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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/54605


    Title: 提升聚焦離子束對訊號探測能力之細部繞線方法;Detailed Routing for FIB Probing
    Authors: 李家儀;Lee,Chia-Yi
    Contributors: 電機工程研究所
    Keywords: 聚焦離子束;細部繞線;detailed routing;FIB;focused ion beam
    Date: 2012-08-15
    Issue Date: 2012-09-11 18:55:06 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 在製造晶片的過程中,電路佈局可能因為微塵粒子或是設計錯誤的影響而導致晶片運作結果與預期不同。若修正設計後再重新執行設計流程,將延後產品上市時間。因此,聚焦離子束(Focused Ion Beam, FIB) 技術被用來矽後除錯與直接修正電路佈局,替代重複的設計流程,使產品上市時間不受影響。隨著製程的演進,積體電路元件尺寸逐漸縮小,電路繞線密度也隨之提升。但是,聚焦離子束的技術卻無法跟上製程的演進,導致先進製程的電路難以利用聚焦離子束進行探測或電路編輯,嚴重限制電路的測試與除錯。實施聚焦離子束程序時所影響的範圍,遠大於先進製程的線寬與線距,若繞線密度過高,在實施聚焦離子束程序時將影響到多條鄰近的訊號線。以90奈米製程的電路為例,只有百分之三十的訊號線有足夠的空間可以實施聚焦離子束程序。本研究旨在細部繞線階段提升聚焦離子束能見度。我們提出繞線格點上的三種聚焦離子束狀態(仰視狀態、俯視狀態和環視狀態) 及其代價,並修改迷宮繞線之波傳遞方法,使得每條訊號線找到一條有足夠空間可以實施聚焦離子束程序的最短路徑。實驗結果顯示,我們所提出的方法可以達到百分之百的可繞度,並且將可以實施聚焦離子束程序的訊號線數量最大化。In the process of manufacturing a chip, a circuit layout which is affectedby particles or design errors may cause that the chip operation differs with thedesired one. As a result, post-silicon debug becomes a critical and necessarystep in the current design flow. Therefore, instead of the iterative designprocess, focused ion beam (FIB) technology is used to improve the time tomarket by directly correcting the circuit layout.As the manufacturing process evolves, the size of ICs is gradually reduced,and the wire density of a circuit increases. However, FIB technology cannotkeep up with the evolution of the manufacturing process. Therefore, the FIBcannot be easily used in probing or circuit editing, incurring the limitations oftesting and debugging. Since the influence of FIB is much larger than the linespacing and width, the FIB process will affect several adjacent signal lines ifthe wire density is too high. For example, only 30% signal lines for a circuitusing the 90-nm process can apply FIB.The purpose of this thesis is to improve the FIB observable rate in thedetailed routing stage. We propose three FIB states (lookup, lookdown, andlookpin) with their costs in the routing grid, and modify the wave propagationstage in the maze routing to find a shortest path which has enough space toprocess FIB for each net. Experimental results show that the proposed methodcan achieve 100% routability with maximizing the number of signal lines whichcan apply FIB.
    Appears in Collections:[Graduate Institute of Electrical Engineering] Electronic Thesis & Dissertation

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