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据说跟Google用的同一套神经网络引擎，我试着翻了几个网页感觉比Google和百度都要强一点

Microsoft has all but abandoned their mobile efforts, instead embracing the dominant mobile ecosystems in Android and iOS, by bringing their apps to those environments. Sure, they still update Windows 10 Mobile, but with the Creators Update, only a handful of Windows 10 Mobile devices will be offered the update. It’s not a surprise, since Microsoft never really got any meaningful penetration in phones, but it certainly leaves UWP in an odd place. For years, Microsoft has been pushing UWP as a method to broaden application availability over multiple devices, but by abandoning their mobile strategy, it leaves them in a tough spot. UWP has suffered, perhaps partly because of this, but it certainly hasn’t gained the traction that Microsoft had hoped for. If it had, perhaps Windows 10 Mobile would not have been dead on arrival.
微软几乎放弃了他们的移动业务，取而代之的是在安卓和iOS系统中融入主流的移动生态系统，将他们的应用程序引入到这些环境中。当然，他们仍在更新windows10手机，但是随着开发者更新，只有少量的Windows 10移动设备将被提供更新。这并不令人惊讶，因为微软从来没有真正在手机上有过任何有意义的突破，但它确实在一个奇怪的地方留下了UWP。多年来，微软一直把UWP作为一种扩展应用程序可用性的方法，但是通过放弃他们的移动策略，它会让他们陷入困境。UWP已经遭受了损失，或许部分原因在于此，但它并没有得到微软所期望的牵引力。如果有的话，也许Windows 10手机在到达时不会死亡。

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原帖由 @mvp3  于 2017-4-29 10:14 发表
上线了吗？

网页端已经上线了，APP端两周内。

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原帖由 @jun4rui  于 2017-4-29 09:30 发表
这辈子都没想到有生之年可以期待无障碍看英文，翻译可能会失业

以前曾经认为深度学习可能不大适合处理文本，但是现在看来随着Google在底层理论上的重大突破之后，DNN真是一个强大的文本处理工具

未来影响远不止是翻译，很可能对于自动编程等等文本编译都有革命性改变。

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原帖由 @仲晓萌  于 2017-4-29 14:46 发表
给个网址

http://fanyi.youdao.com/

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网易那个更注重中文可读性，Google的精确度可能更高。

总的来说深度学习在NLP方面的潜力才刚刚显现，按照这个速度发展下去相信大概过2-3年我们去国外基本依赖一台智能手机就可以没什么障碍的跟当地人沟通了

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原帖由 @doomking  于 2017-4-30 00:27 发表
我也随便从书上粘了一段上去翻译

网易这翻译惨不忍睹，谷歌的还勉强能看。

The finite element method has become a powerful tool for the numerical solution of a wide range of engineering problems. Applications range from deformation and stress analysis of automotive, aircraft, building, and bridge structures to field analysis of beat flux, fluid flow, magnetic flux, seepage, and other flow problems. With the advances in computer technology and CAD systems, complex problems can be modeled with relative ease. Several alternative configurations can be tested on a computer before the first prototype is built. All of this suggests that we need to keep pace with these developments by understanding the basic theory, modeling techniques., and computational aspects of the finite element method. In this method of analysis, a complex region defining a continuum is discretized into simple geometric shapes called finite elements. The material properties and the governing relationships are considered over these elements and expressed in terms of unknown values at element comers. An assembly process, duly considering the loading and constraints, results in a set of equations. Solution of these equations gives us the approximate behavior of the continuum.

有道网页
摘要有限元法已成为解决各种工程问题的一种有力的工具。应用范围包括汽车、飞机、建筑和桥梁结构的变形和应力分析，以及对流通量、流体流动、磁通量、渗流和其他流动问题的现场分析。随着计算机技术和CAD系统的发展，复杂的问题可以相对容易地建模。在构建第一个原型之前，可以在计算机上对几种不同的配置进行测试。所有这些都表明，我们需要通过理解基本理论和建模技术来跟上这些发展的步伐。和有限元方法的计算方面。在这个方法的分析,一个复杂的区域定义一个连续体离散成简单的几何形状被称为有限元素。在这些元素上考虑了物质属性和管理关系，并在元素的未知值上表达了这些元素。一个装配过程，恰当地考虑了加载和约束，会产生一系列的方程式。这些方程的解使我们得到了连续的近似行为。


谷歌网页
有限元法已成为数值解决广泛工程问题的有力工具。应用范围包括汽车，飞机， ...

专业性强的译文目前还是一个难题，主要太抽象了。