How It Works How does a computer understand you when you talk to it using everyday language? Our approach was to use billions of lines of dialogue to teach an AI how real human conversations flow. Once the AI has learned from that data, it is then able to predict how likely one statement would follow another as a response. In these demos, the AI is simply considering what you type to be an opening
///::filterCtrl.getOptionName(optionKey)/// ///::filterCtrl.getOptionCount(filterType, optionKey)/// Google’s mission presents many exciting algorithmic and optimization challenges across different product areas including Search, Ads, Social, and Google Infrastructure. These include optimizing internal systems such as scheduling the machines that power the numerous computations done each day, as w
Position Bias Estimation for Unbiased Learning to Rank in Personal Search Xuanhui Wang, Nadav Golbandi, Michael Bendersky, Donald Metzler, Marc Najork Google Inc. Mountain View, CA {xuanhui,nadavg,bemike,metzler,najork}@google.com ABSTRACT A well-known challenge in learning from click data is its inher- ent bias and most notably position bias. Traditional click models aim to extract the ⟨query, do
Latent Cross: Making Use of Context in Recurrent Recommender Systems Alex Beutel, Paul Covington, Sagar Jain, Can Xu, Jia Li∗, Vince Gatto, Ed H. Chi Google, Inc. Mountain View, California {alexbeutel, pcovington, sagarj, canxu, vgatto, edchi}@google.com, vena900620@gmail.com ABSTRACT The success of recommender systems often depends on their ability to understand and make use of the context of the
Semantics of Asynchronous JavaScript Matthew C. Loring Google Inc, USA mattloring@google.com Mark Marron Microsoft Research, USA marron@microsoft.com Daan Leijen Microsoft Research, USA daan@microsoft.com Abstract The Node.js runtime has become a major platform for de- velopers building cloud, mobile, or IoT applications using JavaScript. Since the JavaScript language is single threaded, Node.js p
Our teams are innovating at the cutting edge of their fields in order to tackle challenges and build products that impact billions of people every day. From Accra to Zürich, to our home base in Mountain View, we’re looking for talented and creative computer scientists to help us drive the field forward.
Building Large-Scale Internet Services Jeff Dean jeff@google.com Plan for Today • Google’s computational environment – hardware – system software stack & its evolution • Techniques for building large-scale systems – decomposition into services – common design patterns • Challenging areas for current and future work Computing shifting to really small and really big devices UI-centric devices Large
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