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Intel Releases Specs Core i3 i3-8121U and it is 10nm Cannon Lake
It's a mobile CPU used in laptops but still, Intel has added the Core i3-8121U to its ARK website, and that is the first chip produced at 10nm. The Core i3-8121U is a dual-core processor with a 2.2 GHz base clock and 3.2 GHz Turbo ability. This is a Hyper-threading enabled SKU and thus offers work on four threads.
What's interesting is that it is a 10nm cannon lake processor, which indicates that Intel is ready to fab 10nm processors in bigger volumes. When it comes to pure specifications, the Core i3-8121U really isn't an improvement compared to the Core i3-8130U, made at 14nm. That is a variant with a GPU and a higher turbo speed of 3.4 GHz, the Core i3-8121U does not get an IGP. The proc a has a cache of 4 MB also, totally similar. Laptops that use the Core i3-8121U will this require an extra GPU, something like the Radeon RX 540. What is notable is that the Core i38121U supports lpddr4, ergo 16GB laptops are possible.
Thanks, SH SOTN for the news submit.
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coth
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#5547471 Posted on: 05/17/2018 12:05 AM
It's not mainstream. It's a niche product. Mainstream i3 CNL-U are likely to be 9100 and 9006.
I really dont undestand this chip, its a low power budget chip without GPU.
It's not mainstream. It's a niche product. Mainstream i3 CNL-U are likely to be 9100 and 9006.
user1
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Joined: 2016-01-29
#5547520 Posted on: 05/17/2018 06:06 AM
I really dont undestand this chip, its a low power budget chip without GPU.
Hope to see it against a AMD Ryzen 3 2200U with same core count, roughly same MHz, same TDP and the build in Vega.
This could be a dive in the trashcan to find something to sell, because i think this is the first GPU less Intel laptop CPU, in a long time.
Very well could be from the trash can, intel sampled this silicon in late 2016 , it was supposed to launch mid 2017..... , probably have a lot of left over chips from the first retail production run.
well that or this is all they could muster after a year.
not looking good eitherway.
I really dont undestand this chip, its a low power budget chip without GPU.
Hope to see it against a AMD Ryzen 3 2200U with same core count, roughly same MHz, same TDP and the build in Vega.
This could be a dive in the trashcan to find something to sell, because i think this is the first GPU less Intel laptop CPU, in a long time.
Very well could be from the trash can, intel sampled this silicon in late 2016 , it was supposed to launch mid 2017..... , probably have a lot of left over chips from the first retail production run.
well that or this is all they could muster after a year.
not looking good eitherway.
fatboyslimerr
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Joined: 2015-04-14
#5547630 Posted on: 05/17/2018 01:54 PM
Yeh Intel really could be in trouble if 10nm yields/performance aren't up to scratch although 8700K and 8600K still the best choices for gaming at 1080p.
Zen2 on 7nm, let's say it can clock to 5GHz on a golden chip...Intel might start to look a bit scared and confused...
Yeh Intel really could be in trouble if 10nm yields/performance aren't up to scratch although 8700K and 8600K still the best choices for gaming at 1080p.
Zen2 on 7nm, let's say it can clock to 5GHz on a golden chip...Intel might start to look a bit scared and confused...
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Maybe someone can clarify this for me. Would the potential limitations of smaller chips/pathways be how common or dirty the electric standards are? To me, limiting through put can make interruptions far more critical. Which could cause the limited boost and frequency ranges as of lately.
I literally have nothing to back this theory but, I'm hoping someone else does
I think most of the reason for the fairly low frequencies, is the jump in number of cores while keeping the TDP relatively low.
Ryzen and Vega really likes low frequencies and you start to face a wall if you push them hard, Intel and Nvidia does not have the very steep curve and runs better at high frequencies.
The switching losses in the chips get higher the faster the CPU runs, so i dont think we will se much higher then 5GHz for a long time in the future, i think the future is faster cache, memory, more work per clock and lower power.