中大機構典藏-NCU Institutional Repository-提供博碩士論文、考古題、期刊論文、研究計畫等下載:Item 987654321/10394
English  |  正體中文  |  简体中文  |  全文筆數/總筆數 : 80990/80990 (100%)
造訪人次 : 42734778      線上人數 : 1438
RC Version 7.0 © Powered By DSPACE, MIT. Enhanced by NTU Library IR team.
搜尋範圍 查詢小技巧:
  • 您可在西文檢索詞彙前後加上"雙引號",以獲取較精準的檢索結果
  • 若欲以作者姓名搜尋,建議至進階搜尋限定作者欄位,可獲得較完整資料
  • 進階搜尋


    請使用永久網址來引用或連結此文件: http://ir.lib.ncu.edu.tw/handle/987654321/10394


    題名: 應用於貪睡靜態記憶體之有效診斷與修復技術;Efficient Diagnosis and Repair Techniques for Drowsy Static Random Access Memories
    作者: 黃秉偉;Bing-Wei Huang
    貢獻者: 電機工程研究所
    關鍵詞: 貪睡記憶體;診斷;自我修復;drowsy SRAM;diagnosis;built-in self-repair
    日期: 2008-07-07
    上傳時間: 2009-09-22 12:15:13 (UTC+8)
    出版者: 國立中央大學圖書館
    摘要: 在單一系統晶片(SOC)的設計中,記憶體佔有很重要的角色。而且記憶體通常佔據晶片大部份的面積。因此記憶體的良率會對整個晶片的良率有決定性的影響。如果想要提升晶片的良率,最有效的做法就是採用提升記憶體良率的技術。診斷(diagnosis)與修復(repair)是目前最常用的兩種記憶體良率提升的技術。另一方面,漏電流(leakage current)是設計深次微米單一系統晶片的另一個挑戰。貪睡記憶體(drowsy SRAM)是其中一種降低漏電流的做法。在本篇論文中,我們針對貪睡記憶體提出有效率的診斷與修復技術。 我們針對貪睡記憶體提出可以區分開貪睡瑕疵與一般瑕疵的 March D2 演算法。接著我們進一步提出可以區分開六種貪睡瑕疵的 March D6 演算法。March D6 的測試複雜度是O((10*log2N+17+9*log2W)*N),其中N表示記憶體單元的個數;W表示記憶體單元的位元數。另外我們針對貪睡記憶體提出有效的自我修復方案。新的修復方案可以使用貪睡遮蔽暫存器(drowsy mask register)修復貪睡瑕疵。模擬結果顯示新修復方案的修復率是91%高於一般方案的修復率67%。 Memory core is one key component in system-on-chip (SOC) designs. Also, memory cores usually represent a significant portion of the chip area. Therefore, the yield of memory cores dominates the yield of the chip. Efficient yield-improvement techniques for memory cores thus are essential for improving the yield of the chip. Diagnosis and repair are two major techniques for improving the yields of memory cores. On the other hand, leakage power issue is another challenge for designing nano-scale SOCs. Drowsy static random access memory (SRAM) is one possible candidate of memory core with low-leakage power consumption. Therefore, we propose efficient diagnosis and repair techniques for drowsy SRAMs in this thesis. First, we propose a March D2 algorithm for distinguishing drowsy faults (DFs) from non-drowsy faults (NDFs). We also propose a March D6 diagnosis algorithm for distinguishing all DFs of drowsy SRAMs. The test complexity of a March D6 algorithm is O((10*log2N+17+9*log2W)*N), where N represents the number of words of the memory under test; W represents the word width of memory. Second, an efficient built-in self-repair (BISR) scheme is proposed to repair defective drowsy SRAMs. A new redundancy analysis (RA) algorithm is proposed to allocate redundancies of the drowsy SRAM with spare rows, spare columns, and drowsy-masking registers (DMRs) [2]. The proposed BISR scheme can repair DFs by disabling the drowsy operation mode of the corresponding rows with DMRs. Simulation results show that the repair rate (the ratio of the number of repaired memories to the number of defective memories) of the proposed RA algorithm is 91%, which is better than that of repair-most algorithm which offers 67% repair rate.
    顯示於類別:[電機工程研究所] 博碩士論文

    文件中的檔案:

    檔案 大小格式瀏覽次數


    在NCUIR中所有的資料項目都受到原著作權保護.

    社群 sharing

    ::: Copyright National Central University. | 國立中央大學圖書館版權所有 | 收藏本站 | 設為首頁 | 最佳瀏覽畫面: 1024*768 | 建站日期:8-24-2009 :::
    DSpace Software Copyright © 2002-2004  MIT &  Hewlett-Packard  /   Enhanced by   NTU Library IR team Copyright ©   - 隱私權政策聲明