| commit | 56175960be380a71e8b6ee77f0b420466bcf7618 | [log] [tgz] |
|---|---|---|
| author | Peter Harris <peter.harris@arm.com> | Mon Jul 27 21:53:21 2020 |
| committer | Peter Harris <peter.harris@arm.com> | Mon Jul 27 21:53:21 2020 |
| tree | 459880fcb91db07ca23a9f31f68c3cdf23af6b75 | |
| parent | 902551246a364fab22b8216e356d1f0e6253577b [diff] |
Use a background on images to support dark themes
This is the official repository for the Arm® Adaptive Scalable Texture Compression (ASTC) Encoder, astcenc, a command-line tool for compressing and decompressing images using the ASTC texture compression standard.
The ASTC compressed data format, developed by Arm® and AMD, has been adopted as an official extension to the Open GL®, OpenGL ES, and Vulkan® graphics APIs. It provides a major step forward both in terms of image quality at a given bitrate, and in terms of the format and bitrate flexibility available to content creators. This allows more assets to use compression, often at a reduced bitrate compared to legacy formats, reducing memory bandwidth and energy consumption.
Read our ASTC Format Overview for a quick introduction, or read the full data format specification:
This project is licensed under the Apache 2.0 license. By downloading any component from this repository you acknowledge that you accept terms specified in the LICENSE.txt file.
The master branch is an active development branch for the next major release of the compressor; version 2.x. It aims to be a stable branch, but as it is still under development expect changes to both the command line and the quality-performance trade offs the compressor is making.
The 1.x branch is a maintenance branch for the 1.x release series. It is stable and we will now only land bug fixes for this branch; no new functionality or performance improvements should be expected.
The encoder supports compression of low dynamic range (BMP, JPEG, PNG, TGA) and high dynamic range (EXR, HDR) images, as well as a subset of image data wrapped in the DDS and KTX container formats, into ASTC or KTX format output images.
The decoder supports decompression of ASTC or KTX format input images into low dynamic range (BMP, PNG, TGA), high dynamic range (EXR, HDR), or DDS and KTX wrapped output images.
The encoder allows control over the compression time/quality tradeoff with exhaustive, thorough, medium, and fast encoding quality presets.
The encoder allows compression time and quality analysis by reporting the compression time, and the Peak Signal-to-Noise Ratio (PSNR) between the input image and the compressed output.
The ASTC specification allows three profiles of implementation:
The astcenc compressor supports generation of images for all three profiles. In addition it also supports all of the ASTC block sizes and compression modes, allowing content creators access the full spectrum of quality-to-bitrate options ranging from 0.89 bits/pixel up to 8 bits/pixel.
Release build binaries for the astcenc stable releases are provided in the GitHub Releases page. Binaries are provided for 64-bit builds on Windows, macOS, and Linux.
The current builds of the astcenc 2.x series are provided as multiple binaries, each tuned for a specific SIMD instruction set. We provide, in order of increasing performance:
astcenc-sse2 - uses SSE2astcenc-sse4.2 - uses SSE4.2 and POPCNTastcenc-avx2 - uses SSE4.2, POPCNT, and AVX2The SSE2 builds will work on all x86-64 host machines, but it is the slowest of the three. The other two require extended CPU instruction set support which is not universally available.
It is worth noting that the three binaries do not produce identical output images; there are minor output differences caused by variations in floating-point rounding.
Open a terminal, change to the appropriate directory for your system, and run the astcenc encoder program, like this on Linux or macOS:
./astcenc
... or like this on Windows:
astcenc
Invoking astcenc -help gives an extensive help message, including usage instructions and details of all available command line options. A summary of the main encoder options are shown below.
Compress an image using the -cl \ -cs \ -ch \ -cH modes. For example:
astcenc -cl example.png example.astc 6x6 -medium
This compresses example.png using the LDR color profile and a 6x6 block footprint (3.55 bits/pixel). The -medium quality preset gives a reasonable image quality for a relatively fast compression speed. The output is stored to a linear color space compressed image, example.astc.
The modes available are:
-cl : use the linear LDR color profile.-cs : use the sRGB LDR color profile.-ch : use the HDR color profile, tuned for HDR RGB and LDR A.-cH : use the HDR color profile, tuned for HDR RGBA.Decompress an image using the -dl \ -ds \ -dh \ -dH modes. For example:
astcenc -dh example.astc example.tga
This decompresses example.astc using the full HDR feature profile, storing the decompressed output to example.tga.
The modes available are:
-dl : use the linear LDR color profile.-ds : use the sRGB LDR color profile.-dh and -dH : use the HDR color profile.Note that for decompression there is no difference between the two HDR modes, they are both provided simply to maintain symmetry across operations.
Review the compression quality using the -tl \ -ts \ -th \ -tH modes. For example:
astcenc -tl example.png example.tga 5x5 -thorough
This is equivalent to using using the LDR color profile and a 5x5 block size to compress the image, using the -thorough quality preset, and then immediately decompressing the image and saving the result. This can be used to enable a visual inspection of the compressed image quality. In addition this mode also prints out some image quality metrics to the console.
The modes available are:
-tl : use the linear LDR color profile.-ts : use the sRGB LDR color profile.-th : use the HDR color profile, tuned for HDR RGB and LDR A.-tH : use the HDR color profile, tuned for HDR RGBA.Efficient real-time graphics benefits from minimizing compressed texture size, as it reduces memory bandwidth, saves energy, and can improve texture cache efficiency. However, like any lossy compression format there will come a point where the compressed image quality is unacceptable because there are simply not enough bits to represent the output with the precision needed. We recommend experimenting with the block footprint to find the optimum balance between size and quality, as the finely adjustable compression ratio is one of major strengths of the ASTC format.
The compression speed can be controlled from -fast, through -medium and -thorough, up to -exhaustive. In general, the more time the encoder has to spend looking for good encodings the better the results, but it does result in increasingly small improvements for the amount of time required.
There are many other command line options for tuning the encoder parameters which can be used to fine tune the compression algorithm. See the command line help message for more details.
The ASTC Format Overview page provides a high level overview of the ASTC data format, how it encodes data, and why it is both flexible and efficient.
The Effective ASTC Encoding page looks at some of the guidelines that should be followed when compressing data using astcenc. It covers:
The Building ASTC Encoder page provides instructions on how to build astcenc from the sources in this repository.
The Testing ASTC Encoder page provides instructions on how to test any modifications to the source code in this repository.
If you have issues with the astcenc encoder, or questions about the ASTC texture format itself, please raise them in the GitHub issue tracker.
If you have any questions about Arm Mali GPUs, application development for Arm Mali GPUs, or general graphics technology please submit them on the Arm Mali Graphics forums.
Copyright (c) 2013-2020, Arm Limited and contributors. All rights reserved.