ColorAnt | Evaluate

Evaluate - Proof Evaluation

Evaluation of Proof Measurement Data

Evaluate – Proof Evaluation

The Evaluate tool can be used to check whether the proof measurement data from a media wedge fulfills the requirements for a contract proof according to ISO 12647-7 or a validation print according to ISO 12647-8.

In addition, a PSD evaluation can be performed using two different evaluation methods: “Side-by-Side” or “Media Relative”.

Moreover, the Evaluation Method G7 gray balance allows the measurement data to be checked for G7® conformity.

Finally, a fully detailed report can be created with a pass/fail indicator.

Notes

  • The Proof Evaluate tool supports all color spaces including Multicolor and spot colors. It is a powerful addition to ZePrA’s proofing feature, as it allows you to use the reference files of the dynamic media wedges created by ZePrA for proof evaluation.
  • For redundant measurement values, the median is determined and all duplicates (i.e., all patches with identical DCS values) are removed before evaluation.
    This procedure prevents duplicates as well as outliers from unjustifiably influencing the proof evaluations.
  • The Evaluate tool supports all color spaces as either reference data or reference ICC profile. In addition, it checks whether the selected wedge is actually suitable for evaluation and displays a corresponding message.
  • The Evaluate tool is available from ColorAnt L.

The Evaluation tab immediately shows the categories related to the chosen standard, the deltas to the reference, and a score with either a ✓ (passed) or an ✕(failed).

An overall score indicates if the proof has passed or failed.

There are two ways of selecting your reference:  

  • Choose reference data: This drop-down menu contains all data loaded under Data Sets that fit the selected proof measurement data as a reference, which means the number of patches and the color space must match. Select the reference that you want to compare with the selected media wedge measurement data. If dynamic media wedges were used in ZePrA, the corresponding reference data can be used for the proof evaluation in ColorAnt.

    Using reference data from ZePrA:
    1. Open the reference file of the ZePrA configuration in ColorAnt. It is located in ZePrA’s Report folder of the corresponding queue.
    2. Select Measure to measure the media wedge in the proof printout
    3. Open the resulting measurement file and click the Evaluate button.
    4. Select the original reference file from ZePrA under Choose reference data in the Proof Evaluation window.
  • Choose reference ICC profile: This drop-down menu contains all ICC profiles that fit the selected proof measurement data as reference in terms of the same color space. Choose the reference ICC profile that you want to compare with the selected media wedge measurement data.
    Note: The ICC profile is used to create virtual reference values (absolute colorimetric). Depending on the accuracy of the ICC profile, the quality of the reference data can vary from very exact (e.g., CMYK profiles created by CoPrA) to less exact (e.g., small Multicolor profiles).  

Evaluation method: Select a method to either evaluate a Contract Proof according to the ISO 12647-7 standard, a Validation Print according to the ISO 12647-8 standard, to evaluate your data according to Fogra’s PSD standard (ProcessStandard Digital), or to check the measurement data for G7® conformity. The PSD standard is based on the tolerances defined by Fogra and provides guidelines to increase process stability in digital printing. Further information can be found on the Fogra website.

ISO 12647-7 (Contract Proof 2016): For the evaluation of a binding contract proof use this method. 

ISO 12647-8 (Validation Print 2021): Checks the conformance of printing systems that produce a hard-copy validation print, directly from digital data, which is intended to simulate the expected appearance of material printed per a characterized printing condition. The method considers the latest tolerances published in 2021.

G7 gray balance: This method checks the measurement data for G7® conformity to ensure accurate and consistent color reproduction. G7® is an internationally recognized method for calibrating printing presses and proofing systems.

Notes

  • Recently, other visualizations of the final printed product have found a place in the printing/proofing workflow because designers and print buyers prefer not to go to the expense of using an ISO 12647-7 compliant contract proof any earlier in the process than necessary. In many situations, participants in the workflow require a hardcopy visual reference of lesser quality than a contract proof. In the past, those prints varied widely in quality and were often referred to as design proofs, concept proofs, layout prints, etc. That quality level is here being referred to as a validation print.
  • The All Patches ratings do not include Boundary Patches for wedge evaluations.
  • Wedge evaluation: For small charts with less than 150 patches, such as Media Wedges, all Boundary Patches are omitted.
  • Chart evaluation: For larger charts with more than 150 patches, such as the IT-8, the Boundary Patches are taken into account.

PSD Evaluation

The PSD reflects the different customer requirements for the degree of color match with three different quality levels, the quality types A, B and C. Here, A represents a better approximation than B, which in turn is better than C. The overall rating depends on the lowest rated Category. If a value exceeds the tolerance limit, a red X indicates that the evaluation has failed. Quality types A to C thus indicate that all values are within the respective tolerances and that the evaluation has passed (shown in shades of green).

This gradual evaluation of the quality with regard to color reproduction can be achieved with two different evaluation methods: Side-by-Side or Media Relative.

PSD Evaluation (FOGRA PSD 2022 Side-by-Side): Side-by-side is a long-established method based on simultaneous and immediately adjacent color matching. The deviation tolerances apply to the comparison of the target values, defined by the color reference, and the measured values of the OK sheet.

From the Fogra PSD Handbook: Deviation tolerances for Side-by-Side reproductions. Version: PSD 2022

From the Fogra PSD Handbook: CIEDE2000 tolerances for spot colors. Version: PSD 2022

PSD Evaluation (FOGRA PSD 2022 Media Relative): The media-relative evaluation consists of two steps. First, the similarity between the reference and the current output color gamut is checked using the white and black points. A similarity is mandatory to perform the colorimetric evaluation in the second step.

From the Fogra PSD Handbook: CIELAB tolerances for gamut differences to check if media-relative is applicable. The color differences for the white color are very similar when using ΔE ab or CIEDE2000. The CIEDE2000 tolerances shall take precedence. CIELAB 1976 color differences are given in brackets. Version: PSD 2022

The calculation of the media-relative CIELAB color values only takes place if the criteria specified for the first step are met. They are the starting point for the final color evaluation based on all control patches in the second step.

From the Fogra PSD Handbook: Deviation tolerances for media-relative reproductions. Version: PSD 2022

Note: Reliable results can only be achieved with absolute colorimetric measurement data, so please do not use relative or scaled (e.g., converted with perceptual rendering intent) measurement data.

Specify spot colors: When evaluating Multicolor measurement data, the additional colors can be evaluated as process colors or as spot colors. In most cases, with typical Multicolor media wedges, all colors are process colors, but with ZePrA-created dynamic media wedges, additional spot colors may also be included in the file.
Specify spot colors opens a dialog where you can define whether a color is included in the selected Evaluation Method calculation as a Process color or as a Spot color.

By default, all channels of Multicolor data are defined as process colors and included in the evaluation All Patches.

However, if spot colors are present and should not be treated as process colors, e.g., in the case of dynamic media wedges in ZePrA, they can be defined as spot colors. In this case, they are not included in the All Patches evaluation, but are evaluated separately and displayed in a separate Spot color evaluation line.

Note: The button for the Specify spot colors dialog is shown for Multicolor data only.

Report

The available input fields depend on the selected Evaluation method. Enter the required information according to the selected ISO standard.

Save Report: Saves the report in the location and format (PDF, HTML, XML) specified in Settings.

The report contains all the information that you have entered, the summary from the evaluation dialog, a list of all patches with their names or IDs, the device color space, the Lab reference values, the Lab measurement value and the delta.

Label

Allows you to print a label with the evaluation results directly from within ColorAnt. The tab shows a preview of the label to be printed. The label contains the data entered in the Report tab and a table with the data from the Evaluation tab. It also indicates if the print is Accepted or if the evaluation has failed (X) and provides space for a signature.

Note: The label layout is optimized for DYMO 99012 labels (format 89mm x 36mm). For other formats, adjustments may be necessary to achieve optimum results.

Video Tutorial

How to Use the Proof Evaluation Tool in ColorAnt in combination with ZePrA

Learn step-by-step how to use the Proof Evaluation tool in ColorAnt for the evaluation of a proofing media wedge created with ZePrA. In this example, we will be demonstrating the special feature of ZePrA to create a dynamic media wedge using process and spot colors and how to use the supplied reference data from ZePrA for evaluation of a Contract Proof.

ZePrA | Proofing

Proofing

Color-consistent simulation of the printing result

Proofing

ZePrA’s sophisticated technology – e.g. the quality of DeviceLink and SmartLink profiles and the spot color rendering of its advanced spot color module – can be used for proofing as well. This is especially useful as many RIPs do not support CxF/X-4 data and SCTV calibration nor have a spectral color prediction model for spot color rendering.

The Proofing tab under Configuration contains all Media wedge settings and the Proofing Information label.

Media Wedges

Two types of media wedges can be used:

  1. Media Wedge in Simulation Color Space: Can be used to determine the accuracy of the proof. This media wedge is converted based on the color management setting defined in the various configuration tabs.
  2. Media Wedge in Proofer Color Space: Allows using a second media wedge that is not color managed. It must be in the color space of the proofer and can be used to determine the stability of the proof printer.

Choose a Media Wedge.The media wedge is added outside the document’s media box to verify the proof. This can either be a dynamic or an external media wedge.

Dynamic Media Wedge: Uses the color space information of the simulation color space and dynamically adds all spot colors of the documents to be processed. The required reference files for measuring the wedges are created on-the-fly by ZePrA. They will be saved in the Folder for Report and other Data folder of the proofing queue that has automatically been set up by the Auto Setup Wizard.

Note: Currently, a maximum of 32 channels is supported for dynamic media wedges.

The reference files for dynamic media wedges contain both the device values (DCS values) and the target Lab values. The target Lab values are also calculated for the spot colors of the job and incorporated into the reference file in addition to the color values of the document color space. This is done according to the settings under Configurations > Options (solid tone only or gradation values as well) and Configurations > Spot Colors.

The measured values obtained can then be immediately compared to the target Lab values (e.g. in ColorAnt/Compare or Evaluate). Use these reference files in appropriate tools, such as ColorAnt’s Measure Tool, for measuring.

Note: Reference files are not created when the report folder Folder for Report and other Data is missing. If an existing queue is to be used for proofing, it must be verified that the folder for reports exists. If necessary, it must be created manually so that a reference file can be created. If this folder is missing, the reference file cannot be created.​

Reference files are created for each job in the queue and named as follows:

Jobname_DynamicMediaWedgeReferenceSource
Jobname_DynamicMediaWedgeReferenceTarget

If dynamic media wedges are selected for source and target color spaces, two reference files for each job will be created.

Note: If the same job is run again, the reference file will be overwritten. This means that if the spot color patches are changed under Options, a modified reference file is saved, and any previous conversion with the reference file with a different number of patches is lost.
The use of spot colors for the dynamic media wedge can be defined under Options 

Media Wedge from File: Can be media wedges such as the FOGRA, UGRA, Idealliance* or other media wedges. For external media wedges, the corresponding reference file is required to measure the printed wedge. Measurements can be done with any proof evaluation software or with ColorAnt’s Measure Tool.

*The IDEAlliance ISO 12647-7 Control Wedge 2013 is included in ZePrA and available under /Users/Shared/ColorLogic/MediaWedges (Idealliance ISO 12647-7: 2013, 3-Row Digital Control Wedge ® is a registered trademark of the Idealliance).

Note: A separate ColorAnt license is required to use the measurement and comparison features.

Proofing Information: Enabling this checkbox will add text information which are in accordance with ISO 12647-7 such as information about the job, date and time, conversion settings and the software used. The information that will be added to the converted file can be verified and edited in the text field. For editing switch to Custom.

Frame: Adds a frame around the Proofing Information.

Logo: Inserts the logo specified in the Preferences into the Proofing Information.

Position: The two media wedges and the proofing information label can be positioned independently on the converted document. For each of these 3 elements, the user can specify where it should be placed. Positioning options are: Automatic, Bottom Margin, Right Margin, Top Margin, Left Margin. The elements are placed outside the media box of the document according to this setting. This results in an enlarged media box in the converted document. Automatic is suggested as default settings for all 3 elements to make sure that they are placed together on the converted job.

Options: General settings and settings for Dynamic Media Wedges can be defined under Options.

Media Wedge Options

General

Font Size: Defines the font size used for the proofing information label in points.

White Space: Allows the placement of margins on media wedges by entering a user-defined distance in mm. By default, a white space of 15 mm is added. This ensures that enough white space is added on the left and right of the placed media wedges which some instruments need for correct measuring. The White Space margin applies both to external and dynamic media wedges.
Note: If the external media wedge already has a margin, we recommend entering 0 mm as White Space. As a rule of thumb, the white space in millimeters for dynamic media wedges should be at least the size of the Patch Width. The white space of the Media Wedge in Simulation Color Space is color managed whereas the white space of the Media Wedge in Proofer Color Space is not.

Place on every page: For multi-page PDF files media wedges can be placed on each page. By disabling the checkbox media wedges will be placed on the first page of the PDF only.

Dynamic Media Wedges

Defines the Default Chart Width, the Patch Width and the Patch Height of the dynamic wedge.

Gap Size: To separate individual patches. Select the width in mm. When using the Auto option, gaps of 0.5 mm are added between patches.

Patch Distribution: Defines the distribution of patches on the media wedge.

  • Randomize: Color patches are distributed randomly.
  • Normal: Color patches are distributed as specified in the reference file.
  • Sorted: Color patches are sorted from light to dark.

Patches per Spot Color: Defines whether spot colors are to be used in the dynamic media wedge and, if so, whether tints are to be used.

  • None: No spot color is added to the dynamic wedge.
  • Solid Tone: Only the solid tone of each spot color in the job is used in the dynamic wedge.
  • 3 Patches: Uses the following patches for each spot color: 100%, 70%, 40%.
  • 5 Patches: Uses the following patches for each spot color: 100%, 70%, 40%, 20%, 10%.

Exclude Colors from dynamic wedges: Spot colors are used in documents for various reasons besides printing purposes, e.g. to illustrate the DIE cut lines, or varnish, braille or other nonprinting elements. Obviously, those colors are not to be used in the dynamic media wedge. To avoid using them in media wedges, create a library (or more if needed) containing all spot colors to be excluded and select it (or them) from the list under Exclude Colors from dynamic wedges. This list contains all spot color libraries managed by ZePrA. Enable the checkboxes of only those libraries which contain the colors to be excluded.

The selected libraries containing the colors to be excluded are also applied to spot colors of external media wedges. Typically, if the Document Color Space is Multicolor, ZePrA assigns the channels of the Document Color Space to the channels of the media wedge. This is intended in most cases, e.g. if a 7C media wedge with generic channel names is used for a 7C Document Color Space in such a way that the channels are associated. However, this is not intended in case a spot color White is to be used as 5th channel and the 5th channel in the Multicolor profile of the Document Color Space is called Orange (for example). To retain the white spot colors an exclusion library which contains White as non-printing color can be selected.

Video Tutorial

How to Use the Proof Evaluation Tool in ColorAnt in combination with ZePrA

Learn step-by-step how to use the Proof Evaluation tool in ColorAnt for the evaluation of a proofing media wedge created with ZePrA. In this example, we will be demonstrating the special feature of ZePrA to create a dynamic media wedge using process and spot colors and how to use the supplied reference data from ZePrA for evaluation of a Contract Proof.

ZePrA | Push 2 ZePrA

Push-2-ZePrA

Process PSD files directly from Photoshop

What is Push-2-ZePrA ?

Push-2-ZePrA is an Adobe Photoshop extension that allows color converting an image file selected in Photoshop with ColorLogic’s color server ZePrA from Photoshop. Depending on the color server settings high quality color conversions with DeviceLink profiles will be performed leading to better color rendering of images than typical color conversion with Photoshop. Even spot colors can be converted if the selected ZePrA configuration is set up accordingly. The converted file will be opened up in Photoshop so that you do not need to leave Photoshop in order to get the best possible color converted images.

Push-2-ZePrA System Requirements

System Requirements for Push-2-ZePrA version 3

  • macOS 10.15 and higher
  • Windows 10 and higher
  • Adobe Photoshop CC 2021 and higher.
  • ZePrA 11
  • Supported file formats: TIFF, JPEG, PSD and PSB
  • Unsupported file formats: PNG, PDF and EPS
  • On macOS systems with M1/M2 Apple Silicon processors make sure that you start Photoshop via Rosetta. The Push-2-ZePrA extension does not run natively on M1/M2 chips.

System Requirements for Push-2-ZePrA version 1 and 2

  • macOS 10.13 and higher
  • Windows 8 and higher
  • Adobe Photoshop CC 2017 and higher.
  • Supported file formats: TIFF, JPEG, PSD and PSB
  • Unsupported file formats: PNG, PDF and EPS
  • On macOS systems with M1/M2 Apple Silicon processors make sure that you start Photoshop via Rosetta. The Push-2-ZePrA extension does not run natively on M1/M2 chips.
  • ZePrA 9 and higher/Push-2-ZePrA v2 and higher: The 2nd edition of Push-2-ZePrA has network capability. This eliminates the need for ZePrA to be installed on the same computer as Photoshop.

Note: Push-2-ZePrA is integrated with a 1-client license in ZePrA XL and XXL. Additional 5-client or 10-client multi-user licenses can also be purchased. For ZePrA Entry, Basic and L, the Push-2-ZePrA Photoshop extension single and multi-user licenses can be purchased as add-ons.

Installation
  1. Use the installer for macOS or Windows for your respective operating system.
  2. Close Photoshop before installation and follow the easy-to-use installer.
  3. Once installed, start Photoshop, go to Window/Extensions and select Push-2-ZePrA to open the extension.

Note: The installer on macOS systems will take an additional step to prepare Photoshop. Hence Photoshop must be closed before installation. The warning message is displayed twice. Just click the Allow button twice to install.

Using Push-2-ZePrA locally

Using Push-2-ZePrA locally

Configuring the Push-2-ZePrA clients in Photoshop:

  1. Once the Push-2-ZePrA extension is installed, start Photoshop, go to Windows/Extensions and select Push-2-ZePrA to open the extension.
  2. Click the Gear icon. There are two ways to connect to the ZePrA server: locally or remotely. If your Photoshop/Push-2-ZePA installation is on the same computer as the installed ZePrA color server you should always prefer the ZePrA Local option as this is much faster than communicating via the network. Click ZePrA Local.

  3. Under ZePrA Path navigate to the ZePrA.app on macOS or zcmd.exe on Windows and select it.
  4. Define your Local Output Path (where converted files are to be saved) and click the Home button. You can then immediately use the extension.

Using Push-2-ZePrA locally

When ZePrA is installed on the same computer as Photoshop:

  1. In Photoshop, open the image to be color converted.
  2. Click on the Push-2-ZePrA extension.
  3. On the Home tab select a ZePrA Configuration from the drop-down menu. The drop-down list will show all the configurations set up in ZePrA.
    Note: A search option is available here, where any number and letter can be entered and only the configurations containing these numbers and letters are listed in the drop-down menu below. This makes it easier to search for specific configurations, especially if the list of configurations in ZePrA is very long.
  4. Choose a configuration that fits your requirements in terms of Target Color Space and retaining of Photoshop Layers. This information is shown below the drop-down menu and picked from the selected configuration.
  5. Click Convert.
  6. After a few seconds, the progress will be displayed, and the converted file will be opened up in Photoshop.
  7. Output folder for local use: Converted files are always saved in the same location as the original file and the configuration name will be appended to the original file name.
    Notes: If the original file has been edited or copied in Photoshop without saving, a temporary file needs to be created by Push-2-ZePrA. The edited and the converted temporary files are saved in the output folder defined under Local Output Path.
    If the original file is located in a read-only folder, the user will be asked if the converted file is to be saved in the output folder defined under Local Output Path.

Note: ZePrA’s Command Line Interface (CLI) is used for the conversion but not the ZePrA application itself. Therefore, you won’t find any of the images that have been converted via the Push-2-ZePrA extension in ZePrA’s Overview or hot folders.

    Using Push-2-ZePrA over the network

    Connecting Push-2-ZePrA with ZePrA over the network

    Note: Requires ZePrA 9 or higher and Push-2-ZePrA v2 or higher.

    Push-2-ZePrA is network capable from version 2. This eliminates the need for ZePrA to be installed on the same computer as Photoshop.

    ZePrA 9 and higher have an integrated Push-2-ZePrA remote server, while the Push-2-ZePrA extension acts as a client application that can access ZePrA from a remote Photoshop installation over the network.

    Therefore, several users who have the extension installed in their Photoshop application can remotely access the same ZePrA server. The Photoshop clients can thus be used on different computers, but also under different operating systems than the ZePrA server.

    Establishing a connection

    Configuring the ZePrA server:

    1. Open the Server Settings from the Tools menu in ZePrA.
    2. Specify the IP address of the computer ZePrA is running on and set a Port. See your system administrator for IP and port information. You will need to enter both the IP address and the port number in the Push-2-ZePrA extension on all client computers.

    3. Click Start to activate the server. The Status changes to Server is running and the License Status indicates the number of licenses in use as well as the number of available licenses.
    4. Stop closes the server and the extensions will no longer work. Closing ZePrA does not stop the server service but shutting down the computer will. So when restarting the computer make sure to restart the ZePrA server in the Server Settings dialog so that the extensions can access it.

    Note: Under macOS the IP address of the computer can be found in the System Preferences/Network settings. Under Windows the IP address can be found under Settings > Network & Internet > Status > View hardware and connection properties.

    After a ZePrA update, stop the server and restart both ZePrA and the server. This way the newest version of the server will be used.

    Configuring the Push-2-ZePrA clients in Photoshop
    1. Install Push-2-ZePrA and open it in Photoshop.
      Note: On Macs with Apple Silicon M1 chip make sure to start Photoshop with Rosetta – see System Requirements.
    2. Click the Gear icon.
    3. There are two ways to connect to the ZePrA server: locally or remotely. If your Photoshop/Push-2-ZePA installation is on the same computer as the installed ZePrA color server you should always prefer the ZePrA Local option as this is much faster than communicating via the network. If your Photoshop/Push-2-ZePA installation is on a different computer, use the ZePrA Remote option.

    4. To use the ZePrA Remote option, enter the previously defined ZePrA server settings (Server IP Address and Server Port Number) under ZePrA Remote and click the Connect button under Test Connection. The connection status is displayed.
    5. When the connection is successfully established, define your Local Output Path (where converted files are to be saved) and click the Home button. You can then immediately use the extension.

    Note: If all available licenses are linked with the ZePrA server, additional Photoshop extension users will not be able to connect to the ZePrA server. The licenses are linked to the ZePrA server on a first come first served basis.

    Note: In order to use the Photoshop extension, the ZePrA remote server must be running. Once the server has been started in ZePrA, it will run even if the ZePrA application is closed later on. Only when the computer is shut down, the server is also shut down and must be restarted in ZePrA after the computer is restarted.

    Use the Question mark icon to access the Push-2-ZePrA online help page, and the Exclamation mark icon to get the version numbers of the extension and the ZePrA Remote server.

    Using Push-2-ZePrA remotely

    When ZePrA is accessed over the network:

    1. Open up an image in Photoshop to be color converted.
    2. Click on the Push-2-ZePrA extension.
    3. Select a ZePrA Configuration from the drop-down menu. The drop down list will show all the configurations set up in ZePrA.
      Note: A search option is available here, where any number and letter can be entered and only the configurations containing these numbers and letters are listed in the drop-down menu below. This makes it easier to search for specific configurations, especially if the list of configurations in ZePrA is very long.
    4. Choose a configuration that fits your requirements in terms of Target Color Space and Photoshop Layers retaining. This information is shown below the drop-down menu and picked from the selected configuration.
    5. Click Convert.
    6. After a few seconds, the progress will be displayed, and the converted file will be opened up in Photoshop.
    7. Output folder for network use: Converted files and temporary files are always placed in the output folder defined under Local Output Path and the configuration name will be appended to the original file name.
      Note: If the original file is located in a read-only folder, the user will be asked if the converted file is to be saved in the output folder defined under Local Output Path.

    Note: ZePrA’s Command Line Interface (CLI) is used for the conversion but not the ZePrA application itself. Therefore, you won’t find any of the images that have been converted via the Push-2-ZePrA extension in ZePrA’s Overview or hot folders.

    Recommendations and Troubleshooting

    Best Practices

    For image conversions, we recommend setting up Direct Color Conversion configurations in ZePrA with the help of the Auto Setup Wizard. With a direct conversion from the image color space to the Target Color Space, double conversions are avoided. It is not recommended to use a Normalize and Convert queue as this can lead to converting the image two times (a double conversion – from the image color space to the Document Color Space and then to the Target Color Space), which typically is not wanted for image conversions.

    For any changes in terms of PSD or TIFF file layers handling, color conversion or spot color conversion, please adjust the appropriate ZePrA configuration in the ZePrA color server. The Push-2-ZePrA Photoshop extension uses the configurations, but editing configurations is not supported.

    Error Handling

    When working with the Push-2-ZePrA extension potential issues might happen:

    1. When updating Photoshop to a newer version, the Push-2-ZePrA extension may no longer be loaded. In this case, it is recommended to re-install the Push-2-ZePrA extension.
    2. The Push-2-ZePrA Photoshop extension version 3 is only executable with ZePrA 11.
    3. The maximum file size that can be processed via the remote connection using the zcmdServer of ZePrA 10 is 512 MB. Larger files can be processed directly via ZePrA Queues.
    4. The zcmdServer included in ZePrA 11 allows the processing of image files up to a size of 2 GB.
    5. Please do not use the zcmdServers of ZePrA 10 and 11 at the same time. Make sure the server in ZePrA 10 is stopped (click the Stop button in the Server Settings dialog). After that open the Server Settings dialog in ZePrA 11 and click on Start to activate the zcmdServer of ZePrA 11.
    6. Select the proper file for conversion: When several images are open in Photoshop keep in mind that only the selected, active document will be converted with Push-2-ZePrA.
    7. Incomplete conversions: When clicking the Convert button it may take a few seconds until the image is converted. During processing (the progress will be displayed), do not close the Push-2-ZePrA extension nor minimize Photoshop. This will immediately stop the conversion.
    8. Restricted folders and locations: A warning message appears when trying to save a file in a restricted location. If the selected location (folder) is read-only (for example, the application folder of an operating system), a warning message is displayed prompting you to cancel the conversion or save the converted file to the Local Output Path.
    9. Troubleshooting job warnings: An error message with the selected configuration appears. In such a situation, check the corresponding configuration in the ZePrA application and check for the cause of the error. It may be that the image file and the setting in the configuration do not match. In such a case, it is suggested to convert the image file in the ZePrA application with the same configuration used in the Push-2-ZePrA extension. The same job warning message may show in ZePrA. Troubleshoot the issue and change the settings in the ZePrA application, until the file conversion works as desired. Once the configuration has been saved in ZePrA go back to the Push-2-ZePrA extension, close it and reopen the extension to update the list of configurations and settings and convert the file in Photoshop again.
      Note: Push-2-ZePrA supports the same image file formats as ZePrA, e.g. TIFF, JPEG, PSD and PSB. Unsupported file formats, such as PNG, PDF or EPS, will generate file format errors.
    10. Changes and updates to configurations: When changes or updates to ZePrA configurations have not been applied in the Push-2-ZePrA extension, make sure that the edits have been saved in ZePrA before heading to the Photoshop extension. Then close the extension and start it again so that it refreshes the list of configurations and their settings.
    11. Support for prior ZePrA versions: ZePrA versions prior to v9 are not supported. The extension may show the settings of configurations from older ZePrA versions, but will not convert files. We do not recommend selecting prior ZePrA versions with the extension and will not be supporting prior versions in future releases.
    12. Avoid special characters in configuration names: characters such as | < > * ? / \\ : in configurations names with ZePrA. While ZePrA will handle such characters the Push-2-ZePrA extension does not.

    ZePrA | Interface

    User Interface

    Operation and Special Features

    Sidebar

    ZePrA’s sidebar allows quick access to all main workflow functions. Simply klick the Home button on the left and select the required module.

    The colored bar below the title bar shows the tool you are currently using.

    Start

    Auto Setup

    Create workflows with ZePrA’s Auto Setup Wizard

    Main Setup and Overview

    Overview 

    View queues, pending jobs and processed jobs

    Configurations 

    View and customize processing settings

    Queues 

    Manage print jobs

    Tools

    Spot Color Report 

    Check the accuracy of spot color conversions prior to printing

    SaveInk Report 

    Generate an overall ink saving report

    Extract ICC Profile 

    Extract ICC profiles from images and PDF files

    Global Settings

    Spot Color Libraries 

    Manage libraries and edit spot colors

    Gradations

    Manage and create tone value correction curves

    Profile Assignments 

    Use existing or dynamically created DeviceLinks for file conversions

    Menu Bar

    Navigation

    Use the shortcuts in the menu to navigate easily and conveniently through all ZePrA modules.

    Access the most important modules via shortcuts

    Tools

    ZePrA’s Tools menu

    Auto Setup
    Calls the Auto Setup Wizard.

    Importing and Exporting Configurations

    The import/export function can be used either to transfer a ZePrA installation with all settings from one computer to another or to exchange single or multiple configurations between different ZePrA sites.

    When exporting and importing configurations, the association of the configuration with a queue is also considered. If a configuration is imported that is assigned to an existing queue, the new configuration is linked to the existing queue.

    Export Configurations: Opens the Export Environment window. The configuration sort order can be changed using the icon to the right of the list of configurations:

    • Sort Order: Default – sorts the list of configurations by its IDs from lowest to highest number in the same order as in the Queues section of the Overview A manually changed order of Queues in the Overview is reflected in the configurations sort order. Therefore, the Default sorting is not necessarily only sorting by creation date.
    • Sort Order: Name (A-Z) – sorts the list of configurations alphanumerically with numbers on top followed by the alphabets.
    • Sort Order: Modification Date –the last modified or created configurations are on top of the list.

    Select the configuration(s) you want to export by activating the corresponding checkbox(es).

    Exporting selected Configurations

    Export All Configurations: Exports all configurations including the ICC devices and DeviceLink profiles used. Activate the respective checkboxes to Export Profile Assignments and to Export Spot Color Libraries.

    File type: Configurations can be exported as Configuration Files or Job Control Files.

    Configuration Files(*.ccf): Typically, when exporting configurations, the exported settings are shared with other ZePrA installations or act as a backup. The preferred and correct file format for such cases is the ZePrA *.ccf file format which is selected by default.

    JSON Job Control File(*.json) and XML Job Control File(*.xml): These file types are used in relation to the Job Control File functionality. They are intended for developers and script writers who want to understand the syntax of the Job Control File and use it for their purposes.

    The exported settings basically include all the pure options of the exported configuration.

    Note: Exporting configurations as *.json or *.xml files is only available for individual configurations and only if all checkboxes for profiles, spot colors, etc. are disabled in the Export Environment dialog.

    Export all configurations. Profile assignments and spot color libraries can be exported along with the configuration.

    Export ICC Profiles: Exports all ICC device profiles and DeviceLink profiles used in the selected configuration(s).

    Export Profile Assignments: Exports all settings including the profile table created under Profile Assignments, however this does not export the DeviceLink profiles created in SmartLink.

    Export Spot Color Libraries: If individual configurations are selected, only those libraries which are used in the selected configurations will be exported, if Export all Configurations is selected, all libraries will be exported.

    Export Media Wedges: Exports the media wedges of the selected configuration(s).

    Click OK, enter a filename and Save the *.CCF file including the configurations and ICC profiles. Subsequently, the window Information provides information about license terms regarding the import and export of ICC and DeviceLink profiles.

    License agreement notes

    Importing Configurations

      1. There are two ways to import configurations: By dragging and dropping the configuration (*.CCF file) into the Queues section of the ZePrA Overview dialog (fast way), or by selecting Import Configurations from the Tools menu (slower way). In this case, the Import Configurations dialog opens.
      2. Choose the desired configuration file under Import File with the Select button.
        Note: With the drag-and-drop method, the imported configuration is immediately displayed in the upper display section.
      3. Select the Desired Base Folder. The hot folders of imported queues will be created inside this folder when importing the configuration.
      4. By clicking the Preview button, the files and settings of the CCF file(s) are examined and listed in detail before they are actually imported. This allows for inspection of the profiles that will be imported, spot color libraries, media wedges, configuration and folder names, and the locations of those folders.
      5. Configurations that already exist in the import system are marked with an asterisk (*). Disable the checkbox to prevent these configurations from being imported and overwriting existing configurations.
      6. Click Start to begin importing the configuration. Once the import is started, the progress is displayed in the preview area. All executed and failed operations are listed.

      Note: Imported configurations are inactive until activated in the Overview window.

      Use Paths from imported File: Activating this checkbox preserves the original hot folder paths of each configuration.
      Note: Sometimes folders cannot be created exactly the same as the original exported configuration – for example, if the configuration was exported from a Windows system and is imported to a Mac system, or vice versa. In such cases, an orange warning icon will be displayed in front of the folders, and it is shown where the folders will be located after importing. Usually, the default folders (Input, Done, Output, Error) are then created in the ZePrA Base folder.
      There may also be warnings for profiles if a profile already exists and will be overwritten. In addition, a red warning may appear if an operation cannot be performed at all, for example, if a CCF file is corrupted.

      Profile assignments: Activate the checkbox to import profile assignments. If the CCF file to be imported does not contain any profile assignments, the checkbox is grayed out.
      Note: Profile assignments are a special general option in ZePrA to use bespoke DeviceLinks for specific color conversions instead of using SmartLink or other color management settings.
      Importing profile assignments can result in many additional profiles being installed, which may not be wanted. The profiles that will be installed are displayed after activating the checkbox Profile assignments and clicking the Preview button. It can then be decided whether the profile assignments and all associated profiles are to be installed or not. However, profiles included in the configurations selected for import are not affected by this option and cannot be deselected.

      Import unused Spot Color Libraries: When this option is activated, all spot color libraries available in the configuration are imported. When it is not activated, only the explicitly selected spot color libraries are imported. This option can therefore be used to better manage and control the import of spot color libraries.

      By default, this option is only available for configurations that have been exported with the Include other Libraries option enabled (under Configurations > Spot Colors > Spot Color Libraries). The Include other Libraries option searches other libraries on the system for matching spot color names. This option should be used with great care, as there is a possibility that a spot color that does not match the capabilities of the target printer is automatically selected from a library.

      The option Import unused Spot Color Libraries is therefore deactivated by default, so that only the libraries that are explicitly selected in an exported configuration are imported (see number 1 in the screenshot).

      When Import unused Spot Color Libraries is activated, all spot color libraries are imported, including those that have been added by the Include other Libraries option (see number 2 in the screenshot).

        Extract ICC Profile
        Extracts the embedded profile from images and the output intent from PDF/X files. The extracted profile can then be saved to any location.

        Install DeviceLink Profiles
        Opens the DLS Manager. The DLS Manager is used to install and update DeviceLink sets (DLS). License keys for the required sets can be purchased from your ColorLogic dealer. With a demo installation, all or individual sets can be installed and tested. Please note, however, that demo profiles installed during a demo can no longer be used on a permanent license for ZePrA. The DeviceLink sets will be available for further use after they are purchased.

        SaveInk Report
        The SaveInk report provides a detailed overview of the color savings of all SaveInk queues and processed jobs.

        Spot Color Report
        The Spot Color Report shows which results are achieved with a spot color conversion in respect to deltaE00, deltaE76 and separation into the process colors. This allows to verify the accuracy of the spot color conversion before printing and to determine in advance how spot colors (e.g. Pantone® colors) of specific PDF and image files will be converted by ZePrA.

        Spot Color Iteration
        Deviations from the theoretically achievable minimal color differences are caused by printing, material and color variations during production.
        Deviations can be minimized in ZePrA using Spot Color Iteration. This feature is primarily for particularly high demands of accuracy and reproduction of spot colors, for example for digital printing or proofing, which require the conversion of spot colors to process colors.
        The Spot Color Iteration tool provides a step-by-step guide starting from the selection of the spot colors being iterated, preparation and printing of measurement of test charts and finally, optimization of  the conversion, including the creation of reports.

        DeviceLink Iteration
        An iteration can be necessary to achieve the best possible color match, especially when proofing. To apply an iteration, a special test chart must be converted with the desired color management settings of a given configuration, printed and measured. Based on the measurements the DeviceLink profile can then be optimized. After one to three iteration cycles, a closer match in terms of DeltaE values is achieved. This process is error-prone if done manually, however, it is easy to accomplish with the help of the DeviceLink Iteration Wizard, which guides you through each step.

        Tag Management
        All existing tags are listed in a table under Tag Management. It can be opened via the Tools menu and is especially useful if tags are to be edited or removed from several configurations. The Used in column indicates how many configurations use a tag. With the buttons on the right New tags can be entered and existing tags can be removed (affects all configurations) or renamed (also affects all configurations).

        Server Settings
        ZePrA 9 and higher has an integrated Push-2-ZePrA remote server, while the Push-2-ZePrA Photoshop extension acts as a client application that can access ZePrA from a remote Photoshop installation over the network.

        Therefore, several users, who have the Push-2-ZePrA extension installed in their Photoshop application, can remotely access the same ZePrA server. The Photoshop clients can thus be used on different computers, but also under different operating systems than the ZePrA server.

        The detailed server setup procedure is described under Push-2-ZePrA > Connecting Push-2-ZePrA with ZePrA over the network.

        DeviceLink Iteration

        Overview

        Iteration can be necessary to achieve the best possible color match, especially when proofing. To apply an iteration, a special test chart must be converted with the desired color management settings of a given configuration, printed and measured. Based on the measurements the DeviceLink profile can then be optimized. After one to three iteration cycles, a closer match in terms of DeltaE values is achieved. This process is error-prone if done manually, however, it is easy to accomplish with the help of the DeviceLink Iteration Wizard, which guides you through each step.

        Video Tutorial

        Overview of the DeviceLink Iteration Wizard in ZePrA.

        Procedure

        The iteration starts by selecting the configuration containing the DeviceLink to be iterated. This can be done in three different ways:

        1. In the Queues section of the Overview, select the queue and configuration you want to iterate. Open the context menu with a right click and select DeviceLink Iteration.

        2. Select DeviceLink Iteration from the Tools menu and search for the desired configuration in the Configuration drop-down menu of the appearing DeviceLink Iteration Wizard. You can use the same search and sort functions that you are familiar with from the Configuration drop-down menus elsewhere in ZePrA to find the configuration you are looking for.

        3. Open the desired Configuration in the Document/Target tab and click on the Iterate button at the bottom of the Conversion section.

        The DeviceLink Iteration Wizard dialog consists of two tabs, the Current Iteration and the Archive tabs. The Current Iteration tab contains the actual iteration wizard and typically, if a configuration is selected that has not yet been iterated, the wizard is started directly there. The Archive tab contains all the iteration steps that have been carried out, including all the evaluation details.

        Current Iteration

        The wizard guides the user through the iteration process in these four steps:

        1. Create test chart to be printed
        2. Print and measure test chart
        3. View Evaluation Results
        4. Continue or end the iteration

        Step One: Create the test chart to be printed

        There are two possibilities to create the test chart. Either you use the included Default Iteration Chart, which of course is always optimized for the color space of the given configuration. Or, select your own reference file (TXT, CXF3, XML) of a custom chart under Custom Iteration Chart.

        After that, define your measurement Instrument Settings. Various settings for the supported measurement equipment can be selected from the drop-down menu in the Measure Tool (the Measure Tool is included in ZePrA).

        Note: ColorLogic ColorAnt users can create their own instrument settings optimized for their specific requirements in the Export Chart tool.

        Click Save and choose a file format (PDF, TIFF or PSD) to create the test chart in the selected location. All color management settings of the configuration will be applied automatically.

        Note: In some cases the creation of the chart may take some time, for example if the Conversion settings SmartLink or Device Profile are used in the configuration, as the wizard will then need to create a DeviceLink profile first.

        After you successfully created the chart and the associated reference file, a message and a green check mark indicate that you can now proceed to the next step by clicking the Continue button.

        Step Two: Print and measure test chart

        The second step consists of two operations. First, the chart created in step 1 must be printed on the printer without color management settings. Then, after drying, the print must be measured. If the Measure Tool is to be used, simply click on the Measure button. You do not need to worry about the reference file and layout, as this is already preselected within the Measure Tool. Instructions on how to select your device and make measurements using the Measure Tool can be found here.

        Note: Alternatively, you can use the previously exported reference file and measure your printed chart with a different measurement tool. Make sure that the measurements are saved in standard file formats that can be read by ZePrA, such as CGATS TXT, XML or CXF3. The external measurement files can be loaded using the Load button.

        Once the measurement data has been transmitted from Measure Tool or loaded from external sources and it conforms to the printed chart a green check mark indicates a match and you can proceed by clicking Continue.

        Note: When loading measurement data that does not match the chart layout or the corresponding patches in the reference file, you are alerted by a warning message and proceeding to the next step is not possible.

        Step Three: View Evaluation Results

        The third step shows the Evaluation Results of the measurements compared to the desired color conversion.

        If all categories such as substrate, the maximum and average deltaE for all patches, etc. are within their limits they are marked green and the overall result is marked all right.

        In a proofing case, e.g if an absolute colorimetric rendering intent was used in the configuration, the proof print is compatible with a Contract Proof according to ISO12647-7 and the wizard indicates this by a green check mark and a corresponding note text. A further iteration is then not required, hence the Don’t apply Optimization radio button is preselected.

        However, the preselection can be overridden and another iteration cycle applied if the results are to be improved even further. To do this, select the Optimize DeviceLink and apply radio button and click Continue. Alternatively, apply the iteration later via the Archive tab.

        If only a single category is displayed in orange or red in the table of Evaluation Results, the proof print is considered to be not okay and the validation has failed. In this case, a warning is displayed and it is suggested to apply an iteration to improve the result. The corresponding radio button Optimize DeviceLink and apply is then preselected.

        By selecting Optimize DeviceLink and apply and clicking on Continue, an iterated DeviceLink is created on-the-fly and automatically entered in the configuration.

        ZePrA checks for out-of-gamut colors and evaluates whether those colors can be improved. Color values that are displayed in red in the Evaluation Results and Report are considered to be out-of-gamut and their deltaE00 values can most likely not be improved. Nevertheless, an iteration can slightly change the rendering of out-of-gamut colors, for example, to correct hue errors when colors are far from the desired hue. Color values that are displayed in orange, however, can be improved with further iteration. If there are only red values left, ZePrA informs, that further iterations are of no use and preselects the Don’t apply Optimization radio button. If, however, there are orange values left, these can be further optimized and ZePrA suggests Optimize DeviceLink and apply.

        Step Four: Continue or end the iteration

        The fourth step concludes the iteration cycle. Here, there are three options to choose from. Based on the previous results, the wizard already preselects a logical option for you to follow:

        1. Optimize DeviceLink Profile again: Runs another iteration cycle, for example to check whether a previously iterated DeviceLink successfully passes the evaluation. If you select this radio button and click Continue, a new iteration cycle starts with step 1 and the creation of a new test chart to be printed.
        2. View the evaluation results in the Archive tab: If you have already completed several iterations or would like to see the evaluation results once more, select this option. When you click Continue, the Archive tab opens with the last iteration step highlighted.
        3. Close this dialog: If the evaluation results are all right or if you want to end the iteration process you can simply select Close this dialog and by clicking Continue the iteration is ended.

        Archive

        All data created during the iteration - such as test charts, reference data and measurement data, as well as the report - are stored in an internal database in addition to the save location defined by the user.

        Therefore, if data is deleted from the save location it can still be restored from the internal database any time via the Archive tab. Users can stop an iteration process and even close the DeviceLink Iteration Wizard dialog at any time and can revert back to the last completed step with the help of the Information stored in the Archive.

        The Archive tab shows all iteration steps and evaluation details. The History table contains a list of all iterations, with the active iteration highlighted. More information for the selected iteration step is displayed under Details.

        The columns of the History table show the iteration step number #, the maximum DeltaE00 value dE00 (max), the average DeltaE00 value dE00 (avg), the Status of the selected iteration step and some Information about the iteration process itself, such as Optimization applied, when the measurements done from the printed test chart have actually been used to create an iterated DeviceLink, or Evaluation measurement, when the measurements have been used for evaluation only and have not been used to create an iterated DeviceLink.

        In addition, the iteration process (being performed in the Current Iteration tab) can be discontinued, which is indicated with various messages such as Next step: save chart, Next step: measure or load data, Next step: Evaluate.

        Right clicking on an iteration step in the History displays a context menu with the following options:

        Save Chart: Exports the test chart into a file selected by the user. The test chart is not newly created but only copied from the internal database. This implies that the file selection only supports the file type initially chosen by the user.

        Save Reference Data: Exports the reference data that belongs to the test chart into a file selected by the user.

        Save Measurement Data: Exports the measurement data into a file selected by the user.

        Save Report: Saves a report containing all Details displayed on the right and the full information about each measurement patch. This is useful to identify colors with the highest or lowest deltaE values, or colors which are out of gamut. The report is explained in more detail below.

        Revert to state before: This is only available for iterations with the status applied. Reverts back to the state before this iteration, giving the previous iteration, if any, the applied state. The status changes to evaluation measurement. All subsequent items are deleted.

        Revert to state after: This is only available for iterations with the status applied. Proceeds to the state after this iteration step, making it the active iteration. The status of a next iteration, if available, would be evaluation measurement. All subsequent items after the next iteration are deleted.

        Apply Optimization: This is only available for iterations with the status evaluation measurement. It can be used for evaluation measurements that have not been applied in the iteration process itself. Use this option if you want to apply an iteration later on.

        Evaluation Results

        The Evaluation Results shown under Details are always the evaluations of the previous step. This means, if an iteration has been applied in step 1, the evaluation results shown under Details for the selected step 1 are the values before the iteration has actually been applied. Therefore, in order to see the results of the first iteration a second step is necessary. The evaluation results shown for that second step are actually the iteration results of the first iteration step, and so on. This offers the possibility to use the results of an iteration itself for a second iteration. But again, another measurement step is needed to find out if this iteration actually improved the result.

        Evaluation measurements for the different Categories are shown according to the proof evaluation tolerances defined in ISO 12647-7. They can even be regarded as proof evaluation when an absolute colorimetric rendering intent has been used in the configuration. The values shown in the table can assume three different colored states that are green, orange or red. Values shown in green are within the Limit and therefore all right. Orange values are outside the Limit but can be improved by iteration. Red values are outside the Limit and cannot be improved. This is mostly the case if a source color can’t be reproduced in the target color space because it is out-of-gamut. An overall statement of the accuracy of the rendering is given below the table. A green check mark indicates that the color conversion is within the limits, whereas a red cross indicates that it is not.

        Special cases arise if the rendering intent used in the configuration is not absolute colorimetric. In case of relative colorimetric or perceptual rendering intents the reference Lab values used to iterate the conversion need to be calculated from the initial DeviceLink profile. The measurements are then compared to those rendering intent specific reference Lab values. The iteration is still using the tolerances from ISO 12647-7 for the analysis of the iteration accuracy. However, since this conversion is not a proof print, a different statement results for the overall iteration accuracy compared to the iteration result with an absolute colorimetric rendering intent.  

        The Report

        By right-clicking on an iteration step in the left table, a report can be created for this step. The report can be saved in various formats such as PDF, HTML, XML and TXT. The PDF and HTML formats are the most common versions for end users, while the other formats are more intended for automation and usage in other systems such as a MIS (Management Information System). 

        The report contains all displayed Details and the complete information for each measuring patch. This is handy for identifying colors with the highest or lowest DeltaE values or colors that are out-of-gamut. A Legend explaining the color highlighting in the DeltaE column is shown at the bottom of the last page of the report.

        Help

        ZePrA’s Help menu

        What’s New
        Opens the website that shows new features and bug fixes in ZePrA (requires an Internet connection).

        Online Help
        Goes directly to the online help (requires an Internet connection).

        Quick Start Guide
        Opens the download page of the Quick Start Guide (requires an internet connection).

        readme.txt
        Contains the Release Notes with brief information about the latest changes.

        CLI Manual
        ZePrA provides a command line interface for integration into other workflows. CLI Manual opens the Command Line Interface documentation in PDF format. It is intended for developers, scripters and experts and describes the usage of the command line interface of ZePrA.

        Save Support Data
        Creates a compressed text file that contains important support information. Send this support data to your ColorLogic reseller for expert assistance. The data required includes information about the used operating system, the ZePrA log file, general preferences, and settings at the time of the problem.

        Event Log
        Shows the events that occurred when using ZePrA. Some of the events take place in the background (for performance reasons and to improve the user experience) and are invisible to the user. The event log contains such and other information with the exact time of occurrence.

        Examples:

        • Configurations or spot color libraries exchanged with the Automatic Import feature are automatically updated or added without notice
        • Added or updated SmartLink presets are loaded in the background
        • Automatic stopping or starting of queues, in case hotfolders are temporarily not available due to network problems or other issues
        • Messages and information regarding PantoneLIVE, e.g., login errors and updates
        • The starting and stopping of the program itself

        Automatic Update Check
        Checks whether a new program version is available (requires an Internet connection).

        Enable automatic update check: If activated, ZePrA checks whether a new version is available for download at program startup or once a day.
        If a new version is found, it can be downloaded via the download links given in the window (for macOS or MS Windows).
        The most important new features are briefly described in the window, a detailed description of the new features can be found in the linked “What’s new in ZePrA?

        Register
        Here you can load and activate your licenses, request a demo license, or view further information about your licenses.

        Special Features

        Profile search in drop-down menus
        All profile drop-down menus function like search fields. Simply type in some letters of the desired profile and only those profiles containing these letters will be shown in the list. To select a profile simply click on it. Alternatively you may open the drop-down menu with the arrow on the right and select a profile from the full list as usual.

        Context menus
        A right click on an entry in a table opens a context menu with useful tools specific to the respective table.

        Forward and backward icons
        The two buttons with forward and backward icons at the bottom left allow switching between all opened dialogs similar to the forward and backward buttons of a browser.

        Troubleshooting
        ZePrA automatically checks all settings for errors and inconsistencies, such as missing profiles or incorrectly set rendering intents. In the lower part of the window, a warning message appears that briefly describes the problem and offers a solution. You can then decide whether to ignore the error or have ZePrA fix it automatically.

        For detailed information visit Troubleshooting.

        Screen Preview
        Shows a real color display of your files on the monitor. Also overprinting elements and transparency effects are taken into account. More information about the integrated softproofing can be found in the tutorial Softproofing PDF image files.

        ColorAnt | Color Editor

        Color Editor

        Manual editing of patches and best possible spot color conversion

        Color Editor

        The Color Editor tool covers several applications:

        1. Best possible conversion of colors (usually spot colors) using ICC profiles.
        2. Saving spot colors converted with Color Editor in various color formats for use in other applications.
        3. Manually changing color names.
        4. Manually changing Lab values and device values assigned to a color patch.
        5. Adding or removing color patches.

        Overview of the Color Editor

        On the left side is a table with the colors of the loaded measurement file. It contains the following information:

        • Color: Name of the color
        • Measurement: Measured color values in Lab (spectral values are retained but shown as Lab)
        • Current (DCS): Specifies the current device values. Displays the device values after applying the settings and functions on the right side.
        • Profile (DCS): Displays the device values resulting from a conversion using the selected profile on the right-hand side.
        • dE00 (Current): Displays the absolute colorimetric DeltaE 2000 values, which result from the measured Lab values and the current device values.

        Single, multiple or all color values can be selected in the table and then edited with the tools on the right. The color table can be sorted by Color or dE00 (Current) by clicking on the column headings.

        Below the table are two buttons to Add or Delete patches as well as the Invert Selection button.

        Invert Selection: Provides a quick and easy way to reduce a large number of displayed colors of a large data set to only a few colors. Simply select the desired color patches, click Invert Selection followed by the Delete button. Now you are working on your individual color selection.

        Search: Helps to find and edit specific colors of large data sets. Type in the name of the desired color and the list will show only colors with those name components.

        Tip: Combine the Search with Invert Selection

        If, for example, you would like to edit all colors with the name component ‘Red’ of a Pantone library as a small list, enter ‘Red’ in the Search.

        Select the colors found, then delete the search term and click on Invert Selection.

        By pressing the Delete button, only the colors with the name component ‘Red’ remain in the list. All others are removed.

        Spot Color Report: Generates a PDF report that can be used to check the conversion of spot colors before actually printing.

        The spot color report shows the results achieved by a spot color conversion in relation to deltaE00, deltaE76, and the separation into process colors. This allows the accuracy of spot color conversions to be checked before processing or printing, and to determine in advance how spot colors (e.g., Pantone® or HKS and other colors) of specific PDF and image files are converted.

        A spot color library with multiple spot colors such as Pantone, HKS or other colors can be color converted with a target ICC profile to check for the resulting process color breakdowns (DCS). The report provides the color name for each spot color, the process color breakdowns, the expected deltaE2000 and deltaE76 values, and an overall evaluation in terms of average and maximum deltaEs.  It also includes the median and how many colors are reproduced within a tolerance of 1 and 2.5 dE00 as well as within the user-defined dE00 limit.

        The report also contains an information column that shows, among other things, whether a color is out of gamut.

        Measurement Information

        Shows the Name, the measured Lab value (CIE) and the current device value (DCS) including the color space for the selected color field.


        Color Conversion Settings

        After selecting an ICC Profile, first the DCS values are calculated using the Absolute Colorimetric rendering intent.

        However, these are not always the best possible color values, neither with regard to the smallest DeltaE nor to printability.

        Therefore, various optimization modes are available in the Color Conversion Settings, which can be applied to the colors selected on the left side of the table.

        It is also possible to apply different modes and colors to individual colors.

        Define the Profile and the Mode for the conversion of the measured values. Six modes are available for the color conversion:

        1. Precise Match – Proofing
          Spot colors are reproduced as accurately as possible on a proof printer. This method is not suitable for production as it may use all process colors for spot color simulation to achieve the best result (based on DeltaE 2000). The full tone is calculated with the aim of achieving the smallest possible DeltaE 2000 value. No channel reduction or print optimization is applied.
        2. Visual Match – Utilize More Channels
          Produces visually the best possible conversion with high color accuracy and with excellent printing properties. Full tones of spot colors are converted with as few channels as possible and still remain colorimetrically accurate. This method is suitable for digital printing, large format inkjet printing or offset printing with a fine screen ruling and good register accuracy.
        3. Use the least Amount of Channels possible
          A good method to convert full tones of spot colors with a minimum number of channels and still get colorimetric accurate results. Choose this method for packaging printing where pure colors are desired. One or two-color combinations are also included in the search for the best possible color combination.
        4. Use one Output Channel only
          Useful for print packaging production. The spot colors used for text and bar codes will be converted using a maximum of one process color.
        5. Use a Maximum of two Channels
          Uses one or two output channels. Best for one or two process colors providing the best colorimetric match selected for each spot color automatically. The results are very clean separations that are easily printed, but not necessarily very exact in colorimetric terms. It is recommended to only use this function for individual, manually created spot colors.
        6. Use a Maximum of three Channels
          Uses one to three output channels. Similar to the calculation method Use the least Amount of Channels possible. No more than a maximum of three channels should be used. Choose this method for packaging printing, where the purest possible colors are to be produced and not more than three process colors for spot color conversion must be used. Single-color and two-color combinations are also included in the search for the best color combination.

        dE00 Limit: Colors exceeding the set threshold are marked with a warning symbol.


        Optimize Output Values

        Displays the current device values for the selected ICC profile.

        By clicking on dE76 or dE00 the deltaE can be minimized for each color.

        Automatic: Uses the selected ColorLogic calculation mode, typically reducing the number of channels for better printability.
        Note: By deactivating the checkboxes for the color channels, the values displayed in the number fields are fixed (for example 0% or 100%) so that they are not changed when applying dE76 or dE00. However, this does not apply to Automatic, here, all channels are always taken into account.

        Revert: Undoes all changes and reverts back to the original DCS values initially calculated using the selected ICC Profile.

        Color Information

        Displays various information about the selected color:

        Reference: Measured Lab value of the color
        Profile: Shows the color value calculated with the process colors of the target profile
        Current: Optimized color value of the process colors
        dE76: Expected color difference in DeltaE 76
        dE00: Expected color difference in DeltaE 2000
        Paper white simulation: Considers the coloration of the substrate for the target color space
        Note: It is recommended to activate the Paper white simulation.
        Divided color preview: The divided color preview shows how the original color (upper bar), the non-optimized color by means of the profile (left lower square), and the optimized color (right lower square) would look like when printing. The color preview is displayed in true colors on a calibrated and profiled monitor.

        Comparison of original color (Reference), non-edited color (Profile) and edited color (Current)

        Note: A warning message is displayed below the color preview when one of the three colors is out of the monitor’s gamut.

        After editing the measured values, a file with the optimized device and/or measured values is created by clicking on Start.

        Note: The Color Editor tool is grayed out if the file loaded under Data Sets does not contain any measured values. Once a single measurement file has been selected, it can be opened in the Color Editor (multiple files cannot be opened simultaneously).

        Color Editor Use Cases

        Example: Best possible conversion of (spot) colors

        Measurement data from spot colors loaded into ColorAnt can be converted into any color space using the Color Editor and ICC profiles. All color spaces including RGB, CMYK and Multicolor are supported.

        Note: The Conversion of Multicolor profiles requires an L license.

        To convert a spot color to RGB, CMYK or Multicolor, follow these steps:

        1. Load the measurement data file including individual full tone spot colors (for example a spot color library as CxF file) under Data Sets in ColorAnt, select the file and then click Color Editor.
        2. Under Color Conversion Settings, select the desired ICC Profile from the drop-down menu.
        3. The table on the left side fills with the device values. Initially, the device values are identical for Current (DCS) and Profile (DCS), since no optimizations have yet been made.
        4. Select the color you would like to optimize from the table and a Mode under Color Conversion Settings.
          The calculation mode specifies how ZePrA should convert one or more spot colors to the target color space.
        5. Choose one of the three modes described above. Under dE00 Limit, enter the threshold value in DeltaE 2000 from which colors in the table are to be marked with a warning symbol.

        6. The control panel Optimize Output Values shows the device values (Current DCS) calculated with the selected ICC profile. The calculation is always absolute colorimetric.

        7. Now click on Automatic to convert the colors using the selected calculation mode. Alternatively, perform the calculation according to DeltaE76 (dE76) or DeltaE 2000 (dE00). However, these two methods do not include ColorLogics high-quality calculation modes. The device values are displayed immediately after application of the calculation.

          By clicking on Revert the changes can be undone.
        8. The Color Information panel shows the measured Lab value of the color under Reference, the color value calculated with the process colors of the target profile under Profile and the optimized color value under Current. Additionally, the expected color difference is displayed in dE76 (DeltaE 76) and dE00 (DeltaE 2000). Activating the checkbox Paper white simulation takes the coloration of the substrate for the target color space into account. The calculation of the Lab values for Current and the color distance (DeltaE) are performed accordingly.
          Note: It is recommended to activate the Paper white simulation.
          Divided color preview: The divided color preview shows how the original color (upper bar), the non-optimized color by means of the profile (left lower square) and the optimized color (right lower square) would look like when printing. The color preview is displayed in true colors on a calibrated and profiled monitor.

          Comparison of original color (Reference), non-edited color (Profile) and edited color (Current)

        9. If you want to make fine adjustments, manually optimize the percentages in the Optimize Output Values control panel and see the effects directly under Color Information.
        10.  If you are satisfied with the optimization, continue optimizing more colors. Optimized colors are updated directly in the table. With a click on Start the editing is completed using the device values shown under Current (DCS) and the dialog will close. Please note that colors that have not been optimized will only be converted using the normal profile conversion and may therefore not achieve the best possible result.

        Specifics

        • If you would like to optimize several or all colors in the table at once, select the desired colors and click on the desired calculation (Automatic, dE76 or dE00).
        • If two or more colors are selected, device and color values are grayed out in the panels Optimize Output Values and Color Information.
        • If a file previously optimized with an ICC profile in the Color Editor is re-opened in Color Editor, the previously used ICC profile is preselected automatically.
        • If you change the ICC profile, typically, the device values have to be recalculated. To do so, activate the checkbox Recalculate DCS values and confirm with OK.

        Confirm recalculation of the DCS values

        Example: Saving color-converted spot colors to other formats
        Spot colors converted with Color Editor can be saved in various color formats supported by ColorAnt and used in other applications.

        •    CxF or CxF/X-4 for use in many modern applications
        •    Adobe Swatch Exchange (ASE) for use in Adobe Illustrator and InDesign
        •    ACO for use in Adobe Photoshop
        •    ICC Named Color Profiles for use in programs that support this special ICC format.

        The complete list of supported formats can be found here.

        Note: Spot colors converted with Color Editor contain the original color values (Lab or spectral values) and the optimized device values for the selected ICC profile.

        Example: Manual Editing

        The Color Editor also allows to manually change color patch names or color names, to manually change the measurements and device values associated with a color patch, and add or remove individual color patches. Make the appropriate changes in the topmost control panel Measurement Information.

        Under Name change the name of (spot) colors or color patches of test charts.

        Under
        CIE edit the measured values of the color, under DCS edit device values (if present). Typically, DCS values are not available in a pure spot color measurement file.

        Using the buttons below the table (Add, Delete), selected colors can be removed or one or more colors can be added. Added colors are placed at the end of the table. A default name and a medium gray are preselected, which can be changed under Measurement Information as required.

        Specifics

        • Measurements of profiling test charts often have no name designations. For such measurements, the Color Editor automatically adds an identifier, for example #1 for the first patch.

        • Spectral measurement data can also be edited in the Color Editor. They are then displayed as Lab values with D50/2 degree standard observers. In the final file, however, the spectral values are preserved.
        • If the CIE values of spectral measurements are edited as Lab values, the spectral properties of the color are retained.
        • We recommend not to change or optimize DCS values in test charts if the data is used for profiling purposes.
        • When selecting an ICC profile, typically, the device values don’t have to be recalculated. Deactivate the checkbox Recalculate DCS values and confirm with OK.

        Recalculating colors without changing the DCS values