IPR-SDRAM/DDR2 Altera, IPR-SDRAM/DDR2 Datasheet - Page 17

IPR-SDRAM/DDR2

Manufacturer Part Number

IPR-SDRAM/DDR2

Description

IP CORE Renewal Of IP-SDRAM/DDR2

Manufacturer

Altera

Type

MegaCorer

Datasheets

1.IP-SDRAMDDR.pdf (106 pages)

2.IPR-SDRAMDDR.pdf (5 pages)

Specifications of IPR-SDRAM/DDR2

Software Application

IP CORE, Memory Controllers, SDRAM

Supported Families

Cyclone, HardCopy, Stratix

Features

Data Mask Signals For Partial Write Operations, Bank Management Architecture

Core Architecture

FPGA

Core Sub-architecture

Cyclone, HardCopy, Stratix

Rohs Compliant

Function

DDR2 SDRAM Controller

License

Renewal License

Lead Free Status / RoHS Status

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Chapter 2: Getting Started

SOPC Builder Design Flow

Edit the PLL

The IP Toolbench-generated example design includes a PLL, which has an input to

output clock ratio of 1:1 and a clock frequency that you entered in IP Toolbench. In

addition, IP Toolbench correctly sets all the phase offsets of all the relevant clock

outputs for your design. You can edit the PLL input clock to make it conform to your

system requirements. If you re-run IP Toolbench, it does not overwrite this PLL, if

you turn off Automatically generate the PLL, so your edits are not lost.

If you turn on Use fed-back clock for resynchronization, IP Toolbench generates a

second PLL—the fed-back PLL. You need not edit the fed-back PLL.

For more information on the PLL, refer to

To edit the example PLL, follow these steps:

1. Choose MegaWizard Plug-In Manager (Tools menu).

2. Select Edit an existing custom megafunction variation and click Next.

3. In your Quartus II project directory, for VHDL choose ddr_pll_<device name>.vhd;

4. Click Next.

5. Edit the PLL parameters in the ALTPLL MegaWizard Plug-In Manager.

For more information on the ALTPLL megafunction, refer to the Quartus II Help or

click Documentation in the ALTPLL MegaWizard Plug-In Manager.

Compile & Perform Timing Analysis

Before the Quartus II software compiles the SOPC Builder design, it runs the IP

Toolbench-generated Tcl constraints script, auto_add_constraints.tcl.

The auto_add_constraints.tcl script calls the add_constraints_for_<variation

name>.tcl script for each variation in your design. The add_constraints_for_<variation

name>.tcl script checks for any previously added constraints specific to that variation,

removes them, and then adds constraints for that variation.

The constraints script analyzes and elaborates your design, to automatically extract

the hierarchy to your variation. To prevent the constraints script analyzing and

elaborating your design, turn on Enable hierarchy control in the wizard, and enter

the correct hierarchy path to your datapath (refer to step

When the constraints script runs, it creates another script,

remove_constraints_for_<variation name>.tcl, which can be used to remove the

constraints from your design.

Click Start Compilation (Processing menu), to run the add constraints scripts,

compile the design, and perform timing analysis.

When the compilation is complete, the Quartus II processing message tab displays the

post-compilation timing analysis results. The results are also written to the <variation

name>_post_summary.txt file in your project directory.

for Verilog HDL choose ddr_pll_<device name>.v.

“PLL Configurations” on page

DDR and DDR2 SDRAM Controller Compiler User Guide

page

2–13).

3–13.

2–7

IPR-SDRAM/DDR2 Altera, IPR-SDRAM/DDR2 Datasheet - Page 17

IPR-SDRAM/DDR2

Specifications of IPR-SDRAM/DDR2

Related parts for IPR-SDRAM/DDR2