XQ2V1000 Datasheet, PDF(43/127 Page) Xilinx, Inc – QPro Virtex-II 1.5V Military QML Platform FPGAs

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XQ2V1000 Datasheet, PDF (43/127 Pages) Xilinx, Inc – QPro Virtex-II 1.5V Military QML Platform FPGAs

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QPro Virtex-II 1.5V Military QML Platform FPGAs

tion. By default, HSWAP_EN is tied High (internal pull-up),

which shuts off the pull-ups on the user I/O pins during con-

figuration. When HSWAP_EN is tied Low, user I/Os have

pull-ups during configuration. Other dedicated pins are

CCLK (the configuration clock pin), DONE, PROG_B, and

the boundary-scan pins: TDI, TDO, TMS, and TCK.

Depending on the configuration mode chosen, CCLK can

be an output generated by the FPGA, or an input accepting

an externally generated clock. The configuration pins and

boundary-scan pins are independent of the VCCO. The aux-

iliary power supply (VCCAUX) of 3.3V is used for these pins.

All configuration pins are LVTTL 12 mA. (See QPro Virtex-II

DC Characteristics.)

A persist option is available which can be used to force the

configuration pins to retain their configuration function even

after device configuration is complete. If the persist option is

not selected, then the configuration pins with the exception

of CCLK, PROG_B, and DONE can be used as user I/O in

normal operation. The persist option does not apply to the

boundary-scan related pins. The persist feature is valuable

in applications which employ partial reconfiguration or

reconfiguration on the fly.

Configuration Modes

Virtex-II supports the following five configuration modes:

â¢ Slave-serial mode

â¢ Master-serial mode

â¢ Slave SelectMAP mode

â¢ Master SelectMAP mode

â¢ Boundary-Scan mode (IEEE 1532/IEEE 1149)

A detailed description of configuration modes is provided in

the Virtex-II User Guide (UG002).

Slave-Serial Mode

In slave-serial mode, the FPGA receives configuration data

in bit-serial form from a serial PROM or other serial source

of configuration data. The CCLK pin on the FPGA is an

input in this mode. The serial bitstream must be setup at the

DIN input pin a short time before each rising edge of the

externally generated CCLK.

Multiple FPGAs can be daisy chained for configuration from

a single source. After a particular FPGA has been config-

ured, the data for the next device is routed internally to the

DOUT pin. The data on the DOUT pin changes on the rising

edge of CCLK.

Slave-serial mode is selected by applying <111> to the

mode pins (M2, M1, M0). A weak pull-up on the mode pins

makes slave serial the default mode if the pins are left

unconnected.

Master-Serial Mode

In master-serial mode, the CCLK pin is an output pin. It is

the Virtex-II FPGA device that drives the configuration clock

on the CCLK pin to a Xilinx Serial PROM, which in turn

feeds bit-serial data to the DIN input. The FPGA accepts

this data on each rising CCLK edge. After the FPGA has

been loaded, the data for the next device in a daisy chain is

presented on the DOUT pin after the rising CCLK edge.

The interface is identical to slave serial except that an inter-

nal oscillator is used to generate the configuration clock

(CCLK). A wide range of frequencies can be selected for

CCLK, which always starts at a slow default frequency. Con-

figuration bits then switch CCLK to a higher frequency for

the remainder of the configuration.

Slave SelectMAP Mode

The SelectMAP mode is the fastest configuration option.

Byte-wide data is written into the Virtex-II FPGA device with

a BUSY flag controlling the flow of data. An external data

source provides a byte stream, CCLK, an active-Low Chip

Select (CS_B) signal, and a Write signal (RDWR_B). If

BUSY is asserted (High) by the FPGA, the data must be

held until BUSY goes Low. Data can also be read using the

SelectMAP mode. If RDWR_B is asserted, configuration

data is read out of the FPGA as part of a readback opera-

tion.

After configuration, the pins of the SelectMAP port can be

used as additional user I/O. Alternatively, the port can be

retained to permit high-speed 8-bit readback using the per-

sist option.

Multiple Virtex-II FPGAs can be configured using the

SelectMAP mode, and can be made to start-up simulta-

neously. To configure multiple devices in this way, wire the

individual CCLK, Data, RDWR_B, and BUSY pins of all the

devices in parallel. The individual devices are loaded sepa-

rately by deasserting the CS_B pin of each device in turn

and writing the appropriate data.

Master SelectMAP Mode

This mode is a master version of the SelectMAP mode. The

device is configured byte-wide on a CCLK supplied by the

Virtex-II FPGA. Timing is similar to the Slave SerialMAP

mode except that CCLK is supplied by the Virtex-II FPGA.

Boundary-Scan (JTAG, IEEE 1532) Mode

In boundary-scan mode, dedicated pins are used for config-

uring the Virtex-II device. The configuration is done entirely

through the IEEE 1149.1 Test Access Port (TAP). Virtex-II

device configuration using boundary scan is compliant with

IEEE 1149.1-1993 standard and the new IEEE 1532 stan-

dard for In-System Configurable (ISC) devices. The IEEE

1532 standard is backward compliant with the IEEE

1149.1-1993 TAP and state machine. The IEEE Standard

1532 for In-System Configurable (ISC) devices is intended

to be programmed, reprogrammed, or tested on the board

via a physical and logical protocol.

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.

DS122 (v1.1) January 7, 2004

www.xilinx.com

Product Specification

1-800-255-7778

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