New Branding: Intel, Intel Iris Xe, and Intel EVO

Since the introduction of Ice Lake, Intel’s logo design has seemed a bit off-kilter. The company changed how it named its processors, ditching the U and Y designations, instead of focusing on the ‘G7 and G4’ elements as well as the graphics. While those were Intel’s 10th Generation Core processors, they were categorized in a seemingly different way. Now a year later, changes are once again afoot. With the introduction of Xe graphics into the mix with Tiger Lake, the company is putting new logos and branding into the mix.

The new stickers on the laptops will look something like this. Intel has decided that its logos need to have a mix of lower case letters and capital letters for Core and Iris, despite the Intel part being in complete lower case and the ‘Graphics’ or ‘Powered By’ are all capitalized (at least it isn’t with backwards letters?). The Xe has that e in superscript as well, for the ‘eXascale for Everyone’ element of the graphics portfolio.

There is also Intel Evo, the new name for Intel’s Project Athena program, which we talk about later.

Beyond this is a full change for the Intel logo. It was stated that Intel only ever changes its logo when there is a big shift inside the industry. Today is apparently that shift, despite Intel's presentation being fairly minimal - I would have expected a logo change to occur during a large event or such. Intel says this is the third time it has fundamentally changed its logo.

Project Athena Becomes Intel Evo

With the launch of the previous generation of products, Intel introduced its Project Athena verification program. Similar to how it tried to push for ultraportable notebooks back in the day, Project Athena was a set of specifications that Intel believed were important to the premium notebook owners in the current day. This included things like minimum battery life requirements, support for Thunderbolt and Wi-Fi 6, a good display, support for AI, and a specific level of responsiveness.

In order for a laptop to be designated as a Project Athena design, it had to be validated by Intel. More often than not, Athena notebooks were co-developed with Intel anyway, making validation not much more than a formality. At the time Intel stated that Project Athena was more of an OEM standard to help push the industry along the leading edge – version 1.0 of the specification was ultimately a stepping stone to more stringent updates to the standard we learned.


Because Athena was a program designed for the OEMs rather than the customer, Intel had not necessarily worked out the marketing side of the equation. At a simple level, it was expected that these devices would, if they followed the specification, speak for themselves in offering better-than-normal user experiences equipped with the latest technology. However, at some point, we expected Athena to become end-user visible as well.

So for this Tiger Lake launch, Athena is now getting that splash of marketing, and Intel is calling any device that qualifies under the latest updates as ‘Intel Evo’. The Evo part of the name is clearly meant to be a calling to the evolution of the future generation of products.

What surprises me a bit is that the first generation of Athena was meant to be, at least on some level, CPU vendor agnostic – some of the special sauce from Intel made it easier for Intel devices to meet the specification, such as built in Thunderbolt and CNVi-based Wi-Fi 6 reduces the power consumption. With Intel Evo branding, any semblance of it being an industry-wide specification to work towards now goes out the window. While any Evo qualification is still a good thing to have, with the promise of a good user experience and the latest technology, there’s no escaping the fact that this program is now honed in for Intel-specific systems.

Intel 11th Gen Core Tiger Lake Performance

As usual, posting performance numbers isn’t really our thing – we prefer to get the hardware on hand and test for ourselves. Intel has a habit of not stating full system configurations during its presentations, and rather directing the press to look at a section on a website after the fact. To that end, we’re not going to republish reams of Intel’s own numbers here. The high level numbers that are perhaps with promoting are as follows.

When comparing an Intel Core i7-1165G7 Tiger Lake system to an AMD Ryzen 7 4800U system (both configurations unknown at this point), Intel states it has the following performance advantages:

  • +28% Compute (SYSmark 25)
  • +67% Graphics (3DMark Fire Strike)
  • +300% AI (MLPerf)

As always, Intel’s need to promote ‘performance using real world benchmarks’ rubs up against the fact that it also posts these sorts of synthetic tests as well – especially when system configurations are no longer provided directly where the numbers are in the presentation. Intel does have ‘real world benchmarks’, directly in the next slide, but for slide #4 in a day of announcements, offering synthetics – especially ones that are known to favor Intel – is a bit frustrating. Surely an aggregate number of those real-world tests would be a better starting point for any presentation.

We will be doing our own testing when we get a Tiger Lake system in for testing.

Coming Next: Devices and Future Intel Announcements

Now that Intel’s Tiger Lake mobile processors are announced, OEM partners will also be announcing notebooks and laptops in the upcoming weeks – in fact a few will do so today. The other half of Tiger Lake still needs to be disclosed – at Architecture Day we were told that Tiger Lake scales to 65 watts, so most of us has assumed that this means a 45W to 65W range of processors, up to 8 cores, is coming. No word on that from Intel as of yet.

As a final slide from Intel’s deck, the company has clarified what to expect from its next few announcements (which we assume is from now through to the end of the year, at least from the client side of the business).

We should expect to see Intel Pentium and Celeron notebook processors later this year, along with the vPro versions of the Tiger Lake processors announced today. Perhaps more exciting is the DG1 discrete graphics platform, which is also promising to show its head. Given the recent high-end graphics announcements, it’s going to be fun playing with something more mid-range.

Intel Launches 11th Gen Core
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  • Spunjji - Monday, September 7, 2020 - link

    @RedOnlyFan - lol. You're quoting power consumption for *the entire system* under an artificial parasitic GPU *and* CPU load as if it's CPU-only. If you weren't such a mendacious twerp you'd have included the link:
    The same review shows the i7-8565U system drawing 53.6W under the same loads, and 49W for the i7-1065G7 notebook. I wonder why you avoided mentioning that.

    I wish you shills would quit projecting at me, it's bloody annoying.
  • Irata - Thursday, September 3, 2020 - link

    Yup, Hardware Unboxed showed this via Intel‘s spec sheets. The higher clocks (base and boost) are only at the higher TDP, so more difficult to compare to both Ice Lake stated values, same for Renoir.
  • Gondalf - Thursday, September 3, 2020 - link

    It is the Intel U 15W line my friend.
    Even AMD say up to 25W TDP and frequencies ""UP TO"" X or Y. So if you have a 15W laptop your Renoir run much slower of the advetised clock speeds. If OEM set Renoir at 25W hopefully it will run at 1.8Ghz base and 4.2 Ghz single core turbo (plus chipset power).

    So basically both cpus at 25/28W yield---> AMD: 8 cores 1.8Ghz base and 4.2Ghz turbo. Intel: 4 cores 3 Ghz base and 4.8Ghz turbo.

    So the IPC matters here, and both processes looks very good. A sweet parity, with a clear advantage of Intel in peak clock speed.

    Superfin is faster than TSMC offering.
  • Spunjji - Friday, September 4, 2020 - link

    Anandtech did in fact confirm that it's 28W with a 15W TDP-down:

    "Nominal TDP" is meaningless when all their performance figures are quoted based on the higher number. They pulled the same nonsense with ICL.
  • Tamz_msc - Wednesday, September 2, 2020 - link

    >However, do you have bonafide evidence showing the Renoir chips consume far more power in ___ benchmark(s)?

    Yes they do. Read Anandtech's review of the Acer Swift with the 4700U. It consumes up to 30W despite having a 15W TDP.
  • Hifihedgehog - Wednesday, September 2, 2020 - link

    "up to 30W"

    Of course, it does. That's still nearly half that of a 50W boost. I imagine many current ultrabook power bricks would struggle under such a instantaneous power draw.
  • Tamz_msc - Wednesday, September 2, 2020 - link

    Most ultrabooks come with 65W power adapters. You're grasping at straws.
  • Hifihedgehog - Wednesday, September 2, 2020 - link


    Actually, many ultrabooks use stock 45-watt adapters. Here is a first-party 45-watt adapter for Dell XPS ultrabooks:

    Now, back to Intel. Note they omit the default TDP in the just published ARK listing. Going from a 1.3 GHz base to a 3.0 GHz base doesn't seem very likely. Plus, the last few months of leaks have asserted that the official base clock is based on a 28-watt TDP:
  • Hifihedgehog - Wednesday, September 2, 2020 - link

    EDIT: Vindicated! It says it right there in the ARK listing. The TDP-Up (28-watt) base frequency is 3.0 GHz. No magic bullet solution here, I am afraid.
  • Tamz_msc - Wednesday, September 2, 2020 - link

    HP uses 65W adapters for its Spectre series. If 50W is what PL2 is going to be, I'm sure that manufacturers will include a 65W adapter for Tiger Lake. No big deal.

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