參數(shù)資料
型號(hào): XC4028XL-3HQ240I
廠商: Xilinx Inc
文件頁(yè)數(shù): 17/68頁(yè)
文件大?。?/td> 0K
描述: IC FPGA I-TEMP 3.3V 3SPD 240HQFP
產(chǎn)品變化通告: Product Discontinuation 27/Apr/2010
標(biāo)準(zhǔn)包裝: 1
系列: XC4000E/X
LAB/CLB數(shù): 1024
邏輯元件/單元數(shù): 2432
RAM 位總計(jì): 32768
輸入/輸出數(shù): 193
門數(shù): 28000
電源電壓: 3 V ~ 3.6 V
安裝類型: 表面貼裝
工作溫度: -40°C ~ 100°C
封裝/外殼: 240-BFQFP 裸露焊盤
供應(yīng)商設(shè)備封裝: 240-PQFP(32x32)
R
XC4000E and XC4000X Series Field Programmable Gate Arrays
6-28
May 14, 1999 (Version 1.6)
The oscillator output is optionally available after congura-
tion. Any two of four resynchronized taps of a built-in divider
are also available. These taps are at the fourth, ninth, four-
teenth and nineteenth bits of the divider. Therefore, if the
primary oscillator output is running at the nominal 8 MHz,
the user has access to an 8 MHz clock, plus any two of 500
kHz, 16kHz, 490Hz and 15Hz (up to 10% lower for low-volt-
age devices). These frequencies can vary by as much as
-50% or +25%.
These signals can be accessed by placing the OSC4
library element in a schematic or in HDL code (see
Figure 24).
The oscillator is automatically disabled after conguration if
the OSC4 symbol is not used in the design.
Programmable Interconnect
All internal connections are composed of metal segments
with programmable switching points and switching matrices
to implement the desired routing. A structured, hierarchical
matrix of routing resources is provided to achieve efcient
automated routing.
The XC4000E and XC4000X share a basic interconnect
structure. XC4000X devices, however, have additional rout-
ing not available in the XC4000E. The extra routing
resources allow high utilization in high-capacity devices. All
XC4000X-specic routing resources are clearly identied
throughout this section. Any resources not identied as
XC4000X-specic are present in all XC4000 Series
devices.
This section describes the varied routing resources avail-
able in XC4000 Series devices. The implementation soft-
ware automatically assigns the appropriate resources
based on the density and timing requirements of the
design.
Interconnect Overview
There are several types of interconnect.
CLB routing is associated with each row and column of
the CLB array.
IOB routing forms a ring (called a VersaRing) around
the outside of the CLB array. It connects the I/O with the
internal logic blocks.
Global routing consists of dedicated networks primarily
designed to distribute clocks throughout the device with
minimum delay and skew. Global routing can also be
used for other high-fanout signals.
Five interconnect types are distinguished by the relative
length of their segments: single-length lines, double-length
lines, quad and octal lines (XC4000X only), and longlines.
In the XC4000X, direct connects allow fast data ow
between adjacent CLBs, and between IOBs and CLBs.
Extra routing is included in the IOB pad ring. The XC4000X
also includes a ring of octal interconnect lines near the
IOBs to improve pin-swapping and routing to locked pins.
XC4000E/X devices include two types of global buffers.
These global buffers have different properties, and are
intended for different purposes. They are discussed in
detail later in this section.
CLB Routing Connections
A high-level diagram of the routing resources associated
with one CLB is shown in Figure 25. The shaded arrows
represent routing present only in XC4000X devices.
Table 14 shows how much routing of each type is available
in XC4000E and XC4000X CLB arrays. Clearly, very large
designs, or designs with a great deal of interconnect, will
route more easily in the XC4000X. Smaller XC4000E
designs, typically requiring signicantly less interconnect,
do not require the additional routing.
Figure 27 on page 30 is a detailed diagram of both the
XC4000E and the XC4000X CLB, with associated routing.
The shaded square is the programmable switch matrix,
present in both the XC4000E and the XC4000X. The
L-shaped shaded area is present only in XC4000X devices.
As shown in the gure, the XC4000X block is essentially an
XC4000E block with additional routing.
CLB inputs and outputs are distributed on all four sides,
providing maximum routing exibility. In general, the entire
architecture is symmetrical and regular. It is well suited to
established placement and routing algorithms. Inputs, out-
puts, and function generators can freely swap positions
within a CLB to avoid routing congestion during the place-
ment and routing operation.
Product Obsolete or Under Obsolescence
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