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EP4CE30F29C7N Datasheet, PDF (39/488 Pages) Altera Corporation – Cyclone IV Device Handbook, Volume 1 | |||
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Chapter 3: Memory Blocks in Cyclone IV Devices
3â3
Overview
Control Signals
The clock-enable control signal controls the clock entering the input and output
registers and the entire M9K memory block. This signal disables the clock so that the
M9K memory block does not see any clock edges and does not perform any
operations.
The rden and wren control signals control the read and write operations for each port
of M9K memory blocks. You can disable the rden or wren signals independently to
save power whenever the operation is not required.
Parity Bit Support
Parity checking for error detection is possible with the parity bit along with internal
logic resources. Cyclone IV devices M9K memory blocks support a parity bit for each
storage byte. You can use this bit as either a parity bit or as an additional data bit. No
parity function is actually performed on this bit.
Byte Enable Support
Cyclone IV devices M9K memory blocks support byte enables that mask the input
data so that only specific bytes of data are written. The unwritten bytes retain the
previous written value. The wren signals, along with the byte-enable (byteena)
signals, control the write operations of the RAM block. The default value of the
byteena signals is high (enabled), in which case writing is controlled only by the wren
signals. There is no clear port to the byteena registers. M9K blocks support byte
enables when the write port has a data width of Ã16, Ã18, Ã32, or Ã36 bits.
Byte enables operate in one-hot manner, with the LSB of the byteena signal
corresponding to the least significant byte of the data bus. For example, if
byteena = 01 and you are using a RAM block in Ã18 mode, data[8..0] is enabled
and data[17..9] is disabled. Similarly, if byteena = 11, both data[8..0] and
data[17..9] are enabled. Byte enables are active high.
Table 3â2 lists the byte selection.
Table 3â2. byteena for Cyclone IV Devices M9K Blocks (1)
byteena[3..0]
datain Ã16
Affected Bytes
datain Ã18
datain Ã32
[0] = 1
[7..0]
[8..0]
[7..0]
[1] = 1
[15..8]
[17..9]
[15..8]
[2] = 1
â
â
[23..16]
[3] = 1
â
â
[31..24]
Note to Table 3â2:
(1) Any combination of byte enables is possible.
datain Ã36
[8..0]
[17..9]
[26..18]
[35..27]
November 2011 Altera Corporation
Cyclone IV Device Handbook,
Volume 1
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