A80960KB25 Intel, A80960KB25 Datasheet - Page 13

A80960KB25

Manufacturer Part Number

A80960KB25

Description

IC MPU I960KB 25MHZ 132-PGA

Manufacturer

Intel

Datasheet

1.A80960KB25.pdf (44 pages)

Specifications of A80960KB25

Processor Type

i960

Features

KB suffix, 32-Bit, 512 Byte Cache

Speed

25MHz

Voltage

Mounting Type

Surface Mount

Package / Case

132-PGA

Family Name

i960

Device Core Size

32b

Frequency (max)

25MHz

Instruction Set Architecture

RISC

Supply Voltage 1 (typ)

Operating Supply Voltage (max)

5.25V

Operating Supply Voltage (min)

4.75V

Operating Temp Range

0C to 85C

Operating Temperature Classification

Commercial

Mounting

Through Hole

Pin Count

132

Package Type

PGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

803535

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

A80960KB25

Manufacturer:

INTEL

Quantity:

1 034

Current page: 13 of 44
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1.1.9

The 80960KB can be interrupted in two ways: by the

activation of one of four interrupt pins or by sending

a message on the processor’s data bus.

The 80960KB is unusual in that it automatically

handles interrupts on a priority basis and can keep

track of pending interrupts through its on-chip

interrupt controller. Two of the interrupt pins can be

configured to provide 8259A-style handshaking for

expansion beyond four interrupt lines.

1.1.10 Debug Features

The 80960KB has built-in debug capabilities. There

are two types of breakpoints and six trace modes.

Debug features are controlled by two internal 32-bit

registers: the Process-Controls Word and the

Trace-Controls Word. By setting bits in these control

words, a software debug monitor can closely control

how the processor responds during program

execution.

The 80960KB provides two hardware breakpoint

registers on-chip which, by using

command, can be set to any value. When the

instruction pointer matches either breakpoint register

value, the breakpoint handling routine is automati-

cally called.

The 80960KB also provides software breakpoints

through the use of two instructions: MARK and

FMARK. These can be placed at any point in a

program and cause the processor to halt execution

at that point and call the breakpoint handling routine.

The breakpoint mechanism is easy to use and

provides a powerful debugging tool.

Tracing is available for instructions (single step

execution), calls and returns and branching. Each

trace type may be enabled separately by a special

debug instruction. In each case, the 80960KB

executes the instruction first and then calls a trace

handling routine (usually part of a software debug

monitor). Further program execution is halted until

the routine completes, at which time execution

resumes at the next instruction. The 80960KB’s

tracing mechanisms, implemented completely in

hardware, greatly simplify the task of software test

and debug.

Interrupt Handling

a special

1.1.11 Fault Detection

The 80960KB has an automatic mechanism to

handle faults. Fault types include floating point, trace

and arithmetic faults. When the processor detects a

fault, it automatically calls the appropriate fault

handling routine and saves the current instruction

pointer and necessary state information to make

efficient recovery possible. Like interrupt handling

routines, fault handling routines are usually written to

meet the needs of specific applications and are often

included as part of the operating system or kernel.

For each of the fault types, there are numerous

subtypes that provide specific information about a

fault. For example, a floating point fault may have

the subtype set to an Overflow or Zero-Divide fault.

The fault handler can use this specific information to

respond correctly to the fault.

1.1.12 Built-in Testability

Upon reset, the 80960KB automatically conducts an

exhaustive internal test of its major blocks of logic.

Then, before executing its first instruction, it does a

zero check sum on the first eight words in memory to

ensure that the memory image was programmed

correctly. If a problem is discovered at any point

during the self-test, the 80960KB asserts its

FAILURE pin and will not begin program execution.

Self test takes approximately 47,000 cycles to

complete.

System manufacturers can use the 80960KB’s

self-test feature during incoming parts inspection. No

special diagnostic programs need to be written. The

test is both thorough and fast. The self-test capability

helps ensure that defective parts are discovered

before systems are shipped and, once in the field,

the self-test makes it easier to distinguish between

problems caused by processor failure and problems

resulting from other causes.

1.1.13 CHMOS

The 80960KB is fabricated using Intel’s CHMOS IV

(Complementary High Speed Metal Oxide Semicon-

ductor) process. The 80960KB is currently available

in 16, 20 and 25 MHz versions.

80960KB

A80960KB25 Intel, A80960KB25 Datasheet - Page 13

A80960KB25

Specifications of A80960KB25

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