mu9c4320l-90tdi Music Semiconductors, Inc., mu9c4320l-90tdi Datasheet - Page 16

mu9c4320l-90tdi

Manufacturer Part Number

mu9c4320l-90tdi

Description

Mu9c4320l Atmcam

Manufacturer

Music Semiconductors, Inc.

Datasheet

1.MU9C4320L-90TDI.pdf (32 pages)

Current page: 16 of 32
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FULL Cascading

The Full flag is set LOW in a particular ATMCAM if the

/FI line is LOW, and that device is full. During a Write

cycle, the Full flag will not change until /E goes HIGH

during that cycle. When the /FI line is HIGH, one or more

locations are free in the higher-priority devices; therefore,

when the /FI line is HIGH, whether or not that particular

device is full, its /FF output will remain HIGH. This

method allows the Full Flag daisy chain to recognize

noncontiguous empty locations throughout the entire

ATMCAM system.

The daisy chain gives System Full indication. When the

device at the end of the chain has its /FF output LOW, the

entire CAM system is full. The first device in the daisy

chain has its /FI line tied LOW to ensure data can be

written into the system.

The daisy chain also controls Write at Next Free Address

cycles as well as Read Next Free Address cycles so that

they work globally across the system, and not just locally

in a specific device. Only the device in which the /FI line

is LOW, and which is not full, will respond to the Write

cycle. Therefore, deletions and insertions can be made in

the memory, without the need to keep track of empty

locations.

Match Cascading

The Match flag /MF will be LOW in a particular device

within a vertically cascaded system when its /MI input is

LOW, or when there is a match in that device. During a

Comparison cycle, the Match flag will not change until /E

goes HIGH during that cycle. When the /MI line is LOW,

one or more locations in higher-priority devices have a

match; when the /MI line is LOW, the /MF output will be

forced LOW. This method allows the Match Flag daisy

chain to respond to and prioritize matches throughout the

entire ATMCAM system.

The daisy chaining gives a System Match indication, when

the device at the end of the daisy chain has its /MF output

LOW there is a match within the CAM system. The first

device in the daisy chain has its /MI input tied HIGH.

The daisy chain also controls access to the device by

controlling the outputs during a Read Highest-Priority

Match data, or Read Status register, onto the DQ31–0

lines. The device must be selected with either /CS1, or

/CS2, or the Data Select register. After a Comparison or

Read/Write at Highest-Priority Match Address cycle, only

the device whose /MI line is HIGH, and which has a valid

match,

PA3–0:AA11–0; any device that has its /MI line set LOW

will have its outputs in their high-impedance state, even if

it has a valid match. Therefore, Reads from and Writes to

the Highest-Priority Matching address operate over the

MU9C4320L ATMCAM

will

drive

data

onto

DQ31–0

onto

entire system; only the device in which the /MI line is

HIGH and which has a match will respond to the cycle.

This scheme automatically prioritizes a system of

vertically cascaded devices, the highest up in the chain has

the highest priority. Note however, that cycles which do

not access highest-priority match data or the Status

Match daisy chain.

Multiple Match Flag Daisy Chain

The Multiple Match flag, /MM is an open-drain output,

and it will be pulled LOW by a particular device when its

/MI input is HIGH and there is more than one match

within the device, or when the /MI input is LOW and there

is one match within the device. During a Comparison

cycle, the Multiple Match flag will not change until /E

goes HIGH during that cycle. This wired-OR output

provides system level indication of the multiple match

condition within a vertically cascaded system of

ATMCAMs.

Match Flag Timing Overhead

There is a propagation delay for the match results to ripple

down through the daisy chain. All the ATMCAMs within

the system execute a Comparison cycle in parallel, so the

local results are available at the end of a Comparison

cycle. The local Match flags do not change during a

Comparison cycle until /E goes HIGH. The logical

combination of the results then propagates down the daisy

chain with a delay through each stage. The compare time

in each device operating in parallel is added to the ripple

delay through the daisy chain. Before reading the results

of a comparison from the System Match flag, the daisy

chain must be given time to settle to a valid state. If there

are N devices vertically cascaded in a system, and the time

to get a valid output on /MF for one device is t(MF), and

the propagation delay for the flag to ripple through one

device from /MI valid to /MF valid is t(PD), then the time

t(DC) for the daisy chain to develop a valid output

condition is:

This period of time must elapse before the flagged results

of the comparison are available, and before /OE is driven

LOW or a Status Register Read cycle is performed.

There is a similar but shorter delay for the Full Flag daisy

chain, but this only limits the rate at which back-to-back

Write at Next Free Address cycles can be performed.

t(DC) = t(MF) +(N-1) *t(PD)

Rev. 3

mu9c4320l-90tdi Music Semiconductors, Inc., mu9c4320l-90tdi Datasheet - Page 16

mu9c4320l-90tdi

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