that 2010 is faster than 2009 in this process. And you won't notice hardly in smaller jobs.

Another workflow process is that you could break up your systems into CW1 and CW2 and CW3, etc... one for each riser in a particular area. But who wants to have a system name CW4? So you will need to decide if you want to break up your systems, or depending on your project size, computer speed, OS and patience, put all of your fixtures in one user defined system.

Which brings me to the name of the article, Don't Go Half Way. I hear a lot of firms that just want to model certain parts of the building in Revit, and do 2D for the other in AutoCAD. Or they want to just create a 3D model, and not use the flow calculation tools that Revit has. But there are a lot of things going on in the program that if you're not aware of, you run into these limitations such at connecting 50 elements to a default system and you end up creating more headaches than you thought you were going to avoid by taking shortcuts. So go the extra step and create the systems and use them to your advantage. You can save so much more time accepting the full Revit process the way it is supposed to be used, than trying to come up with workarounds and unproven processes of how Revit is not supposed to be used.

AUTODESK REVIT MEP 2010 SUBSCRIPTION RELEASE PACK

User Interface Enhancements
Autodesk® Revit® MEP 2010 software includes enhancements to the user interface, as described in the following topics.

Temporary Dimensions in Layout Mode
When editing duct and piping systems in Generate Layout mode, temporary length and angle dimensions display to assist placement.

DWG Export
When you export a file, you can specify whether to export colors as Index Color or as True Color. See Colors in the User Guide for more information.

Text Formatting Shortcuts
When editing text in a text note, you can format selected text by pressing Ctrl+B for bold, Ctrl+I for italic, or Ctrl+U for underline. See Adding Text Notes and Editing the Text Note in the User Guide for more information.

Split Walls with Defined Space Between Them
The Split with Gap tool allows walls to be split leaving a specified gap between them. See Splitting Elements in the User Guide for more information.

Keyboard Shortcuts
In this release, Revit MEP provides a new interface for managing keyboard shortcuts for Revit tools. With this interface, you can

• Add keyboard shortcuts and assign multiple shortcuts for each Revit tool.
• Remove keyboard shortcuts.
• Import keyboard shortcuts from another user. Also use this function to migrate shortcuts from a previous release.
• Export keyboard shortcuts to share them with other users, or to use the resulting file in a spreadsheet program, where you can sort, organize, and print a list of shortcuts for quick reference.
  See Keyboard Shortcuts in the User Guide for more information.

Find and Replace Text in Text Notes
The Find/Replace tool provides a way to find and replace text in text notes in Revit MEP projects. This tool also searches the text in detail groups. You can use this tool to replace placeholder text on several sheets at once. See Finding and Replacing Text Notes in the User Guide for more information.

Convert Line Types
Sometimes the line type in your Revit MEP model is not the type you want to work with. The Convert Lines tool converts existing model lines, detail lines and symbolic lines into the preferred line type. See Converting Line Types in the User Guide for more information.

Performance

Several areas of improvements were made in the Subscription Release Pack for Autodesk Revit MEP 2010, including areas such as linked files.

Documentation
For this release, the following enhancements have been made to the Help documentation:

• Walls: This documentation has been revised to improve its organization and provide more conceptual and procedural information.
• Curtain Elements: This documentation has been revised to improve organization and workflow.
• Multi-Discipline Coordination: This section has been greatly enhanced to provide more conceptual, workflow, and procedural information, as well as best practices and troubleshooting about use of the Copy/Monitor and Coordination Review tools.
• Troubleshooting View and Visibility Issues: This new section discusses best practices and suggested solutions for problems with display, view, and visibility.

NVIDIA further refines its graphics cards for Revit, NavisWorks, and BIM

NVIDIA further refines its graphics cards:

NVIDIA further refines its graphics cards

Oct 1 2009 12:17PM

By Jeff Yoders


NVIDIA released its 10th generation of professional graphics cards earlier this year. I was given a test NVIDIA Quadro FX 1800 with the HP Z600 workstation for a test drive earlier this year. Here’s a more detailed look at the Quadro FX 1800, a mid-range professional graphics card that would be a good fit for any architecture or engineering firm looking to upgrade its graphics cards with or without new hardware.

The Quadro FX1800 has 756 megabytes of onboard memory, two digital display iutputs, and one DVI output, all in a PCI Express interface. The card does not require a separate power connector from your computer’s power supply. While the Quadro FX1800 is listed as a top mid-level card, it’s really the minimum anyone doing heavy CAD or using even the most basic BIM programs should have. Only NVIDIA itself manufactures the Quadro line, so the company can guarantee quality and performance. (Its GeForce consumer line of cards has much more tolerant production specifications and therefore can be outsourced to other manufacturers around the world.) All Quadro cards are certified to run on Windows, Linux, and Mac OS.

Thanks to its partnerships with software manufacturers such as Autodesk and Adobe, NVIDIA makes sure that every Quadro card passes minimum requirementsbefore shipping. Working with AutoCAD 2010, Revit, and Navisworks Manage 2010, my Quadro FX 1800 was ready to use upon installation with the latest Autodesk drivers and also optimized to take more of the workload off my test machine’s processors. The NVIDA Application Configuration Engine, included with every Quadro card, automatically adjusts graphics settings for optimized application performance from the start, eliminating the need to manually adjust settings for different applications.

I noticed the 50% more graphics memory that the Quadro FX1800 boasts over the last generation of NVIDIA cards for interactive visualization of large assemblies and scenes. (The Quadro FX 1500 was used in the HP xw4600 I tested last year.) One test of performance was done by opening multiple large models created in both Revit and AutoCAD. The graphics card was able to significantly speed up the process of opening and viewing the large files. The test took about twice as long on the older machine.

The NVIDIA Quadro FX 1800, easily removed from my PC with no tools.

One welcome improvement in the card’s interaction with AutoCAD 2010 is higher image quality with AutoCAD Smooth Lines. Any card can render a generic line, but will it produce the smooth, high-quality lines that AutoCAD demands? Usually not. That used to lead to only two choices: sacrifice line quality for the sake of performance, or fall back to software rendering and live with the inevitable drop in frame rate. Professional-class cards like the Quadro FX 1800 integrate a fast hardware engine specifically designed to draw AutoCAD-style smooth lines. The aesthetic lines we drew had the desired level of detail with no drop in frame rate, thanks to the card’s processing power.

The Quadro FX 1800 is an excellent solution for any AEC firm looking to upgrade. The out-of-the-box optimization and GPU acceleration for software partners is a huge timesaver for IT departments, too. More than half of NVIDIA’s engineers are actually software engineers, so years of work actually went into making the Quadro FX 1800 this easy to use.

The Quadro FX 1800 is a mid-level graphics card optimized to perform with today's most popular design programs, including SolidWorks and AutoCAD.

Residential HVAC Load Calculation Extension

The Residential HVAC Load Calculation Extension software system is a residential and light commercial HVAC load calculation software package based upon the ASHRAE 2001 Fundamentals algorithms (Chapter 28). This program is geared specifically toward the design/build mechanical contractor, design mechanical engineer, and architects.

The purpose of this software is to provide the user with total cooling and heating loads for a building so that they may properly specify the correct size HVAC equipment (whether it is a packaged rooftop unit or a boiler).

Engineers will be able to size HVAC systems for residential and light commercial projects from any model that can import and export a gbXML file.

This Extension is available on Subscription, only.

Revit Analogy to Reverse Notation Calculators

Reverse notation calculator is a mathematical notation where every operator follows all of its operands. It is also known as Postfix notation and is parenthesis-free.

The Reverse notation scheme was proposed in the early 1960s to reduce computer memory access and utilize the stack to evaluate expressions. The notation and algorithms for this scheme were enriched by Australian philosopher and computer scientist Charles Hamblin in the mid-1960s.

In Reverse notation, the operators follow their operands; for instance, to add three and four, you would write "3 4 +" rather than "3 + 4". If there are multiple operations, the operator is given immediately after its second operand; so the expression written "3 − 4 + 5" in conventional infix notation would be written "3 4 − 5 +" in Reverse notation: first subtract 4 from 3, then add 5 to that. An advantage of Reverse notation is that it obviates the need for parentheses that are required by infix. While "3 − 4 * 5" can also be written "3 − (4 * 5)", that means something quite different from "(3 − 4) * 5", and only the parentheses disambiguate the two meanings. In postfix, the former would be written "3 4 5 * −", which unambiguously means "3 (4 5 *) −".

Interpreters of Reverse notation are often stack-based; that is, operands are pushed onto a stack, and when an operation is performed, its operands are popped from a stack and its result pushed back on. Therefore, Stacks (or Reverse notation), have the advantage of being easy to implement and very fast.

Back in college, I forgot my calculator for a calculus exam. My professor said I could borrow his. He warned me that it was a reverse notation calculator. I didn't know what that meant, and thought a calculator is a calculator. Well, it didn't take long for me to find out that I was dealing with a whole other animal. I couldn't add 1 + 1 with this thing, much less the complex equations I needed it for this exam. Panicing, and embarrased that I didn't know how to use his "calculator", I had to get up again and ask him some questions on how to use it. I already felt I was being needy for using his calculator, and having to ask him how to use it made me feel even more needy. He was very generous, and gave me a quick 5 minute lesson on how it worked. I went back to my desk, and slowly got through my exam. I ended up running out of time because of the learning curve of using the new calculator. But at the end, I was realizing the potential of what this type of calculator had over my conventional calculator. I ran to the bookstore, and bought this new "Reverse Notation" calculator by HP. I became faster at using it, and I was eventually able to do my homework a lot faster, and my grades in calculus got a lot better. Then the day came, when a friend of mine asked if he could borrow my calculator. I smiled, and said sure, but warned him it was reverse notation. He just say ya, ya, it's a calculator... I know how to use a calculator. So I handed it to him, and watched with a smile as he attemped to add and subtract like he did on his calculator. He shortly gave up, and gave it back to me, frustrated that he couldn't use it, and told me it was broke. I tried to explain how it worked, and the benifits he would get out of it, but he just turned around and asked the guy on the other side if he could borrow his "normal" calculator. These are the same struggles people today are having using a Revit technology software package. Some people are willing to make the change and see the benefits. It's difficult to describe the benefits of a reverse notation calculator, but once you use it, it becomes apparent. It's the same with Revit.

Comparing Revit to AutoCAD is similar to comparing Reverse Notation calculator to a traditional calculator. They both can get you similar results, but getting there is totally different. Revit is purposed based to be advantageous for model building, and has tools in it built to make modeling faster and easier than traditional AutoCAD.

When handed a Reverse notation calculator (Revit), you might say that you know how to use a "calculator" (CAD). But when you try to add 3 + 4 like you did in your traditional calculator (AutoCAD), you won't get the same results, and it can be frustrating.

You might also say that on the surface, they both look the same, and can do similar things, so why would I want to use this other calculator (Revit software)? Because its when you get to the more complex stacked based operands that you really see the advantages of the reverse notation. It's the same with Revit, where you really see the advantages of the parametric relationships of the model.

People who learn how to use a Reverse notation calculator can enter more complex calculations, and can enter those calculations in faster. People who learn how to use this type of calculator never go back to using a traditional calculator. The same can be said about Revit. Those who learn how to use Revit, never go ack to using traditional AutoCAD.

An example of this is my friend Todd Shackelford, writer of the Lazy Drafter Blog, just recently shut down his AutoCAD blog because he doesn't use AutoCAD anymore. A trend that is becoming more familiar. He is concentrating on his other blog, CAD Shack which is dedicated to Revit and BIM processes. Another trend that is becoming more familiar.

So when you do start using a Revit based program, and it seems complicated, don't say, "well, this is stupid. I can do this in AutoCAD." Because in short, you are probably right, you can. But once you learn how to do it correctly in Revit, you will be able to do it faster and easier than you could in AutoCAD.

Revit 64-Bit Benchmark Results by Jason Grant

Jason Grant has a blog of his Benchmark results comparing 32-bit vs. 64-bit Revit software.

"Before the 64-Bit was even released I was just finishing up a benchmark
program that was very difficult and taxing on RAM and processor. We were trying
to figure out what laptop would be best for our Revit users. Since the 64-Bit
has been released I have now run it and was shocked at the improvement. On
another note, I was let down that the SP2 for 2009 was actually slower then the
WU1 but that quickly disappeared when I heard about the 64-Bit version. "

Click here to see his results:

Revit® MEP 2009 Software Optimization and Best Practices

White Paper From Autodesk

View Performance
The largest impact on View manipulation performance (scroll, pan, zoom operations) is the Model Graphics Style settings. The Hidden Line Style, due to the requirement to dynamically generate gaps and hidden lines when elements overlap in the View, requires the most processing and thus results in a noticeable performance impact in Views with many visible Elements. The following best practices will help to mitigate this performance impact and streamline project workflows.

Modeling and Sheet Views
In order to streamline project workflow, it is recommended to create both Modeling and Sheet Views for the same regions of the building.
Follow these guidelines

• Modeling Views should be configured to utilize the Wireframe Model Graphics Style.
• Sheet Views should be configured to utilize the Hidden Line Model Graphics Style to produce the desired appearance for Construction Documentation.
• Use Dependent Views for your Sheet Views. This allows you to have multiple regions of an overall Level in different views, while not requiring duplicate Annotations.
• Differentiate Modeling Views from Sheet both in View Name and Sub-Discipline, as see to the right in Figure 1. This will provide a logical organization of the view for users, and help to ensure proper usage.
• Utilize View Templates to streamline the creation of these Views and achieve consistency.
• Utilize Duct and Pipe Color Fills only in your Modeling Views, where the Wireframe Model Graphics Style is used.

Figure 1 - Modeling and Sheet Views

Optimizing Hidden Line Performance
Performance in Views with the Hidden Line Model Graphics Style enabled is directly related to the number of Faces displayed in the View. While Elements appear as 2D Lines in a Revit View, they are 3D Objects made up of faces in the model. It is those faces that are processed Revit by the Revit graphics system and show up in the View as 2D Lines. Use the following best practices to optimize the performance of your Views with the Hidden Line Model Graphics Style enabled.

• Avoid using Fine detail level when working in mechanical views if not necessary, as this displays Pipes as 1-Line Medium detail level is useful for Views working with HVAC systems.
• If using complex 3D Components in your Building Service designs, turn off the visibility of the complex 3D geometry in your Sheet Views. In place of the complex 3D geometry, utilize Model Lines that convey the overall component shape in the Family definition. Make those Model Lines visible in the Detail Level defined in your Sheet Views.
• If not necessary for documentation of working on a View, set the Inside and Outside Gap settings for Hidden Lines to 0, as seen on the right in Figure 2. This can provide substantial performance improvements.

Figure 2 - Turning Off Hidden Line Gaps

Model Manipulation Performance
Revit MEP allows users to create models of Building Services, often in the form of large connected networks. The powerful analytical capabilities of Revit MEP, in conjunction with the Revit Parametric Change Engine, allow data to flow throughout the connected network when manipulations are made.

Improper structure and configuration of large connected networks has been shown to have a severe impact on model manipulation performance. In comparative testing, models have been shown to perform up to perform significantly better when structured properly.

As a connected network grows, the performance of model manipulations (moving Elements, changing Flows, connecting new Elements, etc.) is impacted by a number of factors. Understanding these factors, and adhering to the Best Practices outlined below, will allow for optimal model performance.

Create Systems

Create logical Systems for your connected networks, rather than leaving all Elements on the "Default System". Associating Elements into Systems helps to streamline data propagation and facilitates the analytical uses of Systems like Pressure Drop calculations.

Testing of customer models with all elements on the Default System showed significant improvements when the connected network was re-structured as logical Systems.

Set Correct Connector Flow Directions

Ensure that the Flow Direction Parameter for Connectors on Families in the connected network is not set to Bidirectional unless the Family is placed in-line with connected networks like Dampers and Valves. This can make flow determination more difficult and thus impact regeneration performance.

Create Strategic Breaks and/or Use Multiple Files

While maintaining the entire design for a building service in one well connected model allows for full data propagation, the size of the connected network is directly related to its manipulation performance. Testing has shown a linear decrease in manipulation performance as a connected network size grows. The rate of decrease is directly related to the topics mentioned in this section. As the performance of connected networks decreases with larger size, the benefits of data propagation and connectivity are overcome by the need for better model manipulation performance. Thus, for large projects it is a best practice to employ one or both of the following strategies to ensure productive manipulations of your connected networks.

• Strategic Breaks - Creating disconnections in a connected network stops data propagation during model manipulations, as well as the constraints engine that maintains connections. Product Team testing has determined that strategic breaks in a connected network produces the most significant improvements in model manipulation performance. The recommended practice for this strategy is to create disconnections at logical sections of the connected network. For example, in a VAV air distribution system, create disconnections at the upstream connection point on the VAV box. This allows the VAV flow to still be calculated based upon the downstream Air Terminals. A Duct System Schedule can then be used to manually coordinate flow at the Air Handler or Package Unit. The most efficient way to accomplish such a disconnect, while still maintaining proper appearance for documentation, is to model the upstream element without connecting to the VAV and then using the Align tool to locate the end of the Duct at the same location as the VAV connection. To download a video showing this procedure, click here.
• Multiple Files - For large, complex buildings, using strategic breaks as well as the aforementioned best practices may still not provide optimum model manipulation performance. In these cases, the model should be built across multiple Revit Project files. There are two fundamental ways to structure the MEP project files, by MEP discipline and by region of the building. Both of these approaches have their benefits and drawbacks, and ultimately it is the choice of the BIM/CAD Manager.
• By Discipline This strategy creates separate Project files for each MEP discipline, such as a Mechanical, Electrical, Plumbing, Fire Protection files.
• By Region This strategy creates separate Project files for different regions of the building, keeping all disciplines in each file.

In order to achieve optimal coordination between the MEP disciplines, each discipline must be within the same Revit Project file. This allows disciplines to connect to each other’s elements directly, like electrical connections or drain connections on mechanical equipment. Additionally, Product Team testing has shown that separate connected networks do not have a significant impact on each other; a duct network does not have a significant impact on model manipulation of a plumbing network in the same Project file. With these considerations in mind, it may be helpful to structure large projects by region of the building.

Simplify the Display of Architectural Elements
Simplifying the display of architectural elements may help improve performance by reducing the visible elements that must be generated and maintained within the view. This may be done by overriding the Detail Level in the view.

For example, the Coarse Detail Level may be applied to walls even when the view is configured to use Medium or Fine (refer to figures below). In the Visibility / Graphics Overrides for the view, set the detail level of the appropriate components to the simplest level acceptable.

These settings may be configured in view templates and applied to your views to quickly simplify the detail level throughout your project.

Figure 3: Wall with medium detail level in medium detail view.

Figure 4: Coarse detail overrides for architectural elements.

Figure 5: Wall with coarse detail level in medium detail view.

Virtual Memory Management

A critical factor in the speed and performance of your computer is the amount of Random Access Memory (RAM) that is installed. Even a computer with a fast CPU can run slowly without the proper amount of RAM.

When it comes to evaluating the amount of computer memory needed for you to work effectively, you must balance cost and speed. As a result, different types of computer memory are used for different purposes. For example, a hard drive is a slow but inexpensive type of memory. So hard drive memory is ideal for storing massive amounts of program data and information that is not frequently accessed. RAM is a fast and expensive type of memory used to store program information for applications (or processes) that are being run.

In some cases, it is possible that the RAM on your system could be completely utilized. When this happens, the lower priority information stored in RAM is moved to the slower hard drive space (page file space) to create more space in RAM for higher priority information. This process of shuffling data back and forth in order to free up RAM is called paging and this method of managing RAM is referred to as Virtual Memory (VM). VM is measured by combining RAM and page file space.

Using VM is faster than storing information on a hard drive, but it is slower than using physical RAM. The more RAM that is installed on a computer, the less likely it is that VM will be used.

Verify Page File Space Settings

To verify page file space settings

1. On the Start menu, click Settings > Control Panel.
2. In Control Panel, double-click System.
3. In the System Properties dialog box, click the Advanced tab.
   
   
   
   
4. On the Advanced tab, under Performance, click Settings.
5. In the Performance Options dialog box, click the Advanced tab.
6. On the Advanced tab, under Virtual Memory, click Change.
7. In the Virtual Memory dialog box, change the Initial and Max values to 4092.
   
   
   
   
8. Click Set.
9. Click OK to close each dialog box.

Will Your Computer Benefit from Additional RAM?

1. While working in Revit, right-click on the Windows Task Bar at the bottom of the screen. Click Task Manager.
2. On the Performance tab, under Commit Charge, look at the Peak Number.
   
   

This represents the peak amount of RAM that was used since last rebooting your machine (in kilobytes). If this number is higher than the total physical RAM on your system, then your system is using all of the installed RAM as well as the page file space. So if you install more RAM, your system will run faster.

Performance checks should be repeated periodically.

Does Revit need more RAM?

1. Open your Revit project and minimize the Revit session.
2. Right-click on the Windows Task Bar at the bottom of the screen. Click Task Manager.
3. In the Windows Task Manager, click on the Processes tab.
4. If the VM Size column is not displayed on the Processes tab, click Select Columns on the View menu.
5. In the Select Columns dialog box, select the Virtual Memory Size check box. Click OK.
   
   
   
   
6. Sort the processes by clicking on the VM Size column header. Locate the Revit process.
   
   

Compare the Revit VM Size to the amount of physical RAM on the computer. If the Revit VM Size is less than the amount of physical RAM on the computer, adding more RAM may (or may not) be beneficial. However, if the Revit VM Size is 1.5GB or it exceeds the amount of physical RAM on the computer, then adding more memory will improve Revit performance.

Conclusion

Installing additional RAM might help some users increase their productivity while using Revit, but in most cases the Revit system requirements are sufficient.

For more information on installing additional RAM, contact your IT person or hardware distributor.

Revit MEP Building Performance Analysis White Paper

A new white paper concerning some critical concepts and procedures for generating a valid building performance analysis (BPE) in Revit MEP 2008 has been posted to the Autodesk web site. You can download it here:

BPE Analysis White Paper

I strongly recommend that if you are an MEP engineer considering or using Revit MEP or if you are an architect who works with one who is, that you download and read it - it's a quick read, but full of good information!

Enabling the 3 GB Feature

Memory Usage
You can perform certain actions to decrease the possibility of instability in Revit Systems due to operating system memory usage.

To ensure stability, you can:

• Restart Revit Systems regularly.
• If you receive a message that your current session's memory usage is approaching the operating system limit, it is recommended that you save your work as soon as possible and restart Revit Systems. If you are using a workshared environment, it is recommended that you save your local file, restart Revit Systems, and then save to central.
  
• Enable the 3 GB feature on your Windows® operating system to improve performance.
• Run on a Windows 64-bit operating system.
• Reduce the number of loaded DWG and RVT links.
• Reduce the number of loaded RVT and RFA files.
• Limit the number of views open. If you have multiple views open, you can quickly close all hidden views by clicking Window menu ➤ Close Hidden Windows.
  

Enabling the 3 GB Feature

Typically, Microsoft Windows® reserves 2 GB of the 4 GB virtual address space of any process for the operating system and leaves the remaining 2 GB for the application process (including the space for the code pages, the stack, and all dynamically allocated memory). The 3 GB feature divides the memory space differently, providing 3 GB for the application and 1 GB for the operating system. Before enabling the 3 GB feature, see “3 GB Feature Considerations” at the bottom of this page.

To enable the 3 GB feature:

1. Open the boot.ini file. This file is typically located in C:\boot.ini.
2. Copy the original line, then modify the copied line to add the option (/3GB) and the display string that identifies the boot option.
3. The line to copy and the modified version of the line are shown below. The modified portions of the copied line are in bold.

• multi(0)disk(0)rdisk(0)partition(2)\WINDOWS="Microsoft Windows XP Professional" /fastdetect
• multi(0)disk(0)rdisk(0)partition(2)\WINDOWS="Microsoft Windows XP Professional 3GB" /3GB /fastdetect
  

When you start your computer with the modified boot.ini file, you see the following options to select from:

• Microsoft Windows XP Professional
• Microsoft Windows XP Professional 3GB
  

After you enable the 3 GB feature, you should verify that you have sufficient virtual memory allocated for your purposes.

Verifying Virtual Memory Allocation

1. In Windows XP, click Start ➤ Settings ➤ Control Panel.
2. In the Control Panel, double-click System.
3. In the System Properties dialog, click the Advanced tab.
4. In the Performance field, click Settings.
5. In the Performance Options dialog, click the Advanced tab.
6. In the Virtual Memory field, click Change.
   

Your system should have at least 3 GB set aside for the paging file size to fully utilize the available address space. Every concurrently running application is sharing the available paging file size, so setting to something more than 3 GB (such as 4 GB) is recommended.

3 GB Feature Considerations

■ This feature is only supported on Windows XP SP2.
■ When the 3 GB feature is enabled, your operating system has less memory space. It is not completely clear what implications this may have on Windows XP, so be cautious with regard to the total application load placed on Windows while running in this mode. If you do not require the larger address space, it is recommended that you do not enable this option.
■ At least one graphics card driver version is known not to work with 3 GB. This is ATI Fire GL 8800, driver version 6.12.10.3035. If you experience a crash, restart your computer without the /3GB option and see if upgrading to the latest graphics card driver resolves the issue.