EP1AGX90EF1152C6 Altera, EP1AGX90EF1152C6 Datasheet - Page 44

EP1AGX90EF1152C6

Manufacturer Part Number

EP1AGX90EF1152C6

Description

IC ARRIA GX FPGA 90K 1152FBGA

Manufacturer

Altera

Series

Arria GXr

Datasheet

1.EP1AGX20CF484C6N.pdf (234 pages)

Specifications of EP1AGX90EF1152C6

Number Of Logic Elements/cells

90220

Number Of Labs/clbs

4511

Total Ram Bits

4477824

Number Of I /o

538

Voltage - Supply

1.15 V ~ 1.25 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

1152-FBGA

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Number Of Gates

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2–38

Arithmetic Mode

Figure 2–34. ALM in Arithmetic Mode

Arria GX Device Handbook, Volume 1

Arithmetic mode is ideal for implementing adders, counters, accumulators, wide

parity functions, and comparators. An ALM in arithmetic mode uses two sets of 2

four-input LUTs along with two dedicated full adders. The dedicated adders allow

the LUTs to be available to perform pre-adder logic; therefore, each adder can add the

output of two four-input functions. The four LUTs share the dataa and datab

inputs. As shown in

carry-out from adder0 feeds to carry-in of adder1. The carry-out from adder1

drives to adder0 of the next ALM in the LAB. ALMs in arithmetic mode can drive

out registered and/or unregistered versions of the adder outputs.

While operating in arithmetic mode, the ALM can support simultaneous use of the

adder’s carry output along with combinational logic outputs. In this operation, adder

output is ignored. This usage of the adder with the combinational logic output

provides resource savings of up to 50% for functions that can use this ability. An

example of such functionality is a conditional operation, such as the one shown in

Figure

Equation 2–1.

To implement this function, the adder is used to subtract ‘Y’ from ‘X.’ If ‘X’ is less than

‘Y,’ the carry_out signal is ‘1.’ The carry_out signal is fed to an adder where it

drives out to the LAB local interconnect. It then feeds to the LAB-wide syncload

signal. When asserted, syncload selects the syncdata input. In this case, the data

‘Y’ drives the syncdata inputs to the registers. If ‘X’ is greater than or equal to ‘Y,’ the

syncload signal is deasserted and ‘X’ drives the data port of the registers.

datae0

datae1

dataf0

dataf1

datab

dataa

datad

datac

2–35. The equation for this example is:

4-Input

LUT

Figure

2–34, the carry-in signal feeds to adder0, and the

carry_out

carry_in

R = (X < Y) ? Y : X

adder0

adder1

reg0

reg1

To general or

local routing

To general or

local routing

Chapter 2: Arria GX Architecture

Adaptive Logic Modules

EP1AGX90EF1152C6 Altera, EP1AGX90EF1152C6 Datasheet - Page 44

EP1AGX90EF1152C6

Specifications of EP1AGX90EF1152C6

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