80960CF-40 Datasheet, PDF(17/77 Page) Intel Corporation – 80960CF-40, -33, -25, -16 32-BIT HIGH-PERFORMANCE SUPERSCALAR EMBEDDED MICROPROCESSOR

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80960CF-40 Datasheet, PDF (17/77 Pages) Intel Corporation – 80960CF-40, -33, -25, -16 32-BIT HIGH-PERFORMANCE SUPERSCALAR EMBEDDED MICROPROCESSOR

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80960CF-40, -33, -25, -16

Table 4. 80960CF Pin Description â DMA and Interrupt Unit Control Signals

Name

DREQ3:0

DACK3:0

EOP/TC3:0

XINT7:0

NMI

Type

Description

A(L)

H(Z)

R(Z)

DMA REQUEST is used to request a DMA transfer. Each of the four signals

requests a transfer on a single channel. DREQ0 requests channel 0, DREQ1

requests channel 1, etc. When two or more channels are requested simultaneously,

the channel with the highest priority is serviced first. Channel priority mode is

programmable.

H(1)

R(1)

DMA ACKNOWLEDGE indicates that a DMA transfer is being executed. Each of

the four signals acknowledges a transfer for a single channel. DACK0 acknowl-

edges channel 0, DACK1 acknowledges channel 1, etc. DACK3:0 are asserted

when the requesting device of a DMA is accessed.

I/O

A(L)

H(Z/Q)

R(Z)

END OF PROCESS/TERMINAL COUNT can be programmed as either an input

(EOP3:0) or output (TC3:0), but not both. Each pin is individually programmable.

When programmed as an input, EOPx causes termination of a current DMA transfer

for the channel that corresponds to the EOPx pin. EOP0 corresponds to channel 0,

EOP1 corresponds to channel 1, etc. When a channel is configured for source and

destination chaining, the EOP pin for that channel causes termination of only the

current buffer transferred and causes the next buffer to be transferred. EOP3:0 are

asynchronous inputs.

When programmed as an output, the channelâs TCx pin indicates that the channel

byte count has reached 0 and a DMA has terminated. TCx is driven with the same

timing as DACKx during the last DMA transfer for a buffer. If the last bus request is

executed as multiple bus accesses, TCx stays asserted for the entire bus request.

A(E/L)

H(Z)

R(Z)

EXTERNAL INTERRUPT PINS cause interrupts to be requested. These pins can

be configured in three modes:

Dedicated Mode: each pin is a dedicated external interrupt source. Dedicated

inputs can be individually programmed to be level (low) or edge (falling) activated.

Expanded Mode: the eight pins act together as an 8-bit vectored interrupt source.

The interrupt pins in this mode are level activated. Since the interrupt pins are active

low, the vector number requested is the 1âs complement of the positive logic value

place on the port. This eliminates glue logic to interface to combinational priority

encoders which output negative logic.

Mixed Mode: XINT7:5 are dedicated sources and XINT4:0 act as the five most

significant bits of an expanded mode vector. The least significant bits are set to 010

internally.

A(E)

H(Z)

R(Z)

NON-MASKABLE INTERRUPT causes a non-maskable interrupt event to occur.

NMI is the highest priority interrupt recognized. NMI is an edge (falling) activated

source.

PRELIMINARY

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