XC4036XL-09BG352C Xilinx Inc, XC4036XL-09BG352C Datasheet - Page 3

XC4036XL-09BG352C

Manufacturer Part Number

XC4036XL-09BG352C

Description

IC FPGA C-TEMP 3.3V 352-MBGA

Manufacturer

Xilinx Inc

Series

XC4000E/Xr

Datasheet

1.XC4036XL-09BG352C.pdf (14 pages)

Specifications of XC4036XL-09BG352C

Number Of Logic Elements/cells

3078

Number Of Labs/clbs

1296

Total Ram Bits

41472

Number Of I /o

288

Number Of Gates

36000

Voltage - Supply

3 V ~ 3.6 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

352-LBGA, Metal

Case

BGA

00+

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Three-State Register

XC4000XLA/XV devices incorporate an optional register

controlling the three-state enable in the IOBs.The use of

the three-state control register can signiﬁcantly improve

output enable and disable time.

FastCLK Clock Buffers

The XLA/XV devices incorporate FastCLK clock buffers.

Two FastCLK buffers are available on each of the right and

left edges of the die. Each FastCLK buffer can provide a

fast clock signal (typically < 1.5 ns clock delay) to all the

IOBs within the IOB octant containing the buffer. The Fast-

CLK buffers can be instantiated by use of the BUFFCLK

symbols. (In addition to FastCLK buffers, the Global Early

BUFGE clock buffers #1, #2, #5, and #6 can also provide

fast clock signals (typically < 1.5 ns clock delay) to IOBs on

the top and bottom of the die.

XLA/XV Power Requirements

XC4000XLA devices require 40% less power per CLB than

equivalent XL devices. XC4000XV devices require 42%

less power per CLB than equivalent XLA devices and 65%

less power than XL devices The representative K-Factor for

the following families can be found in

predicts device current for typical user designs and is

based on ﬁlling the FPGA with active 16-Bit counters and

measuring the device current at 1 MHz. This technique is

described in XBRF14 “A Simple Method of Estimating

Power in XC4000XL/EX/E FPGAs”. To predict device

power (P) using the K-Factor use the following formula:

P=V*K*N*F; where:

P= Device Power

V= Power supply voltage

K= the Device K-Factor

N = number of active registers

F = Frequency in MHz

DS015 (v1.3) October 18, 1999 - Product Speciﬁcation

Table

2. The K-Factor

XC4000XLA/XV Field Programmable Gate Arrays

Table 2: K-Factor and Relative Power.

XLA/XV Logic Performance

XC4000XLA/XV devices feature 30% faster device speed

than XL devices, and consistent performance is achieved

across all family members.

mance of the XLA devices. For details regarding the imple-

mentation of these benchmarks refer to XBRF15 “Speed

Metrics for High Performance FPGAs”.

Table 3: XLA/XV Estimated Benchmark Performance

FPGA Family

(Manhattan Distance)

XC4000XLA

XC4000XV

XC4000XL

2 Cascaded Adders

4 Cascaded Adders

Cascaded 4LUTs

Dual Port RAM

Benchmarks

Interconnect

(Pipelined)

Adder

K-Factor

8-Bits by 256

Table 3

8-Bits by 16

128 CLBs

16 CLBs

64 CLBs

1 CLBs

4 CLBs

Relative To

1 Level

2 Level

4 Level

6 Level

16-Bit

32-Bit

16-Bit

8-Bit

Size

Power

1.00

0.60

0.35

illustrates the perfor-

Relative To

Frequency

Maximum

172 MHz

144 MHz

108 MHz

314 MHz

193 MHz

108 MHz

325 MHz

260 MHz

185 MHz

108 MHz

172 MHz

94 MHz

57 MHz

75 MHz

81 MHz

Power

XLA

1.65

1.00

0.58

6-159

XC4036XL-09BG352C Xilinx Inc, XC4036XL-09BG352C Datasheet - Page 3

XC4036XL-09BG352C

Specifications of XC4036XL-09BG352C

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