查詢結果分析
來源資料
相關文獻
- 二維雙邊動態交換網路
- Dilated Double-Layer Network 之訊號雜訊比的提升
- Rectangular Crossbar Network with Holographic Optical Switches
- Multistage Type 1 Network之訊號雜訊比的提升
- 環狀交越網路在訊號雜訊比的改善
- 以全像光學交換元件建立Clos網路
- Double Crossbar Network 之訊號雜訊比的提升
- Double Crossbar Network之研究
- Component Reducing and Routing Algorithm of Double-Layer Network with Rearranging the Channel Allocation
- 以稜鏡光交換元件提升AS/AC網路之效能
頁籤選單縮合
題名 | 二維雙邊動態交換網路=Two Dimensions Two Sides Dynamic Switching Network |
---|---|
作者姓名(中文) | 辛華昀; | 書刊名 | 中華技術學院學報 |
卷期 | 23 2001.09[民90.09] |
頁次 | 頁57-76 |
分類號 | 448.6 |
關鍵詞 | 交換元; 非阻隔交換網路; 雙邊動態交換網路; 多播交換; Switch; Non-blocking switch network; Two side dynamic switch network; Multicast switch; |
語文 | 中文(Chinese) |
中文摘要 | 交換網路(Switch Network)在系統負載高時常成為效能的瓶頸,若要提高系統效能較好的做法是採用非阻隔(Non-blocking)的交換網路。一般而言,非阻隔交換網路需要大量的交換元(Switch)以及複雜的接線,而使得此種性質的交換網路結構複雜且價格昂貴。本論文提出一種新架構的交換網路稱之為二維雙邊動態交換網路(2D Two side Dynamic Switch Network)(以下簡稱2D TDSN),相較於閂型網路(Cross Bar Network),2D TDSN在使用較少數目的交換元,同時其交換元間的接線複雜度亦較低的情況下,同樣的具有非阻隔的特性,因此,2D TDSN 在許多應用領域中可以取代閂型網路。在本論文中,我們將以提出的2D TDSN為基礎,研究執行於其上連線建立的軟硬體演算法,並證明2D TDSN具有非阻隔的特性。同時以2D TDSN為模組,建立三維架構之交換網路(簡稱3D TDSN),以期降低當2D TDSN輸入增大時,交換元總數及交換時間延遲的快速增加,並研究3D TDSN是否仍具有非阻隔的特性。 |
英文摘要 | The switching network is bottle neck of system performance frequently while the system load is heavy. A good method to improve system performance is to adopt non-blocking switch network. In general, a switch network with non-blocking property is followed by complex architecture and expensive cost since it makes use of a lot of switches and complicated hardwire. A new type of switch network is proposed in our proposal, called 2D TDSN (2 Dimension Two side Dynamic Switch Network), it is with non-blocking property just like the Cross Bar but need less switches and hardwire circuit than it. Therefore, Cross Bar may be replaced by 2D TDSN in many fields. In our proposal, we will investigate the hardware and software algorithms of setting up connection based on 2D TDSN and prove the non-blocking property of it. We use 2D TDSN as module to construct three dimension's switch network, called 3D TDSN (3 dimension Two side Dynamic Switching network), to expect to minimize the switch amount and connection delay increasing rapidly when the number of input of 2D TDSN is growing. Furthermore, the 3D TDSN weather with non-blocking property or not will be proved. |
本系統之摘要資訊系依該期刊論文摘要之資訊為主。