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1. About the Intel Agilex® 7 F-Series and I-Series FPGA Memory Subsystem IP
2. Introduction to Memory Subsystem IP
3. Memory Subsystem IP Architecture and Feature Description
4. Memory Subsystem Features
5. Memory Subsystem Interfaces and Signals
6. Memory Subsystem User Operations
7. Memory Subsystem Register Descriptions
8. Parameterizing the Memory Subsystem IP
9. Simulating a Design Example
10. Document Revision History for Intel Agilex® 7 F-Series and I-Series FPGA Memory Subsystem IP User Guide
5.3.1. TCAM AXI-ST Request Interface
5.3.2. TCAM AXI-ST Response Interface
5.3.3. TCAM AXI-Lite Interface
5.3.4. BCAM AXI-ST Request Interface
5.3.5. BCAM AXI-ST Response Interface
5.3.6. BCAM AXI-Lite Interface
5.3.7. MBL AXI-ST Request Interface
5.3.8. MBL AXI-ST Response Interface
5.3.9. MBL AXI-Lite Interface
6.4.1. MBL Flush Operation
6.4.2. MBL Insert Key Operation
6.4.3. MBL Delete Key Operation
6.4.4. MBL Lookup Operation Using Key
6.4.5. MBL Modify Operation
6.4.6. MBL Modify Result Using Handle Operation
6.4.7. MBL Delete Key Using Handle Operation
6.4.8. MBL Lookup Using Handle Operation
6.4.9. MBL Insert Key if Not Present or Modify Result if Present Operation
6.4.10. MBL Get Handle Operation
7.2.1. Offset 0x0000 Version
7.2.2. Offset 0x0004 Feature List
7.2.3. Offset 0x0010 Memory Interfaces 0-7
7.2.4. Offset 0x0014 Memory Interfaces 8-15
7.2.5. Offset 0x0018 Memory Interfaces 16-23
7.2.6. Offset 0x001C Memory Interfaces 24-31
7.2.7. Offset 0x0020 Scratch Pad
7.2.8. Offset 0x0030 Control Policy (Lower DWORD)
7.2.9. Offset 0x0034 Control Policy (Upper DWORD)
7.2.10. Offset 0x0038 Read Access Control Policy (Lower DWORD)
7.2.11. Offset 0x003C Read Access Control Policy (Upper DWORD)
7.2.12. Offset 0x0040 Write Access Control Policy (Lower DWORD)
7.2.13. Offset 0x0044 Write Access Control Policy (Upper DWORD)
7.2.14. Offset 0x0050 Memory Status Bitmask 0
7.2.15. Offset 0x0054 Memory Status Bitmask 1
7.2.16. Offset 0x0058 Memory Ready Status 0
7.2.17. Offset 0x005C Memory Ready Status 1
7.2.18. Offset 0x0060 Memory Error Status 0
7.2.19. Offset 0x0064 Memory Error Status 1
7.3.2.1. Version
7.3.2.2. Feature List
7.3.2.3. Interface Attribute Parameters
7.3.2.4. Interface Attribute Parameters 1
7.3.2.5. Scratch Pad
7.3.2.6. General Control (GEN_CTRL)
7.3.2.7. Management Control (MGMT_CTRL)
7.3.2.8. Hash function_0 seed
7.3.2.9. Hash function_1 seed
7.3.2.10. Hash function_2 seed
7.3.2.11. Warning 0 (WARNING_0)
7.3.2.12. Fatal Error (FATAL_ERROR_0)
7.3.2.13. Monitor 0 (MON_)
7.3.2.14. Total Entries (TOTAL_ENTRIES)
7.3.2.15. Max. Rehouse Iterations (Max_Rehouse_Iterations)
7.3.2.16. Statistics Control (STATS_CTRL)
7.3.2.17. Active Table Entries (TABLE_ENTRIES)
7.3.2.18. Key_N
7.3.2.19. Result_N
7.5.1. General MBL Registers
7.5.2. Version
7.5.3. Mbl_scratch
7.5.4. Mbl_gen_ctrl
7.5.5. Mbl_mgmt_ctrl
7.5.6. Mbl_key_handle
7.5.7. Mbl_nxt_handle_req
7.5.8. Mbl_nxt_handle
7.5.9. Mbl_warning_0
7.5.10. Mbl_fatal_0
7.5.11. Mbl_mon_0
7.5.12. Mbl_total_entries
7.5.13. Mbl_total_rehashes
7.5.14. Mbl_max_used_bins
7.5.15. Mbl_stats_ctrl
7.5.16. Mbl_stats_result
7.5.17. Mbl_max_lkup_latency
7.5.18. Mbl_max_rehash_index
7.5.19. Mbl_key
7.5.20. Mbl_res
8.2.5.1. Parameterizing the External Memory Interface (EMIF) IP
8.2.5.2. Parameterizing the Memory-Specific Adapter
8.2.5.3. Parameterizing the Content-Addressable Memory (CAM) IP
8.2.5.4. Parameterizing the External Memory Interfaces Intel Calibration IP
8.2.5.5. Saving the IPs Within the Memory Subsystem
8.2.5.6. Propagation of Changes Across IPs within the Memory Subsystem IP
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Ixiasoft
4.3.2. BCAM
If you connect an associative storage with a M20K memory interface in the high-level topology parameter editor, a CAM IP is enabled for configuration in the Platform Designer window shown after clicking Dive Into Packaged Subsystem.
If you select the Exact Match traffic type, the BCAM algorithm is used and the following parameters are available for you to configure.
Parameter | Default | Description | Range/Values |
---|---|---|---|
Number of Binary CAMs | 0 | Specifies the number of BCAMs. | 1–4 |
BCAM Basic | |||
Lookup key width | 512 | Specify lookup key width. | 16-512 |
Result width | 1024 | Specify result width. | 8-1024 |
Packet processing metadata width | 19 | Specify packet processing user metadata width. | Up to 1024 |
User metadata width | 1 | Specify user metadata width. | Up to 1024 |
Number of entries | 256 | Specify number of entries of the lookup table. | 32-4196 |
BCAM Advanced | |||
Retry limits for insertion | 20 | Specify the maximum number of retry attempts for an insert operation to solve hash collision. | 20, 25 |
CRC hash seed 1 | 0x17372711 | CRC polynomial seed for hashing. Three polynomial used in cuckoo filter algorithm. | |
CRC hash seed 2 | 0x27172711 | CRC polynomial seed for hashing. Three polynomial used in cuckoo filter algorithm. | |
CRC hash seed 3 | 0x2d21b197 | CRC polynomial seed for hashing. Three polynomial used in cuckoo filter algorithm. | |
Global key mask | 0xffffffffffffffff | Global bitmask used to indicate which key bits are ignored during the search process. | 0 to 0xffffffffffffffff |
Enable ready latency on AXI ST interface. | Disabled | Enable ready latency on AXI ST interface. | |
AXI ST valid path pipe stages | 0 | Defines the number of pipe stages required on the AXI ST interface valid path to the IP. | 0–16 |
AXI ST ready path pipe stages | 0 | Defines the number of pipe stages required on the AXI ST interface ready path to the IP. | 0–16 |
AXI ST interface ready latency | 0 | Defines the association between assertion of ready signal and the corresponding valid. | 0–32 |
Enable AXI Lite interface ready latency | Disabled | Enable ready latency on AXI Lite interface. | N/A |
AXI Lite write address channel valid path pipe stages | 0 | Defines the number of pipe stages required on the AXI Lite interface write address channel valid path to the IP. | 0–16 |
AXI Lite write address channel ready path pipe stages | 0 | Defines the number of pipe stages required on the AXI Lite interface write address channel ready path to the IP. | 0–16 |
AXI Lite write address channel ready latency | 0 | Defines the association between assertion of ready signal and the corresponding valid. | 0–32 |
AXI Lite write data channel valid path pipe stages | 0 | Defines the number of pipe stages required on the AXI Lite interface write data channel valid path to the IP. | 0–16 |
AXI Lite write data channel ready path pipe stages | 0 | Defines the number of pipe stages required on the AXI Lite interface write data channel ready path to the IP. | 0–16 |
AXI Lite write data channel ready latency | 0 | Defines the association between assertion of ready signal and the corresponding valid. | 0–32 |
AXI Lite read address channel valid path pipe stages | 0 | Defines the number of pipe stages required on the AXI Lite interface read address channel valid path to the IP. | 0–16 |
AXI Lite read address channel ready path pipe stages | 0 | Defines the number of pipe stages required on the AXI Lite interface read address channel ready path to the IP. | 0–16 |
AXI Lite read address channel ready latency | 0 | Defines the association between assertion of ready signal and the corresponding valid. | 0–32 |
BCAM Controls and Diagnostics | |||
AXI Lite interface data width | 32 | SpecifyAXI Lite interface data width. | 32, 64 |