| Aspect | Details |
|---|---|
| How RAAAM Started | Founded in 2021 by four PhDs from Bar-Ilan University and Swiss Federal Institute of Technology Lausanne (EPFL) specializing in VLSI design. The team spent over a decade conducting world-leading academic research before commercializing their GCRAM technology. Headquarters in Petach Tikva, Israel, with R&D center in Switzerland. |
| Present Condition | Successfully raised $24M+ total funding ($17.5M Series A + $4M Seed + €5.25M EIC grant). Silicon-validated GCRAM technology across multiple foundries (TSMC, Samsung, STMicroelectronics) in nodes from 16nm to 180nm. Active collaboration with NXP Semiconductors for technology implementation. Currently qualifying GCRAM for production in leading-edge process nodes. |
| Future Plans & Industry | Migrating GCRAM to sub-5nm process nodes where SRAM scaling becomes increasingly difficult. Targeting full production qualification with top-tier foundries. Aims to establish GCRAM as the new standard for on-chip memory in AI, automotive, 5G, and high-performance computing chips. The on-chip embedded memory market is valued at over $500M with 12.3% CAGR (2021-2026). |
| Opportunities for Young Entrepreneurs | The semiconductor memory IP licensing space offers opportunities for deep-tech startups with strong academic foundations and patented innovations. RAAAM demonstrates the viability of addressing fundamental industry bottlenecks through novel transistor-level designs. Access to accelerators like Silicon Catalyst and EU innovation programs can provide crucial early validation and funding. |
| Market Share of RAAAM | RAAAM currently has minimal market share as they are in pre-production qualification phase. The company is positioning to capture share in the $500M+ on-chip embedded memory market as GCRAM moves from validation to production deployment with semiconductor manufacturers. Potential to disrupt the established SRAM-dominated market. |
| MOAT (Competitive Advantage) | Patented GCRAM technology using only 2-3 transistors per bit versus 6-8 for SRAM, delivering 50% area reduction and 10x lower power consumption. Drop-in SRAM replacement requiring no additional fabrication steps or costs. Silicon-proven across multiple foundries and process technologies. Decade of academic research creates significant IP barriers. Strategic partnerships with major chip makers like NXP. |
| Revenue Model of RAAAM | IP licensing business model. Semiconductor companies license RAAAM’s GCRAM technology for integration into their chips. Revenue generated through licensing fees and royalties from chips sold containing GCRAM technology. This asset-light model allows scaling without manufacturing infrastructure investment. |
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