I am learning svg from its official documents, there is such line. I don't get it, if it already has a width and height attribute, what is the point to specify it again in viewBox="0 0 1500 1000" ? It is says, "One px unit is defined to be equal to one user unit. Thus, a length of "5px" is the same as a length of "5"" in the official docs, thus this viewBox is a 1500px wide and 1000 height view, which exceeds 300px and 200px. So why does it define the width and height value in the first place?

 <svg width="300px" height="200px" version="1.1"
         viewBox="0 0 1500 1000" preserveAspectRatio="none"

8 Answers 8


The width and height are how big the <svg> is. The viewBox controls how its contents are displayed so the viewBox="0 0 1500 1000" will scale down the contents of <svg> element by a factor of 5 (1500 / 300 = 5 and 1000 / 200 = 5) and the contents will be 1/5 the size they would be without the viewBox but the <svg>

Imagine you have an elastic surface and cut it into 4 equal pieces. If you throw 3 pieces away you've got a surface that's 1/4 the size of the original surface. If you now stretch the surface and make it the same size as the original surface then everything on the surface will be twice the size. That's how viewBox and width/height are related.

  • 1
    Scale down? Without the viewBox, the image would be 300px wide, now it has to be stretched to be 1500px wide. I'd call that scaling up, to display the contents at 5 times the specified size. Commented Oct 28, 2016 at 12:08
  • how big the <svg> is - wait, what is "<svg/> size" if not the area necessary to draw all its elements? I mean, don't elements already define that? (Sorry if it's getting OT but the relation between <svg/> width and height and its elements confuses me more than viewBox itself.) Commented Mar 20, 2017 at 18:12
  • @AloisMahdal Please ask another question with full information about what you don't understand. Back and forth in comments is less than ideal. Commented Mar 20, 2017 at 18:58
  • @ElisevanLooij That is not correct, it will be scaling down the contents within the SVG since now the width unit represent 1/5 of what it originally represent.
    – SyndRain
    Commented Apr 25 at 14:55

By default

<svg width="300" height="200">

the "ruler" of svg grid is in pixel (all shapes in that svg is measured in pixel)

But you want to use your own units you can use viewBox attr for that:

<svg width="300" height="200" viewBox="0 0 1500 1000">

That means:

horizontal axis: 1500 (your width unit) = 300px => 1 (your width unit) = 300/1500px = 1/5px

vertical axis: 1000 (your height unit) = 200px => 1 (your height unit) = 200/1000px = 1/5px

  • Now all shapes in the svg will scale:

their widths scale to 1/5px (1/5 < 1 => scale down) comparing to the origin.

their heights also scale to 1/5px (1/5 < 1 => scale down) comparing to the origin

  • 3
    Great explanation. Have been reading lots of stuff about svg but none clear. Your answer helped me to understand the scaling, thanks!
    – FraK
    Commented Aug 27, 2018 at 11:38
  • 1
    I totally agree. This should have been marked as best answer Commented Jun 14, 2022 at 17:59

If you don't specify a viewbox, all unitless numbers in an element are assumed to be pixels. (and SVG assumes 90 dpi or pixels per inch for conversion from units like cm to pixels.)

A viewbox lets you make unitless numbers in elements mean "user units" and specifies how those units are mapped to the size. For simplicity, consider just the x coordinates, that is, a ruler. Your viewbox says that your ruler will have 1500 units to match the 200 pixel size width of the svg.

A line element from 0 to 1500 (unitless, i.e. user units) would stretch 200 pixels as drawn, that is, across the width of the svg drawing.

(And since SVG is scalable without loss of resolution, pixels really don't mean much in the real world, when a user zooms in or out.)

Its a coordinate transformation, of sorts.

I suggest you learn from a book like "SVG Essentials", about $10 used, from which I loosely quote this answer.

  • 2
    I think it is 96dpi instead of 90dpi. At least in Inkscape, in case they implement something non-standard. Commented Dec 10, 2020 at 22:02


  • The viewBox attribute is closely related to the term viewport in SVG


  • viewBox - VB
  • viewport - VP
  • viewport coordinate system - VCS
  • local coordinate system - LCS


<svg x = "VP_min_X" y = "VP_min_Y" width = "VP_width" height = "VP_height"
viewBox = "VB_min_X VB_min_Y VB_width VB_height">


  • units = px
  • viewport width = 300
  • viewport width = 150
  • viewBox = viewport




<svg x = "0" y = "0" width = "300" height = "150" viewBox = "0 0 300 150">

THE ORIGIN POINT of the viewport coordinate system (VCS):

  • VP_min_X
  • VP_min_Y

in the case of the outermost viewport, these values do not matter and in any case will be equal to 0, they are usually omitted:

<svg width = "100" height = "150">

CODE WITH THE SAME RESULT: (for the most external viewport):

<svg x = "10" y = 20 "width ="100 "height ="150">

In a nested viewport (VP_min_X, VP_min_Y) define the indent from the origin point of VCS:

<svg width="100%" height="100%"> <!-- external viewport = full browser size -->
     <svg x="50" y="100" width="200" height="300" viewBox="0 0 100 100">

in this case indent of the nested viewport:
50px along the X axis and 100px along the Y axis from the origin point of the external VCS.

THE DIMENSIONS of the rectangular area (viewport) in which SVG grafics will be drawn are determined:

  • VP_width
  • VP_height

THE ORIGIN POINT of the local coordinate system (LCS):

  • Vb_min_X
  • Vb_min_y

THE SIZE of the visible part of the SVG image:

  • Vb_width
  • Vb_height

When constructing the final SVG image, the coordinate systems are transformed by COMBINING:
Points of origin of coordinate systems:

  • VCS (VP_min_X, VP_min_Y)
  • LCS (VB_min_X, VB_min_Y)

End points of the visible image area:

  • VCS (VP_width, VP_height)
  • LCS (VB_width, VB_height)

As a result, it becomes possible to control:

  • location of the viewport in the browser window [using the nested viewport and changing (VP_min_X, VP_min_Y)]
  • viewport sizes (VP_width, VP_height)
  • panning the visible part of the image [using viewBox and changing (VB_min_X, VB_min_Y)]
  • scaling the visible part of the image [using viewBox and changing (VB_width, VB_height)]

VISUALIZATION: 2 minutes on YouTube to understand the principles described above:
video viewBox in SVG

W3C 2019 SVG 2 specification


Here is some practical information that I find useful to understand (and particularly to work with) SVG viewPort and viewBox.

SVG uses the terms viewPort and viewBox. The viewBox is inside the viewPort. Think of the viewBox as the image itself – because you can zoom it, slide it left/right/up/down – all within the viewPort. The viewPort (the SVG tag itself) is like a container that the SVG image is inside. You can size this also, and move it around left/right/up/down. And the SVG tag is within an HTML container (div, p, aside, h3, etc). So you can see why people find viewPort / viewBox to be a bit confusing. Just think of viewBox as the image itself.

The width/height attributes on the SVG tag provide the size of the viewPort. This is the width/height of the container in which the SVG image is displayed. (You can also have x="" and y="" attributes, just as you have in the viewBox attribute.)

So, on the SVG itself, you specify width /height and starting x offset / starting y offset – these are called the viewPort (aka ViewPort Coord System) In the viewBox attribute, you specify "x y width height" – these are called the viewBox (aka Local Coord System LCS)

<svg x="0" y="0" width="500" height="300"
  viewBox="start_x  start_y  width  height" >
  ...path fill d etc...

Important Concept #1: the width/height of the viewPort (the ones that are on the SVG tag itself, as width="" and height="") specify the size of the container in which the SVG image will be displayed. Usually, or if omitted, this is the exact size as (or a tiny bit larger than) the SVG image itself.

Super-Important Concept #2: the width/height of the viewBox is directly related to the width/height of the viewPort. If the viewPort is 300 x 500, then as the viewBox W / H numbers get LARGER than 300 x 500, the image itself grows smaller within the viewPort (zooms out). But as the viewBox w/h gets smaller than 300 x 500, the image itself grows LARGER within the viewPort. This growth is to the right and down, so if you need to slide the zoomed-in image around in the now-too-small viewPort, that is when you use the X / Y values of the viewBox.

viewBox x/y – slides the SVG right/down inside the viewPort

viewBox width/height – as increase larger than the SVG tag's width/height, it zooms the image OUT inside the viewPort. The SVG shrinks right/down within the viewport. Decrease number below the SVG width/height attribs: the image will GROW in the viewport until portions of the image to the right/bottom may be cut off by the rightSide/Bottom of the viewPort. *(i.e. when the width/height numbers in the viewBox attribute are less than the width/height attributes on the SVG, the image ZOOMS IN within the viewPort. When larger, the image zooms OUT (shrinks) with the viewPort.

viewPort x/y == slides the viewport itself right/down within its HTML container viewPort width/height – resizes the entire viewPort larger, possibly overflowing the HTML container (div / p / etc). Basically, makes the viewPort larger by growing it right/down.

a. If you do not include the ViewBox attribute on the SVG, then the size of the viewBox equals the size of the viewPort (takes 100% of the viewPort)
b. If the viewBox begins 0,0 and has same width/height as the SVG width/height (i.e. the viewPort), nothing will change. Equivalent to not having a viewbox attribute at all.
c. If you have a viewPort the size of a deck of cards, but the SVG image is the size of a cereal box, then increasing the viewBox "x y …" numbers will move the cereal box image up/left in the viewPort, showing a different part of the cereal box's image. This would be useful with sprites
d. (Usually (always!) the SVG element is also inside an HTML container - a div, p, section, li, whatever. We didn't discuss this, but remember it. If your image is being cut off, then either the viewBox is larger than the viewPort -OR- the HTML container element (div, etc) is smaller than the viewPort)

Here are two (excellent!) short videos, referred to us by the author of this answer within this same thread:

2min video demo
5min video demo (same guy, much better)


Here's a non-technical way of illustrating the relationship between width, height and the viewBox:

If you had any old image on your computer with the dimensions 1500 x 1000, and you pinched the corner of the image and resized it to 300 x 200, the image would shrink, or scale down (assuming scaling is enabled). The opposite is also true.

A good rule of thumb is to always look at the viewBox width and height first, and compare it to the SVG's width and height (or the parent's width and height if they are not declared in the SVG). That way you can tell whether the SVG image will scale up (grow), or down (shrink).

<svg width="300px" height="200px" viewBox="0 0 1500 1000">

The above is telling the browser that you have an SVG that's 1500 x 1000 but you want it to "pinch the corners" and shrink it down to 300 x 200.


Upon seeing this question I decided to chime in. I've been working with SVG and I still have a long way to go. Nonetheless, I've developed a concept of the viewport and viewbox that is working for me. (caveat: My terms and explanations might not be 100% technically correct. They are however very useful conceptually)

SVG drawing takes place in a "coordinate space" that is separate from the browser's "rendering/layout space". The SVG "drawing space" is conceptually infinite and drawing can take place anywhere within it.

The viewbox selects an arbitrary, rectangular area of the SVG drawing space. The selected area might contain none, some, or all of whatever drawing was performed. It might barely contain what was drawn. It might contain but be way larger that what was drawn. IMPORTANT: Think about this! It is the key to understanding.

The viewport is the SVG element upon which the viewbox attribute was specified. The viewport's dimensions are determined by the document's HTML and css. It is the viewport that is displayed by the browser.

The browser maps the contents of the viewbox into the viewport. If the viewport is larger then the viewbox's contents will be scaled up, if the viewport is smaller then the viewbox's contents will be scaled down.

Of particular importance are the aspect ratios of the viewport and viewbox. If they are different then the mapping will distort the drawing (similar to what can happen when our pages display images). In the case of differing aspect ratios the mapping performed by the browser can be altered via the SVG element's preserveAspectRatio attribute.


viewbox is a ratio

In my humble experience, I've always considered <svg>’s viewbox values as a required image ratio to apply to the width and height values. While defining the laters just I do with any <img> in the DOM, either inline HTML properties or via CSS, viewbox property only applies to the SVG file.

  • Can you change viewbox to viewBox with the capital B? For some strange reason the property name is case sensitive and also (weirdly enough) not hyphenated like other property names (like stroke-width).
    – Cristian
    Commented Jul 28, 2023 at 11:24
  • Hey Cristen, stroke-width is a css property that follows the css convention of being hyphenated. viewbox is a html element attribute. Html attributes are case insensitive: viewbox, viewBox, and VIEWBOX are all the same.
    – Verticon
    Commented Feb 6 at 20:12

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