Altera Arria V GZ Avalon-ST User Manual

Figure 5-6: 64-Bit Avalon-ST rx_st_data Cycle Definitions for 4-Dword Header TLPs with Non-

Qword Addresses

The following figure shows the mapping of Avalon-ST RX packet to PCI Express TLPs for TLPs for a four

dword header with non-qword addresses with a 64-bit bus. Note that the address of the first dword is 0x4.

The address of the first enabled byte is 0xC. This example shows one valid word in the first dword, as

indicated by the

rx_st_be

signal.

rx_st_be[7:4]

corresponds to

rx_st_data[63:32]

.

rx_st_be[3:0]

corresponds to

rx_st_data[31:0]

.

pld_clk

rx_st_data[63:32]

rx_st_data[31:0]

rx_st_sop

rx_st_eop

rx_st_bardec[7:0]

rx_st_be[7:4]

rx_st_be[3:0]

header1

header3

data0

data2

header0

header2

data1

10

C

F

F

Figure 5-7: 64-Bit Application Layer Backpressures Transaction Layer

The following figure illustrates the timing of the RX interface when the Application Layer backpressures

the Arria V GZ Hard IP for PCI Express by deasserting

rx

_st_ready

. The

rx_st_valid

signal deasserts

within three cycles after

rx_st_ready

is deasserted. In this example,

rx_st_valid

is deasserted in the

next cycle.

rx_st_data

is held until the Application Layer is able to accept it.

pld_clk

rx_st_data[63:0]

rx_st_sop

rx_st_eop

rx_st_ready

rx_st_valid

000 . 010 .

CCCC0002CCCC0001

CC

. CC

. CC

. CC

. CC

. CC

.

5-10

Data Alignment and Timing for the 64‑Bit Avalon‑ST RX Interface

UG-01127_avst

2014.12.15

Altera Corporation

Interfaces and Signal Descriptions

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