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A large class of robust electronic systems of the future must be designed to perform correctly despite hardware failures. In contrast, today's mainstream systems typically assume error-free hardware. Classical fault-tolerant computing techniques are too expensive for this purpose. This paper presents an overview of new techniques that can enable a sea change in the design of cost-effective robust...
Robust system design ensures that future systems continue to meet user expectations despite rising levels of underlying disturbances. This paper discusses two essential aspects of robust system design: 1. Effective post-silicon validation, despite staggering complexity of future systems, using a new technique called Instruction Footprint Recording and Analysis (IFRA). 2. Cost-effective design of systems...
Full scan based design technique is widely used to alleviate the complexity of test generation for sequential circuits. However, this approach leads to substantial increase in test application time, because of serial loading of vectors. Although BIST based approaches offer faster testing, they usually suffer from low fault coverage. In this paper, we propose a hybrid test architecture, which achieves...
Very thorough online self-test is essential for overcoming major reliability challenges such as early-life failures and transistor aging in advanced technologies. This paper demonstrates the need for operating system (OS) support to efficiently orchestrate online self-test in future robust systems. Experimental data from an actual dual quad-core system demonstrate that, without software support, online...
Virtualization-assisted concurrent, autonomous self-test, or VAST, enables a multi-/many-core system to test itself, concurrently during normal operation, without any user-visible downtime. Such on-line self-test is required for large-scale robust systems with built-in support for circuit failure prediction, failure detection, diagnosis, and self-healing. The main idea behind VAST is hardware and...
The idea behind circuit failure prediction is to predict the occurrence of a circuit failure before errors actually appear in system data and states. This concept enables a sea change in robust system design by overcoming major reliability challenges such as circuit aging and early-life failures (infant mortality).
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