Design Store

Crosspoint Switch Matrices in MAX devices (AN 294 - custom example)  

CategoryDesign Example
NameCrosspoint Switch Matrices in MAX devices (AN 294 - custom example)
DescriptionWith a high level of flexibility, performance, and programmability, you can use crosspoint switches in applications such as digital cross switching, telecommunications, and video broadcasting. Although there are off-theshelf devices available to implement switches, Altera® MAX devices offer more flexibility to customize switches, meeting specific design goals with in-system programmability (ISP).

There are two reference designs described in this application note:
• 16 *16 crosspoint switch
• Customized crosspoint switch

A 16 *16 crosspoint switch is a non-blocking crosspoint switch, allowing you to independently connect each output to any input and any input to be connected to any output. The customized crosspoint switch implements a 4-port bidirectional crosspoint switch. You can connect each bidirectional port to any other port. For example, if the port acts as an output, you can connect it to any one of the other ports that acts as an input. With this customized crosspoint switch, Altera MAX devices offer more flexibility to meet specific goals rather than only implementing a standard nonblocking crosspoint switch.
Operating SystemNone
IP Core
IP CoreHeading
Version1.02
FamilyMAX 10
Device10M08SC
Documentation
DocumentDescription
Crosspoint Switch Matrices in MAX Devices (Application Note 294)Crosspoint Switch Matrices in MAX Devices (Application Note 294)
MAX 10 Device DocumentationMAX 10 device documentation, including the device handbook, device pin-outs, and pin connection guidelines.
Development KitNon Kit Specific MAX 10 Design Examples
Installation Package Download

Note: After downloading the design example, you must prepare the design template. The file you downloaded is of the form of a <project>.par file which contains a compressed version of your design files (similar to a .qar file) and metadata describing the project. The combination of this information is what constitutes a <project>.par file. In releases 16.0 or newer, you can simply double click on the <project>.par file and Quartus will launch that project.

The second means to bring up the project template is through the New Project Wizard (File -> New Project Wizard). After entering the project name and folder on the first panel, the second panel will ask you to specify an empty project or project template. Select project template. You will see a list of Design Templates projects that you have loaded prior as well as various "Baseline Pinout Designs" that contain the pinout and settings for a variety of development kits. If you don't see your design template in the list, click on the link that states install the Design Templates circled below:


Browse to the <project>.par file you downloaded, click next, followed by Finish, and your design template will be installed and displayed in the Project Navigator pane in Quartus.

Note: When a design is stored in the Design Store as a design template, it has been previously regression tested against the stated version of Quartus software. The regression ensures the design template passes analysis/synthesis/fitting/assembly steps in the Quartus design flow.

At the command-line, type the following command:

quartus_sh --platform_install –package <project directory>/AN294_custom_MAX10.par

Once the process completes, then type:

quartus_sh --platform –name AN294_custom_MAX10

Total Downloads6 (From 18 Jul 2016 to 13 Mar 2017)
Quartus II Version Download Quartus II v16.0
VendorAltera


Last updated on July 18, 2016, 11:48 a.m.