XC5VSX50T-3FF1136C Xilinx Inc, XC5VSX50T-3FF1136C Datasheet - Page 119

XC5VSX50T-3FF1136C

Manufacturer Part Number

XC5VSX50T-3FF1136C

Description

IC FPGA VIRTEX-5 50K 1136FBGA

Manufacturer

Xilinx Inc

Series

Virtex™-5 SXTr

Datasheets

1.XC5VLX30-1FFG324C.pdf (91 pages)

2.XC5VLX30-1FFG324C.pdf (13 pages)

3.XC5VLX30-1FFG324C.pdf (385 pages)

Specifications of XC5VSX50T-3FF1136C

Number Of Logic Elements/cells

52224

Number Of Labs/clbs

4080

Total Ram Bits

4866048

Number Of I /o

480

Voltage - Supply

0.95 V ~ 1.05 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

1136-BBGA, FCBGA

For Use With

HW-V5-ML506-UNI-G - EVALUATION PLATFORM VIRTEX-5HW-AFX-FF1136-500-G - BOARD DEV VIRTEX 5 FF1136

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Number Of Gates

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

XC5VSX50T-3FF1136C

Manufacturer:

Xilinx Inc

Quantity:

10 000

Current page: 119 of 385
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Virtex-5 FPGA User Guide

UG190 (v5.3) May 17, 2010

Conflict Avoidance

Asynchronous Clocking

Synchronous Clocking

X-Ref Target - Figure 4-4

Virtex-5 FPGA block RAM memory is a true dual-port RAM where both ports can access

any memory location at any time. When accessing the same memory location from both

ports, the user must, however, observe certain restrictions. There are two fundamentally

different situations: The two ports either have a common clock (synchronous clocking), or

the clock frequency and phase is different for the two ports (asynchronous clocking).

Asynchronous clocking is the more general case, where the active edges of both clocks do

not occur simultaneously:

•

Synchronous clocking is the special case, where the active edges of both port clocks occur

simultaneously:

•

There are no timing constraints when both ports perform a read operation.

When one port performs a write operation, the other port must not read- or write-

access the same memory location. The simulation model will produce an error if this

condition is violated. If this restriction is ignored, a read or write operation will

produce unpredictable results. There is, however, no risk of physical damage to the

device. If a read and write operation is performed, then the write will store valid data

at the write location.

There are no timing constraints when both ports perform a read operation.

When one port performs a write operation, the other port must not write into the

same location, unless both ports write identical data.

When one port performs a write operation, the write operation succeeds; the other

port can reliably read data from the same location if the write port is in READ_FIRST

mode. DATA_OUT on both ports will then reflect the previously stored data.

If the write port is in either WRITE_FIRST or in NO_CHANGE mode, then the DATA-

OUT on the read port would become invalid (unreliable). The mode setting of the

read-port does not affect this operation.

ADDR

CLK

Disable

0000

Figure 4-4: NO_CHANGE Mode Waveforms

XXXX

www.xilinx.com

Read

MEM(aa)

Synchronous Dual-Port and Single-Port RAMs

1111

MEM(bb)=1111

Write

2222

MEM(cc)=2222

Write

ug190_4_05_032206

XXXX

Read

MEM(dd)

119

XC5VSX50T-3FF1136C Xilinx Inc, XC5VSX50T-3FF1136C Datasheet - Page 119

XC5VSX50T-3FF1136C

Specifications of XC5VSX50T-3FF1136C

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