2D graphics in XNA (and Direct3D, OpenGL, etc) are achieved by rendering what is essentially a 3D scene with an **orthographic** projection that basically disregards the depth of the vertices that it projects (things don't get smaller as they get further away). You could create your own orthographic projection matrix with `Matrix.CreateOrthographic`

.

While you could render arbitrary 3D geometry this way, sprite rendering - like `SpriteBatch`

- simply draws camera-facing "quads" (a square or rectangle made up of 2 triangles formed by 4 vertices). These quads have 3D coordinates - the orthographic projection simply ignores the Z axis.

A **vertex shader** basically runs on the GPU and manipulates the vertices you pass in, before the triangles that they form are rasterised. You certainly **can** use a vertex shader on these vertices that are used for 2D rendering.

For all modern hardware, vertex transformations - including the above-mentioned orthographic projection transformation - are usually done in the vertex shader. This is basically boilerplate, and it's unusual to use complicated vertex shaders in a 2D game. But it's not unheard of - for example my own game Dark uses a vertex shader to do 2D shadow projection.

But, if you are using `SpriteBatch`

, and all you want is a **pixel shader**, then you can just omit the `VertexShader`

from your `.fx`

file - your pixel shader will still work. (To use it, load it as an `Effect`

and pass it to this overload of `SpriteBatch.Begin`

).

If you don't replace it, `SpriteBatch`

will use its default vertex shader. You can view the source for it here. It does a single matrix transformation (the passed matrix being an orthographic projection matrix, multiplied by an optional matrix passed to `Begin`

).