Dynapik offers a free online tool to change image types - no need to download anything. It's quick and easy to use. You can change your SVGZ images to DCX format. This tool works for both professionals and casual users. Convert your images to DCX in seconds.
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Compressed Scalable Vector Graphics
The bandwidth-saving standard for scalable vector graphics, combining XML flexibility with gzip efficiency.
SVGZ is the compressed version of the Scalable Vector Graphics (SVG) format. It consists of a standard SVG file—which is text-based XML—compressed using the GZIP algorithm. This compression typically reduces file sizes by 50-80%, making SVGZ an excellent choice for web delivery where bandwidth and load times are critical. Functionally, an SVGZ file behaves exactly like an SVG file once decompressed by the browser or viewer. It retains all the capabilities of the SVG standard, including resolution independence, interactivity, animation support, and styling with CSS. The format was introduced to address the verbosity of XML, which often results in large file sizes for complex vector illustrations. While SVGZ offers significant performance benefits, it requires proper server configuration to ensure browsers handle the 'Content-Encoding: gzip' header correctly. Despite this minor hurdle, it remains a powerful tool for delivering high-quality vector assets efficiently.
An SVGZ file is created by applying the DEFLATE compression algorithm (via GZIP) to an SVG document. Since SVG files are plain text XML, they contain a high degree of redundancy—repeated tags, attributes, and whitespace—which makes them highly compressible. It is not uncommon to see size reductions of over 70% compared to the uncompressed original. Technically, the file structure is identical to a standard GZIP archive containing a single file named with an .svg extension. When a user agent (like a web browser) requests an SVGZ file, it decompresses the stream in memory and parses the resulting XML DOM. This process is transparent to the user and typically faster than downloading the larger uncompressed file, despite the CPU cost of decompression. SVGZ supports all SVG 1.1 and 2.0 features, including paths, shapes, text, gradients, filters, and scripting. However, because the file is binary compressed data, it cannot be opened or edited directly in a text editor without first being decompressed.
The SVG specification was developed by the World Wide Web Consortium (W3C) starting in 1999, with SVG 1.0 becoming a recommendation in September 2001. The need for compression was recognized early on due to the verbose nature of XML. The SVG 1.1 specification, released in 2003, explicitly mentioned the use of gzip compression for SVG files, standardizing the .svgz extension. Support for SVGZ grew alongside SVG adoption. While early browser support was spotty (Internet Explorer required plugins until IE9), modern browsers have supported SVGZ natively for over a decade. It has become a standard export option in major vector graphics software like Adobe Illustrator and Inkscape, facilitating its widespread use in web design and digital publishing.
DCX (Multi-page PCX)
A legacy multi-page image format created for PC-based fax software.
DCX is a multi-page bitmap image format that essentially acts as a container for multiple PCX files. It was developed by ZSoft Corporation, the same company that created PC Paintrush and the PCX format. The primary purpose of DCX was to serve as the file format for early digital fax software, allowing a multi-page document to be stored in a single computer file. Technically, a DCX file begins with a header containing a list of offsets (pointers) to the individual PCX images stored within the file. Each 'page' is a fully valid PCX image with its own header and palette. The format relies on the simple RLE (Run-Length Encoding) compression inherited from PCX, which is efficient for simple black-and-white fax documents but poor for complex photographs.
A DCX file consists of a 4-byte signature (987654320) followed by an array of up to 1024 32-bit integer offsets. Each offset points to the start of a PCX image structure within the file. The list ends with a zero (null) terminator. Because it is wrappers around PCX, it shares all the characteristics of that format: support from 1-bit monochrome up to 24-bit RGB color. However, since it was primarily used for faxing, the vast majority of DCX files encountered today are 1-bit black and white.
DCX became popular in the early 1990s alongside the rise of fax modems and software like WinFax. It allowed users to scan or 'print' a document to a fax driver, which would save the pages as a linear .dcx file before transmission. As PDF became the dominant document format and email replaced faxing, DCX faded into obsolescence.
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