1 / 17

An Efficient SoC Test Technique by Reusing On/Off-Chip Bus Bridge

An Efficient SoC Test Technique by Reusing On/Off-Chip Bus Bridge. Adviser: Chao-Lieh Chen Student: Shih-Hao Lin 0052802 Yi-Ming Huang 0052811 Keng-Chih Liu 0052810. Outline. Introduction Proposed TAM for AMBA-based SOC Proposed Test-Access Architecture

devi
Download Presentation

An Efficient SoC Test Technique by Reusing On/Off-Chip Bus Bridge

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. An Efficient SoC Test Technique by Reusing On/Off-Chip Bus Bridge Adviser: Chao-Lieh Chen Student: Shih-Hao Lin 0052802 Yi-Ming Huang 0052811 Keng-Chih Liu 0052810

  2. Outline • Introduction • Proposed TAM for AMBA-based SOC • Proposed Test-Access Architecture • On/Off-Chip Bus Bridge With Test Controllability • Operation of the TR-Bridge • Project • Schedule • Division of work

  3. Introduction

  4. Proposed TAM for AMBA-based SOC • The main contribution of our technique is to reuse the on/off chip bus bridge as a test interface during the test mode. • The AHB master component on the bridge is reused as an interface between the ATE and the chip under test, and then, the ATE acts as a virtual bus master. • By utilizing the functional buses as dedicated test paths and eliminating the bus-direction turnaround delays. • In this paper, the bridge with the test controllability is referred to as a test-ready bridge.

  5. Proposed Test-Access Architecture

  6. On/Off-Chip Bus Bridge With Test Controllability

  7. On/Off-Chip Bus Bridge With Test Controllability

  8. Operation of the TR-Bridge

  9. Project • Midterm project AHB bus • Final project Hybrid Test Interface Controller

  10. Schedule

  11. Division of work • Shih-Hao Lin 撰寫程式實現HTIC區塊 • Yi-Ming Huang 撰寫程式實現AHB Master區塊 • Keng-Chih Liu 搜尋實現過程中之相關資訊

  12. Q: • TIC and HTIC difference • Functional test V.S. Structural test • Test Stimuli

  13. TIC and HTIC difference(1/2) AMBA™ Specification (Rev 2.0)

  14. TIC and HTIC difference(2/2)

  15. Functional test V.S. Structural test

  16. Test Stimuli

More Related