Logic Hazards of digital elctronics

Some basics before we head further...

Steady State Behaviour:
Value of o/p after the i/p's have been steady for some time.

Transient Behaviour:
Value if o/p while the i/p is changing.

Glitch:
Short pulse produced in the o/p during the transient phase.

Static Hazards:
One glitch when you are expecting a steady o/p.

• Static - 1: Encounter of a 'Zero' glitch when expecting steady 'One'.
• Static - 0: Encounter of a 'One' glitch when expecting steady 'Zero'.

Ways to eliminate static hazards:

• Identify possibilities in a K-MAP.
• Write Minimal form for the final expression.
• Observing the Two adjacent 1's in a K-MAP that are not in the same term is a possible cause.
• Use the 2 adjacent 1's, make a redundant logic and add to the final expression.

Dynamic Hazards:
Multiple glitches when you are expecting a steady o/p.
These persist when multiple paths with different delays are existant between a changing input and an output.

Ways to eliminate Dynamic Hazards:

• Proper design of AND-OR (or) OR-AND circuit.
• Two level design of above, if a variable and its complement are never inputs to the same first level gate.

Further, check http://www.cs.ualberta.ca/~amaral/courses/329/webslides/Topic7-TimingHazards/sld001.htm