EPF10K30ETI144-2 Altera, EPF10K30ETI144-2 Datasheet - Page 18
EPF10K30ETI144-2
Manufacturer Part Number
EPF10K30ETI144-2
Description
IC FLEX 10KE FPGA 30K 144-TQFP
Manufacturer
Altera
Series
FLEX-10KE®r
Datasheet
1.EPF10K30ETC144-3.pdf
(100 pages)
Specifications of EPF10K30ETI144-2
Number Of Logic Elements/cells
1728
Number Of Labs/clbs
216
Total Ram Bits
24576
Number Of I /o
102
Number Of Gates
119000
Voltage - Supply
2.375 V ~ 2.625 V
Mounting Type
Surface Mount
Operating Temperature
-40°C ~ 100°C
Package / Case
144-TQFP, 144-VQFP
Family Name
FLEX 10KE
Number Of Usable Gates
30000
Number Of Logic Blocks/elements
1728
# Registers
102
# I/os (max)
102
Frequency (max)
200MHz
Process Technology
CMOS
Operating Supply Voltage (typ)
2.5V
Logic Cells
1728
Ram Bits
24576
Device System Gates
119000
Operating Supply Voltage (min)
2.375V
Operating Supply Voltage (max)
2.625V
Operating Temp Range
-40C to 100C
Operating Temperature Classification
Industrial
Mounting
Surface Mount
Pin Count
144
Package Type
TQFP
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Other names
544-1944
EPF10K30ETI144-2
EPF10K30ETI144-2
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
EPF10K30ETI144-2
Manufacturer:
ALTERA
Quantity:
90
Part Number:
EPF10K30ETI144-2
Manufacturer:
ALTERA/阿尔特拉
Quantity:
20 000
FLEX 10KE Embedded Programmable Logic Devices Data Sheet
18
The programmable flipflop in the LE can be configured for D, T, JK, or SR
operation. The clock, clear, and preset control signals on the flipflop can
be driven by global signals, general-purpose I/O pins, or any internal
logic. For combinatorial functions, the flipflop is bypassed and the output
of the LUT drives the output of the LE.
The LE has two outputs that drive the interconnect: one drives the local
interconnect and the other drives either the row or column FastTrack
Interconnect routing structure. The two outputs can be controlled
independently. For example, the LUT can drive one output while the
register drives the other output. This feature, called register packing, can
improve LE utilization because the register and the LUT can be used for
unrelated functions.
The FLEX 10KE architecture provides two types of dedicated high-speed
data paths that connect adjacent LEs without using local interconnect
paths: carry chains and cascade chains. The carry chain supports
high-speed counters and adders and the cascade chain implements
wide-input functions with minimum delay. Carry and cascade chains
connect all LEs in a LAB as well as all LABs in the same row. Intensive use
of carry and cascade chains can reduce routing flexibility. Therefore, the
use of these chains should be limited to speed-critical portions of a design.
Carry Chain
The carry chain provides a very fast (as low as 0.2 ns) carry-forward
function between LEs. The carry-in signal from a lower-order bit drives
forward into the higher-order bit via the carry chain, and feeds into both
the LUT and the next portion of the carry chain. This feature allows the
FLEX 10KE architecture to implement high-speed counters, adders, and
comparators of arbitrary width efficiently. Carry chain logic can be
created automatically by the Altera Compiler during design processing,
or manually by the designer during design entry. Parameterized functions
such as LPM and DesignWare functions automatically take advantage of
carry chains.
Carry chains longer than eight LEs are automatically implemented by
linking LABs together. For enhanced fitting, a long carry chain skips
alternate LABs in a row. A carry chain longer than one LAB skips either
from even-numbered LAB to even-numbered LAB, or from odd-
numbered LAB to odd-numbered LAB. For example, the last LE of the
first LAB in a row carries to the first LE of the third LAB in the row. The
carry chain does not cross the EAB at the middle of the row. For instance,
in the EPF10K50E device, the carry chain stops at the eighteenth LAB and
a new one begins at the nineteenth LAB.
Altera Corporation
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