![]() ![]() All available features are available across the entire range of processor socket count (two through eight) at the platinum level. The bronze level has the least amount of features and as you move towards platinum more features are added. New branding for processor models.Ī two-socket Intel Xeon processor Scalable family configuration can be found within all the levels of bronze through platinum, while a four-socket configuration will only be found at the gold through platinum levels, and the eight-socket configuration will only be found at the platinum level. They are Intel’s platform of choice for the most scalable and reliable performance with the greatest variety of features and integrations designed to meet the needs of the widest variety of workloads.įigure 2. The processors from Intel Xeon processor Scalable family are scalable from a two-socket configuration to an eight-socket configuration. One of the big changes with the Intel Xeon processor Scalable family is that it includes all the processor models associated with this new generation. In previous generations two and four socket processor families were segregated into different product lines. These features include increased processor cores, increased memory bandwidth, non-inclusive cache, Intel® Advanced Vector Extensions 512 (Intel® AVX-512), Intel® Memory Protection Extensions (Intel® MPX), Intel® Ultra Path Interconnect (Intel® UPI), and sub-NUMA clusters. Intel Xeon processor Scalable family on the Purley platform is a new microarchitecture with many additional features compared to the previous-generation Intel® Xeon® processor E5-2600 v4 product family (formerly Broadwell microarchitecture). Major architecture changes take place on a “tock,” while minor architecture changes and a die shrink occur on a “tick.” ![]() The new generation, the Intel® Xeon® processor Scalable family (formerly code-named Skylake-SP), is a “tock” based on 14nm process technology. Intel has thus started collaborating with Tsinghua University to protect its server market in China.Intel uses a tick-tock model associated with its generation of processors. The United States blocked $1 billion worth of Intel’s Xeon orders. The conflict between the United States and China over IP (intellectual property) stealing has created a challenge for Intel to tap the Chinese server market. It has formed a joint venture with the Guizhou Province government for server chip technology licenses. The company is eyeing China (FXI), which is expected to be the second-largest server market. Qualcomm (QCOM), a dominant player in ARM- (Advanced RISC Machines) based mobile chipsets, is looking to diversify into the server space. Intel’s Xeon chips are currently being built on the 14-nm node. The company has signed a deal with Samsung (SSNLF) and Global Foundries to produce its chips on 14-nm. In its fiscal 4Q15 earnings call, TSM president and co-chief executive officer Mark Liu stated that the company’s research is progressing on 10-nm, 7-nm, and 5-nm technology, with volume production planned in 2017, 2018, and 2020, respectively.Īdvanced Micro Devices (AMD), Intel’s only competitor in the server and PC (personal computer) processor market, has been struggling to make its mark in the server space with its 20-nm chips. Looking at the company’s technology roadmap, it’s investing heavily in future nodes. The foundry is ramping up production of 16-nm technology. So far, Taiwan Semiconductor Manufacturing (TSM) has been behind Samsung and Intel in introducing smaller nodes. Intel versus Taiwan Semiconductor Manufacturing ![]()
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