By default, WilcomWorkspace saves to its native EMB file format. This format contains all information necessary both for stitching a design and for later modification. When opening designs created or saved in other formats, WilcomWorkspace converts them internally to EMB format. WilcomWorkspace also allows you to output for stitchout in a range of machine formats. WilcomWorkspace opens and saves to a comprehensive range of both ‘design’ and ‘machine’ files, including native Wilcom EMB format.
Do you receive designs from digitizing centers or embroiderers? Do you send designs to embroiderers or production houses? If so, Wilcom EMB is very likely the embroidery file format you use on a day-to-day basis. More professional designs are created in EMB than any other. Here are a few of EMB’s unique advantages for the embroidery industry:
- Read, convert and save many industrial and home file formats
- Visualize designs in both artistic and technical (stitch) views
- Scale designs while preserving stitch density
- Create multiple colorways for different fabrics
- Print approval sheets and production worksheets.
Note: Scalability and stitching quality ultimately depend on the design source – Native Design, Imported Outlines, Processed Stitches, or Imported Stitches. Only native EMB designs contain the complete set of design information required for 100% perfect scaling and transformation.
Machine files
Machine files are generally not suited to modification because stitches are not regenerated. However, WilcomWorkspace can interpret object outlines, stitch types and spacing from stitch data with some success. In this way, you can re-constitute old tape format files and other machine file formats for modification in WilcomWorkspace. These ‘recognized’ designs can be scaled with stitches recalculated for the new outlines. Processing is effective for most machine files but cannot produce the same level of quality as original outlines and may not handle some fancy stitches.
When you convert a machine file to design file format, WilcomWorkspace reads stitch data stitch-by-stitch according to the needle penetration points. It recognizes stitch types, spacing and length values, stitch effects, and can determine object outlines. Stitch types are assigned as Satin, Tatami, or Program Split depending on the pattern of needle penetrations.
With Tatami, WilcomWorkspace recognizes stitch spacing and length, and applies a random factor. If a design is converted from ESD format, Zigzag and Triple Run objects are also recognized. If an object is not recognized, it becomes (or remains) a manual object with general and connector properties only. As such, it will not scale well.
Recognized object outlines and stitch values are stored as object properties in WilcomWorkspace. This means you can scale and transform recognized designs in the usual way. You can also change the stitch density of the whole or selected parts of a design, and/or of certain stitch types.
By default, machine files are converted to outlines and objects upon opening but you can also choose to open them without recognition. Designs opened in this way can be output for stitching in another format. Or you can edit stitches and add new elements. For such purposes, you do not need to retrieve information about how the design was created.
You can scale machine files which have been opened without object/outline recognition. However, because the stitch count does not change, the density increases or decreases with the design size. Thus you should not scale machine files by more than ±10% or some areas may be too thickly or too thinly covered.
Note: With or without object/outline recognition, machine files can be saved in EMB format once they are opened in WilcomWorkspace.