CN8223 Datasheet, PDF(75/161 Page) Conexant Systems, Inc – ATM Transmitter/Receiver with UTOPIA Interface

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CN8223 Datasheet, PDF (75/161 Pages) Conexant Systems, Inc – ATM Transmitter/Receiver with UTOPIA Interface

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CN8223

ATM Transmitter/Receiver with UTOPIA Interface

2.0 Functional Description

2.7 FIFO Port/UTOPIA Interface

If a higher priority port indicates that it has a cell ready during servicing of a

lower priority port, service switches to the higher priority port after completion of

the cell currently being formatted and transmitted. Servicing of ports and priority

levels continues in this manner until the lowest priority ports are serviced and

empty.

Port priority programming is not intended to be dynamic and should be used

only as a configuration setup. Changes in port priority cannot take place until

ports are inactive (via FIFO empty flag or transmit rate shaping).

Unused ports should be programmed to the lowest priority level, and their

empty flag inputs should be connected to ground.

2.7.3 Transmit Rate Shaping Control

Each of the four transmit data ports has a rate shaping control to allow the

allocation of programmable bandwidth to cells originating from this port. The

TX_RATE_01 [0x09] and TX_RATE_23 [0x08] registers control this function.

The transmit circuitry contains a mod-256 master counter to control rate

shaping. This counter is incremented for every ATM cell that is transmitted, and it

rolls over to 0 when count 255 is reached.

The programmed rate value for a port in the TX_RATE_xx registers

determines the count range for which transmission from that port is allowed. For

instance, if Port 0 is programmed with a rate value of 63, transmission of cells

queued at Port 0 will be allowed for 64 (one more than the programmed value) of

the 256 counts of the master counter.

The transmission is spread over all counts of the counter so that transmission

is not bursty. This gives Port 0 a bandwidth allocation of 25 % of the total

outgoing bandwidth even if all of the other ports are inactive.

This allocation scheme is valid for rate values from 1 to 255 resulting in

allocation ranges from 0.8 % to 100 %. Programming a portâs rate value to zero

disables transmissions from that port and causes the transmit circuitry to ignore

FIFO flag indications from that port.

The programmed rate value is an upper bound on the transmission from a

particular port, and the exact ratio may not be achieved if multiple ports are active

at the same time.

2.7.4 Receive Port Addressing

Received cells are routed to each of the four FIFO ports depending on the values

in the Header Value and Header Mask registers. These registers allow a range of

ATM cells to be routed to one of the four FIFO ports. Also, the same ATM cell

can be routed to multiple receive FIFO ports if desired.

The HDR_VALx_12 and HDR_VALx_34 register contents are used to match

incoming ATM cell headers. There are four sets of these registers (x = 0, 1, 2, 3),

one set for each of the four receive FIFO ports. If HDR_VALx_12 and

HDR_VALx_34 are a bitwise match to the incoming cell, then this cell is routed

to the x receive FIFO port.

100046C

Conexant

2-41

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