Intel’s manufacturing of semiconductors: the top 10 nm is less efficient than the 14-nm and 22-nm”

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It’s not going to be at the meeting: Intel’s chief financial officer George Davis said at a Morgan Stanley conference (starting at Minute 19:58), 10-nm process will come not to the productivity of the 14-nm Nodes, and the same for the back of the 22-nm technology will remain. What is meant by this is that the on-Chip throughput (Yield) and, consequently, the amount of the sale of the machine.

The job market

  1. Federal News Service, Gauting
  2. At InnoGames GmbH (Hamburg,



Intel has, for many years, with a 10-nm process, in fact, he was scheduled for in 2015, and then it was pushed back due to problems on and on. In addition, in connection with the 14-nm has been improved-method-of-way to the steady, Intel, and spoke in this context of the 14-nm and 14++ – nm. The return Rate is extremely high, in the past few years, Intel went to a self-imposed cul-de-SAC in the capacity of production.

At the time of the four cores in the Desktop Segment, we are just a ten-cores in the Server area, there are now 28 instead of 24 Cores. Add to that, Intel had a stretch of 14+ to nm, even for the Transistor Gate pitch is 70 nm and 84 nm, in order to be capable of higher clock rates of up to approximately 5 gigahertz (GHz) to be achieved, and a chip in the penalty area paid off. The move to 10 nm, it is extremely important that the first Project – the Cannon on the Lake R the flop, but it’s going to be huge, and in the second the Ice on the Lake, J/Y is so far only available for Ultrabooks that are available. Based on the quad-core, it’s very interesting how Intel wants to make the Server CPUs with up to 38 cores from the Ice Pond, SP.

For the sake of 10 nm to 14 nm, which is five years after the optimization, it is not surprising. In the process, 14 nm, I have had a few problems in the first place, Intel has not been able to achieve the rates and with the Broadwell Generation is provided to the clock on the Desktop of the Thread was to CPUs like the Core i7-5775C (Tester), therefore, when they are one month old. From Intel’s point of view, dread is more than 10 nm and less productive than that of the 22 nm, it was not the ripe time of 14 nm. After you have it all: a 7-nm, Intel is going to take a strong and 5 nm, and then back to the front of the competition – we’re all curious.

The nuclei of theWatchThe TurboL3 CacheiGPUThe memoryPROCESS
The Core i7-1068 G-7With 4 or more TE2.3 GHz4.1 GHz8 MBIris Is The Most Power 64 Y) @ 1.1 GHzLPDDR4X-3733The 28-Watt
The Core i7-1065 G-7With 4 or more TE1.3 GHz3.9 GHz8 MBIris Is The Most Power 64 Y) @ 1.1 GHzLPDDR4X-373315-25 Watts
The Core i5-1035 G-7With 4 or more TEThe 1.2 GHz processor3.7 GHz6 MBIris Is The Most Power 64 Y) @ 1.05 GHzLPDDR4X-373315-25 Watts
The Core i5-1035 G-4With 4 or more TE1.1 GHz3.7 GHz6 MBIris Is More Of The Graphics (48 EUs) @ 1.05 GHzLPDDR4X-373315-25 Watts
The Core i5-1035 1With 4 or more TE1.0 GHz processor3.6 GHz6 MBUHD Graphics-In (32-I) @ 1.05 GHzLPDDR4X-373315-25 Watts
The Core i3-1005 1The 2 + TEThe 1.2 GHz processor3.4 GHz4 MBUHD Graphics-In (32-Y) @ For 0.9 GHzLPDDR4X-373315-25 Watts

The specifications of the Ice on the Lake in the U

The nuclei of theWatchThe TurboL3 CacheiGPUThe memoryPROCESS
The Core i7-1060 G-7With 4 or more TE1.0 GHz processorAt 3.8 GHz8 MBIris Is The Most Power 64 Y) @ 1.1 GHzLPDDR4X-37339 to 12 Watts
The Core i5-1030 G-7With 4 or more TE0.8 GHz processorThe 3.5 GHz band6 MBIris Is The Most Power 64 Y) @ 1.05 GHzLPDDR4X-37339 to 12 Watts
The Core i5-1030-G4With 4 or more TEAt 0.7 GHzThe 3.5 GHz band6 MBIris Is More Of The Graphics (48 EUs) @ 1.05 GHzLPDDR4X-37339 to 12 Watts
The Core i3-1000 G4The 2 + TE1.1 GHz3.2 GHz6 MBIris Is More Of The Graphics (48 EUs) @ 0,9 GHzLPDDR4X-37339 to 12 Watts
The Core i3-1000 1The 2 + TE1.1 GHz3.2 GHz6 MBUHD Graphics-In (32-Y) @ For 0.9 GHzLPDDR4X-37339 to 12 Watts

The specifications of the Ice on the Lake and the Y

Note: The table lists Intel’s previous-and 15-Watt Chips in the last few years, including examples of the templates and it gives you an insight of which processors are planned for the future.

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An Example Of The ChipProductionThe cores of the CPU + graphicsiGPU ĀµArchRelease
ArrandaleThe Core i5-520UMThe 32-nm2 x GT2In Gen5.75In the two-thousand-and-ten
Sandy BridgeThe Core i5-2537MThe 32-nm2 x GT2Gen6The two-thousand-and-eleven
Ivy BridgeThe Core i5-3427U22 nm2 x GT2Gen7Two-thousand and twelve
Haswell ULTThe Core i5-4300U22 nm2 + GT2, 2 X GT3Gen7.5The two-thousand-and-thirteen
Broadwell-UThe Core i5-5300U14 nm2 + GT2, 2 X GT3Gen8The two-thousand-and-fourteen
Skylake-UThe Core i5-6300U14 nm2 + GT2, 2 + GT3eGen9The two-thousand-and-fifteen –
Kaby Lake In The UThe Core i5-7300U14+ to nm2 + GT2, 2 + GT3eGen9.5Two-thousand and nine
Kaby Lake In The UpdateThe Core i5-8350UThe 14-nm++4 and GT2, 4 + GT3eGen9.5Two-thousand and seventeen
The Cannon Lake-UThe Core i3-8121UA 10-nm2 x GT2 (off)byGen10Two thousand and eighteen
That’s My Lake In The UThe Core i5-8265UThe 14-nm++4 and GT2Gen9.5Two thousand and eighteen
The Ice Of The Lake In The UThe Core i5-1035 G-710+ to nm2 X GT2, 4 AND GT2Gen11Two thousand and seven
Comet Lake In The UThe Core i5-10210UThe 14-nm++2 + 2, 4 + 2, 6 + GT2Gen9.5Two thousand and seven
Rocket Lake In The UThe Core i5-11xx-Wheel – (?)14++ – nm 10+ to nm4 AND GT2, 6 + GT2Gen12 (X)The two-thousand-and-twenty, and
The Tiger Of The Lake UThe Core i5-12xx-Wheel – (?)10+ to nm4 and GT2Gen12 (X)The two-thousand-and-twenty, and

The Core of generations (the Mobile Client) from-Intel-at-a-Glance