OR3T125-5BA352 AGERE [Agere Systems], OR3T125-5BA352 Datasheet - Page 8

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

Description

PIC Logic

Series 3 PIC addresses the demand for ever-increas-

ing system clock speeds. Each PIC contains four pro-

grammable inputs/outputs (PIOs) and routing

resources. On the input side, each PIO contains a fast-

capture latch that is clocked by an ExpressCLK. This

latch is followed by a latch/FF that is clocked by a sys-

tem clock from the internal general clock routing. The

combination provides for very low setup requirements

and zero hold times for signals coming on-chip. It may

also be used to demultiplex an input signal, such as a

multiplexed address/data signal, and register the sig-

nals without explicitly building a demultiplexer. Two

input signals are available to the PLC array from each

PIO, and the ORCA 2C/2T capability to use any input

pin as a clock or other global input is maintained.

On the output side of each PIO, two outputs from the

PLC array can be routed to each output flip-flop, and

logic can be associated with each I/O pad. The output

logic associated with each pad allows for multiplexing

of output signals and other functions of two output sig-

nals.

The output FF in combination with output signal multi-

plexing, is particularly useful for registering address

signals to be multiplexed with data, allowing a full clock

cycle for the data to propagate to the output. The I/O

buffer associated with each pad is very similar to the

ORCA 2C/2T Series buffer with a new, fast, open-drain

option for ease of use on system buses.

System Features

Series 3 also provides system-level functionality by

means of its dual-use microprocessor interface and its

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(continued)

innovative programmable clock manager. These func-

tional blocks allow for easy glueless system interfacing

and the capability to adjust to varying conditions in

today’s high-speed systems.

Routing

The abundant routing resources of the ORCA Series 3

FPGAs are organized to route signals individually or as

buses with related control signals. Clocks are routed on

a low-skew, high-speed distribution network and may

be sourced from PLC logic, externally from any I/O

pad, or from the very fast ExpressCLK pins. Express-

CLKs may be glitchlessly and independently enabled

and disabled with a programmable control signal using

the new StopCLK feature. The improved PIC routing

resources are now similar to the patented intra-PLC

routing resources and provide great flexibility in moving

signals to and from the PIOs. This flexibility translates

into an improved capability to route designs at the

required speeds when the I/O signals have been locked

to specific pins.

Configuration

The FPGA’s functionality is determined by internal

configuration RAM. The FPGA’s internal initialization/

configuration circuitry loads the configuration data at

powerup or under system control. The RAM is loaded

by using one of several configuration modes. The con-

figuration data resides externally in an EEPROM or any

other storage media. Serial EEPROMs provide a sim-

ple, low pin count method for configuring FPGAs. A

new, easy method for configuring the devices is

through the microprocessor interface.

Lucent Technologies Inc.

Data Sheet

June 1999

OR3T125-5BA352 AGERE [Agere Systems], OR3T125-5BA352 Datasheet - Page 8

OR3T125-5BA352

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