Laptop User Manual

Introduction

MVME166IG/D2 1-7

An asterisk (*) following the signal name for signals which are edge significant

denotes that the actions initiated by that signal occur on high to low transition.

In this manual, assertion and negation are used to specify forcing a signal to a

particular state. In particular, assertion and assert refer to a signal that is active

or true; negation and negate indicate a signal that is inactive or false. These

terms are used independently of the voltage level (high or low) that they

represent.

Data and address sizes are defined as follows:

❏ A byte is eight bits, numbered 0 through 7, with bit 0 being the least

significant.

❏ A two-byte is 16 bits, numbered 0 through 15, with bit 0 being the least

significant. For the MVME166 and other CISC modules, this is called a

word.

❏ A four-byte is 32 bits, numbered 0 through 31, with bit 0 being the least

significant. For the MVME166 and other CISC modules, this is called a

longword.

The terms control bit and status bit are used extensively in this document. The

term control bit is used to describe a bit in a register that can be set and cleared

under software control. The term true is used to indicate that a bit is in the

state that enables the function it controls. The term false is used to indicate that

the bit is in the state that disables the function it controls. In all tables, the

terms 0 and 1 are used to describe the actual value that should be written to

the bit, or the value that it yields when read. The term status bit is used to

describe a bit in a register that reflects a specific condition. The status bit can

be read by software to determine operational or exception conditions.