EP1AGX20CF484C6N Altera, EP1AGX20CF484C6N Datasheet - Page 37

EP1AGX20CF484C6N

Manufacturer Part Number

EP1AGX20CF484C6N

Description

IC ARRIA GX FPGA 20K 484FBGA

Manufacturer

Altera

Series

Arria GXr

Datasheet

1.EP1AGX20CF484C6N.pdf (234 pages)

Specifications of EP1AGX20CF484C6N

Number Of Logic Elements/cells

21580

Number Of Labs/clbs

1079

Total Ram Bits

1229184

Number Of I /o

230

Voltage - Supply

1.15 V ~ 1.25 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

484-FBGA

Family Name

Arria™ GX

Number Of Logic Blocks/elements

21580

# I/os (max)

230

Process Technology

CMOS

Operating Supply Voltage (typ)

1.2V

Logic Cells

21580

Ram Bits

1229184

Operating Supply Voltage (min)

1.15V

Operating Supply Voltage (max)

1.25V

Operating Temp Range

0C to 85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

484

Package Type

FC-FBGA

No. Of Macrocells

21580

Family Type

Arria GX

No. Of I/o's

230

Operating Frequency Max

622.08MHz

Operating Temperature Range

0Â°C To +85Â°C

Logic Case Style

BGA

No. Of Pins

484

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Number Of Gates

Lead Free Status / Rohs Status

Compliant

Other names

544-2395

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Chapter 2: Arria GX Architecture

Adaptive Logic Modules

Figure 2–27. LAB-Wide Control Signals

Adaptive Logic Modules

Dedicated Row LAB Clocks

Local Interconnect

Figure 2–27

The basic building block of logic in the Arria GX architecture is the ALM. The ALM

provides advanced features with efficient logic utilization. Each ALM contains a

variety of look-up table (LUT)-based resources that can be divided between two

adaptive LUTs (ALUTs). With up to eight inputs to the two ALUTs, one ALM can

implement various combinations of two functions. This adaptability allows the ALM

to be completely backward-compatible with four-input LUT architectures. One ALM

can also implement any function of up to six inputs and certain seven-input functions.

In addition to the adaptive LUT-based resources, each ALM contains two

programmable registers, two dedicated full adders, a carry chain, a shared arithmetic

chain, and a register chain. Through these dedicated resources, the ALM can

efficiently implement various arithmetic functions and shift registers. Each ALM

drives all types of interconnects: local, row, column, carry chain, shared arithmetic

chain, register chain, and direct link interconnects.

block diagram of the Arria GX ALM while

the connections in the ALM.

shows the LAB control signal generation circuit.

labclk0

clock signals per LAB.

There are two unique

or asyncload

or labpreset

labclkena0

labclk1

labclkena1

Figure 2–29

labclk2

labclkena2

Figure 2–28

shows a detailed view of all

syncload

Arria GX Device Handbook, Volume 1

labclr0

shows a high-level

labclr1

synclr

2–31

EP1AGX20CF484C6N Altera, EP1AGX20CF484C6N Datasheet - Page 37

EP1AGX20CF484C6N

Specifications of EP1AGX20CF484C6N

Available stocks

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