IEEE 1687 (iJTAG) standard introduces a methodology for accessing the increasing number of embedded instruments found in modern System-on-Chips. Retargeting is defined by iJTAG as the procedure of translating instrument-level patterns to system-level scan vectors for a certain network organization. The analysis and the design of an on-chip retargeting engine is presented in this paper. Performing retargeting on-chip enables the execution of life-time dependability procedures using embedded instruments. The proposed engine is capable of retargeting instruments' patterns using an optimized model of the network, which is extracted by resolving the dependencies between the data registers of the instruments and the network-state registers
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 ever-increasing need for higher performance and more complex functionality pushes the electronic...
IEEE 1687 (iJTAG) standard introduces a methodology for accessing the increasing number of embedded ...
IEEE 1687 enables flexible access to on-chip instruments via dynamically reconfigurable networks. Re...
Modern systems-on-chips rely on embedded instruments for testing and debugging, the same instruments...
The continuous development in silicon manufacturing technologies and the increased reliance on desig...
This paper discusses the reuse and retargeting of test instruments and test patterns using the IEEE ...
The constant need for higher performance and more advanced functionality has made the design and man...
Modern chips may contain a large number of embedded test, debug, configuration, and monitoring featu...
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...
Embedded instruments are becoming used more often in modern SoCs for different testing and measureme...
To facilitate smooth VLSI development and improve chip dependability, VLSI designs incorporate instr...
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...
Due to the increasing usage of embedded instruments in many electronic devices, new solutions to eff...
The ever-increasing need for higher performance and more complex functionality pushes the electronic...
IEEE 1687 (iJTAG) standard introduces a methodology for accessing the increasing number of embedded ...
IEEE 1687 enables flexible access to on-chip instruments via dynamically reconfigurable networks. Re...
Modern systems-on-chips rely on embedded instruments for testing and debugging, the same instruments...
The continuous development in silicon manufacturing technologies and the increased reliance on desig...
This paper discusses the reuse and retargeting of test instruments and test patterns using the IEEE ...
The constant need for higher performance and more advanced functionality has made the design and man...
Modern chips may contain a large number of embedded test, debug, configuration, and monitoring featu...
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...
Embedded instruments are becoming used more often in modern SoCs for different testing and measureme...
To facilitate smooth VLSI development and improve chip dependability, VLSI designs incorporate instr...
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...
Due to the increasing usage of embedded instruments in many electronic devices, new solutions to eff...
The ever-increasing need for higher performance and more complex functionality pushes the electronic...