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2.1. What's New In This Version
2.2. Partial Reconfiguration Terminology
2.3. Partial Reconfiguration Process Sequence
2.4. Internal Host Partial Reconfiguration
2.5. External Host Partial Reconfiguration
2.6. Partial Reconfiguration Design Flow
2.7. Partial Reconfiguration Design Considerations
2.8. Hierarchical Partial Reconfiguration
2.9. Partial Reconfiguration Design Timing Analysis
2.10. Partial Reconfiguration Design Simulation
2.11. Partial Reconfiguration Design Debugging
2.12. Partial Reconfiguration Security ( Intel® Stratix® 10 Designs)
2.13. PR Bitstream Compression and Encryption ( Intel® Arria® 10 and Intel® Cyclone® 10 GX Designs)
2.14. Avoiding PR Programming Errors
2.15. Exporting a Version-Compatible Compilation Database for PR Designs
2.16. Creating a Partial Reconfiguration Design Revision History
2.6.1. Step 1: Identify Partial Reconfiguration Resources
2.6.2. Step 2: Create Design Partitions
2.6.3. Step 3: Floorplan the Design
2.6.4. Step 4: Add the Partial Reconfiguration Controller Intel® FPGA IP
2.6.5. Step 5: Define Personas
2.6.6. Step 6: Create Revisions for Personas
2.6.7. Step 7: Compile the Base Revision and Export the Static Region
2.6.8. Step 8: Setup PR Implementation Revisions
2.6.9. Step 9: Program the FPGA Device
2.6.9.1. Generating PR Bitstream Files
2.6.9.2. Generating PR Bitstream Files
2.6.9.3. Partial Reconfiguration Bitstream Compatibility Checking
2.6.9.4. Raw Binary Programming File Byte Sequence Transmission Examples
2.6.9.5. Generating a Merged .pmsf File from Multiple .pmsf Files ( Intel® Arria® 10 and Intel® Cyclone® 10 GX Designs)
2.7.1. Partial Reconfiguration Design Guidelines
2.7.2. PR Design Timing Closure Best Practices
2.7.3. PR File Management
2.7.4. Evaluating PR Region Initial Conditions
2.7.5. Creating Wrapper Logic for PR Regions
2.7.6. Creating Freeze Logic for PR Regions
2.7.7. Resetting the PR Region Registers
2.7.8. Promoting Global Signals in a PR Region
2.7.9. Planning Clocks and other Global Routing
2.7.10. Implementing Clock Enable for On-Chip Memories
3.1. Internal and External PR Host Configurations
3.2. Partial Reconfiguration Controller Intel FPGA IP
3.3. Partial Reconfiguration Controller Intel Arria® 10/Cyclone® 10 FPGA IP
3.4. Partial Reconfiguration External Configuration Controller Intel FPGA IP
3.5. Partial Reconfiguration Region Controller Intel® FPGA IP
3.6. Avalon® Memory-Mapped Partial Reconfiguration Freeze Bridge IP
3.7. Avalon® Streaming Partial Reconfiguration Freeze Bridge IP
3.8. Generating and Simulating Intel® FPGA IP
3.9. Intel® Quartus® Prime Pro Edition User Guide: Partial Reconfiguration Archive
3.10. Partial Reconfiguration Solutions IP User Guide Revision History
3.3.1. Agent Interface
3.3.2. Reconfiguration Sequence
3.3.3. Interrupt Interface
3.3.4. Parameters
3.3.5. Ports
3.3.6. Timing Specifications
3.3.7. PR Control Block and CRC Block Verilog HDL Manual Instantiation
3.3.8. PR Control Block and CRC Block VHDL Manual Instantiation
3.3.9. PR Control Block Signals
3.3.10. Configuring an External Host for Intel® Arria® 10 or Intel® Cyclone® 10 GX Designs
3.8.1. Specifying the IP Core Parameters and Options ( Intel® Quartus® Prime Pro Edition)
3.8.2. Running the Freeze Bridge Update script
3.8.3. IP Core Generation Output ( Intel® Quartus® Prime Pro Edition)
3.8.4. Intel® Arria® 10 and Intel® Cyclone® 10 GX PR Control Block Simulation Model
3.8.5. Generating the PR Persona Simulation Model
3.8.6. Secure Device Manager Partial Reconfiguration Simulation Model
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3.3.2. Reconfiguration Sequence
Partial reconfiguration occurs through the Avalon® memory-mapped agent interface in the following sequence:
- Avalon® memory-mapped host component writes 0x01 to IP address offset 0x1 to trigger PR operation.
- Optionally poll the status register until PR Operation in Progress. Not polling results in waitrequest on first word.
- Avalon® memory-mapped host component writes PR bitstream to IP address offset 0x0, until all the PR bitstream writes complete. When enhanced decompression is on, waitrequest activates throughout the PR operation. Ensure that your host can handle waitrequest from the agent interface.
- Avalon® memory-mapped host component reads the data from IP address offset 0x1 to check the status[2:0] value. Optionally, the Avalon® memory-mapped host component reads the status[2:0] of this IP during a PR operation to detect any early failure, for example, PR_ERROR.