XC2S50E-6TQ144I Xilinx Inc, XC2S50E-6TQ144I Datasheet - Page 13
XC2S50E-6TQ144I
Manufacturer Part Number
XC2S50E-6TQ144I
Description
FPGA Spartan®-IIE Family 50K Gates 1728 Cells 357MHz 0.15um Technology 1.8V 144-Pin TQFP
Manufacturer
Xilinx Inc
Datasheet
1.XC2S50E-6TQG144C.pdf
(108 pages)
Specifications of XC2S50E-6TQ144I
Package
144TQFP
Family Name
Spartan®-IIE
Device Logic Cells
1728
Device Logic Units
384
Device System Gates
50000
Maximum Internal Frequency
357 MHz
Typical Operating Supply Voltage
1.8 V
Maximum Number Of User I/os
102
Ram Bits
32768
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
XC2S50E-6TQ144I
Manufacturer:
RENESAS
Quantity:
30 000
Configurable Logic Block
The basic building block of the Spartan-IIE FPGA CLB is the
logic cell (LC). An LC includes a 4-input function generator,
carry logic, and storage element. The output from the func-
tion generator in each LC drives the CLB output or the
D input of the flip-flop. Each Spartan-IIE FPGA CLB con-
tains four LCs, organized in two similar slices; a single slice
is shown in
In addition to the four basic LCs, the Spartan-IIE FPGA CLB
contains logic that combines function generators to provide
functions of five or six inputs.
Look-Up Tables
Spartan-IIE FPGA function generators are implemented as
4-input look-up tables (LUTs). In addition to operating as a
function generator, each LUT can provide a 16 x 1-bit syn-
chronous RAM. Furthermore, the two LUTs within a slice
can be combined to create a 16 x 2-bit or 32 x 1-bit syn-
chronous RAM, or a 16 x 1-bit dual-port synchronous RAM.
DS077-2 (v2.3) June 18, 2008
Product Specification
Figure
R
6.
www.xilinx.com
The Spartan-IIE FPGA LUT can also provide a 16-bit shift
register that is ideal for capturing high-speed or burst-mode
data. This mode can also be used to store data in applica-
tions such as Digital Signal Processing.
Storage Elements
Storage elements in the Spartan-IIE FPGA slice can be
configured either as edge-triggered D-type flip-flops or as
level-sensitive latches. The D inputs can be driven either by
function generators within the slice or directly from slice
inputs, bypassing the function generators.
In addition to Clock and Clock Enable signals, each slice
has synchronous set and reset signals (SR and BY). SR
forces a storage element into the initialization state speci-
fied for it in the configuration. BY forces it into the opposite
state. Alternatively, these signals may be configured to
operate asynchronously.
All control signals are independently invertible, and are
shared by the two flip-flops within the slice.
Spartan-IIE FPGA Family: Functional Description
13
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