The browser you are using is not supported by this website. All versions of Internet Explorer are no longer supported, either by us or Microsoft (read more here: https://www.microsoft.com/en-us/microsoft-365/windows/end-of-ie-support).

Please use a modern browser to fully experience our website, such as the newest versions of Edge, Chrome, Firefox or Safari etc.

A reconfigurable power conscious core wrapper and its application to system-on-chip test scheduling

Author

Summary, in English

The increasing test application times required for testing system-on-chips (SOCs) is a problem that leads to higher costs. For modular core based SOCs it is possibly to employ a concurrent test scheme in order to lower the test application times. To allow each core to be tested as a separate unit, a wrapper is inserted for each core, the scan chains at each core are configured into a fixed number of wrapper chains, and the wrapper chains are connected to the test access mechanism. A problem with concurrent testing is that it leads to higher power consumption as several cores are active at a time. Power consumption above the specified limit of a core or above the limit of the system will cause damage and must be avoided. The power consumption must be controlled both at core level as well as on system level. In this paper, we propose a reconfigurable power conscious core wrapper that we include in a preemptive power constrained test scheduling algorithm. The advantages with the wrapper are that the number of wrapper chains at each core can dynamically be changed during test application and the possibility, through clock gating, to select the appropriate test power consumption for each core. The scheduling technique produces optimal solutions in respect to test time and selects wrapper configurations in a systematic manner while ensuring the power limits at core level and system level are not violated. The wrapper configurations are selected such that the number of wrapper configurations as well as the number of wrapper chains at each wrapper are minimized, which minimizes the wrapper logic as well as the total TAM routing. We have implemented the technique and the experimental results show the efficiency of our approach. © 2008 Springer Science+Business Media, LLC.

Publishing year

2008

Language

English

Pages

497-504

Publication/Series

Journal of Electronic Testing

Volume

24

Issue

5

Document type

Journal article

Publisher

Springer

Topic

  • Electrical Engineering, Electronic Engineering, Information Engineering

Keywords

  • Core wrapper
  • Power constraint
  • Preemption
  • Test scheduling

Status

Published

ISBN/ISSN/Other

  • ISSN: 0923-8174