This document discusses optimizing mobile and web performance. It recommends testing websites and apps using tools like WebPageTest and Video Optimizer to analyze loading speeds and identify optimization opportunities. Common issues include large file sizes, unnecessary redirects, low quality images, and high bitrate videos. The document provides best practices for faster content delivery such as text compression, responsive images, and adding multiple streaming options. The goal is to balance fast initial loads with smooth streaming by addressing these performance bottlenecks.
This document summarizes Doug Sillars' presentation on optimizing mobile and web performance. It discusses using tools like Video Optimizer and WebPageTest to test performance. It then provides best practices for optimizing content delivery through techniques like image optimization, text compression, lazy loading images, optimizing animated GIFs and video. It discusses how to prevent startup delays and stalls for video streaming.
This document discusses optimizing content delivery for mobile performance. It begins by introducing common tools for testing mobile performance like Video Optimizer and WebPageTest. It then discusses best practices for optimizing delivery speed such as using content delivery networks (CDNs) and image compression. Other topics covered include optimizing images, responsive delivery, animations, and video streaming. The overall message is that optimizing these areas can significantly improve mobile performance and user experience.
The document discusses optimizing mobile and web performance. It recommends testing performance using tools like WebPageTest and Video Optimizer. Some key optimizations include using content delivery networks to improve delivery speed, compressing text files, optimizing image size and quality, and choosing appropriate video bitrates. The summary highlights testing and optimization strategies for delivery speed, content delivery, images, and video.
The document discusses optimizing mobile performance. It recommends testing performance using tools like WebPageTest and Video Optimizer. It then provides tips for optimizing content delivery through techniques like text compression, responsive images at appropriate sizes and quality levels, and choosing optimal video bitrates. The overall goal is to balance delivery speed, network conditions and quality of experience for users.
Mobile apps and mobile video need to be delivered quickly to keep your customers happy. This presentation was given in Brasov on 13/02/2018
Doug Sillars presented on optimizing mobile and web performance. He discussed how delays of just a few seconds can negatively impact user experience and business metrics. He then provided best practices for testing performance, optimizing content delivery speed through techniques like CDNs, text compression, responsive images, and adjusting video bitrates. Sillars recommended tools like WebPageTest, Video Optimizer, and Cloudinary to help optimize and measure performance. The overall presentation focused on identifying and reducing delays to improve user experiences on mobile and web.
Doug Sillars presented on optimizing mobile performance. He discussed common tools for testing performance like Video Optimizer and WebPageTest. Best practices for optimization included using HTTP/2, image formats like WebP and SVG, responsive images, lazy loading, and video format/quality adjustments. Factors that can impact video startup like manifest files, available bitrates, and 3rd party interference were also covered. The goal was to learn how to test mobile sites and apps, identify issues, and apply optimizations to deliver fast, high quality experiences to users.
This document discusses optimizing mobile and web performance through testing, analyzing, and improving the delivery of content such as images, videos, and text. It provides an overview of common tools for testing performance, such as WebPageTest and Video Optimizer. It then covers best practices for optimizing different types of content, including compressing text and images, using responsive images, lazy loading images, optimizing video quality and formats, and configuring video streaming and delivery. The goal is to understand current performance and make targeted improvements to provide fast, high-quality experiences for users on mobile.
The document discusses optimizing content delivery for mobile performance. It begins with testing tools like Video Optimizer and WebPageTest to analyze mobile site performance. Common issues identified are long connection times, large files like images and videos, and lack of responsive delivery for different devices and network conditions. Best practices recommended to improve performance include using content delivery networks to cache content globally, compressing text and images, optimizing video formats and bitrates, and delivering the appropriate format and quality based on device and network. The goal is to minimize load times and avoid stalls during playback.
This document summarizes Doug Sillars' presentation on optimizing mobile and web performance. It discusses using tools like Video Optimizer and WebPageTest to test performance. It then provides best practices for optimizing content delivery through techniques like image optimization, text compression, responsive images, lazy loading, and video streaming. Specific techniques covered include using Scalable Vector Graphics (SVG), WebP format, appropriate image sizes and quality levels, and optimizing video formats and manifest files.
This document discusses optimizing mobile performance. It recommends testing performance with tools like WebPageTest and Video Optimizer. It then provides tips for optimizing content delivery such as compressing text, resizing and compressing images, preloading video correctly, and starting video streams at a low bitrate for faster loading. The document stresses the importance of mobile performance and outlines best practices.
Delivering Fast and Beautiful Images outlines 4 simple optimizations for image performance: 1) Reduce image quality for smaller file sizes without noticeable quality loss. 2) Use optimized formats like WebP and responsive images. 3) Resize images to actual display size. 4) Lazy load images to speed page loads. The document provides examples and data showing these techniques can significantly reduce data usage and page load times.
Mobile and web performance is critical for user experience. Testing tools like WebPageTest and Video Optimizer can identify optimization opportunities such as slow delivery speeds, large files, and inefficient content. Key best practices include using content delivery networks to cache content globally, compressing text and images, resizing images appropriately, and choosing optimal video bitrates. Adhering to these performance best practices can significantly improve load times and user engagement.
Delivering Fast and Beautiful Images outlines 4 simple optimizations for image performance: 1) reducing image quality, 2) using optimized formats like WebP and JPEG, 3) sizing images appropriately, and 4) lazy loading images. The document provides data on current image usage and the significant performance benefits realized by implementing these optimizations, such as reducing page load times by up to 15 seconds. Proper image optimization is key to delivering both fast and visually appealing content.
The document discusses optimizing images for fast loading on mobile websites. It recommends four simple image optimizations: 1) reducing image quality to 85%, 2) using optimized formats like JPEG, WebP and SVG, 3) sizing images appropriately for the viewport, and 4) lazy loading images below the fold. Implementing these techniques can significantly reduce data usage and speed up page load times. The document also provides examples and tools for implementing each optimization technique.
This document provides a summary of techniques for optimizing image performance on mobile websites. It discusses optimizing image quality, format, sizing through responsive images, and lazy loading images. The techniques can significantly reduce data usage and improve page load speeds. Optimizing images is one of the most effective ways to improve mobile performance.
Doug Sillars presented on mobile and web performance optimization at the Dublin Tech Talks on July 10, 2018. He discussed how slow loading times negatively impact user experience and engagement. Sillars recommended tools like Video Optimizer and WebPageTest to audit performance, and emphasized optimizing delivery speed through content delivery networks and image/text compression. He also provided tips for optimizing images, videos, and animations to reduce payload sizes and startup delays. The goal is to create fast, rich mobile experiences for users.
This document summarizes Doug Sillars' presentation on optimizing mobile and web performance. The presentation covered testing performance with tools like Video Optimizer and WebPageTest, optimizing content delivery through techniques like HTTP/2, image optimization, lazy loading images, and video delivery best practices. Sillars stressed the importance of performance, noting that slow load times can cause high abandonment rates and lost revenue.
This document discusses optimizing images and video for fast delivery on mobile. It recommends 4 simple image optimizations: reducing quality to 85%, using WebP format, resizing images responsively, and lazy loading images. For video, it suggests stripping audio from silent videos, resizing videos for mobile, and auditing third party videos. Testing sites with WebPageTest and analyzing trends with HttpArchive can help optimize content delivery.
This document provides an overview of optimizing images for faster page loads and better user experience. It discusses four main image optimizations: quality, format, sizing, and lazy loading. For each optimization, it explains the technique, provides examples, and shows data on adoption rates and typical page load improvements. Key points covered include compressing JPEG quality, using responsive images and formats like WebP, resizing images to actual displayed sizes, and lazy loading images below the fold. The document emphasizes that even small optimizations across an entire site can yield significant speed and data savings.
This document discusses optimizing images and video for fast delivery on mobile websites. It provides four simple optimizations: adjusting image quality, format, sizing, and lazy loading. SVG, WebP and responsive images are recommended over other formats. Videos should be resized, have audio removed if unneeded, and only download what will be displayed. Background videos especially should be optimized for mobile screens. Network conditions and customer needs like data savings should also be considered. Tools like ImageMagick, Cloudinary and WebPageTest can help with optimizations.
Doug Sillars discusses optimizing images for fast delivery on mobile websites. He outlines 4 simple optimizations: 1) reducing image quality, 2) using optimized formats like JPEG, PNG and WebP, 3) sizing images appropriately through responsive images, and 4) lazy loading images below the fold. Formats like SVG and GIFs can further reduce file sizes. Tools like ImageMagick and libraries like LazySizes can help automate optimizations to deliver fast and beautiful images.
The document discusses optimizing image delivery for fast page loads by covering techniques like reducing image quality, using smaller file formats, sizing images responsively, and lazy loading images below the fold to reduce initial payload size and speed up rendering. It provides examples and metrics on how these optimizations can significantly improve page load speeds and reduce data usage.
This document discusses optimizing images for faster page loads. It recommends four simple optimizations: reducing image quality to 85%, using smaller file formats like WebP and SVG, sizing images appropriately through responsive images, and lazy loading images not initially visible. Implementing these optimizations can significantly reduce page weight and load times. The document provides examples and tools for each technique and data on their real-world impacts on mobile sites.
Doug Sillars presented optimizations for delivering fast and beautiful images on mobile websites. He discussed 4 key optimizations: 1) reducing image quality to 85%, 2) using efficient formats like WebP and SVG, 3) sizing images responsively based on screen size, and 4) lazy loading images not visible on the screen. Sillars showed that these techniques can significantly reduce image file sizes and page load times without compromising visual quality for the user. He also provided recommendations for additional optimizations like avoiding animated GIFs and base64 encoding of images.
This document provides an overview of optimizing images and video for delivery on mobile devices. It discusses four main optimizations for images: quality, format, sizing, and lazy loading. For quality, it recommends using 85% quality for JPEG images. For format, it suggests using formats like WebP, SVG and responsive images. For sizing, it discusses generating responsive image sizes. For lazy loading, it covers techniques to delay loading images until they are visible. For video, it discusses optimizations like preloading, resizing video, removing audio from non-playing videos, and optimizing video delivery through techniques like manifest files and adaptive bitrate streaming.
The document discusses various tools and techniques for optimizing mobile and web performance, including testing sites using tools like WebPageTest and Video Optimizer, optimizing delivery of content like images, videos and text through techniques like compression and CDNs, and best practices for mobile video streaming to reduce startup delays and prevent stalls. Common issues covered include large file sizes, unnecessary connections, and choosing video streams appropriate for available bandwidth.
Doug Sillars discusses optimizing image performance on websites. He outlines 4 simple optimizations: 1) reducing image quality, 2) using optimized formats like WebP and SVG, 3) sizing images appropriately, and 4) lazy loading images below the fold. Properly implementing these techniques can significantly improve page load times and reduce data usage. Sillars also provides tips on monitoring image usage in the wild and considerations for different network conditions and user expectations.
This document discusses optimizing images for fast delivery on mobile websites. It outlines four simple image optimizations: quality, format, sizing, and lazy loading. For each optimization, it provides examples and data on current usage. Quality recommends compressing to 85% without significant quality loss. Format suggests using webp and svg where supported. Sizing involves generating responsive images at appropriate breakpoints. Lazy loading delays image loading to above the fold content. Together, these techniques can significantly improve performance without compromising quality.
The document discusses optimizing images for fast loading on mobile websites. It provides 4 simple optimizations: 1) reducing image quality, 2) using optimized formats like WebP and SVG, 3) proper sizing of images for different screen sizes, and 4) lazy loading images that are not immediately visible. The document shows how these techniques can significantly reduce image file sizes and page load times based on analyzing millions of mobile sites. It also discusses alternatives to animated GIFs like using video formats and preview images to improve performance.
This document discusses optimizing images for fast loading on mobile devices. It recommends four simple image optimizations: 1) reducing image quality to 85%, 2) using efficient formats like WebP and SVG, 3) sizing images appropriately for the viewport, and 4) lazy loading images below the fold. Data from the HTTP Archive is presented showing the prevalence and impact of these optimizations. Specific techniques like responsive images and image processing tools are also outlined.
This document provides tips for optimizing images for fast loading on mobile websites. It discusses 4 key optimizations: image quality, format, sizing, and lazy loading. For quality, it recommends reducing to 85% quality, which can significantly reduce file sizes with little quality loss. For format, it promotes webp and svg over jpeg and png. For sizing, it stresses responsive images at different breakpoints to reduce file sizes. And for lazy loading, it shows how delaying non-critical image loads can improve performance. Measurements are given for how widely these techniques have been adopted and the potential savings in load times and data usage. Tools are also listed for implementing the various optimizations.
Doug Sillars discusses using AI and machine learning to simplify image preparation for the web. He describes how object detection can be used for cropping, blurring objects, object removal, and generating alt text. Sillars also provides examples of using these techniques like detecting and adding sunglasses to images. He concludes that image processing with AI and ML can automate tasks like cropping, blurring, object removal, and alt text generation for image optimization.
Doug Sillars presented techniques for optimizing image performance on mobile websites. He discussed 4 key optimizations: 1) reducing image quality to 85%, 2) using efficient formats like WebP and SVG, 3) sizing images responsively, and 4) lazy loading images below the fold. Testing of millions of sites showed these techniques can reduce page load times by up to 15 seconds and data usage by up to 2.4 MB. Sillars recommended tools like ImageMagick, responsive breakpoints generator, and Cloudinary to help automate image optimizations.
This document provides best practices for optimizing video delivery and streaming on the web. It discusses how video files are large and can negatively impact page load times and user data plans. Some key recommendations include resizing videos appropriately for different screens, avoiding downloading hidden or unnecessary videos, using video streaming with a low starting bitrate for faster startup times, stripping audio from silent videos, and auditing third party video hosts for performance issues. The document emphasizes optimizing video delivery to respect mobile users' limited data plans.
The document discusses optimizing video delivery for performance and reducing data usage. It provides examples of HTML code to embed video on a webpage and control playback behavior. It also summarizes techniques for resizing and encoding videos to different formats and bitrates to reduce file sizes while maintaining quality, such as using services like Cloudinary. Optimizing factors like video size, bitrate, and delivery method can help videos start faster and reduce stalling to improve the user experience.
Doug Sillars discusses using AI and machine learning to simplify image preparation for the web. He covers how object detection can be used for cropping, blurring, object removal, and generating alt text. Sillars also demonstrates training a model to add sunglasses to faces in images without manually editing thousands of photos. In summary, AI and ML techniques can automate many image editing tasks previously done manually to optimize images for websites and apps.
The document discusses building augmented reality (AR) and virtual reality (VR) experiences in the browser. It demonstrates how to create a VR art gallery using A-Frame, optimize images and 3D models for AR/VR, and add AR functionality using AR.js markers. It also covers upcoming AR capabilities using WebXR, such as hit testing. Optimizations like resizing images, format and quality adjustments, cropping, and Draco compression are recommended to reduce file sizes and loading times. The talk concludes with resources for setting up a sample AR art gallery project and suggestions for art assets to include.
This document discusses using AI and machine learning to simplify image preparation for the web. It describes how object detection can be used for cropping, blurring, object removal, and generating alt text. It provides examples of using these techniques to automatically add sunglasses to faces in images. The document concludes by mentioning that image processing with AI and ML can simplify tasks like cropping, blurring, object removal, and alt text generation for images on the web.
The document discusses building augmented reality (AR) and virtual reality (VR) experiences in the browser. It begins with an overview of what can currently be done with AR and VR using the A-Frame framework, including examples of building VR art galleries and scenes. It then covers adding AR capabilities using AR.js by placing 3D objects with markers. The document emphasizes optimizations needed for AR and VR like reducing file sizes and optimizing image quality and format. It also discusses the potential for building AR experiences using the emerging WebXR standard. Throughout it provides links to code samples and resources.
Doug Sillars gave a presentation on using AI to optimize images for the web. He discussed how images dominate web content and explained techniques like cropping, blurring objects, and generating alt text using machine learning models. Sillars also demonstrated how to train custom models for tasks like detecting sunglasses and adding filters to photos. The presentation concluded by emphasizing how AI and ML can simplify and automate image preparation and processing for digital content.
This document provides tips for optimizing images on websites to deliver fast loading speeds while maintaining image quality. It discusses optimizing image quality, format, sizing through responsive images, and lazy loading images below the fold. Key recommendations include using JPEG format at 85% quality, responsive images through picture tags, and lazy loading images to improve page load times and reduce data usage. Tools mentioned for optimizing images include ImageMagick, SSIM, LazySizes, and Cloudinary.
This document discusses using AI and machine learning to simplify image preparation for the web. It describes how object detection can be used for cropping, blurring objects, object removal, and generating alt text. It also provides examples of training custom models for tasks like automatically adding sunglasses to faces in images. The conclusion emphasizes that image processing with AI and ML can automate tasks like cropping, blurring, object removal, and alt text generation for image preparation.
This document summarizes a presentation about building augmented reality (AR) and virtual reality (VR) experiences in the browser. It discusses using the A-Frame framework to create VR galleries and scenes that can be viewed today. It also covers adding AR capabilities using AR.js by placing 3D objects using markers. The presentation provides examples of optimizing assets for AR/VR experiences, such as resizing images, compressing formats, and using services like Cloudinary. Upcoming capabilities discussed include AR hit testing using the WebXR Device API in Chrome Canary. The document aims to demonstrate that AR does not need to be processor intensive or rely on large amounts of data.
The document discusses optimizing images for fast loading on mobile websites. It outlines 4 simple image optimizations: 1) reducing image quality, 2) using optimized file formats like WebP and JPEG, 3) sizing images appropriately for the viewport, and 4) lazy loading images below the fold. The document provides examples of how each technique can significantly reduce image file sizes and page load times. Testing of real-world websites shows widespread room for improvement in mobile image optimization.