Kaby Lake is Intel's 7th generation processor, Kaby Lake CPUs will bring better graphics performance, longer battery life, and delicious support for watching 4K movies on multiple screens. WebTech360 will learn with you about the Kaby Lake CPU line as well as what to keep in mind when buying a new computer that is related to the CPU.
What is a Kaby Lake chip?
Kaby Lake is the codename for a series of microprocessors (CPUs) manufactured by Intel in 2016. Kaby Lake is the seventh generation of the Intel Core processor family, designed for laptops and desktops. desktop computer.
Kaby Lake is built on a 14-nanometer architecture that can achieve higher clock speeds, lower power consumption, and deliver better performance than previous generations. It supports cutting-edge technologies like 4K graphics, NVMe SSDs, and USB 3.1 Gen 2. Kaby Lake CPUs also feature better audio controls and full support for new power protocols. best of Wi-Fi.
The Kaby Lake processors were replaced by the eighth generation of Intel Core, called Coffee Lake, in 2017.
History of the development of Kaby Lake chips
Kaby Lake is part of Intel's product development strategy to improve the performance, features, and power consumption of their processors.
Prior to that, Intel launched the sixth generation of Intel Core processors, called Skylake, in 2015. Kaby Lake was introduced in 2016, just one year later. Kaby Lake was originally developed for laptops and desktop computers, with the goal of enhancing performance and improving graphics processing, especially for video and game applications.
Kaby Lake is manufactured on a 14nm fabrication process, like the previous generation of Skylake. However, Intel has used several new techniques to improve Kaby Lake's performance, including increasing clock speeds and improving power-saving features.
At the same time, Kaby Lake is also designed to support the latest technologies, including 4K graphics, NVMe SSDs, and USB 3.1 Gen 2. It also integrates better audio controls and full support. for the latest Wi-Fi power protocols.
Kaby Lake was released in late 2016 and became one of the favorites in the laptop and desktop CPU market. Later, Kaby Lake was replaced by the eighth generation of Intel Core, called Coffee Lake, in 2017.
Features and outstanding features of Kaby Lake chip
Key features of Kaby Lake
- Kaby Lake is equipped with a new graphics architecture to improve 3D graphics performance and 4K video playback. It will support HDCP 2.2, along with decoding functions for H.264, HEVC Main and Main10/10-bit, and VP9 10-bit and 8-bit video. Hardware encoding is supported for H.264, HEVC Main10/10-bit, and VP9 8-bit video. 10-bit VP9 encryption is not supported in hardware.
- For the first time in the history of Core CPUs, desktop Pentium CPUs are built on top of Kaby Lake with an architecture that supports hyper-threading. And also for the first time Core i3 CPUs with Kaby Lake will feature overclocking.
- Faster processing speed: Kaby Lake is built on 14 nanometer architecture, which improves processing performance compared to previous generations. It also has a higher clock speed and supports Turbo Boost to increase speed when needed.
- Energy-saving features: Kaby Lake is designed to be more energy-efficient than previous generations. It uses a number of new techniques to save energy, including better power management and support for the latest Intel energy-saving standards.
- Better graphics: Kaby Lake integrates Intel HD Graphics 620 graphics processor, improving graphics processing ability compared to the previous Skylake generation. It also has support for 4K resolution and HDR resolution.
- Support for the latest technologies: Kaby Lake supports the latest technologies, including NVMe SSDs, USB 3.1 Gen 2, and the latest Wi-Fi power standards.
Better audio integration: Kaby Lake integrates better audio controls, improved sound quality, and support for the latest audio technologies.
Kaby Lake changes architecture compared to Skylake
Kaby Lake has the same core count and performance per MHz as Skylake. Features specific to Kaby Lake include:
- Increased clock speed on all CPU models (up to 300 MHz).
- Faster clock speed changes (improved from Speed Shift technology): It takes less time for the CPU to accelerate from one frequency than the previous generation, for example from a low performance state to high performance state – This can result in an increase in performance and responsiveness.
- Improved graphics core: full hardware fixed function VP9/HEVC (including 4K@60fps/10bit) decoding; improved HEVC encryption hardware; Full function VP9 8bit encryption; higher GPU clock speed.
- Chipset 200 series (Union Point) in socket 1151 (Kaby Lake is compatible with 100 series chipset motherboards after BIOS update).
- Up to 16 PCI Express 3.0 slots from CPU, 24 lanes PCI Express 3.0 slots from PC
- Support for Intel Optane Technology (only on motherboards with 200 series chipsets)
Kaby Lake chip compatibility
Both Skylake and Kabylake are fully compatible with most/current x86 x86 operating systems, fully supporting CPU features, which may vary depending on the operating system.
The compatibility of the Kaby Lake chip depends on the operating system it is installed on. Kaby Lake is designed to be compatible with the latest operating systems, including Windows 10 and the latest versions of Linux. However, if you are using older operating systems or 32-bit versions, you may need to update your system again to ensure compatibility.
If you want to upgrade your system to use Kaby Lake chips, you need to check the compatibility of your motherboard. Some older motherboards are not designed to support the latest Intel chips, including Kaby Lake. You need to research carefully before deciding to upgrade to ensure that the components of your system will work well with Kaby Lake.
Classification of Kaby Lake chip lines by TDP
Thermal design power or (TDP) is the design temperature generated by the chips. On a single microarchitecture, as heat increases with voltage and frequency produced, this thermal design limitation can also limit the maximum processor frequency. However, CPU testing and mouse movement have allowed for low voltage/force products at a specific frequency, or higher frequencies within the same power limit.
Desktop processor:
- High power: K : 91 W
- Average power: (none) : 65 W
- Low power: T : 35 W
Mobile processor:
- High power: H : 35 W, 45 W
- Average power: U : 15 W, 28 W
- Low Power: Y : 4.5 W
List of Kabylake processors
General specifications for the Kapy Lake series
- LGA 1151 . socket
- DMI 3.0 and PCIe 3.0 interfaces
- Dual Channel ram support: DDR3L-1600 1.35 V (32GB max) or DDR4-2400 1.2 V (64GB max)
- Total 16 PCIe slots
- Core series processors support AVX2 instructions. Celeron and Pentium series only support SSE4.1/4.2
- 350 MHz base graphics clock
- There is no L4 cache (eDRAM).
- One release date 03/01/2017