XC4005-5PC84C Xilinx Inc, XC4005-5PC84C Datasheet - Page 7

XC4005-5PC84C

Manufacturer Part Number

XC4005-5PC84C

Description

IC LOGIC CL ARRAY 5000GAT 84PLC

Manufacturer

Xilinx Inc

Series

XC4000r

Datasheet

1.XC4003-6PQ100C.pdf (40 pages)

Specifications of XC4005-5PC84C

Number Of Logic Elements/cells

466

Number Of Labs/clbs

196

Total Ram Bits

6272

Number Of I /o

Number Of Gates

5000

Voltage - Supply

4.75 V ~ 5.25 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

84-LCC (J-Lead)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

122-1068

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inputs could not be driven by all adjacent routing lines. In

the XC4000 families, these constraints have been largely

eliminated. This makes it easier for the software to com-

plete the routing of complex interconnect patterns.

Chip architects and software designers worked closely

together to achieve a solution that is not only inherently

powerful, but also easy to utilize by the software-driven

design tools for Partitioning, Placement and Routing. The

goal was to provide automated push-button software tools

that complete almost all designs, even large and dense

ones, automatically, without operator assistance. But these

tools will still give the designer the option to get involved in

the partitioning, placement and, to a lesser extent, even

the routing of critical parts of the design, if that is needed

to optimize the performance.

On-Chip Memory

The XC4000, XC4000A and XC4000H family devices are

the first programmable logic devices with RAM accessible

to the user.

An optional mode for each CLB makes the memory look-

up tables in the F' and G' function generators usable as

either a 16 x 2 or 32 x 1 bit array of Read/Write memory

cells (Figure 3). The F1-F4 and G1-G4 inputs to the

function generators act as address lines, selecting a

particular memory cell in each look-up table. The function-

ality of the CLB control signals change in this configura-

tion; the H1, DIN, and S/R lines become the two data inputs

and the Write Enable (WE) input for the 16 x 2 memory.

When the 32 x 1 configuration is selected, D1 acts as the

fifth address bit and D0 is the data input. The contents of

the memory cell(s) being addressed are available at the F'

and G' function-generator outputs, and can exit the CLB

through its X and Y outputs, or can be pipelined using the

CLB flip-flop(s).

Configuring the CLB function generators as Read/Write

memory does not affect the functionality of the other

portions of the CLB, with the exception of the redefinition

of the control signals. The H' function generator can be

used to implement Boolean functions of F', G', and D1, and

the D flip-flops can latch the F', G', H', or D0 signals.

The RAMs are very fast; read access is the same as logic

delay, about 5.5 ns; write time is about 8 ns; both are

several times faster than any off-chip solution. Such dis-

tributed RAM is a novel concept, creating new possibilities

in system design: registered arrays of multiple accumula-

tors, status registers, index registers, DMA counters, dis-

tributed shift registers, LIFO stacks, and FIFO buffers. The

data path of a 16-byte FIFO uses four CLBs for storage,

and six CLBs for address counting and multiplexing (Fig-

ure 4). With 32 storage locations per CLB, compared to two

flip-flops per CLB, the cost of intelligent distributed memory

has been reduced by a factor of 16.

2-13

Figure 3. CLB Function Generators Can Be Used as

Input/Output Blocks (IOBs), XC4000 and XC4000A

Families (for XC4000H family, see page 2-82)

User-configurable IOBs provide the interface between

external package pins and the internal logic (Figure 5).

Each IOB controls one package pin and can be defined for

input, output, or bidirectional signals.

Two paths, labeled I1 and I2, bring input signals into the

array. Inputs are routed to an input register that can be

programmed as either an edge-triggered flip-flop or a

level-sensitive transparent latch. Optionally, the data input

to the register can be delayed by several nanoseconds to

compensate for the delay on the clock signal, that first must

Figure 4. 16-byte FIFO

Empty

Read

Write

Full

Generator

Function

Read/Write Memory Cells

DATA

Control

Data

Write G'

Write F'

Write Counter

2 CBLs

WE(S/R)

16 x 8 RAM

Configuration Memory Bit

2 CBLs

Multiplexer

2 CBLs

D1(H1)

16 x 2

Read Counter

D0(DIN)

2 CBLs

X5375

Data

Out

X6072

XC4005-5PC84C Xilinx Inc, XC4005-5PC84C Datasheet - Page 7

XC4005-5PC84C

Specifications of XC4005-5PC84C

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