@inproceedings { ebadi_time_2003, title = {Time domain multiplexed TAM: implementation and comparison}, journal = {Proceedings Design, Automation and Test in Europe Conference and Exhibition}, year = {2003}, pages = {732-7}, publisher = {IEEE Comput. Soc}, organization = {IEEE Comput. Soc}, type = {inproceedings}, address = {Munich, Germany}, abstract = {One of the difficult problems which core-based system-on-chip (SoC) designs face is test access. For testing the cores in a SoC, a special mechanism is required, since they are not directly accessible via chip inputs and outputs. In this paper we introduce a novel Test Access Mechanism (TAM) based on time domain multiplexing (TDM-TAM). This TAM is P1500 compatible and uses a P1500 wrapper The TAM characteristics are its flexibility, scalability, and reconfigurability. The proposed TAM is compared with two other approaches: a serial threading approach analogous to the IEEE] 149.1 standard (Serial TAM) and a packet-switching test network (NIMA). A network-processing engine SoC is used as a platform to compare the different TAMs. Results show that in most cases, TDM is the most effective TAM in both test time and overhead area}, keywords = {automatic test equipment,automatic testing,built-in self test,integrated circuit testing,optimisation,system-on-chip,time division multiplexing}, URL = {http://dx.doi.org/10.1109/DATE.2003.1253694}, author = { Ebadi, Z.S. and Ivanov, A.} }