Visible to Intel only — GUID: nzr1535549337490
Ixiasoft
1. Release Information
2. External Memory Interfaces Cyclone® 10 GX FPGA IP Introduction
3. Cyclone® 10 GX EMIF IP Product Architecture
4. Cyclone® 10 GX EMIF IP End-User Signals
5. Cyclone® 10 GX EMIF – Simulating Memory IP
6. Cyclone® 10 GX EMIF IP for DDR3
7. Cyclone® 10 GX EMIF IP for LPDDR3
8. Cyclone® 10 GX EMIF IP Timing Closure
9. Optimizing Controller Performance
10. Cyclone® 10 GX EMIF IP Debugging
11. External Memory Interfaces Cyclone® 10 GX FPGA IP User Guide Archives
12. Document Revision History for Cyclone® 10 GX External Memory Interfaces FPGA IP User Guide
4.1.1.1. pll_ref_clk for DDR3
4.1.1.2. pll_locked for DDR3
4.1.1.3. pll_extra_clk_0 for DDR3
4.1.1.4. pll_extra_clk_1 for DDR3
4.1.1.5. pll_extra_clk_2 for DDR3
4.1.1.6. pll_extra_clk_3 for DDR3
4.1.1.7. oct for DDR3
4.1.1.8. mem for DDR3
4.1.1.9. status for DDR3
4.1.1.10. afi_reset_n for DDR3
4.1.1.11. afi_clk for DDR3
4.1.1.12. afi_half_clk for DDR3
4.1.1.13. afi for DDR3
4.1.1.14. emif_usr_reset_n for DDR3
4.1.1.15. emif_usr_clk for DDR3
4.1.1.16. emif_usr_reset_n_sec for DDR3
4.1.1.17. emif_usr_clk_sec for DDR3
4.1.1.18. cal_debug_reset_n for DDR3
4.1.1.19. cal_debug_clk for DDR3
4.1.1.20. cal_debug_out_reset_n for DDR3
4.1.1.21. cal_debug_out_clk for DDR3
4.1.1.22. clks_sharing_master_out for DDR3
4.1.1.23. clks_sharing_slave_in for DDR3
4.1.1.24. clks_sharing_slave_out for DDR3
4.1.1.25. ctrl_amm for DDR3
4.1.1.26. ctrl_auto_precharge for DDR3
4.1.1.27. ctrl_user_priority for DDR3
4.1.1.28. ctrl_ecc_user_interrupt for DDR3
4.1.1.29. ctrl_ecc_readdataerror for DDR3
4.1.1.30. ctrl_mmr_slave for DDR3
4.1.1.31. cal_debug for DDR3
4.1.1.32. cal_debug_out for DDR3
4.1.2.1. pll_ref_clk for LPDDR3
4.1.2.2. pll_locked for LPDDR3
4.1.2.3. pll_extra_clk_0 for LPDDR3
4.1.2.4. pll_extra_clk_1 for LPDDR3
4.1.2.5. pll_extra_clk_2 for LPDDR3
4.1.2.6. pll_extra_clk_3 for LPDDR3
4.1.2.7. oct for LPDDR3
4.1.2.8. mem for LPDDR3
4.1.2.9. status for LPDDR3
4.1.2.10. afi_reset_n for LPDDR3
4.1.2.11. afi_clk for LPDDR3
4.1.2.12. afi_half_clk for LPDDR3
4.1.2.13. afi for LPDDR3
4.1.2.14. emif_usr_reset_n for LPDDR3
4.1.2.15. emif_usr_clk for LPDDR3
4.1.2.16. cal_debug_reset_n for LPDDR3
4.1.2.17. cal_debug_clk for LPDDR3
4.1.2.18. cal_debug_out_reset_n for LPDDR3
4.1.2.19. cal_debug_out_clk for LPDDR3
4.1.2.20. clks_sharing_master_out for LPDDR3
4.1.2.21. clks_sharing_slave_in for LPDDR3
4.1.2.22. clks_sharing_slave_out for LPDDR3
4.1.2.23. ctrl_user_priority for LPDDR3
4.1.2.24. ctrl_mmr_slave for LPDDR3
4.1.2.25. cal_debug for LPDDR3
4.1.2.26. cal_debug_out for LPDDR3
4.4.1. ctrlcfg0
4.4.2. ctrlcfg1
4.4.3. dramtiming0
4.4.4. sbcfg1
4.4.5. caltiming0
4.4.6. caltiming1
4.4.7. caltiming2
4.4.8. caltiming3
4.4.9. caltiming4
4.4.10. caltiming9
4.4.11. dramaddrw
4.4.12. sideband0
4.4.13. sideband1
4.4.14. sideband2
4.4.15. sideband3
4.4.16. sideband4
4.4.17. sideband5
4.4.18. sideband6
4.4.19. sideband7
4.4.20. sideband8
4.4.21. sideband9
4.4.22. sideband10
4.4.23. sideband11
4.4.24. sideband12
4.4.25. sideband13
4.4.26. dramsts
4.4.27. niosreserve0
4.4.28. niosreserve1
4.4.29. ecc3: ECC Error and Interrupt Configuration
4.4.30. ecc4: Status and Error Information
4.4.31. ecc5: Address of Most Recent SBE/DBE
4.4.32. ecc6: Address of Most Recent Correction Command Dropped
6.1.1. Intel Cyclone 10 GX EMIF IP DDR3 Parameters: General
6.1.2. Intel Cyclone 10 GX EMIF IP DDR3 Parameters: Memory
6.1.3. Intel Cyclone 10 GX EMIF IP DDR3 Parameters: Mem I/O
6.1.4. Intel Cyclone 10 GX EMIF IP DDR3 Parameters: FPGA I/O
6.1.5. Intel Cyclone 10 GX EMIF IP DDR3 Parameters: Mem Timing
6.1.6. Intel Cyclone 10 GX EMIF IP DDR3 Parameters: Board
6.1.7. Intel Cyclone 10 GX EMIF IP DDR3 Parameters: Controller
6.1.8. Intel Cyclone 10 GX EMIF IP DDR3 Parameters: Diagnostics
6.1.9. Intel Cyclone 10 GX EMIF IP DDR3 Parameters: Example Designs
7.1.1. Intel Cyclone 10 GX EMIF IP LPDDR3 Parameters: General
7.1.2. Intel Cyclone 10 GX EMIF IP LPDDR3 Parameters: Memory
7.1.3. Intel Cyclone 10 GX EMIF IP LPDDR3 Parameters: Mem I/O
7.1.4. Intel Cyclone 10 GX EMIF IP LPDDR3 Parameters: FPGA I/O
7.1.5. Intel Cyclone 10 GX EMIF IP LPDDR3 Parameters: Mem Timing
7.1.6. Intel Cyclone 10 GX EMIF IP LPDDR3 Parameters: Board
7.1.7. Intel Cyclone 10 GX EMIF IP LPDDR3 Parameters: Controller
7.1.8. Intel Cyclone 10 GX EMIF IP LPDDR3 Parameters: Diagnostics
7.1.9. Intel Cyclone 10 GX EMIF IP LPDDR3 Parameters: Example Designs
9.4.1. Auto-Precharge Commands
9.4.2. Latency
9.4.3. Calibration
9.4.4. Bank Interleaving
9.4.5. Additive Latency and Bank Interleaving
9.4.6. User-Controlled Refresh
9.4.7. Frequency of Operation
9.4.8. Series of Reads or Writes
9.4.9. Data Reordering
9.4.10. Starvation Control
9.4.11. Command Reordering
9.4.12. Bandwidth
9.4.13. Enable Command Priority Control
10.1. Interface Configuration Performance Issues
10.2. Functional Issue Evaluation
10.3. Timing Issue Characteristics
10.4. Verifying Memory IP Using the Signal Tap II Logic Analyzer
10.5. Hardware Debugging Guidelines
10.6. Categorizing Hardware Issues
10.7. Debugging Cyclone® 10 GX EMIF IP
10.8. Using the Traffic Generator with the Generated Design Example
10.5.1. Create a Simplified Design that Demonstrates the Same Issue
10.5.2. Measure Power Distribution Network
10.5.3. Measure Signal Integrity and Setup and Hold Margin
10.5.4. Vary Voltage
10.5.5. Operate at a Lower Speed
10.5.6. Determine Whether the Issue Exists in Previous Versions of Software
10.5.7. Determine Whether the Issue Exists in the Current Version of Software
10.5.8. Try A Different PCB
10.5.9. Try Other Configurations
10.5.10. Debugging Checklist
Visible to Intel only — GUID: nzr1535549337490
Ixiasoft
7.1.6. Intel Cyclone 10 GX EMIF IP LPDDR3 Parameters: Board
Display Name | Description |
---|---|
Use default ISI/crosstalk values | You can enable this option to use default intersymbol interference and crosstalk values for your topology. Note that the default values are not optimized for your board. For optimal signal integrity, it is recommended that you do not enable this parameter, but instead perform I/O simulation using IBIS models and Hyperlynx)*, and manually enter values based on your simulation results, instead of using the default values. (Identifier: BOARD_LPDDR3_USE_DEFAULT_ISI_VALUES) |
Address and command ISI/crosstalk | The address and command window reduction due to intersymbol interference and crosstalk effects. The number to be entered is the total loss of margin on the setup and hold sides (measured loss on the setup side + measured loss on the hold side). Refer to the EMIF Simulation Guidance wiki page for additional information. (Identifier: BOARD_LPDDR3_USER_AC_ISI_NS) |
Read DQS/DQS# ISI/crosstalk | The reduction of the read data window due to ISI and crosstalk effects on the DQS/DQS# signal when driven by the memory device during a read. The number to be entered is the total loss of margin on the setup and hold sides (measured loss on the setup side + measured loss on the hold side). Refer to the EMIF Simulation Guidance wiki page for additional information. (Identifier: BOARD_LPDDR3_USER_RCLK_ISI_NS) |
Read DQ ISI/crosstalk | The reduction of the read data window due to intersymbol inteference and crosstalk effects on the DQ signal when driven by the memory device during a read. The number to be entered is the total loss of margin on the setup and hold sides (measured loss on the setup side + measured loss on the hold side). Refer to the EMIF Simulation Guidance wiki page for additional information. (Identifier: BOARD_LPDDR3_USER_RDATA_ISI_NS) |
Write DQS/DQS# ISI/crosstalk | The reduction of the write data window due to intersymbol interference and crosstalk effects on the DQS/DQS# signal when driven by the FPGA during a write. The number to be entered is the total loss of margin on the setup and hold sides (measured loss on the setup side + measured loss on the hold side). Refer to the EMIF Simulation Guidance wiki page for additional information. (Identifier: BOARD_LPDDR3_USER_WCLK_ISI_NS) |
Write DQ ISI/crosstalk | The reduction of the write data window due to intersymbol interference and crosstalk effects on the DQ signal when driven by the FPGA during a write. The number to be entered is the total loss of margin on the setup and hold sides (measured loss on the setup side + measured loss on the hold side). Refer to the EMIF Simulation Guidance wiki page for additional information. (Identifier: BOARD_LPDDR3_USER_WDATA_ISI_NS) |
Display Name | Description |
---|---|
Package deskewed with board layout (DQS group) | Enable this parameter if you are compensating for package skew on the DQ, DQS, and DM buses in the board layout. Include package skew in calculating the following board skew parameters. (Identifier: BOARD_LPDDR3_IS_SKEW_WITHIN_DQS_DESKEWED) |
Maximum board skew within DQS group | The largest skew between all DQ and DM pins in a DQS group. This value affects the read capture and write margins. (Identifier: BOARD_LPDDR3_BRD_SKEW_WITHIN_DQS_NS) |
Maximum system skew within DQS group | The largest skew between all DQ and DM pins in a DQS group. Enter combined board and package skew. This value affects the read capture and write margins. (Identifier: BOARD_LPDDR3_PKG_BRD_SKEW_WITHIN_DQS_NS) |
Package deskewed with board layout (address/command bus) | Enable this parameter if you are compensating for package skew on the address, command, control, and memory clock buses in the board layout. Include package skew in calculating the following board skew parameters. (Identifier: BOARD_LPDDR3_IS_SKEW_WITHIN_AC_DESKEWED) |
Maximum board skew within address/command bus | The largest skew between the address and command signals. Enter the board skew only; package skew is calculated automatically, based on the memory interface configuration, and added to this value. (Identifier: BOARD_LPDDR3_BRD_SKEW_WITHIN_AC_NS) |
Maximum system skew within address/command bus | Maximum system skew within address/command bus refers to the largest skew between the address and command signals. (Identifier: BOARD_LPDDR3_PKG_BRD_SKEW_WITHIN_AC_NS) |
Average delay difference between DQS and CK | The average delay difference between the DQS signals and the CK signal, calculated by averaging the longest and smallest DQS trace delay minus the CK trace delay. Positive values represent DQS signals that are longer than CK signals and negative values represent DQS signals that are shorter than CK signals. (Identifier: BOARD_LPDDR3_DQS_TO_CK_SKEW_NS) |
Maximum delay difference between devices | This parameter describes the largest propagation delay on the DQ signals between ranks. For example, in a two-rank configuration where devices are placed in series, there is an extra propagation delay for DQ signals going to and coming back from the furthest device compared to the nearest device. This parameter is only applicable when there is more than one rank. (Identifier: BOARD_LPDDR3_SKEW_BETWEEN_DIMMS_NS) |
Maximum skew between DQS groups | The largest skew between DQS signals. (Identifier: BOARD_LPDDR3_SKEW_BETWEEN_DQS_NS) |
Average delay difference between address/command and CK | The average delay difference between the address/command signals and the CK signal, calculated by averaging the longest and smallest address/command signal trace delay minus the maximum CK trace delay. Positive values represent address and command signals that are longer than CK signals and negative values represent address and command signals that are shorter than CK signals. (Identifier: BOARD_LPDDR3_AC_TO_CK_SKEW_NS) |
Maximum CK delay to device | The maximum CK delay to device refers to the delay of the longest CK trace from the FPGA to any device. (Identifier: BOARD_LPDDR3_MAX_CK_DELAY_NS) |
Maximum DQS delay to device | The maximum DQS delay to device refers to the delay of the longest DQS trace from the FPGA to any device (Identifier: BOARD_LPDDR3_MAX_DQS_DELAY_NS) |