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Answers to Top FAQs
1. Hyperflex® FPGA Architecture Introduction
2. Hyperflex® Architecture RTL Design Guidelines
3. Compiling Hyperflex® Architecture Designs
4. Design Example Walk-Through
5. Retiming Restrictions and Workarounds
6. Optimization Example
7. Hyperflex® Architecture Porting Guidelines
8. Appendices
9. Hyperflex® Architecture High-Performance Design Handbook Archive
10. Hyperflex® Architecture High-Performance Design Handbook Revision History
2.4.2.1. High-Speed Clock Domains
2.4.2.2. Restructuring Loops
2.4.2.3. Control Signal Backpressure
2.4.2.4. Flow Control with FIFO Status Signals
2.4.2.5. Flow Control with Skid Buffers
2.4.2.6. Read-Modify-Write Memory
2.4.2.7. Counters and Accumulators
2.4.2.8. State Machines
2.4.2.9. Memory
2.4.2.10. DSP Blocks
2.4.2.11. General Logic
2.4.2.12. Modulus and Division
2.4.2.13. Resets
2.4.2.14. Hardware Re-use
2.4.2.15. Algorithmic Requirements
2.4.2.16. FIFOs
2.4.2.17. Ternary Adders
5.2.1. Insufficient Registers
5.2.2. Short Path/Long Path
5.2.3. Fast Forward Limit
5.2.4. Loops
5.2.5. One Critical Chain per Clock Domain
5.2.6. Critical Chains in Related Clock Groups
5.2.7. Complex Critical Chains
5.2.8. Extend to locatable node
5.2.9. Domain Boundary Entry and Domain Boundary Exit
5.2.10. Critical Chains with Dual Clock Memories
5.2.11. Critical Chain Bits and Buses
5.2.12. Delay Lines
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2.1.4. Optimize Sub-Modules
During design optimization, you can isolate the critical path in one or two sub-modules of a large design, and then compile the sub-modules. Compiling part of a design reduces compile time and allows you to focus on optimization of the critical part.