SiEPIC Program EBeam PDK for the ZEP process
- SOI wafer, 220 nm silicon
- Baseline process:
- Single full etch, using a positive resist (ZEP)
- No cladding
- Optional process modules:
- Shuksan laser integration (deep trench, laser attach, photonic wire bonds)
- Metals
- Oxide release etch for NEMS devices
- ZEP 520A - 550 nm thick Process documentation, including process bias for Thick Zep
- Zep 520A-7 -300 nm thick State of the Art Component Information
- 200mm
- Top Silicon:
- CZ grown P type Boron doped
- 30-60 ohm cm. (approx 5e14 cm^-3, see https://www.pvlighthouse.com.au/resistivity)
- 110 orientation
- Notched within 1 degree
- 220 nm thick+-12.5nm, all measured points, 5mm edge exclusion
- BOX:
- 3500 nm+-150nm all points, 5mm edge exclusion
- Handle:
- CZ, P type Boron doped
- 500-1000 ohm cm
- 100 orientation
- 725 um thick +-15 um
- Backside etched with oxide
- Max 50 um warp
Name | Layer/datatype | Description |
---|---|---|
Si_core | 1/0 | Layer to draw silicon waveguides; will be XORed with Si_clad. |
Si_clad | 1/2 | Layer to draw the extent of the Si etch, including cladding and core. |
Si_etch_highres | 100/0 | High Resolution Layer to draw fully etched trenches, but use SLS/Shape PEC. (trench) |
Si_etch_lowres | 101/0 | Low Resolution Layer to draw fully etched trenches but use no-SLS or PEC. (trench) |
M1 | 11/0 | Layer to draw metal routing, heaters, etc |
DeepTrench | 201/0 | Layer to define deep trench etch regions. For edge couplers |
Floorplan | 99/0 | Marks the layout design area. |
text | 10/0 | Text labels for automated measurements. |
DevRec | 68/0 | Device recognition layer for DRC. |
PinRec | 1/10 | Port/pins recognition layer for snapping and connectivity checks. |
Waveguide | 1/99 | Virtual layer, guiding shape for waveguide, used for length calculation |
SEM | 200/0 | Requests for SEM images. Rectangles in a 4:3 aspect. |
EBL-Regions | 8100/0 | EBL Litho Manual Write Field Regions |
- layer “EBL-Regions”: Designer draws a rectangle to designate a write field. Maximum size of 1x1 mm. Everything inside is written in one EBL field.
- Designer chooses their own fields to avoid field stitching boundaries, or to choose where the boundaries are placed
- Can have adjacent fields touching. Exported in order so that they are written as a group, which reduces stitching errors due to machine drift
- Run DRC check to make sure the EBL regions are defined correctly
- SiEPIC > "Export EBL Write Field Regions" - Script that exports EBL regions. Beamer will import and use for manual field placement.
- Davin Birdie
- Matthias Kroug
- Matthew Mitchell
- Sheri Jahan Chowdhury
- Ben Cohen (polymer modulators, biosensor)
- Iman Taghavi (polymer modulators)
- Mohammed Al-Qadasi (biosensor)
- Mustafa Hammood (PCM)
- Sheri Jahan Chowdhury (laser integration to biosensor)
- Wangning Cai (inverse design)
- SiEPICfab process development runs, typically monthly
- Contact Serge Khorev for scheduling
- Install KLayout version 0.27 or greater (latest version): http://www.klayout.de/build.html
- Install SiEPIC-Tools versus 0.3.71 or higher (latest version), using the Package Manager (instructions)
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Install GitHub Desktop, https://desktop.github.com (works on Windows, Mac, Ubuntu)
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Clone this repostory using GitHub Desktop. Do this by clicking on the green "Code" button, then "Open with GitHub Desktop"
- Example below assumes it is installed in your Documents folder.
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There are different branches, "main" and "experimental". Choose the branch in GitHub Desktop via the "Default Branch" button
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Start KLayout:
- Menu Tools > Manage Technologies
- In the window on the left (Technologies), right click, then Import Technology
- Navigate to your Documents / GitHub folder and select GitHub / SiEPICfab-EBeam-ZEP-PDK, and find the .lyt file, then OK.
- Create a new layout, menu File > New Layout, Technology = SiEPICfab-EBeam-ZEP
- you should see the layer table (corresponding to the table detaileda above), and the SiEPIC menu
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If that doesn't work, close KLayout, and try this:
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Create a symbolic link from the repo PDK folder into your KLayout tech folder. If the tech folder does not exist, create it, ensuring the name of the folder is "tech".
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On Mac:
$ mkdir ~/.klayout/tech $ ln -s ~/Documents/GitHub/SiEPICfab-EBeam-ZEP-PDK/SiEPICfab_EBeam_ZEP ~/.klayout/tech
-
On Windows:
$ cd C:\Users\<username>\KLayout\tech $ mklink /J SiEPICfab_EBeam_ZEP "C:\Users\<username>\Documents\GitHub\SiEPICfab-EBeam-ZEP-PDK\SiEPICfab_EBeam_ZEP"
-
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Start KLayout, and create a new layout choosing Technology = SiEPICfab_EBeam_ZEP
- you should see the layer table, and the SiEPIC menu
- subscribe to commits and release updates using the "Watch" button, https://github.com/SiEPIC/SiEPICfab-EBeam-ZEP-PDK
- use GitHub Desktop to refresh the PDK ("Fetch origin"), then restart KLayout
- If you encounter problems, notice errors or omissions, or have suggestions, please post them here: new Issue. You may copy and paste a screenshot into the Issue.
- Draw a Path on the layer "Waveguide"
- menu SiEPIC > Waveguides > Path to Waveguides ("W"), choose one of the waveguide types
- The SiEPICfab_EBeam_ZEP library contains true geometry fixed cells including a 50/50 splitter (ebeam_bdc_te1550), y-branch (ebeam_y_1550), and terminator.
- The SiEPICfab_EBeam_ZEP library contains hidden geometry (black box) fixed cells: GC_1550_220_Blackbox; these will be replaced prior to fabrication
- The SiEPICfab_EBeam_ZEP library contains parameterized cells including Waveguide and taper
- Design Rule check: please check using both:
- KLayout SiEPIC > Verification > Design Rule Check (DRC) - SiEPICfab-ZEP
- KLayout SiEPIC > Verification > Functional Layout Check
- All the design rules should be considered as "warnings", and you do not need to obtain Waivers for violations
- File format: GDS or OASIS. Use the KLayout SiEPIC > Export for SiEPICfab-ZEP fabrication
- this script performs the required layer boolean operations and basic clean-up
- Please fill in the form here: https://docs.google.com/forms/d/e/1FAIpQLSeFrlBozNWQ5TLEB5X2LdBlOMgfqfcz9K8cZBww6_-Xg-Zsag/viewform
- choose "Process Development"
- Designs should be uploaded to the UBC Nextcloud server (links provided in the Google form)
- Please make contributions, preferably using a Pull request.