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80960JD Datasheet, PDF (12/61 Pages) Intel Corporation – EMBEDDED 32-BIT MICROPROCESSOR
80960JD
A
NAME
BE3:0
WIDTH/
HLTD1:0
D/C
W/R
Table 3. Pin Description — External Bus Signals (Sheet 2 of 4)
TYPE
O
R(1)
H(Z)
P(1)
O
R(0)
H(Z)
P(1)
O
R(X)
H(Z)
P(Q)
O
R(0)
H(Z)
P(Q)
DESCRIPTION
BYTE ENABLES select which of up to four data bytes on the bus participate in the
current bus access. Byte enable encoding is dependent on the bus width of the
memory region accessed:
32-bit bus:
BE3 enables data on AD31:24
BE2 enables data on AD23:16
BE1 enables data on AD15:8
BE0 enables data on AD7:0
16-bit bus:
BE3 becomes Byte High Enable (enables data on AD15:8)
BE2 is not used (state is high)
BE1 becomes Address Bit 1 (A1)
BE0 becomes Byte Low Enable (enables data on AD7:0)
8-bit bus:
BE3 is not used (state is high)
BE2 is not used (state is high)
BE1 becomes Address Bit 1 (A1)
BE0 becomes Address Bit 0 (A0)
The processor asserts byte enables, byte high enable and byte low enable during Ta.
Since unaligned bus requests are split into separate bus transactions, these signals
do not toggle during a burst. They remain active through the last Td cycle.
For accesses to 8- and 16-bit memory, the processor asserts the address bits in
conjunction with A3:2 described above.
WIDTH/HALTED signals denote the physical memory attributes for a bus transaction:
WIDTH/HLTD1
WIDTH/HLTD0
0
0
0
1
1
0
1
1
8 Bits Wide
16 Bits Wide
32 Bits Wide
Processor Halted
The processor floats the WIDTH/HLTD pins whenever it relinquishes the bus in
response to a HOLD request, regardless of prior operating state.
DATA/CODE indicates that a bus access is a data access (1) or an instruction access
(0). D/C has the same timing as W/R.
0 = instruction access
1 = data access
WRITE/READ specifies, during a Ta cycle, whether the operation is a write (1) or read
(0). It is latched on-chip and remains valid during Td cycles.
0 = read
1 = write
8
PRELIMINARY