Design for Testability Support for Launch and Capture Power Reduction in an Integrated Circuit Based on Region Partition Testing.

摘要

At-speed testing of very large scale integrated (VLSI) circuits aims for high-quality screening of the circuits by targeting performance-related faults. A compact test set with effective patterns creates lower testing costs. However, compact sets also increase switching activity during launch and capture operations, which frequently violate peak-power constraints, resulting in yield loss.;This project is focused on developing a Design for Testability (DFT) technique. DFT aims to enable the use of a set of patterns that are optimized for cost, quality, and reduced power consumption. DFT support enables a design partitioning approach, using a set of patterns to test the design regions one at a time. This reduces launch power and captures power. The DFT mechanisms used are launch-off shift and launch-off capture, which are used in a power gating manner. The use of these techniques decreased the power usage by 1micron watt, while increasing the area of the circuit.