At the SAFE Forum (Samsung Advanced Foundry Ecosystem), Samsung revealed its plans for future semiconductor nodes. Last year, the company unveiled the Exynos 2600, the first 2nm smartphone chip – this one was made on the SF2 node as Samsung calls it.
Next up is SF2P, which will reduce power consumption by 26% and raise clock speeds by 15%. The new node is only partially responsible for these improvements. Shin Jong-shin, VP of the Design Platform Development Team at Samsung Foundry, attributes more than half of the gains to DTCO.
DTCO, or Design-Technology Co-Optimization, is a…
At the SAFE Forum (Samsung Advanced Foundry Ecosystem), Samsung revealed its plans for future semiconductor nodes. Last year, the company unveiled the Exynos 2600, the first 2nm smartphone chip – this one was made on the SF2 node as Samsung calls it.
Next up is SF2P, which will reduce power consumption by 26% and raise clock speeds by 15%. The new node is only partially responsible for these improvements. Shin Jong-shin, VP of the Design Platform Development Team at Samsung Foundry, attributes more than half of the gains to DTCO.
DTCO, or Design-Technology Co-Optimization, is a… Read More GSMArena.com – Latest articles