Intel 10th-Gen Ice Lake CPUs: News, Rumors, Specs, Price, and Release Date

Intel has been shooting the 10nm architecture for years, and eventually achieved that with the Ice Lake CPU. Years of forecasting and hype surrounding Intel’s delayed process created an exciting aura around Ice Lake in 2019 for a small process node. In 2021, after being launched and gone, it is clear that Ice Lake represents a stepping stone for Intel, even though the platform was not delivered in all the ways we expected it to.

From pricing to performance and connectivity changes, we’ve rounded up everything you need to know about the 10th-gen Ice Lake CPU. While they are faster than the generation that moved forward, Intel has already started rolling out its 11th-gen Tiger Lake platform, which improves on its own.

Pricing and availability

Ice Lake was officially announced at CES 2019 and although it was initially given a rough release date for the Holiday season 2019, only a few months later Intel released the laptop and mobile Ice for 2-in-1 Lake began to announce CPUs. At the time, Intel announced U-series and Y-series processors and many, including us, anticipated more. However, Ice never released some OEM-exclusive parts under the name Ice Lake.

Mobile Comet Lake was launched shortly after the Ice Lake launch (often referred to as Comet Lake-H or Comet Lake-U). This caused a problem, as Intel was actively supplying system manufacturers with two separate 10th-gen mobile lines. For example, Dell chose their 2020 XPS 15 with Comet Lake-H chips while sticking with Ice Lake for the XPS 13.

And now as Intel moves forward with its 11th Gene Tiger Lake platform, Ice Lake is slowly fading. You can still find Ice Lake machines as early as 2021, however, ranging from $ 500 for the Dell Aciron 15 3000 to around $ 1,200 for some Acer Swift 5 models with the i3-1005G1 (mostly now 11th. – being replaced with gene chips).

Performance and architecture

Ice Lake is built on Intel’s Sunny Cove architecture that uses a 10nm process. When combined with software tweaks that allow on-the-fly adjustments for memory frequency and screen refresh rate, ice-lake-equipped laptops should be very energy efficient. Intel told Digital Trends that Sunny Cove should extend laptop battery life by more than a day. In some early prototypes it was successful for up to 25 hours.

Our testing of the Ice Lake-equipped Dell XPS 13 2-in-1 and the HP Specter X360 13 supported claims of longer battery life. Under ideal conditions, a 1 x-watt, 1080p screen like the available Spector x360, an Ice Lake laptop can last all day. Under intensive use, or with a higher resolution screen, battery life is still dramatically reduced.

Most will be more interested in the performance, however. Initial performance testing of these chips seems strong, with a significant improvement in graphical power over 8th generation counterparts.


Blank threadsGraphics (execution units)CashBase clockBoost clock (all-core)Graphics boost clockTDP
Intel Core i7-1068G74/8Iris Plus (64)8 MB2.3GHz4.1GHz (3.6GHz)Is 1.1GHz28 W
Intel Core i7-1065G74/8Iris Plus (64)8 MBIs 1.3GHz3.9GHz (3.5GHz)Is 1.1GHz15 W / 25 W
Intel Core i5-1035G74/8Iris Plus (64)6 MBIs 1.2GHz3.7GHz (3.3GHz)Is 1.05GHz15 W / 25 W
Intel Core i5-1035G44/8Iris Plus (48)6 MBIs 1.1GHz3.7GHz (3.3GHz)Is 1.05GHz15 W / 25 W
Intel Core i5-1035G14/8UHD (32)6 MB1.0GHz3.6GHz (3.3GHz)Is 1.05GHz15 W / 25 W
Intel Core i3-1005G12/4UHD (32)4 MBIs 1.2GHz3.4GHz (3.4GHz)0.9GHz15 W / 25 W

Y series

Blank threadsGraphics (execution units)CashBase clockBoost clock (all-core)Graphics boost clockTDP
Intel Core i7-1060G74/8Iris Plus (64)8 MB1.0GHz3.8GHz (3.4GHz)Is 1.1GHz9 w / 12 w
Intel Core i5-1030G74/8Iris Plus (64)6 MB0.8Ghz3.5GHz (3.2GHz)Is 1.05GHz9 w / 12 w
Intel Core i5-1030G44/8Iris Plus (48)6 MB0.7Ghz3.5Ghz (3.2GHz)Is 1.05GHz9 w / 12 w
Intel Core i3-1000G42/4Iris Plus (48)4 MBIs 1.1GHz3.2GHz (3.2GHz)0.9GHz9 w / 12 w
Intel Core i3-1000G12/4UHD (32)4 MBIs 1.1GHz3.2GHz (3.2GHz)0.9GHz9 w / 12 w

There’s a lot to digest here, with Intel changing its naming conventions for chips, as well as providing specific configurations of hardware. Combined with broad-range TDP numbers, we suggest that we may perform differently from different chips depending on which laptop they depend on.

At the top end, the Core i7 CPU still rules the roost with four cores and full support for hyperthreading. They enjoy the greatest amount of cache, the most boosting clocks on singles and all cores (though not always the highest base clock), as well as the most powerful graphics. Core i5 chips are not very different, usually playing the same core and thread, but promote slightly weaker CPU and graphics clocks.

Core i3 CPUs now represent even more of an entry-level chip, with a maximum of two cores in the U and Y-series, with much weaker, last-generation UHD graphics. The boost clock speed however remains reasonable, which brings us to the discussion of TDP.

TDP is a figure that combines the power requirements and thermal dissipation requirements. But in this case, there are two figures, which suggest that if manufacturers put these chips into laptops or tablets with strong cooling, performance can increase or maintain over a longer period of time. All TDPs may exceed the expectation of a new, die-shrinking architecture, but instead of leveraging this to improve efficiency and reduce power requirements, Intel instead doubles on performance . Intel told us, for example, that the high-end 28-watt portion has a higher TDP to support more powerful graphics.

This was played out in our test of the OLED HP Spector x360 13, where we saw noticeable improvements in processing and graphical power from the Intel Core i7-1065G7 under the hood compared to the previous generation.

More recent and decisive head to head testing by the likes of PCPer suggests that Ice Lake holds various advantages over its predecessors in the eighth generation. The CPU core is between 10% and 50% faster, depending on the benchmark, but is far more capable graphically, often increasing the benchmark score by 100%.

Ice Lake also supports a new instruction set: AVX 512. Although it is unlikely to have much application for the average worker or gamer, when it comes to high-powered AI tasks, cryptography or video editing, it The new instruction set may have a dramatic effect on performance once it is more widely adopted. When combined with Ice Lake’s new support for vector neural network instructions, anything that incorporates AI – such as visual image search or smart assistants – can see dramatic improvements in response time.

The problem in 2021 is that Intel has already pushed ahead. Ice Lake tops four cores and eight threads, while Mobile Comet Lake chips reach eight cores and 16 threads. With the architectural improvements of Ice Lake, mobile Comet Lake chips have more horsepower, making Ice Lake i7 roughly equivalent to a Mobile Comet Lake i5. This is clearly visible on most benchmarks, with ice lake chips flown by low-end Comet Lake offerings.

Iris plus graphics

Beyond the central processing capabilities of Ice Lake chips, the Core i5s and Core i7s also incorporate 11th-generation Intel graphics cores. This is just a generation away from Intel’s 12th-gen architecture for Rocket Lake processors and upcoming dedicated GPUs. Branded as “Iris Plus”, this new integrated graphics option gives the Ice Lake laptop a significant boost over Intel UHD graphics.

In actual play, this means a greater uplift in performance. Examples given by Intel include more than 40 fps (frames per second) Fortnite At medium settings and at 80 fps Cs: go On medium settings. It still doesn’t compare everyone to discrete graphics, but it’s a nice jump from basic Intel UHD graphics and competes favorably with AMD’s onboard Vega core, as we saw on our Surface Laptop 3 Seen in review.

We do not recommend relying on internal benchmarks, and our testing of Iris Plus shows why. With the XPS 13 2-in-1, we averaged 35 fps Fortnite On medium settings, just shy of the number provided by Intel. However, with the HP Specter x360, we were able to manage just 12 fps. Ice Lake was a major step forward for Intel in terms of integrated graphics, but the move was still relative.

Other benchmarks suggest that. Compared to older generations of integrated graphics, Ice Lake is a clear and obvious improvement. Still, the high-end G7 graphics are inferior to Nvidia’s MX250 mobile GPU. Even the cheapest dedicated GPUs drive the ice lake out of the water. in Rocket league, For example, a GTX 1650 Max-Q delivers more than the framerate of an Iris Plus G7.

The important thing here is that ice lake chips can actually be Daud Games older than a few years old in sports, games and acceptable framerates. In 2021, however, it is difficult to recommend Ice Lake for its graphics. Tiger Lake mobile processors are superior for entry-level gaming with their 12th-generation X graphics.

Better connectivity

HP Viewer Folio
Jeremy Kaplan / Digital Trends

In keeping with wireless networking trends, Ice Lake has native support for Wi-Fi 6 (, which gives devices access to the highest speeds of wireless Internet and local data transfer. As more Wi-Fi 6 router options are available, we will see real results of significant increases in speed coming with the new standard, which can provide up to 70% reduction in latency.

Intel’s own version is called Wi-Fi 6 Gig +, which doubles Wi-Fi 6’s support of 80MHz channels up to 160MHz.

Another high-speed connectivity is the Ice Lake Champion Thunderbolt. 3. The architecture for Thunderbolt support on Ice Lake allowed the port to be easily adjusted on both sides of the system, similar to Apple’s MacBook Pro implementation. In addition, simplifying the Thunderbolt design will reduce power consumption by up to 300 milliwatts per port when the port is fully used.

Spector and Meltdown

Specter meltdown

Ice Lake’s architecture, Specter and Meltdown at Sunny Cove are hardware fixes for architectural defects, which have caused a lot of disruption between hardware manufacturers and software developers over the past year. We’ve seen several microcode fixes for the most affected, recent generation chips, and some of Intel’s ninth-generation chips have implemented hardware fixes for specific instances of these exploits.

However, Intel has confirmed that Ice Lake surpasses that, representing the first mainstream CPU generation from Intel to reduce key spectral variants at the silicon level. It also means that some performance-impact stop-gap solutions that protect users against these exploits do not exist, although most think it is unlikely that Ice Lake will be able to stop all possible exploitation routes , And there is no accounting for new mitigation. Which will be implemented in the future.

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