EP1C12Q240I7N Altera, EP1C12Q240I7N Datasheet - Page 16

EP1C12Q240I7N

Manufacturer Part Number

EP1C12Q240I7N

Description

IC CYCLONE FPGA 12K LE 240-PQFP

Manufacturer

Altera

Series

Cyclone®r

Datasheet

1.EP1C3T144C8.pdf (106 pages)

Specifications of EP1C12Q240I7N

Number Of Logic Elements/cells

12060

Number Of Labs/clbs

1206

Total Ram Bits

239616

Number Of I /o

173

Voltage - Supply

1.425 V ~ 1.575 V

Mounting Type

Surface Mount

Operating Temperature

-40°C ~ 100°C

Package / Case

240-MQFP, 240-PQFP

Family Name

Cyclone®

Number Of Logic Blocks/elements

12060

# I/os (max)

173

Frequency (max)

320.1MHz

Process Technology

0.13um (CMOS)

Operating Supply Voltage (typ)

1.5V

Logic Cells

12060

Ram Bits

239616

Operating Supply Voltage (min)

1.425V

Operating Supply Voltage (max)

1.575V

Operating Temp Range

-40C to 100C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

240

Package Type

PQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Number Of Gates

Lead Free Status / Rohs Status

Compliant

Other names

544-1796
EP1C12Q240I7N

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Current page: 16 of 106
Download datasheet (2Mb)

Cyclone Device Handbook, Volume 1

Figure 2–7. LE in Dynamic Arithmetic Mode

Note to

(1)

2–10

Preliminary

LAB Carry-In

Carry-In0

Carry-In1

The addnsub signal is tied to the carry input for the first LE of a carry chain only.

data1

data2

data3

(LAB Wide)

addnsub

Figure

(1)

2–7:

Carry-Out0

Carry-Select Chain

The carry-select chain provides a very fast carry-select function between

LEs in dynamic arithmetic mode. The carry-select chain uses the

redundant carry calculation to increase the speed of carry functions. The

LE is configured to calculate outputs for a possible carry-in of 0 and

carry-in of 1 in parallel. The carry-in0 and carry-in1 signals from a

lower-order bit feed forward into the higher-order bit via the parallel

carry chain and feed into both the LUT and the next portion of the carry

chain. Carry-select chains can begin in any LE within a LAB.

The speed advantage of the carry-select chain is in the parallel

pre-computation of carry chains. Since the LAB carry-in selects the

precomputed carry chain, not every LE is in the critical path. Only the

propagation delays between LAB carry-in generation (LE 5 and LE 10) are

now part of the critical path. This feature allows the Cyclone architecture

to implement high-speed counters, adders, multipliers, parity functions,

and comparators of arbitrary width.

LUT

Carry-Out1

connection

clock (LAB Wide)

(LAB Wide)

ena (LAB Wide)

aclr (LAB Wide)

sload

(LAB Wide)

sclear

(LAB Wide)

ADATA

ENA

ALD/PRE

aload

CLRN

Altera Corporation

Row, column, and

direct link routing

Row, column, and

direct link routing

Local routing

LUT chain

connection

chain output

May 2008

EP1C12Q240I7N Altera, EP1C12Q240I7N Datasheet - Page 16

EP1C12Q240I7N

Specifications of EP1C12Q240I7N

Available stocks

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