XCS05 Datasheet, PDF(3/83 Page) Xilinx, Inc – Available in both 5V and 3.3V versions

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XCS05 Datasheet, PDF (3/83 Pages) Xilinx, Inc – Available in both 5V and 3.3V versions

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Spartan and Spartan-XL FPGA Families Data Sheet

Spartan and Spartan-XL devices provide system clock

rates exceeding 80 MHz and internal performance in

excess of 150 MHz. In addition to the conventional benefit

of high volume programmable logic solutions, Spartan

series FPGAs also offer on-chip edge-triggered single-port

and dual-port RAM, clock enables on all flip-flops, fast carry

logic, and many other features.

The Spartan/XL families leverage the highly successful

XC4000 architecture with many of that familyâs features and

benefits. Technology advancements have been derived

from the XC4000XLA process developments.

Logic Functional Description

The Spartan series uses a standard FPGA structure as

shown in Figure 1, page 2. The FPGA consists of an array

of configurable logic blocks (CLBs) placed in a matrix of

routing channels. The input and output of signals is

achieved through a set of input/output blocks (IOBs) forming

a ring around the CLBs and routing channels.

â¢ CLBs provide the functional elements for implementing

the userâs logic.

â¢ IOBs provide the interface between the package pins

and internal signal lines.

â¢ Routing channels provide paths to interconnect the

inputs and outputs of the CLBs and IOBs.

The functionality of each circuit block is customized during

configuration by programming internal static memory cells.

The values stored in these memory cells determine the

logic functions and interconnections implemented in the

FPGA.

Configurable Logic Blocks (CLBs)

The CLBs are used to implement most of the logic in an

FPGA. The principal CLB elements are shown in the simpli-

fied block diagram in Figure 2. There are three look-up

tables (LUT) which are used as logic function generators,

two flip-flops and two groups of signal steering multiplexers.

There are also some more advanced features provided by

the CLB which will be covered in the Advanced Features

Description, page 13.

Function Generators

Two 16 x 1 memory look-up tables (F-LUT and G-LUT) are

used to implement 4-input function generators, each offer-

ing unrestricted logic implementation of any Boolean func-

tion of up to four independent input signals (F1 to F4 or G1

to G4). Using memory look-up tables the propagation delay

is independent of the function implemented.

A third 3-input function generator (H-LUT) can implement

any Boolean function of its three inputs. Two of these inputs

are controlled by programmable multiplexers (see box "A" of

Figure 2). These inputs can come from the F-LUT or G-LUT

outputs or from CLB inputs. The third input always comes

from a CLB input. The CLB can, therefore, implement cer-

tain functions of up to nine inputs, like parity checking. The

three LUTs in the CLB can also be combined to do any arbi-

trarily defined Boolean function of five inputs.

DS060 (v1.8) June 26, 2008

www.xilinx.com

Product Specification

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