ALTDQ_DQS2 IP Core User Guide

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ID 683742
Date 5/08/2017
Public
Document Table of Contents
Document Table of Contents x
ALTDQ_DQS2 IP Core User Guide
ALTDQ_DQS2 IP Core User Guide x
ALTDQ_DQS2 Features ALTDQ_DQS2 Device Support Resource Utilization and Performance ALTDQ_DQS2 Parameter Settings ALTDQ_DQS2 Data Paths ALTDQ_DQS2 Ports Dynamic Reconfiguration for ALTDQ_DQS2 Stratix V Design Example Arria V Design Example IP-Generate Command ALTDQ_DQS2 IP Core User Guide Archives Document Revision History
ALTDQ_DQS2 Data Paths x
DQ and DQS Input Path DQ and DQS Output Path
DQ and DQS Input Path x
DQ and DQS Input Paths for Stratix V Devices Data Input Path for Arria V, Cyclone V, and Stratix V Devices Blocks in DQ and DQS Data Input Path
Blocks in DQ and DQS Data Input Path x
DQS Logic Capture DDIO to Read FIFO Path FIFO Control
DQ and DQS Output Path x
DQ and DQS Output Path for Stratix V Devices Blocks in DQ and DQS Output Path DQ and DQS Output Path for Arria V and Cyclone V Devices
ALTDQ_DQS2 Ports x
ALTDQ_DQS2 Data Strobe Ports ALTDQ_DQS2 Data Ports ALTDQ_DQS2 Termination Control Ports ALTDQ_DQS2 PLL and DLL Ports ALTDQ_DQS2 Hard FIFO Ports ALTDQ_DQS2 Dynamic Configuration Ports
Dynamic Reconfiguration for ALTDQ_DQS2 x
I/O Configuration Block Bit Sequence for Arria V GZ and Stratix V Devices DQS Configuration Block Bit Sequence for Arria V GZ and Stratix V Devices I/O Configuration Block Bit Sequence for Arria V and Cyclone V Devices DQS Configuration Block Bit Sequence for Arria V and Cyclone V Devices Example Usage of Dynamic Reconfiguration for ALTDQ_DQS2
Stratix V Design Example x
Instantiating ALTDQ_DQS2 IP Core Instantiating the ALTDLL IP Core Instantiating ALT_OCT IP Core Instantiating Altera PLL Setting Up NativeLink and Simulation Settings Understanding Simulation Results—Stratix V Design Example
Instantiating Altera PLL x
Altera PLL Clock Settings Information
Understanding Simulation Results—Stratix V Design Example x
Dynamic Configuration SDC Walkthrough
Dynamic Configuration x
DQS Write Operation Side Read Operation Side Write Operation DQS Read Operation Simulation Results
DQS Read Operation x
DQS Delay Chain Hard Read FIFO
SDC Walkthrough x
Analyzing Same Edge Transfer Constraining Outgoing DQS Strobe
Arria V Design Example x
Instantiating the ALTDQ_DQS2 IP Core Instantiating the ALTDLL IP Core Instantiating ALT_OCT IP Core Instantiating Altera PLL Setting Up NativeLink and Simulation Settings Understanding Simulation Results—Arria V Design Example
Instantiating Altera PLL x
Altera PLL Clock Settings Information
Understanding Simulation Results—Arria V Design Example x
Dynamic Configuration
Dynamic Configuration x
DQS Write Operation Side Read Operation Side Write Operation DQS Read Operation Simulation Results SDC Walkthrough
DQS Read Operation x
DQS Delay Chain VFIFO, LFIFO, and Read FIFO DQS Enable Control
SDC Walkthrough x
Analyzing Same Edge Transfer Constraining Outgoing DQS Strobe Timing Violation tq_analysis.tcl
IP-Generate Command x
Using IP-Generate Command
ALTDQ_DQS2 IP Core User Guide

DQS Delay Chain

Because the DQS enable block is not applicable for this example design, the dqsenable signal is held at Hi-Z at all time. The dqsbusout signal is the delayed dqsin signal that drives to the dedicated DQS clock network to clock the DQ capture registers, so that data are captured at the center of the eye. If you disable the dynamic configuration feature, you should see a 67.5° phase shift (or 735 ps) between dqsin and dqsbusout, as expected due to the settings in Figure 1. The following figure shows that the phasectrlin signal is held at Hi-Z.

Figure 21. DQS Delay Chain Waveform


However, when you enable the dynamic configuration feature, phasectrlin (which is set via the dqsinputphasesetting port of the DQS configuration) determines the phase applied to the dqsbusout output.

Observe the following waveform. Before dynamic configuration, phasectrlin was set to 2'b00 and the shift between dqsin and dqsbusout is about 245 ps. Meanwhile after performing dynamic configuration, phasectrlin was set to 2'b11 and the shift between dqsin and dqsbusout is about 980 ps. The differences between 2'b11 (135°) and 2'b00 (0°) is 735 ps (67.5°). This is consistent with the settings in Figure 1 .

Figure 22. DQS Delay Chain Waveform


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