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1. Intel® Stratix® 10 Embedded Memory Overview
2. Intel® Stratix® 10 Embedded Memory Architecture and Features
3. Intel® Stratix® 10 Embedded Memory Design Considerations
4. Intel® Stratix® 10 Embedded Memory IP References
5. Intel Stratix 10 Embedded Memory Design Example
6. Intel® Stratix® 10 Embedded Memory User Guide Archives
7. Document Revision History for the Intel® Stratix® 10 Embedded Memory User Guide
2.1. Byte Enable in Intel® Stratix® 10 Embedded Memory Blocks
2.2. Address Clock Enable Support
2.3. Asynchronous Clear and Synchronous Clear
2.4. Memory Blocks Error Correction Code Support
2.5. Force-to-Zero
2.6. Coherent Read Memory
2.7. Freeze Logic
2.8. True Dual Port Dual Clock Emulator
2.9. 'X' Propagation Support in Simulation
2.10. Intel® Stratix® 10 Supported Embedded Memory IPs
2.11. Intel® Stratix® 10 Embedded Memory Clocking Modes
2.12. Intel® Stratix® 10 Embedded Memory Configurations
2.13. Initial Value of Read and Write Address Registers
3.1. Consider the Memory Block Selection
3.2. Consider the Concurrent Read Behavior
3.3. Customize Read-During-Write Behavior
3.4. Consider Power-Up State and Memory Initialization
3.5. Reduce Power Consumption
3.6. Avoid Providing Non-Deterministic Input
3.7. Avoid Changing Clock Signals and Other Control Signals Simultaneously
3.8. Including the Reset Release Intel® FPGA IP in Your Design
4.1.1. Release Information for RAM and ROM Intel® FPGA IPs
4.1.2. RAM: 1-PORT Intel® FPGA IP Parameters
4.1.3. RAM: 2-PORT Intel® FPGA IP Parameters
4.1.4. RAM: 4-PORT Intel® FPGA IP Parameters
4.1.5. ROM: 1-PORT Intel® FPGA IP Parameters
4.1.6. ROM: 2-PORT Intel® FPGA IP Parameters
4.1.7. RAM and ROM Interface Signals
4.1.8. Changing Parameter Settings Manually
4.3.1. Release Information for FIFO Intel® FPGA IP
4.3.2. Configuration Methods
4.3.3. Specifications
4.3.4. FIFO Functional Timing Requirements
4.3.5. SCFIFO ALMOST_EMPTY Functional Timing
4.3.6. FIFO Output Status Flag and Latency
4.3.7. FIFO Metastability Protection and Related Options
4.3.8. FIFO Synchronous Clear and Asynchronous Clear Effect
4.3.9. SCFIFO and DCFIFO Show-Ahead Mode
4.3.10. Different Input and Output Width
4.3.11. DCFIFO Timing Constraint Setting
4.3.12. Coding Example for Manual Instantiation
4.3.13. Design Example
4.3.14. Gray-Code Counter Transfer at the Clock Domain Crossing
4.3.15. Guidelines for Embedded Memory ECC Feature
4.3.16. FIFO Intel® FPGA IP Parameters
4.3.17. Reset Scheme
4.4.1. Release Information for FIFO2 Intel® FPGA IP
4.4.2. Configuration Methods
4.4.3. Fmax Target Measuring Methodology
4.4.4. Performance Considerations
4.4.5. FIFO2 Intel® FPGA IP Features
4.4.6. FIFO2 Intel® FPGA IP Parameters
4.4.7. FIFO2 Intel® FPGA IP Interface Signals
4.4.8. Reset and Clock Schemes
4.5.1. Release Information for Shift Register (RAM-based) Intel® FPGA IP
4.5.2. Shift Register (RAM-based) Intel® FPGA IP Features
4.5.3. Shift Register (RAM-based) Intel® FPGA IP General Description
4.5.4. Shift Register (RAM-based) Intel® FPGA IP Parameter Settings
4.5.5. Shift Register Ports and Parameters Setting
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2.4.2. ECC Parity Flip
The ECC parity flip feature dynamically flips the parity value generated in the encoder of M20K blocks to observe the ECC behavior through simulation.
When the ECC Encoder Bypass (eccencbypass) port is high, the built-in ECC encoder values are XOR-ed with the 8 parity bits through the parity ports to generate a new set of encoder value. When the ECC Encoder Bypass port is low, the encoder generates the parity bits according to the data input during a write process.
The following table shows an example to construct an 8-bit data width for the parity port.
Parity Bit Sequence | ECC Feature | Is the ECC Decoder able to Recognize and Correct the Data Bit? |
---|---|---|
00000001 | Single-error correction | Yes |
00000011 | Double-adjacent-error correction | Yes |
00000111 | Triple-adjacent-error correction | Yes |
00000101 | Triple-adjacent-error correction | Yes |
00010011 | Non-adjacent double/triple correction/detection | No guarantee |