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Design of Test Access Mechanism for AMBA-Based System-on-a-Chip

Design of Test Access Mechanism for AMBA-Based System-on-a-Chip. Jaehoon Song; Piljae Min; Hyunbean Yi; Sungju Park; “Design of Test Access Mechanism for AMBA-Based System-on-a-Chip” 6-10 May 2007. Adviser : PhD Jin-Hua Hong student : Jun-Yi Wu Date : 2008/12/18. outline. . Abstract

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Design of Test Access Mechanism for AMBA-Based System-on-a-Chip

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  1. Design of Test Access Mechanism for AMBA-Based System-on-a-Chip Jaehoon Song; Piljae Min; Hyunbean Yi; Sungju Park; “Design of Test Access Mechanism for AMBA-Based System-on-a-Chip” 6-10 May 2007 Adviser :PhD Jin-Hua Hong student :Jun-Yi Wu Date :2008/12/18

  2. outline  • Abstract • Test interfaces for AMBA-based SoC • Establishing dedicated scan-in and out path • Test wrapper • The operation of ATAM

  3. Abstract • A Test Interface Controller (TIC) provided by ARM Ltd. is widely used for functional testing of System-on-a-Chip (SoC) which adopts an Advanced Microcontroller Bus Architecture (AMBA) bus system. • This architecture has the deficiency of not being able to concurrently shift in and out the structural scan test patterns through the TIC and AMBA bus. • This paper introduces a new AMBA based Test Access Mechanism (ATAM) for speedy testing of SoCs embedding ARM cores. Since scan-in and out operations can be performed simultaneously .

  4. outline • Abstract • Test interfaces for AMBA-based SoC • Establishing dedicated scan-in and out path • Test wrapper • The operation of ATAM 

  5. Test interfaces for AMBA-based SoC • The TIC is an interface controller for the functional testing of an AMBA system performing basic AMBA Read/Write transactions as an AMBA bus master.

  6. outline • Abstract • Test interfaces for AMBA-based SoC • Establishing dedicated scan-in and out path • Test wrapper • The operation of ATAM 

  7. Establishing dedicated scan-in and out path • TBUS and EBIEXTADDROUT can provide dedicated scan-in and out path, respectively.

  8. Establishing dedicated scan-in and out path(cont.) • A simple OR and MUX logic • TBUS to AHB for transferring the address and test data into embedded cores

  9. Establishing dedicated scan-in and out path(cont.) • shift out the scan test response from the internal AMBA bus to the external output test pins through the HRDATA → EBIDATAOUT → EBIEXTADDROUT path. • The ScanTestMode pin is used to control the normal and test modes

  10. outline • Abstract • Test interfaces for AMBA-based SoC • Establishing dedicated scan-in and out path • Test wrapper • The operation of ATAM 

  11. Test wrapper • The (test wrapper)TW consists of PI registers, Address Decoder, Test Clock Generator and MUXs

  12. Test wrapper (cont.) • The address signals from the TIC are decoded by the Address Decoder in TW to select different registers and construct various test paths. • ScnanEnable and CapClkGen signals are produced by the Address Decoder. • The ScanEnable signal enables scan shifting, and the CapClkGen signal notifies the timing of capture clock generation to Test Clock Generator. • Address Decoder selects scan chains, the Test Clock Generator provides the scan shift clock, and single capture clock is triggered by the CapClkGen signal from the Address Decoder.

  13. Test wrapper scan chain data path

  14. Test wrapper primary in/out data path

  15. outline • Abstract • Test interfaces for AMBA-based SoC • Establishing dedicated scan-in and out path • Test wrapper • The operation of ATAM 

  16. The operation of ATAM • At first, the address through TBUS selects the target scan chains or PIs, and then scan-in or PI data are written to core through the TBUS → HWDATA path. • POs or scan chains are selected and their values are observed through the HRDATA →EBIDataOut → EBIEXTADDROUT path. • only write transactions to the AMBA bus.

  17. The operation of ATAM (cont.)

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