Edk pcore format, Figure 5-2, Rnet mac (xps_ll_temac). see – Xilinx IP Ethernet AVB Endpoint v2.4 UG492 User Manual

Ethernet AVB Endpoint User Guide

www.xilinx.com

41

UG492 September 21, 2010

EDK pcore Format

EDK pcore Format

Figure 5-2

illustrates the functional blocks of the Ethernet AVB Endpoint core when it is

generated in EDK pcore format. As illustrated, this is intended to be connected to the XPS
LocalLink Tri-Mode Ethernet MAC.

Each of the functional blocks illustrated will be introduced in the following sections of this
chapter. However, observe from the figure that:

•

The xps_ll_temac contains its own PLB interface. Consequently, the logic connecting
the

“PLB Interface”

of the Ethernet AVB Endpoint core to the Host I/F (as seen in

Figure 5-1

) is not present in this case.

•

The

“Legacy Traffic Interface”

of the Ethernet AVB Endpoint core is connected

directly to the xps_ll_temac; this allows the xps_ll_temac core to source and sink
legacy frame data, such as TCP/IP protocol traffic. The full duplex

“AV Traffic

Interface”

remains for connection to custom logic.

•

The

“MAC Header Filters”

, as seen in

Figure 5-1

, are not present in this case. The

xps_ll_temac instead contains its own Address Filter logic.

X-Ref Target - Figure 5-2

Figure 5-2:

Ethernet AVB Endpoint Core Block Diagram for Connection to the XPS Tri-Mode Ethernet MAC

(xps_ll_temac) in the EDK

Tx

Rx

PLB

Tx Arbiter

Rx Splitter

PLB I/F

PLB I/F

.c, .h

software

drivers

Ethernet AVB Endpoint

AV

Traffic

Tx

Rx

AV Traffic I/F

Tx Time Stamp

Rx Time Stamp

Real Time Counter

Tx PTP Packet Buffer

Rx PTP Packet Buffer

Precise Timing Protocol (PTP)

Legacy Traffic I/F

XPS LocalLink

Tri-Mode

Ethernet MAC

Avb2TemacTxData

Tx PHY

Rx PHY

Temac2AvbRxData

Embedded

Micro

Processor

Legacy

Traffic

PLB

Avb2TemacRxData

Temac2AvbTxData