XCV405E-7BG560I Xilinx Inc, XCV405E-7BG560I Datasheet - Page 2

XCV405E-7BG560I

Manufacturer Part Number

XCV405E-7BG560I

Description

IC FPGA 1.8V 560-MBGA

Manufacturer

Xilinx Inc

Series

Virtex™-E EMr

Datasheet

1.XCV405E-6FG676C.pdf (118 pages)

Specifications of XCV405E-7BG560I

Number Of Logic Elements/cells

10800

Number Of Labs/clbs

2400

Total Ram Bits

573440

Number Of I /o

404

Number Of Gates

129600

Voltage - Supply

1.71 V ~ 1.89 V

Mounting Type

Surface Mount

Operating Temperature

-40°C ~ 100°C

Package / Case

560-LBGA, Metal

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Virtex™-E 1.8 V Extended Memory Field Programmable Gate Arrays

Table 1: Virtex-E Extended Memory Field-Programmable Gate Array Family Members

Virtex-E Compared to Virtex Devices

The Virtex-E family offers up to 43,200 logic cells in devices

up to 30% faster than the Virtex family.

I/O performance is increased to 622 Mb/s using Source

Synchronous data transmission architectures and synchro-

nous system performance up to 240 MHz using sin-

gled-ended SelectI/O technology. Additional I/O standards

are supported, notably LVPECL, LVDS, and BLVDS, which

use two pins per signal. Almost all signal pins can be used

for these new standards.

Virtex-E devices have up to 640 Kb of faster (250MHz)

block SelectRAM, but the individual RAMs are the same

size and structure as in the Virtex family. They also have

eight DLLs instead of the four in Virtex devices. Each indi-

vidual DLL is slightly improved with easier clock mirroring

and 4x frequency multiplication.

ory, is 1.8 V, instead of 2.5 V for Virtex devices. Advanced

processing and 0.18 µm design rules have resulted in

smaller dice, faster speed, and lower power consumption.

I/O pins are 3 V tolerant, and can be 5 V tolerant with an

external 100 Ω resistor. PCI 5 V is not supported. With the

addition of appropriate external resistors, any pin can toler-

ate any voltage desired.

Banking rules are different. With Virtex devices, all input

buffers are powered by V

LVTTL, LVCMOS2, and PCI input buffers are powered by

the I/O supply voltage V

The Virtex-E family is not bitstream-compatible with the Vir-

tex family, but Virtex designs can be compiled into equiva-

lent Virtex-E devices.

The same device in the same package for the Virtex-E and

Virtex families are pin-compatible with some minor excep-

tions. See the data sheet pinout section for details.

General Description

The Virtex-E FPGA family delivers high-performance,

high-capacity programmable logic solutions. Dramatic

increases in silicon efficiency result from optimizing the new

architecture for place-and-route efficiency and exploiting an

aggressive 6-layer metal 0.18 µm CMOS process. These

advances make Virtex-E FPGAs powerful and flexible alter-

Module 1 of 4

CCINT

XCV405E

XCV812E

Device

, the supply voltage for the internal logic and mem-

Logic Gates

129,600

254,016

CCO

CCINT

. With Virtex-E devices, the

CLB Array

40 x 60

56 x 84

10,800

21,168

Logic

Cells

www.xilinx.com

1-800-255-7778

Differential

natives to mask-programmed gate arrays. The Virtex-E fam-

ily includes the nine members in

Building on experience gained from Virtex FPGAs, the Vir-

tex-E family is an evolutionary step forward in programma-

ble logic design. Combining a wide variety of programmable

system features, a rich hierarchy of fast, flexible intercon-

nect resources, and advanced process technology, the Vir-

tex-E family delivers a high-speed and high-capacity

programmable logic solution that enhances design flexibility

while reducing time-to-market.

Virtex-E Architecture

Virtex-E devices feature a flexible, regular architecture that

comprises an array of configurable logic blocks (CLBs) sur-

rounded by programmable input/output blocks (IOBs), all

interconnected by a rich hierarchy of fast, versatile routing

resources. The abundance of routing resources permits the

Virtex-E family to accommodate even the largest and most

complex designs.

Virtex-E FPGAs are SRAM-based, and are customized by

loading configuration data into internal memory cells. Con-

figuration data can be read from an external SPROM (mas-

ter serial mode), or can be written into the FPGA

(SelectMAP™, slave serial, and JTAG modes).

The standard Xilinx Foundation Series™ and Alliance

Series™ Development systems deliver complete design

support for Virtex-E, covering every aspect from behavioral

and schematic entry, through simulation, automatic design

translation and implementation, to the creation and down-

loading of a configuration bit stream.

Higher Performance

Virtex-E devices provide better performance than previous

generations of FPGAs. Designs can achieve synchronous

system clock rates up to 240 MHz including I/O or 622 Mb/s

using Source Synchronous data transmission architech-

tures. Virtex-E I/Os comply fully with 3.3 V PCI specifica-

tions, and interfaces can be implemented that operate at

33 MHz or 66 MHz.

While performance is design-dependent, many designs

operate internally at speeds in excess of 133 MHz and can

achieve over 311 MHz.

mance data for representative circuits, using worst-case

timing parameters.

I/O Pairs

183

201

User I/O

404

556

Table 2, page

Production Product Specification

BlockRAM

1,146,880

573,440

Bits

DS025-1 (v1.5) July 17, 2002

Table

3, shows perfor-

Distributed

RAM Bits

153,600

301,056

XCV405E-7BG560I Xilinx Inc, XCV405E-7BG560I Datasheet - Page 2

XCV405E-7BG560I

Specifications of XCV405E-7BG560I

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