IDT72V51333L7-5BB8 IDT, Integrated Device Technology Inc, IDT72V51333L7-5BB8 Datasheet - Page 5

IDT72V51333L7-5BB8

Manufacturer Part Number

IDT72V51333L7-5BB8

Description

IC FLOW CTRL MULTI QUEUE 256-BGA

Manufacturer

IDT, Integrated Device Technology Inc

Datasheet

1.IDT72V51333L7-5BB8.pdf (49 pages)

Specifications of IDT72V51333L7-5BB8

Configuration

Dual

Density

512Kb

Access Time (max)

4ns

Word Size

18b

Organization

4Kx18x8

Sync/async

Synchronous

Expandable

Yes

Bus Direction

Uni-Directional

Package Type

BGA

Clock Freq (max)

133MHz

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (min)

3.15V

Operating Supply Voltage (max)

3.45V

Supply Current

100mA

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

256

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

72V51333L7-5BB8

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DETAILED DESCRIPTION

MULTI-QUEUE STRUCTURE

single data output port with up to 8 FIFO queues in parallel buffering between

the two ports. The user can setup between 1 and 8 Queues within the device.

These queues can be configured to utilize the total available memory, providing

the user with full flexibility and ability to configure the queues to be various depths,

independent of one another.

MEMORY ORGANIZATION/ ALLOCATION

512 x 18 or 1,024 x 9 bits. When the user is configuring the number of queues

and individual queue sizes the user must allocate the memory to respective

queues, in units of blocks, that is, a single queue can be made up from 0 to m

blocks, where m is the total number of blocks available within a device. Also the

total size of any given queue must be in increments of 512 x 18 or 1,024 x 9.

For the IDT72V51333, IDT72V51343 and IDT72V51353 the Total Available

Memory is 64, 128 and 256 blocks respectively (a block being 512 x 18 or 1,024

x 9). If any port is configured for x18 bus width, a block size is 512 x 18. If both

the write and read ports are configured for x9 bus width, a block size is 1,024

x 9. Queues can be built from these blocks to make any size queue desired and

any number of queues desired.

BUS WIDTHS

The device provides the user with Bus Matching options such that the input port

and output port can be either x9 or x18 bits wide, the read and write port widths

being set independently of one another. Because the ports are common to all

queues the width of the queues is not individually set, so that the input width of

all queues are equal and the output width of all queues are equal.

WRITING TO & READING FROM THE MULTI-QUEUE

queue via the write queue select address inputs. Conversely, data being read

from the device read port is read from a queue selected via the read queue select

address inputs. Data can be simultaneously written into and read from the same

queue or different queues. Once a queue is selected for data writes or reads,

the writing and reading operation is performed in the same manner as

conventional IDT synchronous FIFO, utilizing clocks and enables, there is a

single clock and enable per port. When a specific queue is addressed on the

write port, data placed on the data inputs is written to that queue sequentially

based on the rising edge of a write clock provided setup and hold times are met.

Conversely, data is read on to the output port after an access time from a rising

edge on a read clock.

FIFO operating in standard IDT mode. Write operations can be performed on

the write port provided that the queue currently selected is not full, a full flag output

provides status of the selected queue. The operation of the read port is

comparable to the function of a conventional FIFO operating in FWFT mode.

When a queue is selected on the output port, the next word in that queue will

automatically fall through to the output register. All subsequent words from that

queue require an enabled read cycle. Data cannot be read from a selected

queue if that queue is empty, the read port provides an Output Valid flag indicating

when data read out is valid. If the user switches to a queue that is empty, the

last word from the previous queue will remain on the output register.

queue. Along with the full flag a dedicated almost full flag is provided, this almost

full flag is similar to the almost full flag of a conventional IDT FIFO. The device

IDT72V51333/72V51343/72V51353 3.3V, MULTI-QUEUE FLOW-CONTROL DEVICES

(8 QUEUES) 18 BIT WIDE CONFIGURATION 589,824, 1,179,648 and 2,359,296 bits

The IDT multi-queue flow-control device has a single data input port and

The memory is organized into what is known as “blocks”, each block being

The input port is common to all queues within the device, as is the output port.

Data being written into the device via the input port is directed to a discrete

The operation of the write port is comparable to the function of a conventional

As mentioned, the write port has a full flag, providing full status of the selected

provides a user programmable almost full flag for all 8 queues and when a

respective queue is selected on the write port, the almost full flag provides status

for that queue. Conversely, the read port has an output valid flag, providing

status of the data being read from the queue selected on the read port. As well

as the output valid flag the device provides a dedicated almost empty flag. This

almost empty flag is similar to the almost empty flag of a conventional IDT FIFO.

The device provides a user programmable almost empty flag for all 8 queues

and when a respective queue is selected on the read port, the almost empty flag

provides status for that queue.

PROGRAMMABLE FLAG BUSSES

valid & almost empty on the read port, there are two flag status busses. An almost

full flag status bus is provided, this bus is 8 bits wide. Also, an almost empty flag

status bus is provided, again this bus is 8 bits wide. The purpose of these flag

busses is to provide the user with a means by which to monitor the data levels

within queues that may not be selected on the write or read port. As mentioned,

the device provides almost full and almost empty registers (programmable by

the user) for each of the 8 queues in the device.

Empty and Almost Full conditions of all 8 queue's. If the device is programmed

for less than 8 queue's, then there will be a corresponding number of active

outputs on the PAEn and PAFn busses.

connected in expansion mode the individual flag busses can be left in a discrete

form, providing constant status of all queues, or the busses of individual devices

can be connected together to produce a single bus of 8 bits. The device can

then operate in a "Polled" or "Direct" mode.

sequentially, that is, on each rising edge of a clock the flag bus is updated to show

the status of each device in order. The rising edge of the write clock will update

the Almost Full bus and a rising edge on the read clock will update the Almost

Empty bus.

the user. The user addresses the device that will take control of a respective

flag bus, these PAFn and PAEn flag busses operating independently of one

another. Addressing of the Almost Full flag bus is done via the write port and

addressing of the Almost Empty flag bus is done via the read port.

EXPANSION

connected in a parallel fashion providing the possibility of both depth expansion

or queue expansion. Depth Expansion means expanding the depths of

individual queues. Queue expansion means increasing the total number of

queues available. Depth expansion is possible by virtue of the fact that more

memory blocks within a multi-queue device can be allocated to increase the

depth of a queue. For example, depth expansion of 8 devices provides the

possibility of 8 queues of 32K x 18 deep within the IDT72V51333, 64K x 18 deep

within the IDT72V51343 and 128K x 18 deep within the IDT72V51353, each

queue being setup within a single device utilizing all memory blocks available

to produce a single queue. This is the deepest queue that can setup within a

device.

x 8) queues may be setup, each queue being 16K x18 or 32K x 9 deep, if less

queues are setup, then more memory blocks will be available to increase queue

depths if desired. When connecting multi-queue devices in expansion mode all

respective input pins (data & control) and output pins (data & flags), should be

“connected” together between individual devices.

In addition to these dedicated flags, full & almost full on the write port and output

The 4 bit PAEn and 4 bit PAFn busses provide a discrete status of the Almost

The flag busses can provide a continuous status of all queues. If devices are

When operating in polled mode the flag bus provides status of each device

When operating in direct mode the device driving the flag bus is selected by

Expansion of multi-queue devices is also possible, up to 8 devices can be

For queue expansion of the 8 queue device, a maximum number of 64 (8

COMMERCIAL AND INDUSTRIAL

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Specifications of IDT72V51333L7-5BB8

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