EPF6024AQC240-1 Altera, EPF6024AQC240-1 Datasheet - Page 5

EPF6024AQC240-1

Manufacturer Part Number

EPF6024AQC240-1

Description

IC FLEX 6000 FPGA 24K 240-PQFP

Manufacturer

Altera

Series

FLEX 6000r

Datasheet

1.EPF6010ATC100-3N.pdf (52 pages)

Specifications of EPF6024AQC240-1

Number Of Logic Elements/cells

1960

Number Of Labs/clbs

196

Number Of I /o

199

Number Of Gates

24000

Voltage - Supply

3 V ~ 3.6 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

240-MQFP, 240-PQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Total Ram Bits

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Functional

Description

Altera Corporation

The FLEX 6000 OptiFLEX architecture consists of logic elements (LEs).

Each LE includes a 4-input look-up table (LUT), which can implement any

4-input function, a register, and dedicated paths for carry and cascade

chain functions. Because each LE contains a register, a design can be easily

pipelined without consuming more LEs. The specified gate count for

FLEX 6000 devices includes all LUTs and registers.

LEs are combined into groups called logic array blocks (LABs); each LAB

contains 10 LEs. The Altera software automatically places related LEs into

the same LAB, minimizing the number of required interconnects. Each

LAB can implement a medium-sized block of logic, such as a counter or

multiplexer.

Signal interconnections within FLEX 6000 devices—and to and from

device pins—are provided via the routing structure of the FastTrack

Interconnect. The routing structure is a series of fast, continuous row and

column channels that run the entire length and width of the device. Any

LE or pin can feed or be fed by any other LE or pin via the FastTrack

Interconnect. See “FastTrack Interconnect” on

for more information.

Each I/O pin is fed by an I/O element (IOE) located at the end of each row

and column of the FastTrack Interconnect. Each IOE contains a

bidirectional I/O buffer. Each IOE is placed next to an LAB, where it can

be driven by the local interconnect of that LAB. This feature allows fast

clock-to-output times of less than 8 ns when a pin is driven by any of the

10 LEs in the adjacent LAB. Also, any LE can drive any pin via the row and

column interconnect. I/O pins can drive the LE registers via the row and

column interconnect, providing setup times as low as 2 ns and hold times

of 0 ns. IOEs provide a variety of features, such as JTAG BST support,

slew-rate control, and tri-state buffers.

Figure 1

Each group of ten LEs is combined into an LAB, and the LABs are

arranged into rows and columns. The LABs are interconnected by the

FastTrack Interconnect. IOEs are located at the end of each FastTrack

Interconnect row and column.

shows a block diagram of the FLEX 6000 OptiFLEX architecture.

FLEX 6000 Programmable Logic Device Family Data Sheet

page 17

of this data sheet

EPF6024AQC240-1 Altera, EPF6024AQC240-1 Datasheet - Page 5

EPF6024AQC240-1

Specifications of EPF6024AQC240-1

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