Visible to Intel only — GUID: nik1412546834556
Ixiasoft
5.1. Understanding the Design Steps for CvP Initialization Mode
5.2. Understanding the Design Steps for CvP Initialization Mode with the Revision Design Flow
5.3. Understanding the Design Steps for CvP Update Mode
5.4. Bringing Up the Hardware
5.5. CvP Debugging Check List
5.6. Known Issues and Solutions
5.2.1. Downloading and Generating the High Performance Reference Design
5.2.2. Workaround for a Known Issue with Transceiver Reconfiguration Controller IP Core
5.2.3. Creating an Alternate user_led.v File for the Reconfigurable Core Region
5.2.4. Setting up CvP Parameters for CvP Initialization Mode
5.2.5. Creating CvP Revisions of the Core Logic Region Using the CvP Revision Design Flow
5.2.6. Compiling both the Base and cvp_app Revisions in the CvP Revision Design Flow
5.2.7. Splitting the SOF File for the CvP Initialization Mode with the CvP Revision Design Flow
5.3.1. Downloading and Generating the High Performance Reference Design
5.3.2. Workaround for a Known Issue with Transceiver Reconfiguration Controller IP Core
5.3.3. Creating an Alternate user_led.v File for the Reconfigurable Core Region
5.3.4. Setting up CvP Parameters for CvP Update Mode
5.3.5. Creating CvP Revisions of the Core Logic Region Using the CvP Revision Design Flow
5.3.6. Compiling the Design for the CvP Update Mode
5.3.7. Splitting the SOF File for the CvP Update Design Mode
5.3.8. Splitting the SOF File for the CvP Update Mode with the CvP Revision Design Flow
6.3.1. Altera-defined Vendor Specific Capability Header Register
6.3.2. Altera-defined Vendor Specific Header Register
6.3.3. Altera Marker Register
6.3.4. CvP Status Register
6.3.5. CvP Mode Control Register
6.3.6. CvP Data Registers
6.3.7. CvP Programming Control Register
6.3.8. Uncorrectable Internal Error Status Register
6.3.9. Uncorrectable Internal Error Mask Register
6.3.10. Correctable Internal Error Status Register
6.3.11. Correctable Internal Error Mask Register
Visible to Intel only — GUID: nik1412546834556
Ixiasoft
1.1. Benefits of Using CvP
The CvP configuration scheme has the following advantages:
- Reduces system costs by reducing the size of the local flash device used to store the periphery configuration data.
- Improves security for the proprietary core bitstream. CvP ensures that the PCIe host can exclusively access the FPGA core image.
- Enables dynamic core updates without requiring a system power down. CvP allows the FPGA fabric to be updated through the PCIe link without a host reboot or FPGA full chip reinitialization.
- Provides a simpler software model for configuration. A smart host can use the PCIe protocol and the application topology to initialize and update the FPGA fabric.
- Facilitates hardware acceleration.