OR3T125-5BA352 AGERE [Agere Systems], OR3T125-5BA352 Datasheet - Page 84

OR3T125-5BA352

Manufacturer Part Number

OR3T125-5BA352

Description

3C and 3T Field-Programmable Gate Arrays

Manufacturer

AGERE [Agere Systems]

Datasheet

1.OR3T125-5BA352.pdf (210 pages)

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ORCA Series 3C and 3T FPGAs

Programmable Clock Manager (PCM)

(continued)

High-Speed Internal Processing with Slow I/Os

The PCM PLL mode provides two outputs, one sent to

the global system clock routing of the FPGA and the

other to the ExpressCLK (s) that serve the FPGA I/Os.

The ExpressCLK output of the PCM has a divide capa-

bility (DIV2) that the system clock output does not. This

feature allows an input clock to be multiplied up to a

higher frequency for high-speed internal processing,

and also allows the ExpressCLK output to be divided

down to a lower frequency to accommodate off-FPGA

data transfers. For example, a 10 MHz input clock may

be multiplied (see Clock Multiplication in the Phase-

Locked Loop (PLL) Mode subsection) to 25 MHz (DIV0

= 4, DIV1 = 5, DIV2 = 2) and output to the FPGA

ExpressCLK . This allows the I/Os of the circuit to run at

25 MHz ((2 * 5)/4 * 10 MHz). The system clock will run

at DIV2 times the ExpressCLK rate, which is 2 times

25 MHz, or 50 MHz. This setup allows for internal pro-

cessing to occur at twice the rate of on/off device I/O

transfers.

PCM Cautions

Cautions do apply when using the PCM . There are a

number of configurations that are possible in the PCM

that are theoretically valid, but may not produce viable

results. This section describes some of those situa-

tions, and should leave the user with an understanding

of the types of pitfalls that must be avoided when modi-

fying clock signals.

Resultant signals from the PCM must meet the FPGA

timing specifications. It is possible to specify pulses by

using duty-cycle adjustments that are too narrow to

function in the FPGA. For instance, if a 40 MHz clock is

doubled to 80 MHz and a 6.25% duty cycle is selected,

the result will be a 780 ps pulse that repeats every

12.5 ns. This pulse falls outside of the clock pulse width

specification and is not valid.

Using divider DIV2, it is possible to specify a clock mul-

tiplication factor of 64 between the input clock and the

output system clock. As mentioned above, the resultant

frequency must meet all FPGA timing specifications.

The input clock must also meet the minimum specifica-

tions. An input clock rate that is below the PCM clock

minimum cannot be used even if the multiplied output is

within the allowable range.

The use of the PCM to tweak a clock signal to eliminate

a particular problem, such as a single setup time viola-

tion, is discouraged. A small shift in delay, duty cycle, or

phase to correct a single-point problem is in essence

an asynchronous patch to a synchronous system, mak-

ing the system less stable. This type of local problem,

as opposed to a global clock control issue like device-

wide clock delay, can usually be eliminated through

more robust design practices. If this type of change is

made, the designer must be aware that depending on

the extent of the change made, the design may fail to

operate correctly in a different speed grade or voltage

grade (e.g., 3C vs. 3T), or even in a different production

lot of the same device.

Divider DIV2 is available in DLL mode for the Express-

CLK output, but its use is not recommended with duty-

cycle adjusted clocks.

Lucent Technologies Inc.

Data Sheet

June 1999

OR3T125-5BA352 AGERE [Agere Systems], OR3T125-5BA352 Datasheet - Page 84

OR3T125-5BA352

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