IC FLEX 10K FPGA 30K 208-RQFP

EPF10K30RI208-4

Manufacturer Part NumberEPF10K30RI208-4
DescriptionIC FLEX 10K FPGA 30K 208-RQFP
ManufacturerAltera
SeriesFLEX-10K®
EPF10K30RI208-4 datasheet
 


Specifications of EPF10K30RI208-4

Number Of Logic Elements/cells1728Number Of Labs/clbs216
Total Ram Bits12288Number Of I /o147
Number Of Gates69000Voltage - Supply4.5 V ~ 5.5 V
Mounting TypeSurface MountOperating Temperature-40°C ~ 100°C
Package / Case208-RQFPLead Free Status / RoHS StatusContains lead / RoHS non-compliant
Other names544-2233  
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Altera Corporation
FLEX 10K Embedded Programmable Logic Device Family Data Sheet
Larger blocks of RAM are created by combining multiple EABs. For
example, two 256
8 RAM blocks can be combined to form a
256 16 RAM block; two 512
a 512 8 RAM block. See
Figure
Figure 3. Examples of Combining EABs
256
16
256
8
256
8
If necessary, all EABs in a device can be cascaded to form a single RAM
block. EABs can be cascaded to form RAM blocks of up to 2,048 words
without impacting timing. Altera’s software automatically combines
EABs to meet a designer’s RAM specifications.
EABs provide flexible options for driving and controlling clock signals.
Different clocks can be used for the EAB inputs and outputs. Registers can
be independently inserted on the data input, EAB output, or the address
and WE inputs. The global signals and the EAB local interconnect can drive
the WE signal. The global signals, dedicated clock pins, and EAB local
interconnect can drive the EAB clock signals. Because the LEs drive the
EAB local interconnect, the LEs can control the WE signal or the EAB clock
signals.
Each EAB is fed by a row interconnect and can drive out to row and
column interconnects. Each EAB output can drive up to two row channels
and up to two column channels; the unused row channel can be driven by
other LEs. This feature increases the routing resources available for EAB
outputs. See
Figure
4.
4 blocks of RAM can be combined to form
3.
512
512
512
8
11