T11 to FTS Converter

Render CID Type 2 fonts as FITS scientific images online

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Scientific Format

FITS is the standard in astronomy and research imaging — render your T11 font data into a format recognized by every scientific imaging tool.

Cloud Rendering

Our servers handle the font rasterization and FITS encoding. No scientific software needs to be installed locally for this conversion.

Private Data

Uploaded T11 files are deleted after processing and FTS outputs are removed within 24 hours to protect your work.

How to convert T11 to FTS

Select files from Computer, Google Drive, Dropbox, URL or by dragging it on the page.

Choose fts or any other format you need as a result (more than 200 formats supported)

Let the file convert and you can download your fts file right afterwards

About formats

T11 (Type 11) is a PostScript font type defined by Adobe Systems as part of the CID-keyed font architecture, combining CID glyph addressing with TrueType outline data wrapped in a Type 42 PostScript shell. In Adobe's font type numbering, Types 9, 10, and 11 are CID-keyed counterparts to Types 1, 3, and 42 respectively — so Type 11 is essentially a CID-keyed Type 42, designed for TrueType fonts that contain very large glyph sets, particularly CJK (Chinese, Japanese, Korean) character collections. The format allows PostScript interpreters with TrueType rasterizer support to render CJK TrueType fonts while using CID numeric indexing instead of glyph names, which is critical for character sets numbering in the tens of thousands. Glyph outlines remain in native TrueType quadratic spline format, preserving the original hinting instructions, while the CID layer provides efficient glyph access and subsetting through CMap resources. One advantage is direct TrueType rendering quality — unlike converting TrueType outlines to PostScript cubics, Type 11 passes the original outlines to the rasterizer intact, preserving hand-tuned grid-fitting instructions. The CID indexing provides another benefit by supporting multiple encoding schemes (Unicode, national standards) mapped to the same glyph collection without data duplication. Type 11 fonts appear primarily in professional CJK print production and PDF document workflows where large TrueType-based character sets must be embedded in PostScript-derived output.

Developer: Adobe Systems

Initial release: 1993

FTS is a file extension for the Flexible Image Transport System (FITS), the standard data format used in astronomy since 1981 when it was defined by Don Wells, Eric Greisen, and R.H. Harten at the National Radio Astronomy Observatory, and subsequently endorsed by the International Astronomical Union in 1982. FITS was designed from the outset as a self-describing archival format: each file begins with one or more 2880-byte header blocks containing ASCII keyword-value pairs that describe the data's dimensions, coordinate system, observation parameters, and provenance, followed by data blocks in a variety of numeric types — 8/16/32/64-bit integers and 32/64-bit IEEE floating-point values. FITS supports multi-dimensional arrays (images, data cubes, hypercubes), binary tables for catalog data, and ASCII tables, with multiple Header/Data Units (HDUs) that can coexist in a single file. The format handles specialized astronomical data: spectral cubes, radio interferometry visibilities, multi-extension mosaic images from CCD arrays, and time-series photometry. One advantage is scientific rigor: FITS mandates that all metadata needed to interpret the data physically — coordinate transformations (WCS), photometric calibration, telescope and instrument parameters — travels with the file, eliminating the metadata-loss problem that plagues general-purpose image formats in scientific contexts. The format's longevity and institutional backing is another strength — virtually every observatory, space telescope (Hubble, James Webb, Chandra), and astronomical software package (DS9, IRAF, Astropy) uses FITS as its primary data format.

Developer: NASA / IAU

Initial release: 1981

Frequently Asked Questions

Why convert T11 to FTS?

FITS is the standard format in astronomy and scientific imaging. Rendering T11 glyphs as FITS creates annotation overlays or text elements for research data.

How do I open an FTS file?

FTS files open in SAOImage DS9, FITS Liberator, AstroImageJ, and Python libraries like Astropy. Some general-purpose viewers like GIMP also import FITS.

Does FTS store metadata?

Yes — FITS includes extensive header metadata. The converted file carries image dimensions, pixel type, and other descriptive fields in its header.

Is FITS resolution-flexible?

FITS supports arbitrary dimensions and bit depths, so the rendered font glyphs can be exported at any resolution suitable for your research needs.

Is this free?

Yes — T11 to FTS is handled for free by Convertio, entirely in the cloud with no software to install.

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Specific converters

JPG to FTS

CR2 to FTS

PNG to FTS

PDF to FTS

JPEG to FTS

PPTX to FTS

ARW to FTS

XLSX to FTS

BMP to FTS

SVG to FTS

ICO to FTS

HTML to FTS

BIN to FTS

TTF to FTS

X3F to FTS

TGA to FTS

WEBP to FTS

PLT to FTS

DXF to FTS

EXP to FTS

GIF to FTS

DOC to FTS

DNG to FTS

ORF to FTS

CSV to FTS

DOCX to FTS

ABW to FTS

DBK to FTS

KWD to FTS

SXW to FTS