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1page.title=Computation
2page.landing=true
3page.landing.intro=Renderscript provides a platform-independent computation engine that operates at the native level. Use it to accelerate your apps that require extensive computational horsepower.
4page.landing.image=
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6@jd:body
7
8<div class="landing-docs">
9
10  <div>
11    <h3>Blog Articles</h3>
12
13      <a
14href="http://android-developers.blogspot.com/2013/01/evolution-of-renderscript-performance.html">
15        <h4>Evolution of Renderscript Performance</h4>
16      <p>It’s been a year since the last blog post on Renderscript, and with the release
17      of Android 4.2, it’s a good time to talk about the performance work that we’ve done
18      since then. One of the major goals of this past year was to improve the performance
19      of common image-processing operations with Renderscript.</p> </a>
20
21      <a
22href="http://android-developers.blogspot.com/2012/01/levels-in-renderscript.html">
23        <h4>Levels in Renderscript</h4>
24      <p>For ICS, Renderscript (RS) has been updated with several new features to simplify
25        adding compute acceleration to your application. RS is interesting for compute
26        acceleration when you have large buffers of data on which you need to do significant
27        processing. In this example we will look at applying a levels/saturation operation
28        on a bitmap.</p>
29      </a>
30
31      <a
32href="http://android-developers.blogspot.com/2011/03/renderscript.html">
33        <h4>Renderscript Part 2</h4>
34        <p>In Introducing Renderscript I gave a brief overview of this technology.
35          In this post I’ll look at "compute" in more detail. In Renderscript we use
36          "compute" to mean offloading of data processing from Dalvik code to
37          Renderscript code which may run on the same or different processor(s).</p>
38      </a>
39  </div>
40
41  </div>
42</div>