Title :
SpeedGrade: an RTL path delay fault simulator
Author :
Kim, Kee Sup ; Jayabharathi, Rathish ; Carstens, Craig
Author_Institution :
Test Technol., Intel Corp., Folsom, CA, USA
Abstract :
In the past, research on delay fault testing has been focused on test generation using various delay fault models on full scan gate level netlists. These tests are not very suitable for speed-binning since the confidence that the slowest paths have been covered is low. We have developed a novel methodology with an accompanying tool flow called SpeedGrade that performs path delay fault simulation using an RTL (Register Transfer Level) simulator. This novel method was used to translate the gate level path excitation conditions into higher level of abstraction without loss of accuracy. The higher efficiency of the RTL-based solution allowed for fault grading of functional patterns against the top critical paths in commercial microprocessor designs. The RTL-based approach also had the added benefit of being easier to use for debugging critical paths
Keywords :
automatic testing; delays; fault simulation; high level synthesis; integrated circuit design; microprocessor chips; RTL path delay fault simulator; SpeedGrade; critical paths; debugging; delay fault testing; fault grading; functional patterns; gate level path excitation conditions; microprocessor designs; register transfer level; speed-binning; Circuit faults; Circuit testing; Cities and towns; Debugging; Failure analysis; Microprocessors; Process design; Production; Propagation delay; Stress;
Conference_Titel :
Test Symposium, 2001. Proceedings. 10th Asian
Conference_Location :
Kyoto
Print_ISBN :
0-7695-1378-6
DOI :
10.1109/ATS.2001.990289
