XC3S500E-5PQG208C Xilinx Inc, XC3S500E-5PQG208C Datasheet - Page 46

FPGA Spartan®-3E Family 500K Gates 10476 Cells 657MHz 90nm (CMOS) Technology 1.2V 208-Pin PQFP

XC3S500E-5PQG208C

Manufacturer Part Number

XC3S500E-5PQG208C

Description

FPGA Spartan®-3E Family 500K Gates 10476 Cells 657MHz 90nm (CMOS) Technology 1.2V 208-Pin PQFP

Manufacturer

Xilinx Inc

Series

Spartan™-3Er

Datasheet

1.XC3S100E-4VQG100C.pdf (233 pages)

Specifications of XC3S500E-5PQG208C

Package

208PQFP

Family Name

SpartanÂ®-3E

Device Logic Cells

10476

Device Logic Units

1164

Device System Gates

500000

Number Of Registers

9312

Maximum Internal Frequency

657 MHz

Typical Operating Supply Voltage

1.2 V

Maximum Number Of User I/os

158

Ram Bits

368640

Package / Case

208-MQFP, 208-PQFP

Mounting Type

Surface Mount

Voltage - Supply

1.1 V ~ 3.465 V

Operating Temperature

0°C ~ 85°C

Number Of I /o

158

Number Of Logic Elements/cells

Number Of Gates

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Functional Description

The BCIN and BCOUT ports have associated dedicated

routing that connects adjacent multipliers within the same

column. Via the cascade connection, the BCOUT port of

one multiplier block drives the BCIN port of the multiplier

block directly above it. There is no connection to the BCIN

port of the bottom-most multiplier block in a column or a

connection from the BCOUT port of the top-most block in a

column. As an example,

cade capability within the XC3S100E FPGA, which has a

single column of multiplier, four blocks tall. For clarity, the

figure omits the register control inputs.

Figure 39: Multiplier Cascade Connection

B_INPUT = CASCADE

B_INPUT = DIRECT

Figure 39

BCOUT

shows the multiplier cas-

BCIN

DS312-2_30_021505

www.xilinx.com

When using the BREG register, the cascade connection

forms a shift register structure typically used in DSP algo-

rithms such as direct-form FIR filters. When the BREG reg-

ister is omitted, the cascade structure essentially feeds the

same input value to more than one multiplier. This parallel

connection serves to create wide-input multipliers, imple-

ment transpose FIR filters, and is used in any application

that requires that several multipliers have the same input

value.

Multiplier/Block RAM Interaction

Each multiplier is located adjacent to an 18 Kbit block RAM

and shares some interconnect resources. Configuring an

18 Kbit block RAM for 36-bit wide data (512 x 36 mode) pre-

vents use of the associated dedicated multiplier.

The upper 16 bits of the ‘A’ multiplicand input are shared

with the upper 16 bits of the block RAM’s Port A Data input.

Similarly, the upper 16 bits of the ‘B’ multiplicand input are

shared with Port B’s data input. See also

page

64.

DS312-2 (v3.8) August 26, 2009

Product Specification

Figure 48,

XC3S500E-5PQG208C Xilinx Inc, XC3S500E-5PQG208C Datasheet - Page 46

XC3S500E-5PQG208C

Specifications of XC3S500E-5PQG208C

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