Figure 9-4: physical layer architecture – Altera Arria V Avalon-ST User Manual

Figure 9-4: Physical Layer Architecture

Scrambler

8B10B

Encoder

Lane n

TX+ / TX-

Scrambler

8B10B

Encoder

Lane 0

TX+ / TX-

Descrambler

8B10B

Decoder

Lane n

RX+ / RX-

Elastic
Buffer

LTSSM

State Machine

SKIP

Generation

Control & Status

PIPE

Emulation Logic

Link S

erializ

er

for an x8 Link

TX Packets

RX MAC

Lane

D

evic

e

Transc

eiv

er (per L

ane) with 2.5 or 5.0 G

bps SERDES & PLL

Descrambler

8B10B

Decoder

Lane 0

RX+ / RX-

Elastic
Buffer

RX MAC

Lane

PIPE

Interface

Multilane D

esk

ew

Link S

erializ

er f

or an x8 Link

RX Packets

Transmit
Data Path

Receive
Data Path

MAC Layer

PHY layer

To Link

To Data Link Layer

The Physical Layer is subdivided by the PIPE Interface Specification into two layers (bracketed horizon‐

tally in above figure):
• Media Access Controller (MAC) Layer—The MAC layer includes the LTSSM and the scrambling/

descrambling and multilane deskew functions.

• PHY Layer—The PHY layer includes the 8B/10B and 128b/130b encode/decode functions, elastic

buffering, and serialization/deserialization functions.

The Physical Layer integrates both digital and analog elements. Intel designed the PIPE interface to

separate the MAC from the PHY. The Arria V Hard IP for PCI Express complies with the PIPE interface

specification.

9-10

Physical Layer

2014.12.15

Altera Corporation

IP Core Architecture

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