XCS30XL-4VQ100I Xilinx Inc, XCS30XL-4VQ100I Datasheet - Page 12

XCS30XL-4VQ100I

Manufacturer Part Number

XCS30XL-4VQ100I

Description

IC FPGA 3.3V I-TEMP HP 100VQFP

Manufacturer

Xilinx Inc

Series

Spartan™-XLr

Datasheet

1.XCS05XL-4VQG100C.pdf (83 pages)

Specifications of XCS30XL-4VQ100I

Number Of Logic Elements/cells

1368

Number Of Labs/clbs

576

Total Ram Bits

18432

Number Of I /o

Number Of Gates

30000

Voltage - Supply

3 V ~ 3.6 V

Mounting Type

Surface Mount

Operating Temperature

-40°C ~ 100°C

Package / Case

100-TQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Spartan and Spartan-XL FPGA Families Data Sheet

Double-Length Lines

The double-length lines consist of a grid of metal segments,

each twice as long as the single-length lines: they run past

two CLBs before entering a PSM. Double-length lines are

grouped in pairs with the PSMs staggered, so that each line

goes through a PSM at every other row or column of CLBs

(see

There are four vertical and four horizontal double-length

lines associated with each CLB. These lines provide faster

signal routing over intermediate distances, while retaining

routing flexibility.

Longlines

Longlines form a grid of metal interconnect segments that

run the entire length or width of the array. Longlines are

intended for high fan-out, time-critical signal nets, or nets

that are distributed over long distances.

Each Spartan/XL device longline has a programmable split-

ter switch at its center. This switch can separate the line into

two independent routing channels, each running half the

width or height of the array.

Routing connectivity of the longlines is shown in

The longlines also interface to some 3-state buffers which is

described later in

Figure

8).

3-State Long Line Drivers, page

Figure 10: Programmable Switch Matrix

Figure

19.

www.xilinx.com

I/O Routing

Spartan/XL devices have additional routing around the IOB

ring. This routing is called a VersaRing. The VersaRing facil-

itates pin-swapping and redesign without affecting board

layout. Included are eight double-length lines, and four lon-

glines.

Global Nets and Buffers

The Spartan/XL devices have dedicated global networks.

These networks are designed to distribute clocks and other

high fanout control signals throughout the devices with min-

imal skew.

Four vertical longlines in each CLB column are driven exclu-

sively by special global buffers. These longlines are in addi-

tion to the vertical longlines used for standard interconnect.

In the 5V Spartan devices, the four global lines can be

driven by either of two types of global buffers; Primary Glo-

bal buffers (BUFGP) or Secondary Global buffers (BUFGS).

Each of these lines can be accessed by one particular Pri-

mary Global buffer, or by any of the Secondary Global buff-

ers, as shown in

the four global lines can be driven by any of the eight Global

Low-Skew Buffers (BUFGLS). The clock pins of every CLB

and IOB can also be sourced from local interconnect.

Switch Matrix Interconnect Point

Six Pass Transistors Per

Figure

DS060_10_081100

11. In the 3V Spartan-XL devices,

DS060 (v1.8) June 26, 2008

Product Specification

XCS30XL-4VQ100I Xilinx Inc, XCS30XL-4VQ100I Datasheet - Page 12

XCS30XL-4VQ100I

Specifications of XCS30XL-4VQ100I

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