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1.1. Partial Reconfiguration Terminology
1.2. Partial Reconfiguration Process Sequence
1.3. Internal Host Partial Reconfiguration
1.4. External Host Partial Reconfiguration
1.5. Partial Reconfiguration Design Flow
1.6. Partial Reconfiguration Design Considerations
1.7. Hierarchical Partial Reconfiguration
1.8. Partial Reconfiguration Design Timing Analysis
1.9. Partial Reconfiguration Design Simulation
1.10. Partial Reconfiguration Design Debugging
1.11. Partial Reconfiguration Security ( Intel® Stratix® 10 Designs)
1.12. PR Bitstream Compression and Encryption ( Intel® Arria® 10 and Intel® Cyclone® 10 GX Designs)
1.13. Avoiding PR Programming Errors
1.14. Exporting a Version-Compatible Compilation Database for PR Designs
1.15. Creating a Partial Reconfiguration Design Revision History
1.5.1. Step 1: Identify Partial Reconfiguration Resources
1.5.2. Step 2: Create Design Partitions
1.5.3. Step 3: Floorplan the Design
1.5.4. Step 4: Add the Partial Reconfiguration Controller Intel® FPGA IP
1.5.5. Step 5: Define Personas
1.5.6. Step 6: Create Revisions for Personas
1.5.7. Step 7: Compile the Base Revision and Export the Static Region
1.5.8. Step 8: Setup PR Implementation Revisions
1.5.9. Step 9: Program the FPGA Device
1.6.1. Partial Reconfiguration Design Guidelines
1.6.2. PR Design Timing Closure Best Practices
1.6.3. PR File Management
1.6.4. Evaluating PR Region Initial Conditions
1.6.5. Creating Wrapper Logic for PR Regions
1.6.6. Creating Freeze Logic for PR Regions
1.6.7. Resetting the PR Region Registers
1.6.8. Promoting Global Signals in a PR Region
1.6.9. Planning Clocks and other Global Routing
1.6.10. Implementing Clock Enable for On-Chip Memories with Initialized Contents
2.1. Internal and External PR Host Configurations
2.2. Partial Reconfiguration Controller Intel® FPGA IP
2.3. Partial Reconfiguration Controller Intel® Arria® 10 /Cyclone 10 FPGA IP
2.4. Partial Reconfiguration External Configuration Controller Intel® FPGA IP
2.5. Partial Reconfiguration Region Controller Intel® FPGA IP
2.6. Avalon® Memory-Mapped Partial Reconfiguration Freeze Bridge IP
2.7. Avalon® Streaming Partial Reconfiguration Freeze Bridge IP
2.8. Generating and Simulating Intel® FPGA IP
2.9. Intel® Quartus® Prime Pro Edition User Guide: Partial Reconfiguration Archive
2.10. Partial Reconfiguration Solutions IP User Guide Revision History
2.3.1. Agent Interface
2.3.2. Reconfiguration Sequence
2.3.3. Interrupt Interface
2.3.4. Parameters
2.3.5. Ports
2.3.6. Timing Specifications
2.3.7. PR Control Block and CRC Block Verilog HDL Manual Instantiation
2.3.8. PR Control Block and CRC Block VHDL Manual Instantiation
2.3.9. PR Control Block Signals
2.3.10. Configuring an External Host for Intel® Arria® 10 or Intel® Cyclone® 10 GX Designs
2.8.1. Specifying the IP Core Parameters and Options ( Intel® Quartus® Prime Pro Edition)
2.8.2. Running the Freeze Bridge Update script
2.8.3. IP Core Generation Output ( Intel® Quartus® Prime Pro Edition)
2.8.4. Intel® Arria® 10 and Intel® Cyclone® 10 GX PR Control Block Simulation Model
2.8.5. Generating the PR Persona Simulation Model
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2.6.1. Parameters
The Avalon® Memory-Mapped Partial Reconfiguration Freeze Bridge IP core supports customization of the following parameters.
Parameter | Values | Description |
---|---|---|
PR region interface Type | Avalon-MM Slave/Avalon-MM Master | Specifies the interface type for interfacing the PR region with the Freeze Bridge. |
Enable Freeze port from PR region | On/Off | Enables the freeze port that freezes all the outputs of each PR region to a known constant value. Freezing prevents the signal receivers in the static region from receiving undefined signals during the partial reconfiguration process. The freeze of a bridge is the logical OR of this signal from the PR region, and the freeze from the PR region controller. |
Enable the bridge to track unfinished transaction | On/Off | Enables the bridge to track unfinished transactions before freezing the Avalon® interface. Turn on this option when there is no custom logic to stop the Avalon® transaction between the PR region and the static region. If you do not need this feature, disable this option to reduce the size of the IP. |
Enabled Avalon® Interface Signal | Yes/No | Enable (Yes) or disable (No) specific optional Freeze Bridge interface ports. |
Address width | <1-64> | Address width in bits. |
Symbol width | <number> | Data symbol width in bits. The symbol width should be 8 for byte-oriented interfaces. |
Number of symbols | <number> | Number of symbols per word. |
Burstcount width | <number> | The width of the burst count in bits. |
Linewrap burst | On/Off | When On, the address for bursts wraps instead of incrementing. With a wrapping burst, when the address reaches a burst boundary, the address wraps back to the previous burst boundary. Consequently, the IP uses only the low order bits for addressing. |
Constant burst behavior | On/Off | When On, memory bursts are constant. |
Burst on burst boundaries only | On/Off | When On, memory bursts are aligned to the address size. |
Maximum pending reads | <number> | The maximum number of pending reads that the slave can queue. |
Maximum pending writes | <number> | The maximum number of pending writes that the slave can queue. |
Fixed read latency (cycles) | <number> | Sets the read latency for fixed-latency slaves. Not useful on interfaces that include the readdatavalid signal. |
Fixed read wait time (cycles) | <number> | For master interfaces that do not use the waitrequest signal. The read wait time indicates the number of cycles before the master responds to a read. The timing is as if the master asserted waitrequest for this number of cycles. |
Fixed write wait time (cycles) | <number> | For master interfaces that do not use the waitrequest signal. The write wait time indicates the number of cycles before the master accepts a write. |
Address type | WORDS/SYMBOLS | Sets slave interface address type to symbols or words. |
Figure 60. Parameter Editor