XC3164A-4PC84C Xilinx Inc, XC3164A-4PC84C Datasheet - Page 7

XC3164A-4PC84C

Manufacturer Part Number

XC3164A-4PC84C

Description

FPGA XC3100A Family 4.5K Gates 224 Cells 227MHz CMOS Technology 5V 84-Pin PLCC

Manufacturer

Xilinx Inc

Datasheet

1.XC3164A-4PC84C.pdf (76 pages)

Specifications of XC3164A-4PC84C

Package

84PLCC

Family Name

XC3100A

Device Logic Units

224

Device System Gates

4500

Number Of Registers

688

Maximum Internal Frequency

227 MHz

Typical Operating Supply Voltage

5 V

Maximum Number Of User I/os

Ram Bits

46064

Re-programmability Support

Yes

97+

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Configurable Logic Block

The array of CLBs provides the functional elements from

which the user’s logic is constructed. The logic blocks are

arranged in a matrix within the perimeter of IOBs. For

example, the XC3020A has 64 such blocks arranged in 8

rows and 8 columns. The development system is used to

compile the configuration data which is to be loaded into

the internal configuration memory to define the operation

and interconnection of each block. User definition of CLBs

and their interconnecting networks may be done by auto-

matic translation from a schematic-capture logic diagram or

optionally by installing library or user macros.

Each CLB has a combinatorial logic section, two flip-flops,

and an internal control section. See

five logic inputs (A, B, C, D and E); a common clock input

(K); an asynchronous direct RESET input (RD); and an

enable clock (EC). All may be driven from the interconnect

November 9, 1998 (Version 3.1)

Figure 5: Configurable Logic Block.

Each CLB includes a combinatorial logic section, two flip-flops and a program memory controlled multiplexer selection of

function. It has the following:

- five logic variable inputs A, B, C, D, and E

- a direct data in DI

- an enable clock EC

- a clock (invertible) K

- an asynchronous direct RESET RD

- two outputs X and Y

ENABLE CLOCK

VARIABLES

DATA IN

DIRECT

CLOCK

RESET

LOGIC

COMBINATORIAL

(GLOBAL RESET)

Figure

FUNCTION

1 (ENABLE)

0 (INHIBIT)

5. There are:

XC3000 Series Field Programmable Gate Arrays

DIN

process. The flip-flops share the enable clock (EC) which,

when Low, recirculates the flip-flops’ present states and

inhibits response to the data-in or combinatorial function

inputs on a CLB. The user may enable these control inputs

and select their sources. The user may also select the

clock net input (K), as well as its active sense within each

CLB. This programmable inversion eliminates the need to

route both phases of a clock signal throughout the device.

resources adjacent to the blocks. Each CLB also has two

outputs (X and Y) which may drive interconnect networks.

Data input for either flip-flop within a CLB is supplied from

the function F or G outputs of the combinatorial logic, or the

block input, DI. Both flip-flops in each CLB share the asyn-

chronous RD which, when enabled and High, is dominant

over clocked inputs. All flip-flops are reset by the

active-Low chip input, RESET, or during the configuration

MUX

CLB OUTPUTS

X3032

7-9

XC3164A-4PC84C Xilinx Inc, XC3164A-4PC84C Datasheet - Page 7

XC3164A-4PC84C

Specifications of XC3164A-4PC84C

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