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EP2SGX60CF780C4N Datasheet, PDF (84/316 Pages) Altera Corporation – Support for numerous single-ended and differential I/O standards | |||
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TriMatrix Memory
Similar to all RAM blocks, M-RAM blocks can have different clocks on
their inputs and outputs. Either of the two clocks feeding the block can
clock M-RAM block registers (renwe, address, byte enable, datain,
and output registers). The output register can be bypassed. The six
labclk signals or local interconnect can drive the control signals for the
A and B ports of the M-RAM block. ALMs can also control the clock_a,
clock_b, renwe_a, renwe_b, clr_a, clr_b, clocken_a, and
clocken_b signals, as shown in Figure 2â53.
Figure 2â53. M-RAM Block Control Signals
Dedicated
Row LAB
6
Clocks
Local
Interconnect
Local
Interconnect
Local
Interconnect
Local
Interconnect
Local
Interconnect
Local
Interconnect
clocken_a
renwe_a
aclr_b
clock_b
clock_a
aclr_a
renwe_b
clocken_b
Local
Interconnect
Local
Interconnect
Local
Interconnect
Local
Interconnect
Local
Interconnect
Local
Interconnect
The R4, R24, C4, and direct link interconnects from adjacent LABs on
either the right or left side drive the M-RAM block local interconnect. Up
to 16 direct link input connections to the M-RAM block are possible from
the left adjacent LABs and another 16 possible from the right adjacent
LAB. M-RAM block outputs can also connect to left and right LABs
through direct link interconnect. Figure 2â54 shows an example floorplan
for the EP2SGX130 device and the location of the M-RAM interfaces.
Figures 2â55 and 2â56 show the interface between the M-RAM block and
the logic array.
2â76
Stratix II GX Device Handbook, Volume 1
Altera Corporation
October 2007
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