Title :
An effective built-in self-test scheme for parallel multipliers
Author :
Gizopoulos, Dimitris ; Paschalis, Antonis ; Zorian, Yervant
Author_Institution :
4Plus Technol., Athens, Greece
fDate :
9/1/1999 12:00:00 AM
Abstract :
An effective built-in self-test (BIST) scheme for parallel multipliers (array and tree) is proposed. The new scheme combines the advantages of deterministic and pseudorandom testing and avoids their drawbacks. No modifications to the multiplier structure are required. A guaranteed very high fault coverage of a comprehensive cellular fault model is achieved. The results do not depend either on the gate-level implementation of the multiplier cells or the architecture of the multiplier (whether it is a carry-propagate or carry-save array multiplier or a tree multiplier) or on the multiplier size. A small deterministic test set of highly regular test vectors is used which exploits the inherent regularity of the multiplier architecture. The regularity of the test vectors allows for their on-chip generation with a very small hardware overhead, which is equivalent to the hardware overhead of pseudorandom testing
Keywords :
built-in self test; distributed arithmetic; multiplying circuits; parallel architectures; built-in self-test scheme; carry-propagate array multipliers; carry-save array multipliers; cellular fault model; deterministic testing; fault coverage; gate-level implementation; hardware overhead; multiplier architecture; multiplier cells; multiplier size; on-chip test vector generation; parallel multipliers; pseudorandom testing; regular test vectors; tree multipliers; Built-in self-test; Circuit faults; Circuit testing; Delay; Design for testability; Hardware; Logic arrays; Logic testing; Silicon; Test pattern generators;
Journal_Title :
Computers, IEEE Transactions on
