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Reducing Test Time in the High-Volume Production of Analog Circuits using Efficient Test-Vector Generation and Interpolation Techniques
Authors:Mustapha Slamani  Karim Arabi
Affiliation:(1) IBM Microelectronics, 1000 River Street, Mail Stop 863G, Essex Junction, VT 05452, USA;(2) PMC Sierra, Inc., 105-8555 Baxter Place, Burnaby, British Columbia, Canada V5A-4V7
Abstract:Test cost is one of the main factors determining the profit margin of a device in production. Current test strategies require hundreds of measurements to determine the specifications of a parameter. In this paper, we present an automatic test-vector generation technique that is based on transfer function manipulation and requires only one circuit simulation. The proposed method consists of generating the first set of vectors by applying a derivation technique to the golden transfer function of the circuit under test (CUT). An interpolation technique allows a new transfer function to be constructed based on the first set of test vectors. The difference between the reconstructed transfer function and the golden transfer function is used to select the second set of test vectors. These new test vectors are selected to achieve the best possible fit. Our technique reduces the test vector size to values that at present can be achieved only by using powerful and time-consuming fault simulation tools. As an example, we apply the method to state variable and Chebyshev filters. We also compute the fault coverage in order to demonstrate the effectiveness of this new technique.
Keywords:test vectors generation  sensitivity analysis  analog circuits testing  frequency domain analysis  interpolation technique
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