標題: | 使用質數分解理論之 餘旋轉換/逆餘旋轉換 處理器設計 Scalable DCT/IDCT Processor Design Using Prime-Factor Algorithm |
作者: | 蔡仁傑 TASI JEN CHIEH 董蘭榮 Dr. Lan Rong Dung 電控工程研究所 |
關鍵字: | 餘旋轉換;質數分解;處理器;DCT;Prime-Factor;Processor;Scalable |
公開日期: | 2000 |
摘要: | 離散餘弦轉換,已經被廣泛的運用在各種訊號處理上,像是影像壓縮、語音壓縮等,為了達到即時的目的,有許多快速的理論與研究被提出,但是這些研究大部分都只侷限在一維或是二維的領域上,且可處理的點數都是固定的,這對使用者來說,容易造成彈性不足的問題。
針對這個問題,本論文提出一個可擴充,且參數化的餘弦 / 逆餘弦轉換處理器架構,利用質數分解的理論將一維的餘弦轉換分解成二維,則這個架構就可以同時處理一維、二維的餘弦 / 逆餘弦轉換,而且具有可擴充、運算單元規則的特性。同時,我們也會將這個架構實現成晶片。
我們以TSMC 0.35um 的製程製造這顆晶片,其操作頻率為45.5M Hz,使用CIC的標準封裝,100 LD CQFP, 晶片的面積為3.15 3.15 。 DCT ( Discrete Cosine Transform ) has been widely used in digital signal processing , especially in image and audio processing. Although a large number of papers have been proposed to meet the real-time requirements, most of them can only deal with either 1-D or 2-D DCT/IDCT and the fixed-length DCT/IDCT. In order to increase the flexibility, this thesis proposes a scalable, parameterized DCT/IDCT processor using Prime-Factor Algorithm (PFA). The proposed architecture can perform both 1-D and 2-D variable length DCT/IDCT and features high degree of regularity and modularity. Finally, a prototype chip has been built using TSMC 0.35mm CMOS technology. The chip is packaged by 100 LD CQFP and can be operated at 45.5 MHz. |
URI: | http://140.113.39.130/cdrfb3/record/nctu/#NT890591063 http://hdl.handle.net/11536/67832 |
Appears in Collections: | Thesis |