EE80960SA16512 Intel, EE80960SA16512 Datasheet - Page 10

EE80960SA16512

Manufacturer Part Number

EE80960SA16512

Description

IC MPU I960SA 16MHZ 84-PLCC

Manufacturer

Intel

Datasheet

1.EE80960SA16512.pdf (39 pages)

Specifications of EE80960SA16512

Processor Type

i960

Features

SA suffix, 32-Bit, 512 Byte Cache

Speed

16MHz

Voltage

Mounting Type

Surface Mount

Package / Case

84-PLCC

Family Name

i960

Device Core Size

32b

Frequency (max)

16MHz

Instruction Set Architecture

RISC

Supply Voltage 1 (typ)

Operating Supply Voltage (max)

5.5V

Operating Supply Voltage (min)

4.5V

Operating Temp Range

0C to 85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

Package Type

PLCC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

863981

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Manufacturer

Quantity

Price

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Part Number:

EE80960SA16512

Manufacturer:

Intel

Quantity:

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Company:

Meier Automation Equipment Co., Limited

Part Number:

EE80960SA16512

Manufacturer:

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80960SA

1.1.5

To further reduce memory accesses, the 80960SA

includes a 512-byte on-chip instruction cache. The

instruction cache is based on the concept of locality

of reference; most programs are not usually

executed in a steady stream but consist of many

branches, loops and procedure calls that lead to

jumping back and forth in the same small section of

code. Thus, by maintaining a block of instructions in

cache, the number of memory references required to

read instructions into the processor is greatly

reduced.

To load the instruction cache, instructions are

fetched in 16-byte blocks; up to four instructions can

be fetched at one time. An efficient prefetch

algorithm increases the probability that an instruction

will already be in the cache when it is needed.

Code for small loops often fits entirely within the

cache, leading to a great increase in processing

speed since further memory references might not be

necessary until the program exits the loop. Similarly,

when calling short procedures, the code for the

calling procedure is likely to remain in the cache so it

will be there on the procedure’s return.

1.1.6

The instruction decoder is optimized in several ways.

One optimization method is the ability to overlap

instructions by using register scoreboarding.

a variable from memory into a register. When the

instruction initiates, a scoreboard bit on the target

reset. In between, any reference to the register

contents is accompanied by a test of the scoreboard

bit to ensure that the load has completed before

processing continues. Since the processor does not

need to wait for the LOAD to complete, it can execute

additional instructions placed between the LOAD

and the instruction that uses the register contents, as

shown in the following example:

ld data_2, r4

ld data_2, r5

Unrelated instruction

add r4, r5, r6

Instruction Cache

In essence, the two unrelated instructions between

LOAD and ADD are executed “for free” (i.e., take no

apparent time to execute) because they are

executed while the register is being loaded. Up to

three load instructions can be pending at one time

with three corresponding scoreboard bits set. By

exploiting this feature, system programmers and

compiler writers have a useful tool for optimizing

execution speed.

1.1.7

The 80960SA CPU resides on a high-bandwidth

address/data bus. The bus provides a direct commu-

nication path between the processor and the

memory

processor uses the bus to fetch instructions,

manipulate memory and respond to interrupts. Bus

features include:

•

Table 3 defines bus signal names and functions;

Table 4 defines other component-support signals

such as interrupt lines.

1.1.8

The 80960SA can be interrupted in one of two ways:

by the activation of one of four interrupt pins or by

sending a message on the processor’s data bus.

The 80960SA 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.

1.1.9

The 80960SA 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.

16-bit data path multiplexed onto the lower bits of

the 32-bit address path

Eight 16-bit half-word burst capability which

allows transfers from 1 to 16 bytes at a time

High bandwidth reads and writes with 32

Mbytes/s burst (at 20 MHz)

Interrupt Handling

Debug Features

High Bandwidth Bus

and

I/O

subsystem

interfaces.

The

EE80960SA16512 Intel, EE80960SA16512 Datasheet - Page 10

EE80960SA16512

Specifications of EE80960SA16512

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