XC3S1200E-4FGG320I Xilinx Inc, XC3S1200E-4FGG320I Datasheet - Page 63

XC3S1200E-4FGG320I

Manufacturer Part Number

XC3S1200E-4FGG320I

Description

IC FPGA SPARTAN-3E 1200K 320FBGA

Manufacturer

Xilinx Inc

Series

Spartan™-3Er

Datasheet

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

Specifications of XC3S1200E-4FGG320I

Number Of Logic Elements/cells

19512

Number Of Labs/clbs

2168

Total Ram Bits

516096

Number Of I /o

250

Number Of Gates

1200000

Voltage - Supply

1.14 V ~ 1.26 V

Mounting Type

Surface Mount

Operating Temperature

-40°C ~ 100°C

Package / Case

320-BGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The outputs of the top or bottom BUFGMUX elements con-

nect to two vertical spines, each comprising four vertical

clock lines as shown in

these clock signals connect to the eight-line horizontal clock

spine.

Outputs of the left and right BUFGMUX elements are routed

onto the left or right horizontal spines, each comprising

eight horizontal clock lines.

Each of the eight clock signals in a clock quadrant derives

either from a global clock signal or a half clock signal. In

other words, there are up to 24 total potential clock inputs to

the FPGA, eight of which can connect to clocked elements

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

Product Specification

Figure 47: Clock Sources for the Eight Clock Lines within a Clock Quadrant

a. Left (TL and BL Quadrants) Half of Die

BUFGMUX Output

X0Y9 (Left Half)

X0Y8 (Left Half)

X0Y7 (Left Half)

X0Y6 (Left Half)

X0Y5 (Left Half)

X0Y4 (Left Half)

X0Y3 (Left Half)

X0Y2 (Left Half)

X1Y10 (Global)

X1Y11 (Global)

X2Y10 (Global)

X2Y11 (Global)

X1Y0 (Global)

X1Y1 (Global)

X2Y0 (Global)

X2Y1 (Global)

Figure

45. At the center of the die,

Clock Line

www.xilinx.com

b. Right (TR and BR Quadrants) Half of Die

X3Y9 (Right Half)

X3Y8 (Right Half)

X3Y7 (Right Half)

X3Y6 (Right Half)

X3Y5 (Right Half)

X3Y4 (Right Half)

X3Y3 (Right Half)

X3Y2 (Right Half)

BUFGMUX Output

in a single clock quadrant.

lines in each quadrant are selected from associated BUFG-

MUX sources. For example, if quadrant clock ‘A’ in the bot-

tom left (BL) quadrant originates from BUFGMUX_X2Y1,

then the clock signal from BUFGMUX_X0Y2 is unavailable

in the bottom left quadrant. However, the top left (TL) quad-

rant clock ‘A’ can still solely use the output from either

BUFGMUX_X2Y1 or BUFGMUX_X0Y2 as the source.

To minimize the dynamic power dissipation of the clock net-

work, the Xilinx development software automatically dis-

ables all clock segments not in use.

X1Y10 (Global)

X1Y11 (Global)

X2Y10 (Global)

X2Y11 (Global)

X1Y0 (Global)

X1Y1 (Global)

X2Y0 (Global)

X2Y1 (Global)

DS312-2_17_103105

Figure 47

Clock Line

Functional Description

shows how the clock

XC3S1200E-4FGG320I Xilinx Inc, XC3S1200E-4FGG320I Datasheet - Page 63

XC3S1200E-4FGG320I

Specifications of XC3S1200E-4FGG320I

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