XC4VFX100-10FFG1517I Xilinx Inc, XC4VFX100-10FFG1517I Datasheet - Page 174

XC4VFX100-10FFG1517I

Manufacturer Part Number

XC4VFX100-10FFG1517I

Description

IC FPGA VIRTEX-4FX 100K 1517FBGA

Manufacturer

Xilinx Inc

Series

Virtex™-4r

Datasheets

1.XC4VFX12-10FFG668C.pdf (9 pages)

2.XC4VFX12-10FFG668C.pdf (406 pages)

Specifications of XC4VFX100-10FFG1517I

Number Of Logic Elements/cells

94896

Number Of Labs/clbs

10544

Total Ram Bits

6930432

Number Of I /o

768

Voltage - Supply

1.14 V ~ 1.26 V

Mounting Type

Surface Mount

Operating Temperature

-40°C ~ 100°C

Package / Case

1517-BBGA, FCBGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Number Of Gates

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Chapter 4: Block RAM

174

[msb:msb-3]

WRCOUNT

Solution 3: FIFO Flag Generator Using Gray Code

Binary → Gray + 1

IN[3:0]

Binary → Gray + 2

IN[3:0]

Binary → Gray + 3

IN[3:0]

Design Description

0000

0001

0010

0011

0100

0101

0110

0111

1000

1001

1010

1011

1100

1101

1110

1111

0000

0001

0010

0011

0100

0101

0110

0111

1000

1001

1010

1011

1100

1101

1110

1111

0000

0001

0010

0011

0100

0101

0110

0111

1000

1001

1010

1011

1100

1101

1110

1111

Figure 4-31: Intermediate Signal Generation for ALMOSTFULL Flag

The incorrect operation of the FIFO16 after a specific sequence of events occurs only on the

flag signals. Once the flag signals are incorrect, the FIFO operation itself can be affected.

In Solution 3, the FIFO flags are generated outside the FIFO16. The externally generated

flags are used in conjunction with the FIFO16 to give the complete FIFO solution. This

solution can also be used if the customer design has the read or write clock stopped in

between during the FIFO operation.

In the solution described here, the FIFO memory address space is divided into 16 sectors.

The number of word in each sector depends on the FIFO depth and is given by FIFO

Depth/ 16. The granularity of this solution is equal to the number of words in each sector.

Four bits are used to identify the 16 sectors within the memory. The four bits are the four

MSB bits of the WRCOUNT signal from the FIFO16.The ALMOSTFULL flag goes true if

the current read sector is equal to the current write sector + 1, 2, or 3. Three binary to gray

code converters uses the four WRCOUNT MSB bits to convert from binary to gray +1, gray

+2, and gray +3 values as shown in

OUT

0001

0011

0010

0110

0111

0101

0100

1100

1101

1111

1110

1010

1011

1001

1000

0000

0011

0010

0110

0111

0101

0100

1100

1101

1111

1110

1010

1011

1001

1000

0000

0001

0010

0110

0111

0101

0100

1100

1101

1111

1110

1010

1011

1001

1000

0000

0001

0011

OUT[3:0]

4 LUTs

WRCLK

RST

[3:0]

D[3:0] Q[3:0]

www.xilinx.com

PRE

RAgray[3:0]

[3:0]

Figure

4-31.

[1:0]

[3:2]

[1:0]

[3:2]

[1:0]

[3:2]

LUT

= =

6 Synchronizers

RST

UG070 (v2.6) December 1, 2008

Virtex-4 FPGA User Guide

LUT

UG070_c4_32_020607

RST

AF1

AF2

AF3

XC4VFX100-10FFG1517I Xilinx Inc, XC4VFX100-10FFG1517I Datasheet - Page 174

XC4VFX100-10FFG1517I

Specifications of XC4VFX100-10FFG1517I

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