The seed has a declarative part and an executable part. One or more voxels built through OpenLANE2 to GDSII and LEF. Those sit in seeds/; the build script copies them into every package as Seeds/. The…
Every build can be written to a 25GB Blu-ray—foundry packages, standards, performance metrics, decisive COGS, Seeds when present. Distributable. Resellable. The whole 18 project folder feeds the build…
From the seed we grow foundry packages: TSMC, Samsung, Intel, SkyWater, GlobalFoundries. Same seed, different package. Version the seed; version the chips. The rest as a service includes generating an…
14nm and 7nm builds from one seed. You supply node_nm and envelope; the seed matrix and build flow produce the geometry and metrics. Reproducibility: same seed, same inputs, same result. Any node the …
The core formulas: S = H×W (area); N_v = S/a_v (voxel count); C = N_v×f_v (total calculation). Then P_per_dollar = C/AES, P_per_watt = C/power_w. These turn envelope and node into FLOPS and performanc…
The ratio we sell includes performance per dollar and performance per watt. P_per_dollar = C/AES. P_per_watt = C/power_w. You get calculation and these performance-per-exchange values from that seed a…
Template CSV and example JSON ship with the seed. Any size. Truncated OK. You can build seeds from the ratio using the repo. The seed matrix is not hidden—it is a choice we made. That is what we have …
The seed is the minimal, canonical specification from which every build is grown. Chip series, voxel roles, tree mapping, photon chromosome, nine elements, one-page performance and decisive COGS. From…
The harvest carries a tiling-ready cell: real seed to grow from. GDSII and LEF. Every build can include Seeds when present. Real geometry, not just formulas. The executable part of the seed is one or …