XCV812E-7FG900C Xilinx Inc, XCV812E-7FG900C Datasheet - Page 16

XCV812E-7FG900C

Manufacturer Part Number

XCV812E-7FG900C

Description

IC FPGA 1.8V C-TEMP 900-FBGA

Manufacturer

Xilinx Inc

Series

Virtex™-E EMr

Datasheet

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

Specifications of XCV812E-7FG900C

Number Of Logic Elements/cells

21168

Number Of Labs/clbs

4704

Total Ram Bits

1146880

Number Of I /o

556

Number Of Gates

254016

Voltage - Supply

1.71 V ~ 1.89 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

900-BBGA

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

tions and the desired performance. Finally, the router inter-

connects the blocks.

The PAR algorithms support fully automatic implementation

of most designs. For demanding applications, however, the

user can exercise various degrees of control over the pro-

cess. User partitioning, placement, and routing information

is optionally specified during the design-entry process. The

implementation of highly structured designs can benefit

greatly from basic floor planning.

The implementation software incorporates Timing Wizard

timing-driven placement and routing. Designers specify tim-

ing requirements along entire paths during design entry.

The timing path analysis routines in PAR then recognize

these user-specified requirements and accommodate them.

Timing requirements are entered on a schematic in a form

directly relating to the system requirements, such as the tar-

geted clock frequency, or the maximum allowable delay

between two registers. In this way, the overall performance

of the system along entire signal paths is automatically tai-

lored to user-generated specifications. Specific timing infor-

mation for individual nets is unnecessary.

Configuration

Virtex-E devices are configured by loading configuration

data into the internal configuration memory. Note that

attempting to load an incorrect bitstream causes configura-

tion to fail and can damage the device.

Some of the pins used for configuration are dedicated pins,

while others can be re-used as general purpose inputs and

outputs once configuration is complete.

The following are dedicated pins:

•

Depending on the configuration mode chosen, CCLK can

be an output generated by the FPGA, or it can be generated

externally and provided to the FPGA as an input. The

PROGRAM pin must be pulled High prior to reconfiguration.

Note that some configuration pins can act as outputs. For

correct operation, these pins require a V

mit LVTTL operation. All of the pins affected are in banks 2

Table 8:

Module 2 of 4

Master-serial mode

Boundary-scan mode

SelectMAP mode

Slave-serial mode

Master-serial mode

Configuration Mode

Mode pins (M2, M1, M0)

Configuration clock pin (CCLK)

PROGRAM pin

DONE pin

Boundary-scan pins (TDI, TDO, TMS, TCK)

Configuration Codes

CCO

of 3.3 V to per-

CCLK Direction

Out

N/A

Out

www.xilinx.com

1-800-255-7778

Design Verification

In addition to conventional software simulation, FPGA users

can use in-circuit debugging techniques. Because Xilinx

devices are infinitely reprogrammable, designs can be veri-

fied in real time without the need for extensive sets of soft-

ware simulation vectors.

The development system supports both software simulation

and in-circuit debugging techniques. For simulation, the

system extracts the post-layout timing information from the

design database, and back-annotates this information into

the net list for use by the simulator. Alternatively, the user

can verify timing-critical portions of the design using the

TRCE

For in-circuit debugging, an optional download and read-

back cable is available. This cable connects the FPGA in the

target system to a PC or workstation. After downloading the

design into the FPGA, the designer can single-step the

logic, readback the contents of the flip-flops, and so observe

the internal logic state. Simple modifications can be down-

loaded into the system in a matter of minutes.

or 3. The configuration pins needed for SelectMap (CS,

Write) are located in bank 1.

Configuration Modes

Virtex-E supports the following four configuration modes.

•

The Configuration mode pins (M2, M1, M0) select among

these configuration modes with the option in each case of

having the IOB pins either pulled up or left floating prior to

configuration. The selection codes are listed in

Configuration through the boundary-scan port is always

available, independent of the mode selection. Selecting the

boundary-scan mode simply turns off the other modes. The

three mode pins have internal pull-up resistors, and default

to a logic High if left unconnected. However, it is recom-

mended to drive the configuration mode pins externally.

Data Width

Slave-serial mode

Master-serial mode

SelectMAP mode

Boundary-scan mode (JTAG)

static timing analyzer.

Serial D

Yes

out

DS025-2 (v2.3) November 19, 2002

Configuration Pull-ups

Yes

Table

XCV812E-7FG900C Xilinx Inc, XCV812E-7FG900C Datasheet - Page 16

XCV812E-7FG900C

Specifications of XCV812E-7FG900C

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