I want to talk about this rumor in conjunction with several others that have surfaced over the last six months. This image is similar to one Intel has already released, but the additional Chinese text is new. These are the 10nm products Intel is supposedly launching inthough Snow Ridge has already debuted.
As for the 7nm lineup, the leak says the leading product will land inwhile the complete product portfolio can be expected in The information also suggests performance enhancements every year. The THG description of this slide could indicate that it has been updated since we saw it back inwhich is definitely something companies sometimes do — or that someone started from a known Intel slide to give their creation a veneer of authenticity and then created false content to overwrite what had previously been presented.
Intel told the press at its Technology Day that it had already backported certain AVX features to 14nm, but it never said this was the only time it would ever do so.
It also has said nothing about 10nm desktop CPUs — not last fall, not this spring. And yet, we also know Intel recently canceled most of Cooper Lake, which implies the company is seeing better 10nm CPU yields than expected — exactly as this slide reportedly states. These rumors also do not contradict each other.
Sometimes, the reason rumors appear to be false is because they were true when the leaks occurred, but were later canceled. Sources inside AMD confirmed that this was a real product the company was considering building, but ultimately abandoned.
Take CPUs as an example.
Major Intel Roadmap Leak: Ice Lake in Q2, Tiger Lake And 14nm Rocket Lake In 2020
Even if you follow news on the best CPUs for gaming religiously, keeping track of Intel's dozens of platform and product codenames can be difficult, especially with new names popping up on leaked roadmaps all the time. For the uninitiated, these codenames can be confusing and cryptic, so I put together this CPU codenames cheat sheet. Here's the not-so-brief overview, then, ordered by launch date.
Intel moved from a 4-wide design meaning, fetch, decode, and execute up to four instructions per clock cycle to a 6-wide design. Skylake also served as the introduction for Intel's Gen9 graphics technology, with improved performance and features. The changes consist of a modified fin profile and strained silicon, plus refinements in manufacturing that naturally occur as a process matures. Kaby Lake also updated the graphics core to Gen9. Coffee Lake also spelled the end of Intel's "Process-Architecture-Optimization" plans, since it represented a second optimization phase.
CFL keeps the Gen9. That in turn allows for higher frequencies, though with larger die sizes and increased idle power use. Mobile models also got 6-core 45W CPUs for the first time. There's so much to say about this one, so bear with me. Originally intended to launch infirst demonstrated inand first shipped in very limited quantities in MayCannon Lake had more than a few issues.
But the CPU did in fact ship, and don't you dare say otherwise! That puts CNL one step ahead of Tejasthe last iteration of NetBurst that tapped out and then never saw the light of day.Pole mounted transformer installation
How bad was Intel's first stab at 10nm? The company has downplayed problems, but let's look at the facts. Starting with a smaller chip is common for new process nodes, but disabling the integrated GPU in a mobile product speaks volumes. It was likely necessary to improve the number of functional chips Intel could get, which suggests incredibly poor yields. And even then, performance and power did not look good.
Cannon Lake does include AVX instruction support, which can help in a few specific instances, but everything else is basically bad. Power, memory latency, and other elements were worse than with existing 14nm mobile designs.
In retrospect, the difficulties caused by all the enhancements originally stuffed into Intel's 10nm process far outweighed the potential benefits. This is where Intel is at today, with more 9th Gen Core models slated to arrive soon, including the first ever 8-core 45W laptop parts—which are also capable of 5. Everything from this point on is looking at upcoming CPUs. Plans will likely change, and the further along we go, the less firm any of the data becomes.
Crystal balls always seem to be very cloudy. We talked briefly about some leaked data on 10th Gen CPU namesand Ice Lake is currently slated to launch on mobile platforms first, this year even. However, there's no mention in current roadmaps of Ice Lake desktop implementations, although previously there was talk of Ice Lake for servers.Update : After some emailing back and forth, we can confirm that the slide that Intel's partner ASML presented at the IEDM conference is actually an altered version of what Intel presented for the September source.
ASML added animations to the slide such that the bottom row of dates correspond to specific nodes, however at the time we didn't spot these animations neither did it seem did the rest of the press. It should be noted that the correlation that ASML made to exact node names isn't so much a stretch of the imagination to piece together, however it has been requested that we also add the original Intel slide to provide context to what Intel is saying compared to what was presented by ASML.
Some of the wording in the article has changed to reflect this. Our analysis is still relevant. Almost every session so far this week has covered 7nm, 5nm, and 3nm processes as the industry calls them. It should be noted that the slide presented at the conference by Intel's partner, ASML, was modified slightly from its original source.
Intel's slide, as presented in September. This is Intel's original slide, not detailing which nodes in which years. ASML applied these assumptions to the slide it presented at the IEDM keynote, but the company did not disclose that they had modified the slide.Flutter datetime from string
This final node is what ASML has dubbed '1. This is the first mention on 1. For context, if that 1. Obviously there are many issues going that small that Intel and its partners will have to overcome. Intel believes they can do this on a yearly cadence, but also have overlapping teams to ensure that one full process node can overlap with another.
The interesting element to these slides is the mention of back porting. Despite Intel stating that they are disaggregating chip design from process node technology, at some point there has to be a commitment to a process node in order to start the layouts in silicon.
At that point the process node procedure is kind of locked, especially when it goes to mask creation. Normally with process node developments, there will be different teams working on each process node.
Log in Don't have an account? Sign up now Username Password Remember Me. Lost your password?If two roadmaps weren't enough, now we have a third Intel desktop processor roadmap leak which confirms the launch of several of their mainstream and high-end desktop lineups till A major roadmap leak occurred a few days ago which showed several of Intel mobility and desktop lineups that were scheduled to launch till They also gave us a glimpse of the dire state of the 10nm process node that Intel is relying on for their future products which won't be coming to desktop PC platforms till So there are some really interesting things in the latest leaked desktop roadmap which weren't in the previous ones.
This roadmap is from an internal Dell presentation and should be authentic so let's get down to the details. First of all, the main difference between this and the previous one is that the HEDT lineup was missing from them.
Intel Factories Still on Schedule For Deliveries Despite Coronavirus
The new roadmap does include the entire desktop segment from HEDT to mainstream and even Workstation parts. First up, we have the mainstream parts and looking at the details, not much has changed than what already knew about Intel's S-series CPU plans. All of these processors are based on the same 14nm architecture which we have seen since Skylake so not much to change there except the improved process node which should deliver better clocks.
The main issue with Intel's 14nm CPUs is that they keep on adding more cores using the existing process node which leads to complications in terms of thermal performance.
With the Core iK, we see that even though Intel is using a soldered design, the chip still gets up to 90C and overclocking is only suitable if you're keeping a high-end liquid AIO cooler or custom loop near you.
If Intel manages to offer 10 cores clocking anywhere near the 5 GHz mark, we can only imagine what the temperatures would be like. The Comet Lake-S family is scheduled for a consumer launch in Q1 and a commercial launch in Q2 The roadmap is missing Rocket Lake which is the successor to Comet Lake and would feature the same 10 core, a 14nm design with even higher clock speeds. The Rocket Lake-S lineup is planned for and would be followed by a proper 10nm or subnm desktop lineup later in There would be a new motherboard series launch to support each respective lineup with a range of new features but don't expect PCIe Gen 4 or DDR5 support anytime soon with those.
This roadmap confirms basically no major upgrade for the HEDT platform aside from higher clock speeds and an improved 14nm process node.How Intel Plans to Kill Zen 3 - Golden Cove Early Whispers
Intel's Xeon processors for the LGA socketed enthusiast motherboards aren't listed here but that was a one part line Xeon WX and maybe it would receive a flagship variant later this year too. This would be the last family that Intel launches before moving to their 10nm Ice Lake chips later in While we are on the subject of HEDT processors, it should be noted that engineering samples of Intel Cascade Lake-X processors are already appearing in Sisoftware database.
A 10 core and 20 thread CPU was spotted with a boost clock of up to 4.A photo released Oct.
The processor family is optimized for gaming, content creation and productivity. Source: Intel Corporation. It's been a month of confusion regarding Intel's 10nm desktop plans. Earlier it was reported that Intel would be skipping 10nm entirely on the desktop front which Intel later refuted and revealed that they definitely have plans for 10nm on desktop. According to Intel's Country Manager, the first 10nm desktop processors will be arriving in For starters, Intel's 14nm desktop roadmap showed Intel offering Comet Lake in and Rocket Lake in before moving to a subnm process node in This was validated in several of the leaked slides over the course of months, however, when Hardwareluxx reported on their insider info that Intel would be entirely skipping 10nm desktop plans in favor on 7nmIntel was quick to refute the claim and stated that their current roadmap for 10nm products includes the desktop platform as well.
Following is what Intel said:. We continue to make great progress on 10nm, and our current roadmap of 10nm products includes desktop. Now a few weeks later, Intel's country manager has also stated that their 10nm desktop chips are in the works and they'll be arriving early next year. Now what is interesting is that Intel has yet to reveal what would be the scale for their 10nm desktop plans.
We already know that Intel has a fully fledged 14nm desktop lineup known as Comet Lake-S arriving next year that will include SKUs offering up to 10 cores and 20 threads.
Intel Tiger Lake CPUs: Everything we know so far
Having 10nm desktop processors launch the same year does not make a whole lot of sense. Again, it's all about the scale of the 10nm desktop launch.
Intel hasn't clarified whether 10nm CPUs for desktop would be available on mainstream or high-end desktop fronts.
However, come next-generation, at least one of those lines has the possibility to receive the 10nm treatment. So here are some of the possibilities that I believe might happen. Intel will release both 14nm and 10nm desktop processors for the mainstream market next year, but while the 14nm products aim for the more high-performance enthusiast segment with 6, 8, 10 core SKUsthe 10nm products might take up the lower-end quad-core segments.21024003 10s glow engine spinner nut 10
But then, we also have two separate Xeon lineups, 14nm Cooper Lake which is higher-clock speed optimized and 10nm Ice Lake which is more architectural optimized with an advanced feature set. The last one is something that may happen in the NUC segment. But, as you can note from all this speculation, 10nm desktop processors in don't seem like a huge launch and would be limited in terms of supply.Intel had a rather disappointing CES. The server segment was addressed after a positive last quarter, but I suspect, the bulk of the orders will be fulfilled by the older 14nm based Cooper Lake parts.
Regardless, Intel does have a respectable roadmap for this year, including a slew of 10nm based chips. The most obvious would be the 11th Gen Tiger Lake lineup. These chips are slated for a mid launch. A notable increase in IPC and thereby single-threaded performance along with a steady boost in core clocks due to the improved process should allow a healthy performance uplift over Ice Lake.
Unfortunately, like Ice Lake, Tiger Lake will be limited to low-power notebooks and sleek form-factor laptops. Thanks to some added cache, higher core counts and a small core count bump for the top-end i9 to 10 cores. Unfortunately, that also means a higher TDP and worse thermals. The H series laptops for the high-performance mobile platform will also retain the same design. The Tiger Lake chips will be accompanied by the much faster Gen 12 graphics processor.
This will be a major step up from Gen11 which features up to 64 EUs. Lakefield is an interesting chip. These should power some of the thinnest and lightest handheld and convertibles. Ice Lake will be limited to 28 cores. However, both the architectures will leverage the same Whitley platform. They might be announced at Computex in June, or perhaps in the last quarter. Your email address will not be published. Save my name, email, and website in this browser for the next time I comment.
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It is mandatory to procure user consent prior to running these cookies on your website. Share this: Twitter Facebook. Areej Computer Engineering dropout 3 yearswriter, journalist, and amateur poet.
I started Techquila while in college to address my hardware passion. Although largely successful, it suffered from many internal weaknesses. Left and now working on Hardware Times, a site purely dedicated to.Tadap part 3 full episode
The same group at Tweakers. As always, the same caveats and grains of salt apply. These are rumors. They may be dated, they may be wrong.
That means it could be dated or a fake to begin with. Instead, it will use 10nm in a limited capacity and push on to 7nm. In the first case, 10nm is a specialized node with a particular set of features best-used for mobile. In the second, 10nm basically barely happens, with Intel shipping a handful of parts to satisfy investors that it did so, before pushing hard for 7nm. Part of what makes all of this unclear is that each manufacturer defines its own nodes.
Also, note that the commercial roadmap from last week showed the introduction of Comet Lake for SIPP happening two quarters later than Comet Lake for consumer client.
This was one of the reasons we wanted to see this roadmap in the first place — the timelines in the SIPP roadmap below may have been too conservative. The big takeaway from these documents is that they imply a significant 7nm advantage for AMD, assuming that the company can ship hardware in volume beginning this summer.
AMD has never beaten Intel to a node, much less enjoyed a shipping advantage on that node for any length of time. At the same time, node shrinks matter less than they used to, and the PC market runs on a slower cadence than it once did.
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