Visible to Intel only — GUID: nik1410564852952
Ixiasoft
Visible to Intel only — GUID: nik1410564852952
Ixiasoft
The following figure illustrates the mapping between Avalon-ST TX packets and PCI Express TLPs for three dword header TLPs with non-qword aligned addresses on a 64-bit bus.
This figure illustrates the storage of non‑qword aligned data. Non‑qword aligned address occur when address[2] is set. When address[2] is set, tx_st_data[63:32]contains Data0 and tx_st_data[31:0] contains dword header2. In this figure, the headers are formed by the following bytes:
H0 ={pcie_hdr_byte0, pcie_hdr _byte1, pcie_hdr _byte2, pcie_hdr _byte3} H1 = {pcie_hdr_byte4, pcie_hdr _byte5, header pcie_hdr byte6, pcie_hdr _byte7} H2 = {pcie_hdr _byte8, pcie_hdr _byte9, pcie_hdr _byte10, pcie_hdr _byte11} Data0 = {pcie_data_byte3, pcie_data_byte2, pcie_data_byte1, pcie_data_byte0} Data1 = {pcie_data_byte7, pcie_data_byte6, pcie_data_byte5, pcie_data_byte4} Data2 = {pcie_data_byte11, pcie_data_byte10, pcie_data_byte9, pcie_data_byte8}
The following figure illustrates the mapping between Avalon-ST TX packets and PCI Express TLPs for three dword header TLPs with qword aligned addresses on a 64-bit bus.
The following figure illustrates the mapping between Avalon-ST TX packets and PCI Express TLPs for a four dword header with qword aligned addresses on a 64-bit bus
In this figure, the headers are formed by the following bytes.
H0 = {pcie_hdr_byte0, pcie_hdr _byte1, pcie_hdr _byte2, pcie_hdr _byte3} H1 = {pcie_hdr _byte4, pcie_hdr _byte5, pcie_hdr byte6, pcie_hdr _byte7} H2 = {pcie_hdr _byte8, pcie_hdr _byte9, pcie_hdr _byte10, pcie_hdr _byte11} H3 = pcie_hdr _byte12, pcie_hdr _byte13, header_byte14, pcie_hdr _byte15}, 4 dword header only Data0 = {pcie_data_byte3, pcie_data_byte2, pcie_data_byte1, pcie_data_byte0} Data1 = {pcie_data_byte7, pcie_data_byte6, pcie_data_byte5, pcie_data_byte4}
The following figure illustrates the timing of the TX interface when the Arria® 10 or Cyclone® 10 GX Hard IP for PCI Express pauses transmission by the Application Layer by deasserting tx_st_ready. Because the readyLatency is two cycles, the Application Layer deasserts tx_st_valid after two cycles and holds tx_st_data until two cycles after tx_st_ready is asserted.