605-109114-004 4端口千兆以太網(wǎng)卡模塊

605-109114-004 4端口千兆以太網(wǎng)卡模塊

預計運輸規(guī)模
尺寸:163 × 38 × 58mm
體重:。4公斤
原產(chǎn)國:美國

分類:

描述

605-109114-004 4端口千兆以太網(wǎng)卡模塊

預計運輸規(guī)模
尺寸:163 × 38 × 58mm
體重:。4公斤
原產(chǎn)國:美國

在繼續(xù)“四維建筑設計方法論”的話題之前,讓我們回顧一下前兩篇文章的內(nèi)容,以便更好地理解這篇文章:如何創(chuàng)造一個建筑師的三維思維:解釋了建筑設計涉及業(yè)務、技術(shù)、系統(tǒng)、時間等多個維度,并從技術(shù)維度提出了七個層次的應用。如何設計分層體系結(jié)構(gòu)和交互界面:本文介紹了分層體系結(jié)構(gòu)的設計過程和界面設計方法,并討論了領(lǐng)域、資源和數(shù)據(jù)三種模型的區(qū)別。接下來,讓我們看一下接口的分類和模塊的設計:接口類型的分類如何決定圖形用戶界面(gui)和應用程序編程接口(api)之間的分工?在收集業(yè)務需求的過程中,我們可以確定發(fā)起需求的角色是一個人還是一個程序。如果需求是由人發(fā)起的,則需要通過GUI來滿足;如果需求是由程序發(fā)起的,則需要通過API來滿足。

在架構(gòu)設計過程的第三步,根據(jù)功能相似的原則,將接口分組到不同的模塊中。劃分模塊涉及業(yè)務分割。與第一個分層位置一樣,我們?yōu)闃I(yè)務拆分選擇了業(yè)務層和域?qū)拥倪B接點。業(yè)務劃分由業(yè)務專家完成,以確定y軸包含哪些業(yè)務系統(tǒng),這些業(yè)務系統(tǒng)的公共模塊或系統(tǒng)將被劃分為業(yè)務層X2和領(lǐng)域?qū)覺4。在第一輪業(yè)務拆分之后,我們可以進入設計階段,確定業(yè)務的交互流,并進一步定義業(yè)務層X2和領(lǐng)域?qū)覺4。然后并行地啟動交互設計和建模,其中交互設計是識別交互層X1和業(yè)務層X2,而建模是識別領(lǐng)域?qū)覺4、X5和資源層X6。業(yè)務的設計和分離可以多次迭代,直到可以達到下一個階段:模塊設計和數(shù)據(jù)存儲設計。根據(jù)業(yè)務設計的結(jié)果,我們可以進行模塊設計,定義X1到X6層的模塊構(gòu)成。建模結(jié)果可用于數(shù)據(jù)存儲設計,明確X1、X3、X6、X7級模塊劃分。模塊設計和數(shù)據(jù)存儲設計是相互推動的。當以上設計完成后,就可以進入網(wǎng)絡部署規(guī)劃,最后可以做人事機臺規(guī)劃,進入實施階段。隨著實現(xiàn)的進展,一旦發(fā)現(xiàn)問題,就要重復整個過程。

605-109114-004 4端口千兆以太網(wǎng)卡模塊

Estimated Shipping Size
Dimensions: 163 × 38 × 58mm
Weight:. 4 kg
Country of Origin: United States of America

810-000671-001 PCB Indexer Interface LAM 810-000839-003 Before continuing on the topic of “Four-dimensional Architecture Design Methodology,” let’s review the content of the previous two articles so that we can better understand this one: How to create an architect’s three-dimensional thinking: explained that architectural design involves several dimensions of business, technology, systems, and time, and also suggested seven layers of application from the technical dimension. How to design layered architecture and interactive interface: This paper introduces the design process of layered architecture and interface design methods, and also discusses the differences between the three models of domain, resource and data. Next, let’s look at the classification of interfaces and the design of modules: How does the classification of interface types determine the division of labor between graphical user interfaces (GUIs) and application programming interfaces (apis)? In the process of gathering business requirements, we can identify whether the role that initiated the requirement is a person or a program. If the requirement is initiated by a human, it needs to be satisfied through a GUI, and if the requirement is initiated by a program, it needs to be satisfied through an API.

810-000671-001 PCB Indexer Interface LAM 810-000839-003 In the third step of the architecture design process, the interfaces are grouped into different modules according to the principle of functional similarity. Partitioning modules involves business splitting. As with the first layering location, we chose the junction of the business layer and domain layer for the business split. Business splitting is done with business experts to determine which business systems the Y-axis contains, and the common modules or systems of those business systems will be divided into business layer X2 and domain layer X4. After the first round of business splitting, we can enter the design phase to determine the interaction flow of the business and further define the business layer X2 and domain layer X4. Interaction design and modeling are then initiated in parallel, where interaction design is to identify interaction layers X1 and business layers X2, and modeling is to identify domain layers X4, X5, and resource layers X6. The design and separation of the business can be iterated many times until the next stage can be reached: module design and data storage design. According to the results of business design, we can carry out module design and define the module composition of layers X1 to X6. The modeling results can be used in data storage design to clarify the module division of X1, X3, X6 and X7 levels. Module design and data store design can drive each other. When the above design is completed, you can enter the network deployment planning, and finally you can do personnel machine planning, into the implementation phase. As the implementation progresses, re-iterate the entire process as soon as problems are discovered.

 

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