IDT72V51433L6BB IDT, Integrated Device Technology Inc, IDT72V51433L6BB Datasheet - Page 24

IDT72V51433L6BB

Manufacturer Part Number

IDT72V51433L6BB

Description

IC FLOW CTRL MULTI QUEUE 256-BGA

Manufacturer

IDT, Integrated Device Technology Inc

Datasheet

1.IDT72V51433L7-5BB8.pdf (50 pages)

Specifications of IDT72V51433L6BB

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

72V51433L6BB

Current page: 24 of 50
Download datasheet (474Kb)

PAFn FLAG BUS OPERATION

can be configured for up to 16 queues, each queue having its own almost full

status. An active queue has its flag status output to the discrete flags, FF and PAF,

on the write port. Queues that are not selected for a write operation can have

their PAF status monitored via the PAFn bus. The PAFn flag bus is 8 bits wide,

so that 8 queues at a time can have their status output to the bus. If 9 or more

queues are setup within a device then there are 2 methods by which the device

can share the bus between queues, "Direct" mode and "Polled" mode

depending on the state of the FM (Flag Mode) input during a Master Reset. If

8 or less queues are setup within a device then each will have its own dedicated

output from the bus. If 8 or less queues are setup in single device mode, it is

recommended to configure the PAFn bus to polled mode as it does not require

using the write address (WRADD).

PAFn - DIRECT BUS

mode. In direct mode the user can address the sector of queues they require

to be placed on to the PAFn bus. For example, consider the operation of the

PAFn bus when 10 queues have been setup. To output status of the first sector,

Queue[0:7] the WRADD bus is used in conjunction with the FSTR (PAF flag

strobe) input and WCLK. The address present on the significant bit of the

WRADD bus with FSTR HIGH will be selected as the sector address on a rising

edge of WCLK. So to address sector 1, Queue[0:7] the WRADD bus should be

loaded with “xxxxxx0”, the PAFn bus will change status to show the new sector

selected 1 WCLK cycle after sector selection. PAFn[0:7] gets status of queues,

Queue[0:7] respectively.

“xxxxxx1”. PAF[0:1] gets status of queues, Queue[9:10] respectively. Remem-

ber, only 10 queues were setup, so when sector 2 is selected the unused outputs

PAF[2:7] will be don't care states.

queue ‘x’ on the same cycle as a sector switch which will include the queue ‘x’,

then there may be an extra WCLK cycle delay before that queues status is

correctly shown on the respective output of the PAFn bus. However, the active

PAF flag will show correct status at all times.

PAFn bus can change every WCLK cycle. Also, data present on the input bus,

Din, can be written into a queue on the same WCLK rising edge that a sector

is being selected, the only restriction being that a write queue selection and PAFn

sector selection cannot be made on the same cycle.

output on PAF[0:7] constantly.

device the PAFn busses of all devices are connected together, when switching

between sectors of different devices the user must utilize the 3 most significant

bits of the WRADD address bus (as well as the 2 LSB’s). These 3 MSB’s

correspond to the device ID inputs, which are the static inputs, ID0, ID1 & ID2.

information. Also refer to Table 1, Write Address Bus, WRADD.

PAFn – POLLED BUS

mode. In polled mode the PAFn bus automatically cycles through the 2 sectors

within the device regardless of how many queues have been setup in the part.

Every rising edge of the WCLK causes the next sector to be loaded on the PAFn

bus. The device configured as the master (MAST input tied HIGH), will take

control of the PAFn after MRS goes LOW. For the whole WCLK cycle that the

IDT72V51433/72V51443/72V51453 3.3V, MULTI-QUEUE FLOW-CONTROL DEVICES

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

The IDT72V51433/72V51443/72V51453 multi-queue flow-control devices

If FM is LOW at master reset then the PAFn bus operates in Direct (addressed)

To address the second sector, Queue[8:15], the WRADD address is

Note, that if a read or write operation is occurring to a specific queue, say

Sectors can be selected on consecutive clock cycles, that is the sector on the

If 8 or less queues are setup then queues, Queue[0:7] have their PAF status

When the multi-queue devices are connected in expansion of more than one

Please refer to Figure 23 PAF n - Direct Mode Sector Selection for timing

If FM is HIGH at master reset then the PAFn bus operates in Polled (looped)

first sector is on PAFn the FSYNC (PAFn bus sync) output will be HIGH, for the

2nd sector, this FSYNC output will be LOW. This FSYNC output provides the

user with a mark with which they can synchronize to the PAFn bus, FSYNC is

always HIGH for the WCLK cycle that the first sector of a device is present on

the PAFn bus.

set as the Master, MAST input tied HIGH, all other devices will have MAST tied

LOW. The master device is the first device to take control of the PAFn bus and

will place its first sector on the bus on the rising edge of WCLK after the MRS

input goes HIGH. For the next 3 WCLK cycles the master device will maintain

control of the PAFn bus and cycle its sectors through it, all other devices hold

their PAFn outputs in High-Impedance. When the master device has cycled its

sectors it passes a token to the next device in the chain and that device assumes

control of the PAFn bus and then cycles its sectors and so on, the PAFn bus

control token being passed on from device to device. This token passing is done

via the FXO outputs and FXI inputs of the devices (“PAF Expansion Out” and

“PAF Expansion In”). The FXO output of the master device connects to the FXI

of the second device in the chain and the FXO of the second connects to the FXI

of the third and so on. The final device in a chain has its FXO connected to the

FXI of the first device, so that once the PAFn bus has cycled through all sectors

of all devices, control of the PAFn will pass to the master device again and so

on. The FSYNC of each respective device will operate independently and

simply indicate when that respective device has taken control of the bus and is

placing its first sector on to the PAFn bus.

the FXO output of the same device. In single device mode a token is still required

to be passed into the device for accessing the PAFn bus.

PAEn FLAG BUS OPERATION

can be configured for up to 16 queues, each queue having its own almost empty

status. An active queue has its flag status output to the discrete flags, OV and PAE,

on the read port. Queues that are not selected for a read operation can have

their PAE status monitored via the PAEn bus. The PAEn flag bus is 8 bits wide,

so that 8 queues at a time can have their status output to the bus. If 9 or more

queues are setup within a device then there are 2 methods by which the device

can share the bus between queues, "Direct" mode and "Polled" mode

depending on the state of the FM (Flag Mode) input during a Master Reset. If

8 or less queues are setup within a device then each will have its own dedicated

output from the bus. If 8 or less queues are setup in single device mode, it is

recommended to configure the PAFn bus to polled mode as it does not require

using the write address (WRADD).

PAEn - DIRECT BUS

mode. In direct mode the user can address the sector of queues they require

to be placed on to the PAEn bus. For example, consider the operation of the

PAEn bus when 10 queues have been setup. To output status of the first sector,

Queue[0:7] the RDADD bus is used in conjunction with the ESTR (PAE flag

strobe) input and RCLK. The address present on the least significant bit of the

RDADD bus with ESTR HIGH will be selected as the sector address on a rising

edge of RCLK. So to address sector 1, Queue[0:7] the RDADD bus should be

loaded with “xxxxxx0”, the PAEn bus will change status to show the new sector

selected 1 RCLK cycle after sector selection. PAEn[0:7] gets status of queues,

Queue[0:7] respectively.

PAE[0:1] gets status of queues, Queue[9:10] respectively. Remember, only 10

When devices are connected in expansion mode, only one device will be

Please refer to Figure 26, PAF n Bus – Polled Mode for timing information.

The IDT72V51433/72V51443/72V51453 multi-queue flow-control devices

If FM is LOW at master reset then the PAEn bus operates in Direct (addressed)

To address the 2nd sector, Queue[8:15], the RDADD address is “xxxxxx1”.

When operating in single device mode the FXI input must be connected to

COMMERCIAL AND INDUSTRIAL

TEMPERATURE RANGES

IDT72V51433L6BB IDT, Integrated Device Technology Inc, IDT72V51433L6BB Datasheet - Page 24

IDT72V51433L6BB

Specifications of IDT72V51433L6BB

Related parts for IDT72V51433L6BB