![]() ![]() A "tock" brings in a new x86 architecture, a "tick" miniaturizes it to a newer silicon fabrication process. Every year, Intel's product lineup sees either of the two. Intel follows a "tick-tock" product development model. Between Intel’s predictability, our expertise and your diligent research, your application can be destined for great things.Here are the first slides detailing Haswell, Intel's next generation processor architecture that succeeds Sandy Bridge and Ivy Bridge. Understanding the logic and cadence of such a release schedule is crucial for software application developers that want to be able to offer the latest performance capabilities to their customers. UNICOM Engineering has nearly two decades of helping it’s clients to navigate and streamline the transition to next generation Intel microarchitecture. Then, like clockwork, a “Tick” shrinking of Haswell to 14nm was released, dubbed Broadwell. This new version, among other features, allowed for Hyper Threading processing that utilized separate cores in dynamic ways to increase processing speed even under heavy loads.Īfter another “Tick” to 22nm Ivy Bridge processors, a “Tock” release of Haswell with DDR4 support and other features debuted. While most of these redesigns incorporate familiar overall microarchitectures - currently offered to consumers in recognizable i3, i5, i7 product names - the technology built into the processor permits new levels of capability.įor instance, following the “Tick” transition of Nehalem to 32 nm Westmere builds back in 2010, Intel completely redesigned their processors to the Sandy Bridge microarchitecture. “Tock” - True Innovation that Surprisesįollowing a “Tick” shrinking of processor half-pitch comes a “Tock” redesign of Intel’s processor line. Thus, when Haswell recently transitioned from a 22nm node process to 14nm node process named Broadwell, manufacturers could deploy very similar system architecture - sometimes even the same motherboards - while utilizing the new smaller and faster chips. One of the most ingenious elements of the “Tick, Tock” strategy is that Intel strongly emphasizes compatibility between the new, smaller processors and their immediate predecessors. The connection between Moore’s Law and “Tick, Tock” is mostly uncoincidental, too, since Gordon E. Strongly recalling Moore’s Law, these new designs allow for faster, more-capable processors in a smaller size and at a relatively low cost. These advances correspond with smaller chip sizes packed more densely with transistors. The “Tick” part of Intel’s cycle refers to advances in fabrication technology. Getting used to this rhythm and what it typically brings can allow your application design to keep pace - or perhaps to even predict microarchitecture changes ahead. If all goes according to plan, Intel will have new versions of chips released roughly on a 2 to 3.5-year schedule. Instead, “Tick, Tock” indicates the rhythm of Intel’s alternating migration to more advanced processing technologies and more advanced fabrication processes. No, we are not alluding to a grandfather clock. ![]() Keeping up with the upcoming releases is as simple as remembering “Tick, Tock.” ![]() While staying abreast of these developments can seem overwhelming, Intel’s predictable product release strategy simplifies it greatly. Just as important is understanding how to leverage the full level of potential that Intel’s latest products offer. Since countless industries utilize Intel microprocessors and plan their upgrades according to Intel’s release schedule, focusing on making your application platform compatible with the latest microarchitecture is crucial. Part I of this guide introduced you to the reasons applications developers should consider the latest microprocessor technology for their next-gen deployment solutions. ![]()
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