Altera CPRI v6.0 MegaCore Function User Manual

Table 3-8: Real-Time Vendor Specific Interface Signals

All interface signals are clocked by the

cpri_clkout

clock.

Real-Time Vendor Specific RX Interface

Signal Name

Direction

Description

rtvs_rx_valid

Output

Each asserted bit indicates the corresponding byte on the

current

rtvs_rx_data

bus is a valid real-time vendor-

specific byte.

rtvs_rx_data[31:0]

Output

Real-time vendor-specific word received from the CPRI

frame. The

rtvs_rx_valid

signal indicates which bytes

are valid real-time vendor-specific bytes.

Real-Time Vendor Specific TX Interface

Signal Name

Direction

Description

rtvs_tx_ready

Output

Indicates the IP core is ready to read a real-time vendor-

specific byte from

rtvs_tx_data

on the next clock cycle.

rtvs_tx_valid

Input

Write valid for

rtvs_tx_data

. Assert this signal to

indicate

rtvs_tx_data

holds a valid value in the current

clock cycle.

rtvs_tx_data[31:0]

Input

Real-time vendor-specific word to be written to the CPRI

frame. The IP core writes the current value of the

rtvs_

tx_data

bus to the CPRI frame based on the

rtvs_tx_

ready

signal from the previous cycle, and the

rtvs_tx_

valid

signal in the current cycle.

Figure 3-18: Direct RTVS RX Timing Diagram

Direct RTVS RX interface behavior in a CPRI v6.0 IP core running at 10.1376 Gbps.
The

aux_rx_x

and

aux_rx_seq

signals are not part of this interface and are available only if you turn on

the AUX interface in your CPRI v6.0 IP core variation. However, their presence in the timing diagram

explains the timing of the

rtvs_rx_valid

output signal that you use to identify the clock cycles with valid

RTVS data.

cpri_clkout

100

101

124

7

4

6

aux_rx_x

aux_rx_seq

rtvs_rx_valid

X

D1D2D3D4

X

rtvs_rx_data[31:0]

5

4

3

2

1

0

79

3

2

1

0

D5D6

X

3-26

Real-Time Vendor Specific Interface

UG-01156

2014.08.18

Altera Corporation

Functional Description

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