Abstract
Nowadays System on Chip (SoC) is expected to perform a large number of applications as per the requirement of customers. Increase in the number of applications leads to an increase in the number of cores inside the SoC. Customers want to use a large number of applications in their product but in a cheap price. In this price competitive market, the manufacturer can not increase the price above a certain range in order to sustain in the market. It is decisive to have a high-quality product with the low price. Testing each core thoroughly can require high amount of time and increases the test economics. Hence it is better to cover significant faults only and test the cores partially. In this paper, we propose a method for incomplete testing of the SoC cores, which recedes Test Power (TP) and Test Data Volume (TDV). Our method persists significant fault coverage and tests most of the significant faults. We also propose a power aware Test access mechanism (TAM) architecture compatible with the reduced test vectors. It provides a trade-off between quality of product and testing parameters (i.e., TP, TDV). Results from experiments exhibit an effective reduction in TDV, TP with a nominal compromise on the quality of testing.
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