XC5VSX50T-1FF1136C Xilinx Inc, XC5VSX50T-1FF1136C Datasheet - Page 6

XC5VSX50T-1FF1136C

Manufacturer Part Number

XC5VSX50T-1FF1136C

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-1FF1136C

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

Package

1136FCBGA

Family Name

VirtexÂ®-5

Device Logic Units

52224

Typical Operating Supply Voltage

1 V

Maximum Number Of User I/os

480

Ram Bits

4866048

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-1FF1136C

Manufacturer:

Xilinx Inc

Quantity:

10 000

Company:

Allchip Electronic(HK) Limited

Part Number:

XC5VSX50T-1FF1136C

Quantity:

279

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Virtex-5 Family Overview

Architectural Description

Virtex-5 FPGA Array Overview

Virtex-5 devices are user-programmable gate arrays with various configurable elements and embedded cores optimized for

high-density and high-performance system designs. Virtex-5 devices implement the following functionality:

•

I/O blocks provide the interface between package pins

and the internal configurable logic. Most popular and

leading-edge I/O standards are supported by

programmable I/O blocks (IOBs). The IOBs can be

connected to very flexible ChipSync logic for enhanced

source-synchronous interfacing. Source-synchronous

optimizations include per-bit deskew (on both input and

output signals), data serializers/deserializers, clock

dividers, and dedicated I/O and local clocking

resources.

Configurable Logic Blocks (CLBs), the basic logic

elements for Xilinx® FPGAs, provide combinatorial and

synchronous logic as well as distributed memory and

SRL32 shift register capability. Virtex-5 FPGA CLBs

are based on real 6-input look-up table technology and

provide superior capabilities and performance

compared to previous generations of programmable

logic.

Block RAM modules provide flexible 36 Kbit true dual-

port RAM that are cascadable to form larger memory

blocks. In addition, Virtex-5 FPGA block RAMs contain

optional programmable FIFO logic for increased device

utilization. Each block RAM can also be configured as

two independent 18 Kbit true dual-port RAM blocks,

providing memory granularity for designs needing

smaller RAM blocks.

Cascadable embedded DSP48E slices with 25 x 18

two’s complement multipliers and 48-bit

adder/subtracter/accumulator provide massively

parallel DSP algorithm support. In addition, each

DSP48E slice can be used to perform bitwise logical

functions.

Clock Management Tile (CMT) blocks provide the most

flexible, highest-performance clocking for FPGAs. Each

CMT contains two Digital Clock Manager (DCM) blocks

(self-calibrating, fully digital), and one PLL block (self-

calibrating, analog) for clock distribution delay

compensation, clock multiplication/division, coarse-

/fine-grained clock phase shifting, and input clock jitter

filtering.

www.xilinx.com

Additionally, LXT, SXT, TXT, and FXT devices also contain:

•

LXT and SXT devices contain:

•

TXT and FXT devices contain:

•

FXT devices contain:

•

The general routing matrix (GRM) provides an array of

routing switches between each internal component. Each

programmable element is tied to a switch matrix, allowing

multiple connections to the general routing matrix. The

overall programmable interconnection is hierarchical and

designed to support high-speed designs. In Virtex-5

devices, the routing connections are optimized to support

CLB interconnection in the fewest number of “hops.”

Reducing hops greatly increases post place-and-route

(PAR) design performance.

All programmable elements, including the routing

resources, are controlled by values stored in static storage

elements. These values are loaded into the FPGA during

configuration and can be reloaded to change the functions

of the programmable elements.

Integrated Endpoint blocks for PCI Express designs

providing x1, x4, or x8 PCI Express Endpoint

functionality. When used in conjunction with RocketIO

transceivers, a complete PCI Express Endpoint can be

implemented with minimal FPGA logic utilization.

10/100/1000 Mb/s Ethernet media-access control

blocks offer Ethernet capability.

RocketIO GTP transceivers capable of running up to

3.75 Gb/s. Each GTP transceiver supports full-duplex,

clock-and-data recovery.

GTX transceivers capable of running up to 6.5 Gb/s.

Each GTX transceiver supports full-duplex, clock-and-

data recovery.

Embedded IBM PowerPC 440 RISC CPUs. Each

PowerPC 440 CPU is capable of running up to

550 MHz. Each PowerPC 440 CPU also has an APU

(Auxiliary Processor Unit) interface that supports

hardware acceleration, and an integrated cross-bar for

high data throughput.

DS100 (v5.0) February 6, 2009

Product Specification

XC5VSX50T-1FF1136C Xilinx Inc, XC5VSX50T-1FF1136C Datasheet - Page 6

XC5VSX50T-1FF1136C

Specifications of XC5VSX50T-1FF1136C

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