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1. Before You Begin
2. Introduction
3. Functional Description
4. Interface Overview
5. Parameters (H-Tile)
6. Parameters (P-Tile) (F-Tile) (R-Tile)
7. Designing with the IP Core
8. Software Programming Model
9. Registers
10. Troubleshooting/Debugging
11. Multi Channel DMA Intel FPGA IP for PCI Express User Guide Archives
12. Revision History for the Multi Channel DMA Intel FPGA IP for PCI Express User Guide
3.1. Multi Channel DMA
3.2. Bursting Avalon-MM Master (BAM)
3.3. Bursting Avalon-MM Slave (BAS)
3.4. MSI Interrupt
3.5. Config Slave (CS)
3.6. Root Port Address Translation Table Enablement
3.7. Hard IP Reconfiguration Interface
3.8. Config TL Interface
3.9. Configuration Intercept Interface (EP Only)
3.10. Data Mover Only
4.1. Port List
4.2. Clocks
4.3. Resets
4.4. Multi Channel DMA
4.5. Bursting Avalon-MM Master (BAM) Interface
4.6. Bursting Avalon-MM Slave (BAS) Interface
4.7. MSI Interface
4.8. Config Slave Interface (RP only)
4.9. Hard IP Reconfiguration Interface
4.10. Config TL Interface
4.11. Configuration Intercept Interface (EP Only)
4.12. Data Mover Interface
4.13. Hard IP Status Interface
8.1.6.1. ifc_api_start
8.1.6.2. ifc_mcdma_port_by_name
8.1.6.3. ifc_qdma_device_get
8.1.6.4. ifc_num_channels_get
8.1.6.5. ifc_qdma_channel_get
8.1.6.6. ifc_qdma_acquire_channels
8.1.6.7. ifc_qdma_release_all_channels
8.1.6.8. ifc_qdma_device_put
8.1.6.9. ifc_qdma_channel_put
8.1.6.10. ifc_qdma_completion_poll
8.1.6.11. ifc_qdma_request_start
8.1.6.12. ifc_qdma_request_prepare
8.1.6.13. ifc_qdma_descq_queue_batch_load
8.1.6.14. ifc_qdma_request_submit
8.1.6.15. ifc_qdma_pio_read32
8.1.6.16. ifc_qdma_pio_write32
8.1.6.17. ifc_qdma_pio_read64
8.1.6.18. ifc_qdma_pio_write64
8.1.6.19. ifc_qdma_pio_read128
8.1.6.20. ifc_qdma_pio_write128
8.1.6.21. ifc_qdma_pio_read256
8.1.6.22. ifc_qdma_pio_write256
8.1.6.23. ifc_request_malloc
8.1.6.24. ifc_request_free
8.1.6.25. ifc_app_stop
8.1.6.26. ifc_qdma_poll_init
8.1.6.27. ifc_qdma_poll_add
8.1.6.28. ifc_qdma_poll_wait
8.1.6.29. ifc_mcdma_port_by_name
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3.1.4. Avalon-MM PIO Master
The Avalon-MM PIO Master bypasses the DMA block and provides a way for the Host to do MMIO read/write to CSR registers of user logic. PCIe BAR2 is mapped to the Avalon-MM PIO Master. Any TLP targeting BAR2 is forwarded to the user logic. TLP address targeting the PIO interface should be 8 bytes aligned. The PIO interface supports non-bursting 64-bit write and read transfers only.
Note: Do not attempt to perform 32-bit transactions on PIO interface. Only 64-bit transactions are supported.
The Avalon-MM PIO Master is present only if you select Multi Channel DMA User Mode for MCDMA Settings in the IP Parameter Editor GUI. The Avalon-MM PIO Master is always present irrespective of the Interface type (Avalon-ST/Avalon-MM) that you select.
The PIO interface address mapping is as follows: PIO address = {vf_active, pf [PF_NUM_W-1:0], vf [VF_NUM_W-1:0], address}
- vf_active: This indicates that SRIOV is enabled
- pf [PF_NUM_W-1:0]: Physical function number decoded from the PCIe header received from the HIP; PF_NUM_W which is ($clog2(Number of PFs)) is the RTL design parameter selected by you such that Multi Channel DMA IP only allocates required number of the bits on Avalon-MM side to limit the number of the wires on the user interface.
- vf [VF_NUM_W-1:0]: Virtual function number decoded from the PCIe header received from the HIP; VF_NUM_W which is ($clog2(Number of VFs)) is the RTL design parameter selected by you such that Multi Channel DMA IP only allocates required number of the bits on Avalon-MM side to limit the number of the wires on the user interface.
- address: Number of bits required for BAR2 size requested across all Functions (PFs and VFs) Example: If BAR2 is selected as 4 MB, the address size is 22 bits.