![]() On the SODIMM side, we have seen various vendors introduce kits operating at more than 2133 MHz. DDR4 DIMMs operating as high as 3733 MHz are available for desktop systems with full-sized memory slots. On standard non-overclocked systems, the DDR4 memory can operate at up to 2133 MHz. Another important advantage is the maximum capacity per DIMM (moving from the usual 8GB in DDR3 to 16GB in DDR4). DDR4 brings a host of improvements over DDR3, particularly in terms of operating at lower voltage and higher frequencies. Intel's Skylake platform brought DDR4 DRAM into the mainstream market. In this article, we explore the effects of varying DDR4 frequencies and latencies on the NUC6i7KYK. However, the Skull Canyon NUC (NUC6i7KYK) can support DDR4 SODIMMs operating at 2133 MHz+. The memory controller in the Intel U-series processors (on which most, if not all, high performance SFF systems are based) is rated for operation only according to the standard JEDEC guidelines (1600 MHz for DDR MHz for DDR4). Memory-bound workloads can benefit from memory hierarchies with increased bandwidth and/or lower latencies. However, increasing the CPU frequency beyond the official specification is not the only way to extract more performance from a computing system. Overclocking has generally been the domain of enthusiasts with desktop rigs. ![]()
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