SVG stands for Scalable Vector Graphics.
SVG defines vector-based graphics in XML format.
Examples in Each Chapter
With our "Try it Yourself" editor, you can edit the SVG, and click on a button to view the result.
Try it yourself »
<h1>My first SVG</h1>
<svg width="100" height="100">
<circle cx="50" cy="50" r="40"
stroke="green" stroke-width="4" fill="yellow"
What you should already know
Before you continue, you should have some basic understanding of the following:
If you want to study these subjects first, find the tutorials on our
What is SVG?
- SVG stands for Scalable Vector Graphics
- SVG is used to define vector-based graphics for the Web
- SVG defines the graphics in XML format
- SVG graphics do NOT lose any quality if they are zoomed or resized
- Every element and every attribute in SVG files can be animated
- SVG is a W3C recommendation
- SVG integrates with other W3C standards such as the DOM and XSL
SVG is a W3C Recommendation
SVG 1.0 became a W3C Recommendation on 4 September 2001.
SVG 1.1 became a W3C Recommendation on 14 January 2003.
SVG 1.1 (Second Edition) became a W3C Recommendation on 16 August 2011.
Advantages of using SVG over other image formats (like JPEG
and GIF) are:
- SVG images can be created and edited with any text editor
- SVG images can be searched, indexed, scripted, and compressed
- SVG images are scalable
- SVG images can be printed with high quality at any resolution
- SVG images are zoomable (and the image can be zoomed without degradation)
- SVG is an open standard
- SVG files are pure XML
The main competitor to SVG is Flash.
The biggest advantage SVG has over Flash is the compliance with other standards
(e.g. XSL and the DOM). Flash relies on proprietary technology that is not open source.
Creating SVG Images
SVG images can be created with any text editor, but
it is often more convenient to create SVG images with a drawing program, like