Abstract: Provided are methods and devices of organizing scan chains in an integrated circuit. One method comprises generating first preference information representing prioritized listing of a plurality of scanning elements for each of a plurality of scan chains based on a first criterion, generating second preference information representing prioritized listing of the plurality of scan chains for each of the plurality of scanning elements based on a second criterion and at a computing device, assigning each of the plurality of the scanning elements to one of the plurality of the scan chains based on the first preference information and the second preference information.
Abstract: Provided are methods and devices of organizing scan chains in an integrated circuit. One method comprises generating first preference information representing prioritized listing of a plurality of scanning elements for each of a plurality of scan chains based on a first criterion, generating second preference information representing prioritized listing of the plurality of scan chains for each of the plurality of scanning elements based on a second criterion and at a computing device, assigning each of the plurality of the scanning elements to one of the plurality of the scan chains based on the first preference information and the second preference information.
Abstract: Reconstruction methods and devices are disclosed for scan chains in physical design that is based on two-way priority selection. The structural reconstruction method in the scan chains, in the first place, establishes a first preference sequence for a certain number of scanning elements in each of these scan chains as well as a secondary preference sequence for these scan chains in each of these scanning elements respectively. Then, two-way selection is executed between the scan chains and scanning elements based on the corresponding first preference sequence and secondary preference sequence, so that these scanning elements can be redistributed to these scan chains. The structural reconstruction method and device in the invention conduct an integrated optimization for a global scan chain, where the global wiring length is shortened dramatically and the wiring efficiency is improved.
Abstract: Reconfiguration methods and devices are disclosed for scan chains with the planned unit taken into consideration, the one method comprising a first phase reconfiguration and second phase reconfiguration. The first phase reconfiguration first classifies a number of scan chains, wherein scan chains with the starting point and the ending point in the same planned unit are classified as a first aggregation of scan chains; scan chains with the starting point and the ending point not in the same planned unit are classified as a second aggregation of scan chains; and scan chains with both the starting point and the ending point at the same top level are classified as a third aggregation of scan chains. In sequence the scan chains within the first aggregation are reconfigured, then the scan chains within the second aggregation are reconfigured, and finally the scan chains within the third aggregation are reconfigured.
Abstract: Provided in the present invention is a reconfiguration method and device for scan chains with the planned unit taken into consideration, wherein said reconfiguration method of the scan chains comprises a first phase reconfiguration and second phase reconfiguration. Said first phase reconfiguration first classifies a number of scan chains, wherein scan chains with the starting point and the ending point in the same planned unit are classified as a first aggregation of scan chains; scan chains with the starting point and the ending point not in the same planned unit are classified as a second aggregation of scan chains; and scan chains with both the starting point and the ending point at the same top level are classified as a third aggregation of scan chains.
Abstract: Reconstruction methods and devices are disclosed for scan chains in physical design that is based on two-way priority selection. The structural reconstruction method in the scan chains, in the first place, establishes a first preference sequence for a certain number of scanning elements in each of these scan chains as well as a secondary preference sequence for these scan chains in each of these scanning elements respectively. Then, two-way selection is executed between the scan chains and scanning elements based on the corresponding first preference sequence and secondary preference sequence, so that these scanning elements can be redistributed to these scan chains. The structural reconstruction method and device in the invention conduct an integrated optimization for a global scan chain, where the global wiring length is shortened dramatically and the wiring efficiency is improved.