80960JD Datasheet, PDF(11/61 Page) Intel Corporation

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80960JD Datasheet, PDF (11/61 Pages) Intel Corporation – EMBEDDED 32-BIT MICROPROCESSOR

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80960JD

NAME

AD31:0

ALE

ADS

A3:2

Table 3. Pin Description â External Bus Signals (Sheet 1 of 4)

TYPE

I/O

S(L)

R(X)

H(Z)

P(Q)

R(0)

H(Z)

P(0)

R(1)

H(Z)

P(1)

R(1)

H(Z)

P(1)

R(X)

H(Z)

P(Q)

DESCRIPTION

ADDRESS / DATA BUS carries 32-bit physical addresses and 8-, 16- or 32-bit data

to and from memory. During an address (Ta) cycle, bits 31:2 contain a physical word

address (bits 0-1 indicate SIZE; see below). During a data (Td) cycle, read or write

data is present on one or more contiguous bytes, comprising AD31:24, AD23:16,

AD15:8 and AD7:0. During write operations, unused pins are driven to determinate

values.

SIZE, which comprises bits 0-1 of the AD lines during a Ta cycle, specifies the

number of data transfers during the bus transaction.

AD1 AD0

Bus Transfers

1 Transfer

2 Transfers

3 Transfers

4 Transfers

When the processor enters Halt mode, if the previous bus operation was a:

â¢ write â AD31:2 are driven with the last data value on the AD bus.

â¢ read â AD31:4 are driven with the last address value on the AD bus; AD3:2 are

driven with the value of A3:2 from the last data cycle.

Typically, AD1:0 reflect the SIZE information of the last bus transaction (either

instruction fetch or load/store) that was executed before entering Halt mode.

ADDRESS LATCH ENABLE indicates the transfer of a physical address. ALE is

asserted during a Ta cycle and deasserted before the beginning of the Td state. It is

active HIGH and floats to a high impedance state during a hold cycle (Th).

ADDRESS LATCH ENABLE indicates the transfer of a physical address. ALE is the

inverted version of ALE. This signal gives the 80960JD a high degree of compatibility

with existing 80960Kx systems.

ADDRESS STROBE indicates a valid address and the start of a new bus access.

The processor asserts ADS for the entire Ta cycle. External bus control logic typically

samples ADS at the end of the cycle.

ADDRESS3:2 comprise a partial demultiplexed address bus.

32-bit memory accesses: the processor asserts address bits A3:2 during Ta. The

partial word address increments with each assertion of RDYRCV during a burst.

16-bit memory accesses: the processor asserts address bits A3:1 during Ta with A1

driven on the BE1 pin. The partial short word address increments with each assertion

of RDYRCV during a burst.

8-bit memory accesses: the processor asserts address bits A3:0 during Ta, with A1:0

driven on BE1:0. The partial byte address increments with each assertion of

RDYRCV during a burst.

PRELIMINARY

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