This SoC design allows the Zen microarchitecture to scale from laptops and small-form factor mini PCs to high-end desktops and servers.īy 2020, 260 million Zen cores have already been shipped by AMD. This has advantages in bandwidth and power, at the expense of chip complexity and die area. The memory controller and the PCIe, SATA, and USB controllers are incorporated into the same chip(s) as the processor cores. Zen processors use three different sockets: desktop and mobile Ryzen chips use the AM4 socket, bringing DDR4 support the high-end desktop Zen-based Threadripper chips support quad-channel DDR4 RAM and offer 64 PCIe 3.0 lanes (vs 24 lanes), using the TR4 socket and Epyc server processors offer 128 PCI 3.0 lanes and octa-channel DDR4 using the SP3 socket. The cache system has also been redesigned, making the L1 cache write-back. SMT has been introduced, allowing each core to run two threads. Zen-based processors use a 14 nm FinFET process, are reportedly more energy efficient, and can execute significantly more instructions per cycle. Zen is a clean sheet design that differs from AMD's previous long-standing Bulldozer architecture. The first Zen-based CPUs, codenamed "Summit Ridge", reached the market in early March 2017, Zen-derived Epyc server processors launched in June 2017 and Zen-based APUs arrived in November 2017. The first Zen-based preview system was demonstrated at E3 2016, and first substantially detailed at an event hosted a block away from the Intel Developer Forum 2016. It was first used with their Ryzen series of CPUs in February 2017. Zen is the codename for the first iteration in a family of computer processor microarchitectures of the same name from AMD.
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