Originally, most forms of Undefined Behavior represented things which some implementations might trap, but other implementations might not. Because there was no way for the authors of the Standard to predict all the things a platform might do in case of a trap (including, literally, the possibility that a system would sound an alarm and lock up until an operator manually cleared the fault), the consequences of traps fell outside the jurisdiction of the C Standard, and thus almost every action for which some platform might conceivably cause a trap is--from the point of view of the Standard--considered "Undefined Behavior".
That should not be taken to imply that the authors of the Standard didn't believe implementations should try to behave sensibly for such things when practical. The authors of the C89 Standard noted, for example, that the majority of current systems of that era would define behavior for:
/* Assume USmall is half the size of "int" */
unsigned mult(USmall x, USmall y) { return x*y; }
which would in all cases, including those where the mathematical product of x and y was between INT_MAX+1 and UINT_MAX, be equivalent to (unsigned)x*y;
. I see no reason to believe they wouldn't have expected that trend to continue.
Unfortunately, a new philosophy has become fashionable, based on the revisionist viewpoint that compiler writers only supported useful behaviors in cases not mandated by the Standard because they were too unsophisticated to do anything else. In gcc, for example, using optimization level 2 but no other non-default options, the above "mult" routine will sometimes generate bogus code in cases where the product would be between 0x80000000u and 0xFFFFFFFFu, even when running on platforms where such computations would historically have worked. This is supposedly being done in the name of "optimization"; it would be interesting to know how many of the "optimizations" such techniques end up performing are actually useful and could not have been achieved via safer means.
Historically, Undefined Behavior was a license for a C compiler to expose the behavior of the underlying platform; in cases where the underlying platform's behavior fit the programmer's needs, this allowed the programmer's requirements to be expressed in machine code more efficiently than if everything had to be done in ways defined by the Standard. Lately, however, it has been interpreted as license for compilers to implement behaviors which not only bear no relation to anything in the underlying platform nor to any plausible programmer expectations, but aren't even bound by laws of time and causality.