Intel Core

In early 2018, news reports indicated that security flaws, referred to as "Meltdown" and "Spectre", were found "in virtually all Intel processors [made in the past two decades] that will require fixes within Windows, macOS and Linux". The flaw also affected cloud servers. At the time, Intel was not commenting on this issue.[17][18] According to a New York Times report, "There is no easy fix for Spectre ... as for Meltdown, the software patch needed to fix the issue could slow down computers by as much as 30 percent".[19]

In mid 2018, the majority of Intel Core processors were found to possess a defect (the Foreshadow vulnerability), which undermines the Software Guard Extensions (SGX) feature of the processor.[20][21][22] In March 2020, computer security experts reported another Intel chip security flaw, besides the Meltdown and Spectre flaws, with the systematic name CVE-2019-0090 (or, "Intel CSME Bug", referencing the Converged Security and Management Engine). This newly found flaw is not fixable with a firmware update, and affects nearly "all Intel chips released in the past five years".[23][24][25]

The original Core brand refers to Intel's 32-bit mobile dual-core x86 CPUs, which derived from the Pentium M branded processors. The processor family used an enhanced version of the Intel P6 microarchitecture. It emerged in parallel with the NetBurst microarchitecture (Intel P68) of the Pentium 4 brand, and was a precursor of the 64-bit Core microarchitecture of Core 2 branded CPUs. The Core brand had two branches: the Duo (dual-core) and Solo (Duo with one disabled core, which replaced the Pentium M brand of single-core mobile processor).

Intel launched the Core brand on January 6, 2006, with the release of the 32-bit Yonah CPU – Intel's first dual-core mobile (low-power) processor. Its dual-core layout closely resembled two interconnected Pentium M branded CPUs packaged as a single die (piece) silicon chip (IC). Hence, the 32-bit microarchitecture of Core branded CPUs – contrary to its name – had more in common with Pentium M branded CPUs than with the subsequent 64-bit Core microarchitecture of Core 2 branded CPUs. Despite a major rebranding effort by Intel starting January 2006, some companies continued to market computers with the Yonah core marked as Pentium M.

The Core series is also the first Intel processor used as the main CPU in an Apple Macintosh computer. The Core Duo was the CPU for the first generation MacBook Pro, while the Core Solo appeared in Apple's Mac Mini line. Core Duo signified the beginning of Apple's shift to Intel processors across the entire Mac line.

In 2007, Intel began branding the Yonah core CPUs intended for mainstream mobile computers as Pentium Dual-Core, not to be confused with the desktop 64-bit Core microarchitecture CPUs also branded as Pentium Dual-Core.

September 2007 and January 4, 2008, marked the discontinuation of a number of Core branded CPUs including several Core Solo, Core Duo, Celeron and one Core 2 Quad chip.[27][28]

Intel Core Solo[29] (product code 80538) uses the same two-core die as the Core Duo, but features only one active core. Depending on demand, Intel may also simply disable one of the cores to sell the chip at the Core Solo price—this requires less effort than launching and maintaining a separate line of CPUs that physically only have one core. Intel had used the same strategy previously with the 486 CPU in which early 486SX CPUs were in fact manufactured as 486DX CPUs but with the FPU disabled.

Intel Core Duo[30] (product code 80539) consists of two cores on one die, a 2 MB L2 cache shared by both cores, and an arbiter bus that controls both L2 cache and FSB (front-side bus) access.

The successor to Core is the mobile version of the Intel Core 2 line of processors using cores based upon the Intel Core microarchitecture,[31] released on July 27, 2006. The release of the mobile version of Intel Core 2 marks the reunification of Intel's desktop and mobile product lines as Core 2 processors were released for desktops and notebooks, unlike the first Intel Core CPUs that were targeted only for notebooks (although some small form factor and all-in-one desktops, like the iMac and the Mac Mini, also used Core processors).

Unlike the Intel Core, Intel Core 2 is a 64-bit processor, supporting Intel 64. Another difference between the original Core Duo and the new Core 2 Duo is an increase in the amount of Level 2 cache. The new Core 2 Duo has tripled the amount of on-board cache to 6 MB. Core 2 also introduced a quad-core performance variant to the single- and dual-core chips, branded Core 2 Quad, as well as an enthusiast variant, Core 2 Extreme. All three chips are manufactured at a 65 nm lithography, and in 2008, a 45 nm lithography and support Front Side Bus speeds ranging from 533 MHz to 1600 MHz. In addition, the 45 nm die shrink of the Core microarchitecture adds SSE4.1 support to all Core 2 microprocessors manufactured at a 45 nm lithography, therefore increasing the calculation rate of the processors.

The Core 2 Solo,[32] introduced in September 2007, is the successor to the Core Solo and is available only as an ultra-low-power mobile processor with 5.5 Watt thermal design power. The original U2xxx series "Merom-L" used a special version of the Merom chip with CPUID number 10661 (model 22, stepping A1) that only had a single core and was also used in some Celeron processors. The later SU3xxx are part of Intel's CULV range of processors in a smaller μFC-BGA 956 package but contain the same Penryn chip as the dual-core variants, with one of the cores disabled during manufacturing.

Inside of a Sony VAIO laptop (VGN-C140G)

The majority of the desktop and mobile Core 2 processor variants are Core 2 Duo[33][34] with two processor cores on a single Merom, Conroe, Allendale, Penryn, or Wolfdale chip. These come in a wide range of performance and power consumption, starting with the relatively slow ultra-low-power Uxxxx (10 W) and low-power Lxxxx (17 W) versions, to the more performance oriented Pxxxx (25 W) and Txxxx (35 W) mobile versions and the Exxxx (65 W) desktop models. The mobile Core 2 Duo processors with an 'S' prefix in the name are produced in a smaller μFC-BGA 956 package, which allows building more compact laptops.

Within each line, a higher number usually refers to a better performance, which depends largely on core and front-side bus clock frequency and amount of second level cache, which are model-specific. Core 2 Duo processors typically use the full L2 cache of 2, 3, 4, or 6 MB available in the specific stepping of the chip, while versions with the amount of cache reduced during manufacturing are sold for the low-end consumer market as Celeron or Pentium Dual-Core processors. Like those processors, some low-end Core 2 Duo models disable features such as Intel Virtualization Technology.

Core 2 Quad[35][36] processors are multi-chip modules consisting of two dies similar to those used in Core 2 Duo, forming a quad-core processor. This allows twice the performance of a dual-core processors at the same clock frequency in ideal conditions.

Initially, all Core 2 Quad models were versions of Core 2 Duo desktop processors, Kentsfield derived from Conroe and Yorkfield from Wolfdale, but later Penryn-QC was added as a high-end version of the mobile dual-core Penryn.

The Xeon 32xx and 33xx processors are mostly identical versions of the desktop Core 2 Quad processors and can be used interchangeably.

Core 2 Extreme processors[37][38] are enthusiast versions of Core 2 Duo and Core 2 Quad processors, usually with a higher clock frequency and an unlocked clock multiplier, which makes them especially attractive for overclocking. This is similar to earlier Pentium processors labeled as Extreme Edition. Core 2 Extreme processors were released at a much higher price than their regular version, often $999 or more.

Skylake is the sixth generation Core processor microarchitecture, and was launched in August 2015. Being the successor to the Broadwell line, it is a redesign using the same 14 nm manufacturing process technology; however the redesign has better CPU and GPU performance and reduced power consumption. Intel also disabled overclocking non -K processors.

Kaby Lake is the codename for the seventh generation Core processor, and was launched in October 2016 (mobile chips)[73] and January 2017 (desktop chips).[74] With the latest generation of microarchitecture, Intel decided to produce Kaby Lake processors without using their "tick–tock" manufacturing and design model.[75] Kaby Lake features the same Skylake microarchitecture and is fabricated using Intel's 14 nanometer manufacturing process technology.[75]

Built on an improved 14 nm process (14FF+), Kaby Lake features faster CPU clock speeds and Turbo frequencies. Beyond these process and clock speed changes, little of the CPU architecture has changed from Skylake, resulting in identical IPC.

Kaby Lake features a new graphics architecture to improve performance in 3D graphics and 4K video playback. It adds native High-bandwidth Digital Content Protection 2.2 support, along with fixed function decode of H.264/MPEG-4 AVC, High Efficiency Video Coding Main and Main10/10-bit, and VP9 10-bit and 8-bit video. Hardware encode is supported for H.264/MPEG-4 AVC, HEVC Main10/10-bit, and VP9 8-bit video. VP9 10-bit encode is not supported in hardware. OpenCL 2.1 is now supported.

Kaby Lake is the first Core architecture to support hyper-threading for the Pentium-branded desktop CPU SKU. Kaby Lake also features the first overclocking-enabled i3-branded CPU.

Features common to desktop Kaby Lake CPUs:

• LGA 1151 socket
• DMI 3.0 and PCIe 3.0 interfaces
• Dual channel memory support in the following configurations: DDR3L-1600 1.35 V (32 GiB maximum) or DDR4-2400 1.2 V (64 GiB maximum)
• A total of 16 PCIe lanes
• The Core-branded processors support the AVX2 instruction set. The Celeron and Pentium-branded ones support only SSE4.1/4.2
• 350 MHz base graphics clock rate
• No L4 cache (eDRAM).
• A release date of January 3, 2017

Kaby Lake-X processors are modified versions of Kaby Lake-S processors that fit into the LGA 2066 socket. However, they can't take advantage of the unique features of the platform.

Coffee Lake is a codename for the eighth generation Intel Core family and was launched in October 2017. For the first time in the ten-year history of Intel Core processors, the Coffee Lake generation features an increase in core counts across the desktop lineup of processors, a significant driver of improved performance versus previous generations despite similar per-clock performance.

* Intel Hyper-threading capabilities allow an enabled processor to execute two threads per physical core

Coffee Lake features largely the same CPU core and performance per MHz as Skylake/Kaby Lake.[77][78] Features specific to Coffee Lake include:

• Following similar refinements to the 14 nm process in Skylake and Kaby Lake, Coffee Lake is the third 14 nm process refinement ("14nm++") and features increased transistor gate pitch for a lower current density and higher leakage transistors which allows higher peak power and higher frequency at the expense of die area and idle power.
• Coffee Lake will be used in conjunction with the 300-series chipset and is incompatible with the older 100- and 200-series chipsets.[79][80]
• Increased L3 cache in accordance to the number of cores
• Increased turbo clock speeds across i5 and i7 CPUs models (increased by up to 200 MHz)
• Increased iGPU clock speeds by 50 MHz
• DDR4 memory support updated for 2666 MHz (for i5 and i7 parts) and 2400 MHz (for i3 parts); DDR3 memory is no longer supported

Amber Lake is a refinement over the low power Mobile Kaby Lake CPUs.

Whiskey Lake is Intel's codename for the third 14 nm Skylake process-refinement, following Kaby Lake Refresh and Coffee Lake. Intel announced low power mobile Whiskey Lake CPUs availability on August 28, 2018.[82][83] It has not yet been advertised whether this CPU architecture contains hardware mitigations for Meltdown/Spectre class vulnerabilities—various sources contain conflicting information.[84][85][83][86] Unofficially it was announced that Whiskey Lake has hardware mitigations against Meltdown and L1TF while Spectre V2 requires software mitigations as well as microcode/firmware update.[87][88][89][90]

• 14++ nm process, same as Coffee Lake
• Increased turbo clocks (300–600 MHz)
• 14 nm PCH
• Native USB 3.1 gen 2 support (10 Gbit/s)
• Integrated 802.11ac 160 MHz Wi-Fi and Bluetooth 5.0
• Intel Optane Memory support

Cannon Lake (formerly Skymont) is Intel's codename for the 10-nanometer die shrink of the Kaby Lake microarchitecture. As a die shrink, Cannon Lake is a new process in Intel's "process–architecture–optimization" execution plan as the next step in semiconductor fabrication.[91] Cannon Lake are the first mainstream CPUs to include the AVX-512 instruction set. In comparison to the previous generation AVX2 (AVX-256), the new generation AVX-512 most notably provides double the width of data registers and double the number of registers. These enhancements would allow for twice the number of floating point operations per register due to the increased width in addition to doubling the overall number of registers, resulting in theoretical performance improvements of up to four times the performance of AVX2.[92][93]

At CES 2018, Intel announced that they had started shipping mobile Cannon Lake CPUs at the end of 2017 and that they would ramp up production in 2018.[94][95][96] No further details were disclosed.

• AVX-512 instruction set extension
• Intel's first 10 nm process technology

The 9th generation Skylake CPUs are updated versions of previous Skylake X-Series CPUs with clockspeed improvements.

The 9th generation Coffee Lake CPUs were released in the fourth quarter of 2018. They include hardware mitigations against certain Meltdown/Spectre vulnerabilities.[97][98]

For the first time in Intel consumer CPU history, these CPUs support up to 128 GB RAM.[99]

* Intel Hyper-threading capabilities allow an enabled processor to execute two threads per physical core

Even though the F suffix CPUs lack an integrated GPU, Intel set the same price for these CPUs as their featureful counterparts.[100]

* various reviews show that the Core i9 9900K CPU may consume over 140 W under load. The Core i9 9900KS may consume even more.[101][102][103][104]

Cascade Lake X-Series CPUs are the 10th generation versions of the previous Skylake X-Series CPUs. They offer minor clockspeed improvements and a highly reduced price.

Ice Lake is codename for Intel's 10th generation Intel Core processors, representing an enhancement of the 'Architecture' of the preceding generation Kaby Lake/Cannon Lake processors (as specified in Intel's process–architecture–optimization execution plan). As the successor to Cannon Lake, Ice Lake uses Intel's newer 10 nm+ fabrication process, and is powered by the Sunny Cove microarchitecture.

Ice Lake are the first Intel CPUs to feature in-silicon mitigations for the hardware vulnerabilities discovered in 2017, Meltdown and Spectre. These side-channel attacks exploit branch prediction's use of speculative execution. These exploits may cause the CPU to reveal cached private information which the exploiting process is not intended to be able to access as a form of timing attack.

• On average 18% increase in IPC in comparison to 2015 Skylake running at the same frequency and memory configuration[105][106]
• L1 instruction/data cache: 32 KB / 48 KiB; L2 cache: 512 KiB[83]
• Dynamic Tuning 2.0 which allows the CPU to stay at turbo frequencies for longer[107][108]
• Six new AVX-512 instruction subsets: VPOPCNTDQ, VBMI2, BITALG, VPCLMULQDQ, GFNI, and VAES
• AI tasks acceleration, Intel Deep Learning Boost[109][108]

• Gen 11 GPU with up to 64 execution units;[110][111] 4K@120 Hz, 5K, 8K display output[112]
• Variable Rate Shading[113][114]
• DisplayPort 1.4a with Display Stream Compression; HDMI 2.0b
• Up to 1.15 TFLOPS of computational performance
• Two HEVC 10-bit encode pipelines, either two 4K60 4:4:4 streams simultaneously or one 8K30 4:2:2[108]