According to a recent report, Intel’s next-gen enthusiast desktop H series processors will be based on the 10nm manufacturing process, and the performance will be higher than their predecessors. For example, the Core i9-9980HK processor will have base and boost frequency of up to 3.8GHz and 4.7GHz respectively, and is also expected to provide 50% improvement in performance.
Hey folks, my name is John, and I’ll be taking over the blog. I’m just getting started with blogging, but I’m already obsessed with all of the technology I cover. In this post, I want to give you a preview of what to expect from Intel’s newest generation of chips.
Last month at IDF, Intel revealed that its next-gen H-Series processors will use a 10nm process. This is a step up from the current 14nm technology on the current Kaby Lake processors. The benefits of using a smaller process node should be seen in lower power consumption, which will translate to lower thermals and less noise. However, power efficiency is not the only benefit of the new process. Intel claims that the 10nm process will allow OEMs to offer smaller devices and batteries.
If you’re an avid gamer, you know that Intel is losing its grip on the video game industry. Whether it’s desktop workstations or gaming laptops, AMD chipsets are leading the way because they offer better performance and are cheaper than their Intel counterparts.Even though Intel will release the 11th generation Tiger Lake processors in 2024. When the first generation was launched with the 10nm Superfin process technology, the offerings were limited to ultraportable devices and no high-performance processors were launched. Then in 2024, Intel released the H35 series of gaming processors, but even these processors were limited in terms of performance, as their maximum TDP was 35W.
However, Intel released its 11th generation H-series processors last month. Intel claims that they will deliver better performance than the competition. What changes has Intel made to its chipsets to compete with AMD?
There’s a lot going on with Intel’s new processors, and we take a look at everything about Intel’s new H-series processors.
The H-series processors are divided into two parts. S-series processors are codenamed Rocket Lake for desktops and Tiger Lake series processors for laptops.
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The manufacturing process of a processor is critical to its performance. A more compact manufacturing process contributes to better performance per watt and allows manufacturers to include more transistors in their chipsets.
Intel has struggled with the manufacturing process in the past and has stuck with the 14-nanometer process for its high-performance processor line. That changed with the release of the new 11th generation laptop processors. Generation H, and Intel began producing its powerful laptop processors using 10-nanometer Superfin technology.
Desktop processors, on the other hand, use a 14-nanometer technology process instead of 10 nanometers.
Early versions of the H-series processors were limited to a four-core design, but the new H-series processors have up to 8 cores. This increase in the number of cores provides better performance for multi-threaded workloads.
Source: Intel
The notebook’s processor cores use the new Willow Cove architecture, which delivers a 19 percent performance gain over the previous Sunny Cove architecture.
On the other hand, the desktop processors use the Cypress Cove architecture, a 14-nanometer implementation of the Sunny Cove architecture. While this new architecture provides performance gains, it limits the number of cores to 8. This number of cores is lower than the 10-core design that was possible in older Comet Lake processors.
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The new manufacturing process and architecture allows Tiger Lake processors to reach clock speeds of up to 5 GHz, compared to 4 GHz for older Ice Lake processors.
Source: Intel
In addition, the mobile processors come with a speed optimizer and tuning program from Intel, which allows users to overclock the processors to further improve performance.
In desktop PCs, processors can run up to 5.3 GHz with Intel Turbo Boost Technology.
The Willow Cove design increases the L2 cache from 512 KB to 1.25 MB. Increasing the size of the cache allows more data to be stored close to the processor, improving performance.
In addition to the increase in cache size, the cache design moves from an inclusive to a non-inclusive architecture. This change in architecture improves performance by eliminating cache revalidation. However, increasing the cache size can increase access time, and using a non-inclusive design requires additional hardware to comply with the cache coherence rules.
For desktop processors, the L2 cache has been doubled to 512 KB compared to older models. On the other hand, the L3 cache is divided into pieces of 2 MB each, so the total size of the L3 cache is 16 MB.
Also read : What is a processor cache? Explanation of the L1, L2 and L3 cache
For graphics-intensive tasks, most workstations use discrete graphics processors. However, due to the power consumption of discrete GPUs, Intel integrates GPUs into its high-performance systems. This dual GPU design increases power efficiency by allowing the system to switch between discrete and dedicated GPUs depending on the task at hand.
Source: Intel
The Tiger Lake processors use the latest Intel Xe graphics, but the system has only 32 blocks, compared to 96 for other Tiger Lake processors, in terms of execution blocks. The main reason for this downgrade is that most gaming laptops are equipped with powerful discrete GPUs like the GTX 3060.
Although the new chipsets use Xe graphics, they are still listed as Intel UHD graphics solutions.
In addition, the new Intel H-Series processors offer the ability to change the panel size. This feature allows the CPU to access the GPU’s VRAM via PCI Express lines, enabling faster data transfer for textures, shaders, and geometry stored in VRAM.
Only the RTX 30 series GPUs can adjust the panel size.
On desktop systems, the GPU has also been updated to use Intel Xe graphics for the first time. Intel claims that this new GPU architecture increases GPU performance by 50%.
The GPU and fast memory systems are connected to the CPU via PCI Express lanes. Therefore, the transfer rate of these traces can be an important factor in the performance of your system.
Intel supports PCI Gen 4 on its chipsets with the H-Series processors, doubling the data transfer rate compared to PCI Gen 3. Intel also offers 20 PCI Gen 4 lanes for enhanced connectivity.
In addition, Intel offers RAID 0 for data storage, allowing the processor to read/write data from two or more hard drives simultaneously. This allows the processor to store the operating system on two different hard drives, which speeds up the system’s boot time.
Source: Intel
The new processors also feature Thunderbolt 4. Although Thunderbolt 3 and 4 are quite similar, users can connect an 8K display or two 4k displays at once, which was not possible with Thunderbolt 3. Thunderbolt 4 also increases data transfer speeds to PCI Express drives to 32 Gbps. This increase in speed helps users transfer data faster when moving large files.
In terms of Wi-Fi connectivity, the new processors support WIFI 6e. This allows your system to connect to the Wi-Fi router on the 6 GHz band, which offers less network congestion and higher data transfer rates.
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When it comes to processor names, Intel uses a lot of jargon and if you want to understand things better, you can read our article on Intel i3, i5, i7 and i9 processors.
Below is a list of the 11th generation mobile processors. Intel H-Series generation.
Mobile processor 11. Generation H | Cores/Currents | Supported memory speed (MHz) | Base frequency (GHz) | Maximum speed of a core | Maximum speed of two cores | Maximum speed of the Quad-Core | Maximum speed of the six-core core | Maximum speed of the Octa-Core | TDP | GPU Min/Max Clock Frequency (MHz) |
i9-11980HK | 8C/16T | 3200 (DDR4) | 2.6 | 5.0 | 5.0 | 4.9 | 4.7 | 4.5 | 65W | 350/1450 |
Core i9-11900H | 8C/16T | 3200 (DDR4) | 2.5 | 4.9 | 4.9 | 4.8 | 4.6 | 4.4 | 35W | 350/1450 |
Core i7-11800H | 8C/16T | 3200 (DDR4) | 2.3 | 4.6 | 4.6 | 4.5 | 4.4 | 4.2 | 35W | 350/1450 |
Core i5-11400H | 6C/12T | 3200 (DDR4) | 2.7 | 4.5 | 4.5 | 4.3 | 4.1 | N/A | 35W | 350/1450 |
Core i5-11260H | 6C/12T | 3200 (DDR4) | 2.6 | 4.4 | 4.4 | 4.2 | 4.0 | N/A | 35W | 350/1450 |
By using Intel’s Thermal Speed Boost technology, single-core performance can reach up to 5 GHz under favorable conditions. In addition to the high clock speeds, the new memory controller offers faster data access by supporting speeds up to 3200 MHz.
For desktop processors of 11. The following models are available for the 3rd generation Intel H-Series.
11. Desktop processor. Generation H | Cores/Currents | Supported memory speed (MHz) | Base frequency (GHz) | Maximum speed of a core | Maximum speed of two cores | Maximum speed of the Octa-Core | TDP |
i9-11900K | 8C/16T | 3200 (DDR4) | 3.5 | 5.3 | 5.2 | 4.8 | 125W |
Core i9-11900KF | 8C/16T | 3200 (DDR4) | 3.5 | 5.3 | 5.2 | 4.8 | 125W |
Core i9-11900 | 8C/16T | 3200 (DDR4) | 2.5 | 5.2 | 5.1 | 4.7 | 65W |
Core i9-11900F | 8C/16T | 3200 (DDR4) | 2.5 | 5.2 | 5.1 | 4.7 | 65W |
Core i9-11900T | 8C/16T | 3200 (DDR4) | 1.5 | 4.9 | 4.8 | 3.7 | 35W |
Core i7-11700K | 8C/16T | 3200 (DDR4) | 3.6 | 5.0 | 4.9 | 4.6 | 125W |
Core i7-11700KF | 8C/16T | 3200 (DDR4) | 3.6 | 5.0 | 4.9 | 4.6 | 125W |
Core i7-11700 | 8C/16T | 3200 (DDR4) | 2.5 | 4.9 | 4.8 | 4.4 | 65W |
Core i7-11700F | 8C/16T | 3200 (DDR4) | 2.5 | 4.9 | 4.8 | 4.4 | 65W |
Core i7-11700T | 8C/16T | 3200 (DDR4) | 1.4 | 4.6 | 4.5 | 3.6 | 35W |
Intel has introduced many new features in its new chipsets. Here, Intel’s chipsets, GPU, motherboard and memory combine to deliver the performance users are looking for. So it’s important to see things as a total solution and not just look at the chips.
Also read : Comparison of all Intel Processor Generations
A technophile driven by curiosity. A bibliophile who loves to travel. An engineering graduate who loves programming and writing about new technologies. I can’t live without coffee.
You can contact Nishai via email: [email protected]The new 10nm processors have been the talk of the town since they were announced last year. We now understand how they will work in the next generation laptops and desktops, as well as the mobile devices they will enable.. Read more about intel 11th gen vs 10th gen and let us know what you think.
Frequently Asked Questions
Is 11th Gen Intel worth it?
Intel has launched the 8th Generation Intel Core H-series processors, code-named Coffee Lake, and they are here to offer the best performance on the desktop while at the same time bringing a higher performance with the same TDP. We want to know what you think about this new architecture; if you think it is worth it or not. With the great advances in technology in recent decades, the world has transitioned from using desktop computers to laptops to tablets to smartphones. Today, we can find almost every device connected to the internet. With all these devices, we have also gone through a shift in the way we interact with them. In this age of mobile devices, we are now more likely to be listening to music through our smartphones than through our computers. And these devices are now so powerful, that they easily handle all our daily tasks.
What is Intel Core H-Series?
Intel is now launching a new line of Core H series processors, known as Coffee Lake-H. The Core H series processors are manufactured on Intel’s 14nm++ process, which allows them to be both more energy efficient than previous models and more powerful than previous models. Major features include the ability to run up to 6 cores, 4 CPU cores that are capable of running at up to 4.1 GHz and 2.9 GHz, and up to 11 total threads. Every year, we are treated to new processors from Intel, and the H-Series has been no exception to this tradition. The latest in the line of Intel’s U-Series chips, the Core H-Series processors are designed to offer lower-power, bigger leaps in performance than the U-Series chips it replaces.
What is new in Intel 11th Gen?
The Intel 11th Gen processors are based on the Coffee Lake architecture and were launched in August 2018. Intel released a range of processors based on this architecture, including the Core i3/i5/i7, Pentium/Celeron and the Core i3/i5/i7 H-series. We have prepared a separate article about the Coffee Lake processors for you to read. Here we go again, Intel’s 11th Generation processors have been coming out fast and furious lately, but what exactly are they?
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