SMT-ELS機聯網通訊協定的平行數據握手軟體實作

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姓名	田浩德(Hao-De Tien) 查詢紙本館藏	畢業系所	通訊工程學系在職專班
論文名稱	SMT-ELS機聯網通訊協定的平行數據握手軟體實作 (Implementation of Horizontal Communication Data Handshake Software for SEMI SMT-ELS)
檔案	[Endnote RIS 格式] [Bibtex 格式] [相關文章] [文章引用] [完整記錄] [館藏目錄] 至系統瀏覽論文 (2028-1-11以後開放)
摘要(中)	SEMI 國際半導體產業協會，發表適用於SMT 生產線的通訊標準規範(SEMI SMT-ELS)，其協定提供設備之間的通訊，本研究基於MIAT方法論，以GRAFCET方法進行模組化離散事件建模，再進行高階軟體合成，最後進行數據握手通訊軟體的效能驗證。基於SEMI A1/A1.1所制定的規範，本文採用Socket 主從式架構並以TCP通訊協議建立設備之間的通訊，在每台設備上均設置一組Server與Client，依據產品生產流向，調整Socket 連線設定，以實現單一設備可同時傳送與接收數據的能力，並展示基於水平通訊的方式，將數據由第一台設備傳送至第二台以外設備的流程，驗證基於水平通訊架構之數據握手機制，建立各設備之間穩定的資訊流。
摘要(英)	SEMI (Semiconductor Equipment and Materials International) Industry Association has published the communication standard specification (SEMI SMT-ELS) applicable to SMT production lines. Based on the MIAT methodology, this research uses the GRAFCET method for modular discrete event modeling, and then for high-level software synthesis. Based on the specifications formulated by SEMI A1/A1.1, we adopt the Socket master-slave architecture and use the TCP communication protocol to establish communication between devices, and set up a group of Server and Client on each device. According to the production flow of the product, adjust the Socket connection setting to realize the ability of a single device to transmit and receive data at the same time. And we also demonstrate the process of transferring data from the first device to the second device based on the horizontal communication method, verifies the data handshake mechanism based on the horizontal communication architecture, and establishes a stable information flow between devices.
關鍵字(中)	★ 平行通訊 ★ ★ 數據握手 ★ ★ SEMI SMT-ELS	關鍵字(英)	★ Horizontal Communication ★ ★ Data Handshake ★ ★ SEMI SMT-ELS
論文目次	摘要 I Abstract II 謝誌 III 目錄 IV 圖目錄 VI 表目錄 VIII 第一章、緒論 1 1.1 研究背景 1 1.2 研究目的 3 1.3 論文架構 4 第二章、文獻回顧 5 2.1 SEMI SMT-ELS A1/A1.1 5 2.2 Socket API 9 2.3 MIAT 方法論 12 2.4.1 IDEF0功能建模 14 2.4.2 GRAFCET離散事件建模方法 16 2.4.3 軟體高階合成 18 第三章、水平數據握手模擬系統設計 21 3.1 水平通訊架構 (Horizontal Communication, HC) 21 3.2數據握手的IDEF0 階層式模組化架構 22 3.3 數據傳送端握手模組 25 3.4數據接收端握手模組 27 3.5 軟體高階合成 29 第四章、水平數據握手軟體驗證 33 4.1 實驗模擬環境 33 4.2 水平通訊(Horizontal Communication, HC) 與TCP端口配置 33 4.3 實驗模擬數據握手(Data Handshake) 35 4.3.1 建立Socket 連線與啟動傳送端與接收端 35 4.3.2執行握手指令並進入握手準備狀態 37 4.3.3封包數據並傳送與接收數據 38 4.3.4傳輸完畢與再次設置握手準備 40 4.4數據握手通訊錯誤與重置機制 41 4.5水平架構通訊模擬 43 第五章、結論與未來展望 48 5.1 結論 48 參考文獻 50
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指導教授	陳永芳陳慶瀚(Yung-Fang Chen Ching-Han Chen)	審核日期	2023-1-17
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