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1. Datasheet
2. Getting Started with the Avalon-MM Cyclone V Hard IP for PCI Express
3. Parameter Settings
4. Interfaces and Signal Descriptions
5. Registers
6. Reset and Clocks
7. Interrupts for Endpoints
8. Error Handling
A. PCI Express Protocol Stack
9. Design Implementation
10. Additional Features
11. Transceiver PHY IP Reconfiguration
12. Debugging
B. Frequently Asked Questions for PCI Express
C. Lane Initialization and Reversal
D. Document Revision History
2.1. Running Platform Designer
2.2. Generating the Example Design
2.3. Running a Gate-Level Simulation
2.4. Simulating the Single DWord Design
2.5. Understanding Channel Placement Guidelines
2.6. Generating Synthesis Files
2.7. Compiling the Design in the Quartus® Prime Software
2.8. Programming a Device
5.1. Correspondence between Configuration Space Registers and the PCIe Specification
5.2. Type 0 Configuration Space Registers
5.3. Type 1 Configuration Space Registers
5.4. PCI Express Capability Structures
5.5. Intel-Defined VSEC Registers
5.6. CvP Registers
5.7. 64- or 128-Bit Avalon-MM Bridge Register Descriptions
5.8. Programming Model for Avalon-MM Root Port
5.9. Uncorrectable Internal Error Mask Register
5.10. Uncorrectable Internal Error Status Register
5.11. Correctable Internal Error Mask Register
5.12. Correctable Internal Error Status Register
5.7.1.1. Avalon-MM to PCI Express Interrupt Status Registers
5.7.1.2. Avalon-MM to PCI Express Interrupt Enable Registers
5.7.1.3. PCI Express Mailbox Registers
5.7.1.4. Avalon-MM-to-PCI Express Address Translation Table
5.7.1.5. PCI Express to Avalon-MM Interrupt Status and Enable Registers for Endpoints
5.7.1.6. Avalon-MM Mailbox Registers
5.7.1.7. Control Register Access (CRA) Avalon-MM Slave Port
A.4.1. Avalon‑MM Bridge TLPs
A.4.2. Avalon-MM-to-PCI Express Write Requests
A.4.3. Avalon-MM-to-PCI Express Upstream Read Requests
A.4.4. PCI Express-to-Avalon-MM Read Completions
A.4.5. PCI Express-to-Avalon-MM Downstream Write Requests
A.4.6. PCI Express-to-Avalon-MM Downstream Read Requests
A.4.7. Avalon-MM-to-PCI Express Read Completions
A.4.8. PCI Express-to-Avalon-MM Address Translation for 32-Bit Bridge
A.4.9. Minimizing BAR Sizes and the PCIe Address Space
A.4.10. Avalon® -MM-to-PCI Express Address Translation Algorithm for 32-Bit Addressing
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9.1. Making Analog QSF Assignments Using the Assignment Editor
You specify the analog parameters using the Quartus® Prime Assignment Editor, the Pin Planner, or through the Quartus® Prime Settings File .(qsf).
Data Rate | VCCR_GXB and VCCT_GXB | VCCA_GXB |
---|---|---|
Cyclone® V GX: Gen1 and Gen2 | 1.1 V | 2.5 V |
Cyclone® V GT: Gen1 and Gen2 | 1.2 V | 2.5 V |
The Quartus® Prime software provides default values for analog parameters. You can change the defaults using the Assignment Editor or the Pin Planner. You can also edit your .qsf directly or by typing commands in the Quartus® Prime Tcl Console.
The following example shows how to change the value of the voltages required:
- On the Assignments menu, select Assignment Editor. The Assignment Editor appears.
- Complete the following steps for each pin requiring the VCCR_GXB and V CCT_GXB voltage:
- Double-click in the Assignment Name column and scroll to the bottom of the available assignments.
- Select VCCR_GXB/VCCT_GXB Voltage.
- In the Value column, select 1_1V from the list.
- Complete the following steps for each pin requiring the VCCA_GXB voltage:
- Double-click in the Assignment Name column and scroll to the bottom of the available assignments.
- Select VCCA_GXB Voltage.
- In the Value column, select 3_0V from the list.
The Quartus® Prime software adds these instance assignments commands to the .qsf file for your project.
You can also enter these commands at the Quartus® Prime Tcl Console. For example, the following command sets the XCVR_VCCR_VCCT_VOLTAGE to 1.0 V for the pin specified:
set_instance_assignment -name XCVR_VCCR_VCCT_VOLTAGE 1_0V to “pin”