XC2V8000-5FF1517I Xilinx Inc, XC2V8000-5FF1517I Datasheet - Page 20

XC2V8000-5FF1517I

Manufacturer Part Number

XC2V8000-5FF1517I

Description

IC FPGA VIRTEX-II 1517FCBGA

Manufacturer

Xilinx Inc

Series

Virtex™-IIr

Datasheet

1.XC2V250-4FGG256C.pdf (318 pages)

Specifications of XC2V8000-5FF1517I

Number Of Labs/clbs

11648

Total Ram Bits

3096576

Number Of I /o

1108

Number Of Gates

8000000

Voltage - Supply

1.425 V ~ 1.575 V

Mounting Type

Surface Mount

Operating Temperature

-40°C ~ 100°C

Package / Case

1517-BBGA, FCBGA

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Number Of Logic Elements/cells

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Configurable Logic Blocks (CLBs)

The Virtex-II configurable logic blocks (CLB) are organized

in an array and are used to build combinatorial and synchro-

nous logic designs. Each CLB element is tied to a switch

matrix to access the general routing matrix, as shown in

Figure

fast local feedback within the CLB. The four slices are split

in two columns of two slices with two independent carry

logic chains and one common shift chain.

Slice Description

Each slice includes two 4-input function generators, carry

logic, arithmetic logic gates, wide function multiplexers and

two storage elements. As shown in

function generator is programmable as a 4-input LUT, 16

bits of distributed SelectRAM memory, or a 16-bit vari-

able-tap shift register element.

The output from the function generator in each slice drives

both the slice output and the D input of the storage element.

Figure 16

DS031-2 (v3.5) November 5, 2007

Product Specification

14. A CLB element comprises 4 similar slices, with

Switch

Matrix

RAM16

Figure 15: Virtex-II Slice Configuration

shows a more detailed view of a single slice.

Figure 14: Virtex-II CLB Element

SRL16

LUT

TBUF X0Y1

TBUF X0Y0

X0Y1

X0Y0

Slice

COUT

Arithmetic Logic

CIN

MUXF5

MUXFx

ORCY

SHIFT

X1Y1

X1Y0

Slice

COUT

CIN

Figure

DS031_31_100900

15, each 4-input

Fast

Connects

to neighbors

DS031_32_101600

www.xilinx.com

Configurations

Look-Up Table

Virtex-II function generators are implemented as 4-input

look-up tables (LUTs). Four independent inputs are pro-

vided to each of the two function generators in a slice (F and

G). These function generators are each capable of imple-

menting any arbitrarily defined boolean function of four

inputs. The propagation delay is therefore independent of

the function implemented. Signals from the function gener-

ators can exit the slice (X or Y output), can input the XOR

dedicated gate (see arithmetic logic), or input the carry-logic

multiplexer (see fast look-ahead carry logic), or feed the D

input of the storage element, or go to the MUXF5 (not

shown in

In addition to the basic LUTs, the Virtex-II slice contains

logic (MUXF5 and MUXFX multiplexers) that combines

function generators to provide any function of five, six,

seven, or eight inputs. The MUXFX are either MUXF6,

MUXF7 or MUXF8 according to the slice considered in the

CLB. Selected functions up to nine inputs (MUXF5 multi-

plexer) can be implemented in one slice. The MUXFX can

also be a MUXF6, MUXF7, or MUXF8 multiplexers to map

any functions of six, seven, or eight inputs and selected

wide logic functions.

The storage elements in a Virtex-II slice can be configured

either as edge-triggered D-type flip-flops or as level-sensi-

tive latches. The D input can be directly driven by the X or Y

output via the DX or DY input, or by the slice inputs bypass-

ing the function generators via the BX or BY input. The clock

enable signal (CE) is active High by default. If left uncon-

nected, the clock enable for that storage element defaults to

the active state.

In addition to clock (CK) and clock enable (CE) signals,

each slice has set and reset signals (SR and BY slice

inputs). SR forces the storage element into the state speci-

fied by the attribute SRHIGH or SRLOW. SRHIGH forces a

logic “1” when SR is asserted. SRLOW forces a logic “0”.

When SR is used, a second input (BY) forces the storage

element into the opposite state. The reset condition is pre-

dominant over the set condition. (See

The initial state after configuration or global initial state is

defined by a separate INIT0 and INIT1 attribute. By default,

setting the SRLOW attribute sets INIT0, and setting the

SRHIGH attribute sets INIT1. For each slice, set and reset

can be set to be synchronous or asynchronous. Virtex-II

devices also have the ability to set INIT0 and INIT1 indepen-

dent of SRHIGH and SRLOW.

The control signals clock (CLK), clock enable (CE) and

set/reset (SR) are common to both storage elements in one

slice. All of the control signals have independent polarity. Any

inverter placed on a control input is automatically absorbed.

Virtex-II Platform FPGAs: Functional Description

Figure

16).

Figure

17.)

Module 2 of 4

XC2V8000-5FF1517I Xilinx Inc, XC2V8000-5FF1517I Datasheet - Page 20

XC2V8000-5FF1517I

Specifications of XC2V8000-5FF1517I

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