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 different reasons. For example, fault/event occurrences or measurement read-out requests; however iJTAG networks are inherently master/slave networks, where the instruments are the network slaves. In this work, a scalable interrupts-management methodology is presented for allowing instruments-initiated communication using hierarchical iJTAG netw...
Modern integrated circuits (ICs) include thousands of on-chip instruments to ensure that specificati...
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...
Modern systems-on-chips rely on embedded instruments for testing and debugging, the same instruments...
IEEE 1687 (iJTAG) standard introduces a methodology for accessing the increasing number of embedded ...
IEEE 1687 (IJTAG) has been developed to enable flexible and automated access to the increasing numbe...
Low-level embedded systems are used to control cyber-phyiscal systems in industrial and autonomous a...
The IEEE P1687 (IJTAG) standard proposal aimsat standardizing the access to embedded test and debug ...
As transistors in integrated circuits (ICs) are becoming smaller, faster and more, it has become har...
To meet the constant demand for performance, it is increasingly common with multi-processor system- ...
The continuous development in silicon manufacturing technologies and the increased reliance on desig...
The constant need for higher performance and more advanced functionality has made the design and man...
The IEEE 1687 (IJTAG) is a newly IEEE approved standard to access embedded instruments. The usage of...
The IEEE 1687 standard describes reconfigurable structures allowing to flexibly access the instrumen...
The ever-increasing need for higher performance and more complex functionality pushes the electronic...
Modern integrated circuits (ICs) include thousands of on-chip instruments to ensure that specificati...
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...
Modern systems-on-chips rely on embedded instruments for testing and debugging, the same instruments...
IEEE 1687 (iJTAG) standard introduces a methodology for accessing the increasing number of embedded ...
IEEE 1687 (IJTAG) has been developed to enable flexible and automated access to the increasing numbe...
Low-level embedded systems are used to control cyber-phyiscal systems in industrial and autonomous a...
The IEEE P1687 (IJTAG) standard proposal aimsat standardizing the access to embedded test and debug ...
As transistors in integrated circuits (ICs) are becoming smaller, faster and more, it has become har...
To meet the constant demand for performance, it is increasingly common with multi-processor system- ...
The continuous development in silicon manufacturing technologies and the increased reliance on desig...
The constant need for higher performance and more advanced functionality has made the design and man...
The IEEE 1687 (IJTAG) is a newly IEEE approved standard to access embedded instruments. The usage of...
The IEEE 1687 standard describes reconfigurable structures allowing to flexibly access the instrumen...
The ever-increasing need for higher performance and more complex functionality pushes the electronic...
Modern integrated circuits (ICs) include thousands of on-chip instruments to ensure that specificati...
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...