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To provide a new avenue for improving yield for nano-scale fabrication processes, we introduce a new notion: performance degrading faults (pdef). A fault is said to be a pdef if it cannot cause a functional error at system outputs but may result in system performance degradation. In a processor, a fault is a pdef if it causes no error in the execution of user programs but may reduce performance, e...
In many high-speed parts of chips, latch-based circuits are used to enable time borrowing, where a block may take longer time than its nominal delay to complete its computation. This enables such circuits to attain high performance and yield. In [1] and [2], we focused on maximizing path delay fault coverage and proposed the first structural delay testing approach and the associated design-for-testability...
Capacitive crosstalk can slowdown transitions which can propagate to outputs and cause erroneous operation. Test generation methods such as XGEN and XGEN-E were proposed to generate tests for such failures. However, a drawback of these test generation methods is that a large proportion of faults are aborted. In this paper, we systematically derive a multi-valued algebra. We first show that a composite...
In this paper, we propose an approach to accelerate path delay fault simulation of long test sequences. Several key ideas, namely judicious selection of path delay faults to be simulated, extraction of a compact set of necessary conditions to detect selected faults at primary inputs, and an on-demand selective simulation of input vectors based on their satisfaction of these necessary conditions, are...
Memories are significant proportions of most digital systems and memory-intensive chips continue to lead the migration to new nano-fabrication processes. As these processes have increasingly higher defect rates, especially when they are first adopted, such early migration necessitates the use of increasing levels of redundancy to obtain high yield (per area). We show that as we move into nanometer...
Sticky path-delay faults are path delay faults that are neither robustly nor non-robustly testable, but cannot be proven functionally unsensitizable. Better characterization of delay test quality requires a proper analysis of sticky path-delay faults. Furthermore, careful elimination of sticky path-delay faults contributes significantly to test development productivity and reduction of delay test...
Pseudoexhaustive testing involves applying all possible input patterns to the individual output cones of a combinational circuit. Based on our new algebraic results, we have derived both generic (cone-independent) and circuit-specific (cone-dependent) bounds on the minimal length of a test required so that each cone in a circuit is exhaustively tested. For any circuit with five or fewer outputs, and...
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