Scaling Chips Down to their Physical Limits 15x faster
We are building the next-generation semiconductor lithography platform, by shrinking particle accelerators 1000x.
Inversion Semiconductor’s revolutionary particle accelerator is smaller than any particle accelerator.
transistor density
100% increase in transistor density for the same numerical aperture (NA)
High power light source
Enabling 3x higher throughput per scanner and the capability to power multiple scanners
Tunable wavelength light source
Capable of generating 13.5nm EUV light needed today, and scaling transistors down to their physical limits.
critical dimension uniformity
> 25% improvement in critical dimension uniformity, significantly improving fabrication of high aspect ratio features for novel transistor architectures and compute paradigms including quantum & reversible...
Meet our founders
Rohan Karthik
Rohan worked in the systems group at Arm, specializing in automating system architecture and testbench generation. Previously, he built vision software for surgical robots at CMR Surgical and led the Karman Space Program, to develop and launch record-breaking rockets. He holds an MEng in Mechanical Engineering from Imperial College London.
Daniel Vega
Daniel conducted research for Run 2 of the CERN AWAKE project, applying novel machine learning techniques to infer and predict beam dynamics for plasma wakefield acceleration. Prior to this he worked on the development of particle accelerators for cancer treatment at Lumitron Technologies, engineered color changing skin for satellites and implemented Shor's algorithm on early quantum computing platforms.
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