XC4010L-5PQ208C Xilinx Inc, XC4010L-5PQ208C Datasheet - Page 31

XC4010L-5PQ208C

Manufacturer Part Number

XC4010L-5PQ208C

Description

IC 3.3V FPGA 400 CLB'S 208-PQFP

Manufacturer

Xilinx Inc

Series

XC4000r

Datasheet

1.XC4005L-5PC84C.pdf (175 pages)

Specifications of XC4010L-5PQ208C

Number Of Logic Elements/cells

950

Number Of Labs/clbs

400

Total Ram Bits

12800

Number Of I /o

160

Number Of Gates

10000

Voltage - Supply

3 V ~ 3.6 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

208-BFQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

122-1124

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Programmable Switch Matrices

The horizontal and vertical single- and double-length lines

intersect at a box called a programmable switch matrix

(PSM). Each switch matrix consists of programmable pass

transistors used to establish connections between the lines

(see

For example, a single-length signal entering on the right

side of the switch matrix can be routed to a single-length

line on the top, left, or bottom sides, or any combination

thereof, if multiple branches are required. Similarly, a dou-

ble-length signal can be routed to a double-length line on

any or all of the other three edges of the programmable

switch matrix.

September 18, 1996 (Version 1.04)

Figure 29: Single- and Double-Length Lines, with Programmable Switch Matrices (PSMs)

Singles

Figure 28: Programmable Switch Matrix (PSM)

Double

Figure

28).

CLB

Six Pass Transistors

PSM

Interconnect Point

Per Switch Matrix

X6600

CLB

Single-Length Lines

Single-length lines provide the greatest interconnect ﬂexi-

bility and offer fast routing between adjacent blocks. There

are eight vertical and eight horizontal single-length lines

associated with each CLB. These lines connect the switch-

ing matrices that are located in every row and a column of

CLBs.

Single-length lines are connected by way of the program-

mable switch matrices, as shown in

connectivity is shown in

Single-length lines incur a delay whenever they go through

a switching matrix. Therefore, they are not suitable for rout-

ing signals for long distances. They are normally used to

conduct signals within a localized area and to provide the

branching for nets with fanout greater than one.

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 switch matrix. Double-length

lines are grouped in pairs with the switch matrices stag-

gered, so that each line goes through a switch matrix 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. Double-length lines are connected by way

of the programmable switch matrices. Routing connectivity

is shown in

PSM

Figure

CLB

27.

Doubles

Singles

Doubles

Figure

X6601

27.

Figure

29. Routing

29).

4-35

XC4010L-5PQ208C Xilinx Inc, XC4010L-5PQ208C Datasheet - Page 31

XC4010L-5PQ208C

Specifications of XC4010L-5PQ208C

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