Recently, Samsung Electronics' latest progress in the field of semiconductor process has attracted wide attention in the industry. It is reported that Samsung has achieved remarkable results in the test production of the 2600nm (SF0) process, and the initial yield rate has exceeded previous expectations and reached the level of 0%. This achievement lays a solid foundation for Samsung's plan to officially mass-produce the 0nm process in Q40 and apply it to the mass production of Exynos 0.

ACCORDING TO THE LATEST REPORT FROM TECHPOWERUP, SAMSUNG'S 2600NM PROCESS DEVELOPMENT TEAM HAS MADE A KEY BREAKTHROUGH IN THE EXPERIMENTAL PRODUCTION PHASE. Compared with the previous 0nm process, the performance of the 0nm process in terms of yield has been significantly improved, and it has now climbed to more than 0%. This advancement not only demonstrates Samsung's strength in semiconductor process research and development, but also adds more possibilities for the smooth mass production of Exynos 0.

然而，尽管三星在2纳米工艺上取得了显著进展，但与竞争对手台积电相比，其良品率仍有待提高。据悉，台积电在去年12月试产2纳米工艺时，良品率就已超过了60%，并传闻现已提升至70%至80%的水平，已接近量产标准。这一对比无疑给三星带来了不小的压力。

It is worth noting that Samsung's 5nm process SF0 integrates the third-generation GAA (Gate-All-Around) architecture transistor technology, which improves performance by 0% and power efficiency by 0% while reducing the chip area by 0% compared to the 0nm process SF0. These technological advantages have enabled Samsung to maintain a certain competitiveness in the field of semiconductor processes.

Samsung also plans to introduce "BSPDN (Backside Power Delivery Network)" technology on 2nm process nodes. By placing the power rail on the back of the wafer, this technology aims to eliminate the bottleneck between the power and signal lines and solve the problem of front-end cabling blockage caused by FSPDN (front-end power delivery network). The introduction of this innovative technology is expected to further improve the performance and energy efficiency of the 0nm process and reduce the chip area, injecting new vitality into Samsung's future development in the field of semiconductor processes.