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In safety-critical systems, many-processor Systems-on-Chip are being increasingly employed. An example is an imminent collision detection System-on-Chip for cars. Such a system requires zero downtime and a very high reliability despite aging issues under harsh environmental conditions. By monitoring the health status of processor cores and other IPs, and taking appropriate counteractions if required,...
A cost-efficient framework for executing life-time dependability procedures is presented in this paper. The proposed framework relies on distributed sensors and actuators (embedded instruments) for self-awareness and adaptation, where the IEEE 1687 standard (iJTAG) is utilized for the dependability communications and the on-chip access of the instruments.
The IEEE 1687 (iJTAG) standard introduces an efficient access network based on reconfigurable scan, for accessing the increasing number of embedded instruments. Pattern retargeting is defined as the process of translating an instrument pattern to several network-level scan vectors. In this paper, an efficient structured methodology is presented for performing dynamic pattern retargeting. Dynamic retargeting...
The IEEE 1687 (IJTAG) is a newly IEEE approved standard to access embedded instruments. The usage of these embedded instruments (health monitors) is increasing in order to perform different online measurements for testing purposes as dependability is becoming a key concern in today's electronics. Aging and intermittent resistive faults (IRF) are two threats to a highly dependable system, and temperature...
Modern systems-on-chips rely on embedded instruments for testing and debugging, the same instruments could be used for managing the lifetime dependability of the chips. The IEEE 1687 (iJTAG) standard introduces an access network to the instruments based on reconfigurable scan paths. During lifetime, instruments could be required to initiate communication with a system-level dependability manager for...
Embedded instruments are becoming used more often in modern SoCs for different testing and measurement purposes. IEEE 1687 (iJTAG) is a newly IEEE approved draft standard for embedded instruments access and control based on the widespread IEEE 1149.1 TAP port. In this paper the work done for enabling iJTAG control, observation and reconfiguration of complex digital embedded instruments will be discussed...
Analog and mixed-signal IPs are increasingly required to use digital fabrication technologies and are deeply embedded into system-on-chips (SoC). These developments append more requirements and challenges on analog testing methodologies. Traditional analog testing methods suffer from less accessibility and control with regard to these embedded analog circuits in SoCs. As an alternative, an embedded...
In automotive mixed-signal SoCs, the analogue/mixed-signal front-ends are of particular interest with regard to dependability. Because of the many electrical disturbances at the front-end, often (active) filters are being used. Due to the harsh environments, in some cases, degradation of these filters may be encountered during lifetime and hence false sensor information could be provided with potential...
This paper applies an improved method for testing the signal-to-noise ratio (SNR) of Analogue-to-Digital Converters (ADC). In previous work, a noisy and nonlinear pulse signal is exploited as the input stimulus to obtain the signature results of ADC. By applying a machine-learning-based approach, the dynamic parameters can be predicted by using the signature results. However, it can only estimate...
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