Google Introducing a new JPEG coding library called Jpegli

Google Introducing a new JPEG coding library called Jpegli

How we interact, work, and live have all altered as a result of the internet. When pages load slowly, though, it can get frustrating. The encoding of pictures is at the core of this problem. We are releasing Jpegli, an upgraded JPEG coding library, to address this, providing improved capabilities and a 35% improvement in compression ratio at high-quality compression settings, all while maintaining strong backward compatibility.

Jpegli is a brand-new JPEG coding library that aims to outperform conventional JPEG in terms of speed, effectiveness, and aesthetic appeal. It accomplishes these objectives by utilizing several novel approaches, such as:

  • It offers full interoperability with both the original JPEG standard and its most used 8-bit formulation for both encoders and decoders, as well as API/ABI compatibility with MozJPEG and libjpeg-turbo.

  • Quickly. In enhancing picture quality and compression density ratio, Jpegli’s coding performance is on par with conventional methods like MozJPEG and libjpeg-turbo. This implies that Jpegli may be easily integrated by web developers into their current processes without compromising memory use or coding speed.

  • More than ten bits. Jpegli allows for component encoding with more than ten bits. Only 8-bit per component dynamics are available with traditional JPEG coding methods, which results in noticeable banding distortions in slow gradients. The original 8-bit formalism is used for Jpegli’s 10+ bit coding, and the generated pictures are entirely compatible with 8-bit viewers. To take advantage of the 10+ bit dynamics, an API expansion is required, and application code modifications are required.

  • More compact: Jpegli can compress pictures more effectively than conventional JPEG codecs, which helps speed up web pages and conserve traffic and storage space.

How Jpegli functions

Jpegli reduces noise and enhances image quality through a variety of novel techniques, including enhanced quantization matrix selection, precise intermediate result calculation, the ability to use a more sophisticated colorspace, and adaptive quantization heuristics from the JPEG XL reference implementation. Because all of the new techniques have been meticulously designed to employ the conventional 8-bit JPEG formalism, the newly compressed pictures may be seen by programs that already support JPEG, including image processing applications and browsers.

Heuristics for adaptive quantization

Adaptive quantization is a technique used by Jpegli to lower noise and enhance picture quality. To do this, the dead zone in quantization based on psychovisual modeling is spatially modulated. The outcome is smaller files and better image quality thanks to adaptive quantization techniques we first created for JPEG XL. These heuristics are substantially quicker than a Guetzli-originated method of a comparable nature.

Better selection of quantization matrices

A collection of quantization matrices that were chosen by Jpegli through optimization for a variety of psychovisual quality measures are also utilized. Higher quality results are produced by both encoding and decoding, and precise intermediate outcomes in Jpegli enhance image quality. Jpegli may leverage the XYB colorspace of JPEG XL to achieve even greater quality and density gains.

Analyzing Jpegli

We used crowdsourced raters to analyze pairs of photos from Cloudinary Image Dataset ’22, encoded using three codecs: Jpegli, libjpeg-turbo, and MozJPEG, at various bitrates, to quantify Jpegli’s image quality increase.

higher ELO score

Only the encoding was compared in this comparison; libjpeg-turbo was always used for the decoding process. Because this is how we believe the majority of users would initially use Jpegli, we ran the testing without the XYB ICC color profile enabled. Using ELO scoring influenced by chess rankings, we pooled all rater selections to make comparing the results across codecs and settings easier.

Results

According to our findings, Jpegli is 35% more efficient in compressing high-quality photos than conventional JPEG codecs.

A promising new technology called Jpegli can speed up and improve the aesthetics of the internet.

Source: Google Open Source

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