| Video | Increasing Mass - Using Sandwich Inclusions | Published: | 2020, October 16 | Last Updated: | 2020, October 16 | v.2.0 |
| Video summary: Sandwich Inclusion function allows increasing the mass of a solution without a decrease of its clarity It splits an inclusion into layers The external layer (shell) can be included in the solution thus it becomes bigger, increases the mass The internal (core) continues to limit the solution boundaries, keeps the Clarity high Big inclusions outside but close to the surface give the chance for using "Sandwich"
Appropriate inclusions can be searched using QC Panel
| Video keywords: clarity, inclusion, sandwich, QC panel | Published in: | Release Notes | 2020-12-29 - HP Carbon 1.1.33 | Documentation | Inclusions | Playlists | All Videos | YouTube: HP Carbon | Also | As Separate Page | On YouTube | Specification |
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Video | Upload to Cutwise - Polished Diamond Data | Published: | 2020, June 5 | Last Updated: | 2020, June 5 | v.1.2 |
| Video summary: You can quickly share via the Internet your stone information using an integration of HP Carbon, DiBox 2.0, and Cutwise OctoNus products
Upload information collected with HP Carbon and DiBox 2.0 to Cutwise online service Send data in either order - Cutwise will consolidate them to form the full-data representation of your stone online In Cutwise, your product will contain photos and videos from DiBox and information from HP Carbon: main stone parameters, advanced reports with images, I3D report, HTML report, DMC file In Cutwise, share with whom you need to make your product information available around the globe 24/7
| Video keywords: Cutwise, DiBox, DMC, HP Carbon, HTML, I3D, images, integration, online, parameters, reports, share, upload, videos | Published in: | Release Notes |
| Documentation | Integration with Cutwise | Playlists | Integration with Cutwise | YouTube: HP Carbon, HP Carbon - Cutwise Integration, Cutwise | Also | As Separate Page | On YouTube | Specification |
| Video | Upload to Cutwise - Solutions Comparison | Published: | 2020, March 17 | Last Updated: | 2020, June 5 | v.1.3 |
| Video summary: After obtaining the set of SmartRecut solutions, it is an essential task to compare them. OctoNus Cutwise online service offers an extended set of tools for presenting and comparison.
HP Carbon supports integration with Cutwise: models from HP Carboon may be sent to Cutwise where they can be further visualized and analyzed.
Cutwise generates virtual films presenting stones and calculates metrics based on films.
Cutwise presents models images for Fire, Office, and ASET. HP Carbon parameters are also transferred to Cutwise.
Cutwise cloud keeps all operations server-side.
Cutwise is a comfortable tool for comparison and selecting the best. Selected stones can be saved in collections. You can share created collections 24/7 for discussion and sales.
| Video keywords: ASET, cloud, Cutwise, filtering, fire, integration, metrics, model comparison, office, parameters, share, sorting, upload | Published in: | Release Notes | NA | Documentation | Integration with Cutwise | Playlists | Integration with Cutwise | YouTube: HP Carbon, HP Carbon - Cutwise Integration, Cutwise | Also | As Separate Page | On YouTube | Specification |
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Video | SweetLine - Time-Saving Approach to Getting Better Optical Performance | Published: | 2019, October 1 | Last Updated: | 2019, December 5 | v.2.0 |
| Video summary: CrownAngle = 34.5 and PavilionAngle = 40.75 named Tolkowsky Point provide the best optical performance Brilliants belonging to axis going through Tolkowsky Point with the negative slope 1:6 also provide excellent optical performance
The SweetLine parameter sticks solutions to this axis There are two ways of using SweetLIne: via SweetLine profile or using your own editable profile with SweetLine, CrownAngle and PavilionAngle set to your needs
| Video keywords: SweetLine, SweetLIne axis, optical performance, CrownAngle, PavilionAngle | Published in: | Release Notes | 2019-10-23 - HPOxygen Server 5.3.42 | Documentation | Using SweetLine | Playlists | All Videos | YouTube: HP Carbon | Also | As Separate Page | On YouTube | Specification |
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Video | MyRound Appraiser - New MaxMass Profile for Overstepping the Mass Border Value | Published: | 2019, April 11 | Last Updated: | 2019, April 11 | v.2.1 |
| Video summary: Sometimes the solutions produced using the “MyRound | GIA Facetware + MyRound” appraiser may be just a little below the mass border The new “MaxMass” profile for this appraiser allows getting solutions overstepping the mass border value but still inside GIA EX boundaries. This is achieved by weakening the non GIA Facetware criteria which increases the mass but may decrease other parameters. The “MaxMass” profile does not replace the standard “ModernCut” profile - they exist simultaneously producing different results: the “ModernCut” produces more balanced solutions with higher liquidity; the “MaxMass” - solutions with higher mass and price.
| Video keywords: MyRound_Max, MaxMass, profile, MyRound, GIA Facetware, MyRound | GIA Facetware + MyRound, appraiser, ModernCut, MyRound_ModernCut | Published in: | Release Notes | 2018.12.25 - HPOxygen Server 4.8.20 | Documentation | MyRound | GIA Facetware + MyRound | Playlists | All Videos | YouTube: HP Carbon | Also | As Separate Page | On YouTube | Specification |
| Video | Smart Normalize - Manual Marking Facets for Removing | Published: | 2019, April 9 | Last Updated: | 2019, April 9 | v.1.1 |
| Video summary: The “18. SmartNormalize” algorithm often does not delete the large excess facets, although for the operator it may be visually obvious that they should be removed during normalization The Element Multi Selection Tool can now be used with the "18. SmartNormalize" algorithm to manually mark facets to be removed during normalization. These marked facets will be obligatory deleted by the "18. SmartNormalize" algorithm when it is run. By manual removing the large excess facets prior to running the “18. SmartNormalize” algorithm you additionally improve the algorithm performance by helping it to distinguish correct and incorrect facets.
| Video keywords: SmartNormalize, normalization, element multi selection tool, excess facets, incorrect facets, remove facets, delete facets, manual remove | Published in: | Release Notes | NA | Documentation | Smart Normalize algorithm | Playlists | All Videos | YouTube: HP Carbon | Also | As Separate Page | On YouTube | Specification |
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Video | Smart Recut Algorithm - Improved Usage of Extra Facets | Published: |
| Last Updated: | 2019, April 8 | v.2.5 |
| Video summary: The Allow Girdle Extra Facets option of “13. SmartRecut (Brilliant, Oval)” algorithm Before version 4.8.20: sometimes for the rough stones extra facets were not created in spite of the Allow Girdle Extra Facets option selected Starting from version 4.8.20: if the creation of girdle extra facets is possible and the Allow Girdle Extra Facets option is selected, they will be always created Result: we obtain the maximum mass caused by using the girdle extra facets An appraiser controls limitations for the quantity of allowed girdle extra facets by the GirdleCrownExtraFacets and GirdlePavilionExtraFacets parameters
| Video keywords: girdle extra facets, smart recut, allow girdle extra facets, rough stones, GirdleCrownExtraFacets, GirdlePavilionExtraFacets | Published in: | Release Notes | 2018.12.25 - HPOxygen Server 4.8.20 | Documentation | Using Girdle Extra Facets | Playlists | All Videos | YouTube: HP Carbon | Also | As Separate Page | On YouTube | Specification |
| Video | 18. Single (Recut) Algorithm - Rotated and Aligned Solutions for Further Optimization | Published: | 2019, February 12 | Last Updated: | 2019, February 12 | v.3.2 |
| Video summary: - Note In version 5.2.22 the 18. Single (Recut) algorithm has been renamed to 18. Semipolished
- During the brilliant recut, the best result can be achieved through two different intermediate solutions:
- Through the solution with facet azimuths close to the current brilliant
- Through the solution rotated comparing to the current brilliant
- To select the best option in the end, an operator needs BOTH variants of the solution on the intermediate stage.
- The “18. Single (Recut)” algorithm aims to provide both the rotated solution (with the better mass) and the one better aligned to the initial stone for you to be able to try your further optimization on both of them.
- Run Smart Recut on both solutions.
- Compare the Smart Recut solutions and select the best one from the point of view of the predicted price and the complexity of the cut.
- In some cases, the best solution will come from aligned and not from the rotated.
| Video keywords: 18. Semipolished, 18. Single (Recut), rotated solution, aligned solution, further optimization, cut complexity, best price | Published in: | Release Notes | 2018-10-30 - HPOxygen Server 4.7.27 | Documentation | Algorithm "18. Semipolished" | Playlists | All Videos | YouTube: HP Carbon | Also | As Separate Page | On YouTube | Specification |
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