EPF10K50VBC356-1N Altera, EPF10K50VBC356-1N Datasheet - Page 20

EPF10K50VBC356-1N

Manufacturer Part Number

EPF10K50VBC356-1N

Description

FLEX 10KA

Manufacturer

Altera

Datasheet

1.EPF10K50VBC356-1N.pdf (128 pages)

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FLEX 10K Embedded Programmable Logic Device Family Data Sheet

Normal Mode

The normal mode is suitable for general logic applications and wide

decoding functions that can take advantage of a cascade chain. In normal

mode, four data inputs from the LAB local interconnect and the carry-in

are inputs to a four-input LUT. The Compiler automatically selects the

carry-in or the DATA3 signal as one of the inputs to the LUT. The LUT

output can be combined with the cascade-in signal to form a cascade chain

through the cascade-out signal. Either the register or the LUT can be used

to drive both the local interconnect and the FastTrack Interconnect at the

same time.

The LUT and the register in the LE can be used independently; this feature

is known as register packing. To support register packing, the LE has two

outputs; one drives the local interconnect and the other drives the

FastTrack Interconnect. The DATA4 signal can drive the register directly,

allowing the LUT to compute a function that is independent of the

registered signal; a three-input function can be computed in the LUT, and

a fourth independent signal can be registered. Alternatively, a four-input

function can be generated, and one of the inputs to this function can be

used to drive the register. The register in a packed LE can still use the clock

enable, clear, and preset signals in the LE. In a packed LE, the register can

drive the FastTrack Interconnect while the LUT drives the local

interconnect, or vice versa.

Arithmetic Mode

The arithmetic mode offers 2 three-input LUTs that are ideal for

implementing adders, accumulators, and comparators. One LUT

computes a three-input function, and the other generates a carry output.

As shown in

Figure 9

on page 19, the first LUT uses the carry-in signal and

two data inputs from the LAB local interconnect to generate a

combinatorial or registered output. For example, in an adder, this output

is the sum of three signals: a, b, and carry-in. The second LUT uses the

same three signals to generate a carry-out signal, thereby creating a carry

chain. The arithmetic mode also supports simultaneous use of the cascade

chain.

Altera Corporation

EPF10K50VBC356-1N Altera, EPF10K50VBC356-1N Datasheet - Page 20

EPF10K50VBC356-1N

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