Due to the increasing usage of embedded instruments in many electronic devices, new solutions to effectively access these instruments appeared, including the new IEEE 1687 standard. The approach supported by IEEE 1687 allows a flexible access to embedded instruments through the Boundary Scan interface. The IEEE 1687 network includes a set of reconfigurable scan chains. This paper addresses the issue of testing the circuitry implementing them, checking whether any permanent hardware fault exists, affecting either the registers associated to the instruments made accessible by the network, or the configuration structures it embeds (e.g., the multiplexers and the associated flip-flops). The paper proposes an approach, in which the IEEE 1687 net...
With the complexity of nanoelectronic devices rapidly increasing, an efficient way to handle large n...
We address access control of reconfigurable scan networks, like IEEE Std. 1687 networks. We propose ...
Efficient handling of faults during operation is highly dependent on the interval (latency) from the...
Due to the increasing usage of embedded instruments in many electronic devices, new solutions to eff...
The IEEE 1687 standard describes reconfigurable structures allowing to flexibly access the instrumen...
The IEEE 1687 standard describes reconfigurable structures allowing to flexibly access the instrumen...
The increasing number of embedded instruments used to perform test, monitoring, calibration and debu...
The IEEE 1687 standard introduces several novelties, most notably Reconfigurable Scan Networks (RSNs...
As transistors in integrated circuits (ICs) are becoming smaller, faster and more, it has become har...
IEEE 1687 (IJTAG) has been developed to enable flexible and automated access to the increasing numbe...
Modern devices often include several embedded instruments, such as BIST interfaces, sensors, calibra...
Modern devices often include several embedded instruments, such as BISTs, sensors, and other analog ...
Efficient handling of faults during operation is highly dependent on the interval (latency) from the...
IEEE 1687 enables flexible access to the embedded (on-chip) instruments that are needed for post-sil...
Modern integrated circuits (ICs) include thousands of on-chip instruments to ensure that specificati...
With the complexity of nanoelectronic devices rapidly increasing, an efficient way to handle large n...
We address access control of reconfigurable scan networks, like IEEE Std. 1687 networks. We propose ...
Efficient handling of faults during operation is highly dependent on the interval (latency) from the...
Due to the increasing usage of embedded instruments in many electronic devices, new solutions to eff...
The IEEE 1687 standard describes reconfigurable structures allowing to flexibly access the instrumen...
The IEEE 1687 standard describes reconfigurable structures allowing to flexibly access the instrumen...
The increasing number of embedded instruments used to perform test, monitoring, calibration and debu...
The IEEE 1687 standard introduces several novelties, most notably Reconfigurable Scan Networks (RSNs...
As transistors in integrated circuits (ICs) are becoming smaller, faster and more, it has become har...
IEEE 1687 (IJTAG) has been developed to enable flexible and automated access to the increasing numbe...
Modern devices often include several embedded instruments, such as BIST interfaces, sensors, calibra...
Modern devices often include several embedded instruments, such as BISTs, sensors, and other analog ...
Efficient handling of faults during operation is highly dependent on the interval (latency) from the...
IEEE 1687 enables flexible access to the embedded (on-chip) instruments that are needed for post-sil...
Modern integrated circuits (ICs) include thousands of on-chip instruments to ensure that specificati...
With the complexity of nanoelectronic devices rapidly increasing, an efficient way to handle large n...
We address access control of reconfigurable scan networks, like IEEE Std. 1687 networks. We propose ...
Efficient handling of faults during operation is highly dependent on the interval (latency) from the...