Intel details Tiger Lake architecture improvements

 Intel details Tiger Lake 

architecture improvements


Intel details Tiger Lake architecture improvements


Intel Tiger Lake is prepared to compete with the AMD Ryzen 4000 Mobile in mobile computing because of a completely new architecture, a redesigned manufacturing process, higher CPU performance with increased frequencies and caches, better power efficiency, and an integrated graphics of latest generation that promises great potential.


Intel isn't browsing its best moment thanks to the delay within the production of chips; the troublesome transition to 10 nm processes; the increased competition from AMD and therefore the repercussions that Apple silicon will have for the industry. But we already anticipated that the chip giant has talent and means to beat things.


The company has held the virtual event "Architecture Day 2020" to detail the progress within the six pillars of technological innovation during which it's working: processes and packaging, architecture, memories, interconnections, security, and software. A technical appetizer for the merchandise presentation expected on September 2. We already gave you a full account of the graphic section yesterday and today we'll review what we will expect from the new processing platform.



Intel Tiger Lake, architecture

Intel has spent years refining its FinFET transistor technology that began with the 2012 ivy bridges. That technology enabled Intel to style "3D" transistors that were much faster and more efficient than previously used flat designs. With Intel Tiger Lake you're ready for the subsequent leap.


The company calls it " SuperFin, " an acronym to elucidate that it uses SuperMIM capacitors and redesigned FinFET transistors. the overall technological process continues at 10 nm, but it's a stimulating hint of what the ultimate 7-nanometer developments should offer once they hit the market. The result's that these "Tigers" will represent the most important single internode upgrade in Intel's history.


Intel Tiger Lake, architecture


Also interesting (at the marketing level) that Intel uses a clear name to define the processes and not the standard ++++ utilized in recent years. Intel's own engineers explained that even they often have a tough time remembering which variant + have specific updates or which product is made on which node +. These sorts of definitions became as confusing for clients because it is for experts.


Intel details Tiger Lake architecture improvements


The processing cores also are new, the Willow Cove that has got to beat the present Sunny Cove of the platform "Ice Lake" altogether fields. Intel promises a 10-20% CPU performance increase over its Ice Lake counterparts. this is often achieved with the new architecture, the greater number of L2 and L3 caches, and a substantial increase within the working frequency with values ?? on the brink of 5 GHz in turbo mode.


Intel details Tiger Lake architecture improvements


It should be mentioned that increasing clock speeds won't cause higher power consumption. The Willow Cove features a greater dynamic range and greater efficiency than the Sunny Cove processors; they will operate at lower and better voltages, and their frequencies also are higher at an equivalent voltage. If you're curious about technical details, Anandtech has published a piece of writing (as impressive as usual) with all the knowledge. 



Intel Tiger Lake, other news

Another point of interest of those Intel Tiger Lake is going to be the graphic section. The processors will debut the integrated Gen 12 graphics supported the new Xe line which will also produce the primary dedicated Intel in 20 years. they're going to feature up to 96 execution units and significant efficiency improvements in performance per watt. From the previous tests we all know of thus far, they're expected to double the performance of the Intel HDs and outperform the NVIDIA GeForce MX350.


Intel Tiger Lake, other news


More news will come to the section of memories with the discharge of support for LPDDR5. These processors are going to be ready to handle a memory bandwidth of up to 86 GB / s, support LP4x-4267, validated DDR4-3200, and LPDDR5 up to 5400 MHz.


The Intel Tiger Lake also will be the primary to supply integrated support for the new Thunderbolt 4 interface. Connected to USB 4, it maintains the very best performance within the industry with 40 Gbps of bandwidth, it'll be ready to increase the dimensions of the cabling, the utmost of ports and it'll ultimately become the external connectivity standard of the longer term.


Other improvements cited by Intel will come from the "massive" performance increase in AI tasks and lower CPU overhead with a replacement Gaussian network accelerator (GNA 2.0).


Intel has left the announcement of models for subsequent events to be persisted September 2. We assume there'll be Core i3, i5, and i7 versions to hide the complete spectrum of mobile computing needs that they're designed. Yesterday we saw one among them within the leak of an HP Pavilion. A Core i7-1165G7 with four processing cores (twice as many threads) that surprised by a maximum frequency of 4.8 GHz.


We will not advance events, but Intel Tiger Lake is going to be an excellent advance. On September 2 we'll tell you more.


No comments