Intel Core i9-10900K spied in 3DMark database with 5.1GHz boost clock – Blog – 10 minute

Something to look forward to: Intel’s upcoming Core i9-10900K CPU will carry a base clock of 3.7GHz and boost up to 5.1GHz according to recently uncovered results from a 3DMark benchmarking run. The chip could be Intel’s best shot at holding off AMD but will excess heat generation be a concern?
A screenshot of the 3DMark entry was shared earlier today by Twitter user _rogame. The 14nm Comet Lake chip is said to pack 10 physical cores with 20 threads and is rumored to be accompanied by a 20MB cache.
According to Tom’s Hardware, coolers compatible with LGA 115x sockets should work on new LGA 1200 boards as they have the same mounting hole dimensions. That said, you’ll want to make sure your cooler of choice is capable of dissipating the heat that the i9-10900K will generate.

The 3DMark listing unfortunately didn’t have a value for the chip’s TDP but considering it is based on aging architecture, many expect it to run a bit warm.
Also worth mentioning is that earlier rumors suggest the i9-10900K will utilize Intel’s Turbo Boost Max Technology 3.0 and Thermal Velocity Boost features which will reportedly allow the chip to boost up to 5.3GHz.
We should get the full scoop in the coming months as partners are rumored to be announcing Z490 motherboards sometime in May.

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The clock is ticking: 5 things to consider before migrating to Windows 10- Tempemail – Blog – 10 minute

By Pavithra Sudhakar, Product Consultant at ManageEngine
As Windows 7 is put out to pasture, it is important to make the switch to Windows 10 in a seamless manner. While there’s the option to pay for Windows 7 support and software updates via Microsoft’s Extended Security Updates (ESUs), this can be extremely costly.
As of January 14, 2020, support for Windows 7, which includes software and security updates, will come at a hefty cost. Without these updates, your systems will be vulnerable to viruses and malware. This highlights the importance of either migrating to Windows 10 or shelling out money on paid Windows 7 support.Compatibility is the key
According to a recent report from NetMarketShare, nearly two-thirds of businesses were still running on Windows 7 at the time of the Windows 10 launch. For this reason, Microsoft has ensured that nearly 99 percent of Microsoft Store apps will work out of the box after the Windows 10 migration. Before migrating, it’s important to ensure there is a solution in place that can seamlessly reinstall applications on devices that have migrated to Windows 10.
Organizations that rely on in-house applications will have to face the arduous task of ensuring that these applications are compatible with Windows 10. On top of this, nearly every organization has web applications and websites that use legacy technology. For most of them to work, they often require plug-ins that are native to legacy browsers, such as Internet Explorer. However, Microsoft Edge is the default browser in Windows 10.
Therefore, in order to render legacy websites without any issues, organizations need a solution that can reroute to a browser that can support these websites and applications.
Essential assessmentsBefore making the move to Windows 10, it is important to identify how many machines are still running Windows 7. Additionally, all target machines should be assessed to ensure they meet the minimum requirements for Windows 10; the target machines should have at least 32GB of hard disk space, 1GB of RAM, and a 1Ghz processor.
User data: The make-or-break elementWhat good is upgrading if it requires leaving behind large chunks of user data? User account details include the associated user data and user files. Retaining the account details will cut down time required for migration by eliminating the need to re-customize each machine and reenter user-specific configurations after the migration.
Tackle the swarm of OS and application updatesOne of the biggest changes is continuous OS and application updates. Windows 10 checks for updates once every day. It’s no secret that patching everything is a crucial aspect of cybersecurity; considering how critical OS updates are and looking at past attacks, such as Conficker worm, WannaCry, Petya, and NotPetya, it’s important to ensure all patches and updates are implemented the moment they’re released.
For medium to large organizations, doing this manually can be a huge undertaking. Scheduling and automating these frequent Windows 10 updates not only saves time, but also ensures no machines are left unpatched by mistake. Afterall, it only takes one unpatched machine to take down an entire network.
Take stock of inventoryYou cannot manage what you cannot measure. Before migrating, organizations should take time to analyze their applications. Monitor the usage of every application, analyze the usage metrics, and decide which applications need to be retained.
Before rolling out Windows 10, ensure that each hardware set has the drivers the system needs to function smoothly. For instance, if an imaging technique is being used, the imaged machine might be of a different make and model than the one the image is being deployed to. Take note of the required drivers for each individual machine to avoid driver incompatibility issues.
ConclusionThe Windows 10 migration all boils down to the strategy that organizations choose. Organizations should learn the different approaches to migration, and choose an approach that works best for their IT environment and organization as a whole. Going one step further, a comprehensive endpoint management solution can help drastically simplify the Windows 10 migration process.

If you have an interesting article / experience / case study to share, please get in touch with us at [email protected]

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Survey: Many AMD Ryzen 3000 CPUs Don’t Hit Full Boost Clock


Overclocker Der8auer has published the results of a survey of more than 3,000 Ryzen 7nm owners who have purchased AMD’s new CPUs since they went on sale in July. Last month, reports surfaced that the Ryzen 3000 family weren’t hitting their boost clocks as well as some enthusiasts expected. Now, we have some data on exactly what those figures look like.

There are, however, two confounding variables. First, Der8auer had no way to sort out which AMD users had installed Windows 1903 and were using the most recent version of the company’s chipset drivers. AMD recommends both to ensure maximum performance and desired boost behavior. Der8auer acknowledges this but believes the onus is on AMD to communicate with end-users regarding the need to use certain Windows versions to achieve maximum performance.

Second, there’s the fact that surveys like this tend to be self-selecting. It’s possible that only the subset of end-users who aren’t seeing the performance they desire will respond in such a survey. Der8auer acknowledges this as well, calling it a very valid point, but believes that his overall viewing community is generally pro-AMD and favorably inclined towards the smaller CPU manufacturer. The full video can be seen below; we’ve excerpted some of the graphs for discussion.

Der8auer went over the data from the survey thoroughly in order to throw out results that didn’t make sense or were obviously submitted in bad faith. He compiled data on the 3600, 3600X, 3700X, 3800X, and 3900X.SEEAMAZON_ET_135 See Amazon ET commerce Clock distributions were measured at up to two deviations from the mean. Maximum boost clock was tested using Cinebench R15’s single-threaded test, as per AMD’s recommendation.

Der8auer-3600

Data and chart by Der8auer. Click to enlarge

In the case of the Ryzen 7 3600, 49.8 percent of CPUs hit their boost clock of 4.2GHz, as shown above. As clocks rise, however, the number of CPUs that can hit their boost clock drops. Just 9.8 percent of 3600X CPUs hit their 4.4GHz. The 3700X’s chart is shown below for comparison:

Data and chart by Der8auer. Click to enlarge

The majority of 3700X CPUs are capable of hitting 4.375GHz, but the 4.4GHz boost clock is a tougher leap. The 3800X does improve on these figures, with 26.7 percent of CPUs hitting boost clock. This seems to mirror what we’ve heard from other sources, which have implied that the 3800X is a better overclocker than the 3700X. The 3900X struggles more, however, with just 5.6 percent of CPUs hitting their full boost clock.

We can assume that at least some of the people who participated in this study did not have Windows 10 1903 or updated AMD drivers installed, but AMD users had the most reason to install those updates in the first place, which should help limit the impact of the confounding variable.

The Ambiguous Meaning of ‘Up To’

Following his analysis of the results, Der8auer makes it clear that he still recommends AMD’s 7nm Ryzen CPUs with comments like “I absolutely recommend buying these CPUs.” There’s no ambiguity in his statements and none in our performance review. AMD’s 7nm Ryzen CPUs are excellent. But an excellent product can still have issues that need to be discussed. So let’s talk about CPU clocks.

The entire reason that Intel (who debuted the capability) launched Turbo Boost as a product feature was to give itself leeway when it came to CPU clocks. At first, CPUs with “Turbo Boost” simply appeared to treat the higher, optional frequency as their effective target frequency even when under 100 percent load. This is no longer true, for multiple reasons. CPUs from AMD and Intel will sometimes run at lower clocks depending on the mix of AVX instructions. Top-end CPUs like the Core i9-9900K may throttle back substantially when under full load for a sustained period of time (20-30 seconds) if the motherboard is configured to use Intel default power settings.

In other realms, like smartphones, it is not necessarily unusual for a device to never run at maximum clock. Smartphone vendors don’t advertise base clocks at all and don’t provide any information about sustained SoC clock under load. Oftentimes it is left to reviewers to typify device behavior based on post-launch analysis. But CPUs from both Intel and AMD have typically been viewed as at least theoretically being willing capable of hitting boost clock in some circumstances.

The reason I say that view is “theoretical” is that we see a lot of variation in CPU behavior, even over the course of a single review cycle. It’s common for UEFI updates to arrive after our testing has already begun. Oftentimes, those updated UEFIs specifically fix issues with clocking. We correspond with various motherboard manufacturers to tell them what we’ve observed and we update platforms throughout the review to make certain power behavior is appropriate and that boards are working as intended. When checking overall performance, however, we tend to compare benchmark results against manufacturer expectations as opposed to strictly focusing on clock speed (performance, after all, is what we are attempting to measure). If performance is oddly low or high, CPU and RAM clocks are the first place to check.

It’s not unusual, however, to be plus-or-minus 2-3 percent relative to either the manufacturer or our fellow reviewers, and occasional excursions of 5-7 percent may not be extraordinary if the benchmark is known for producing a wider spread of scores. Some tests are also more sensitive than others to RAM timing, SSD speed, or a host of other factors.

Now, consider Der8auer’s data on the Ryzen 9 3900X:

Der8auer-3900X

Image and data by Der8auer. Click to enlarge

Just 5 percent of the CPUs in the batch are capable of hitting 4.6GHz. But a CPU clocked at 4.6GHz is just 2 percent faster than a CPU clocking in at 4.5GHz. A 2 percent gap between two products is close enough that we call it an effective tie. If you were to evaluate CPUs strictly on the basis of performance, with a reasonable margin of say, 3 percent, you’d wind up with an “acceptable” clock range of 4,462MHz – 4,738MHz (assuming a 1:1 relationship between CPU clock and performance). And if you allow for that variance in the graphs above, a significantly larger percentage — though no, not all — of AMD CPUs “qualify” as effectively reaching their top clock.

On the other hand, 4.5GHz or below is factually not 4.6GHz. There are at least two meaningfully different ways to interpret the meaning of “up to” in this context. Does “up to X.XGHz” mean that the CPU will hit its boost clock some of the time, under certain circumstances? Or does it mean that certain CPUs will be able to hit these boost frequencies, but that you won’t know if you have one or not? And how much does that distinction matter, if the overall performance of the part matches the expected performance that the end-user will receive?

Keep in mind that one thing these results don’t tell us is what overall performance looks like across the entire spread of Ryzen 7 CPUs. Simply knowing the highest boost clock that the CPU hits doesn’t show us how long it sustained that clock. A CPU that holds a steady clock of 4.5GHz from start to finish will outperform a CPU that bursts to 4.6GHz for one second and drops to 4.4GHz to finish the workload. Both of these behaviors are possible under an “up to” model.

Manufacturers and Consumers May See This Issue Differently

While I don’t want to rain on his parade or upcoming article, we’ve spent the last few weeks at ET troubleshooting a laptop that my colleague David Cardinal recently bought. Specifically, we’ve been trying to understand its behavior under load when both the CPU and GPU are simultaneously in-use. Without giving anything away about that upcoming story, let me say this: The process has been a journey into just how complicated thermal management is now between various components.

Manufacturers, I think, increasingly look at power consumption and clock speed as a balancing act in which performance and power are allocated to the components where they’re needed and throttled back everywhere else. Increased variability is the order of the day. What I suspect AMD has done, in this case, is set a performance standard that it expects its CPUs to deliver rather than a specific clock frequency target. If I had to guess at why the company has done this, I would guess that it’s because of the intrinsic difficulties of maintaining high clock speeds at lower process nodes. AMD likely chose to push the envelope on its clock targets because it made the CPUs compare better against their Intel equivalents as far as maximum clock speeds were concerned. Any negative response from critics would be muted by the fact that these new CPUs deliver marked benefits over both previous-generation Ryzen CPUs and their Intel equivalents at equal price points.

Was that the right call? I’m not sure. This is a situation where I genuinely see both sides of the issue. The Ryzen 3000 family delivers excellent performance. But even after allowing for variation caused by Windows version, driver updates, or UEFI issues on the part of the manufacturer, we don’t see as many AMD CPUs hitting their maximum boost clocks as we would expect, and the higher-end CPUs with higher boost clocks have more issues than lower-end chips with lower clocks. AMD’s claims of getting more frequency out of TSMC 7nm as compared with GF 12/14nm seem a bit suspect at this point. The company absolutely delivered the performance gains we wanted, and the power improvements on the X470 chipset are also very good, but the clocking situation was not detailed the way it should have been at launch.

There are rumors that AMD supposedly changed boost behavior with recent AGESA versions. Asus employee Shamino wrote:

i have not tested a newer version of AGESA that changes the current state of 1003 boost, not even 1004. if i do know of changes, i will specifically state this. They were being too aggressive with the boost previously, the current boost behavior is more in line with their confidence in long term reliability and i have not heard of any changes to this stance, tho i have heard of a ‘more customizable’ version in the future.

I have no specific knowledge of this situation, but this would surprise me. First, reliability models are typically hammered out long before production. Companies don’t make major changes post-launch save in exceptional circumstances, because there is no way to ensure that the updated firmware will reach the products that it needs to reach. When this happens, it’s major news. Remember when AMD had a TLB bug in Phenom? Second, AMD’s use of Adaptive Frequency and Voltage Scaling is specifically designed to adjust the CPU voltage internally to ensure clock targets are hit, limiting the impact of variability and keeping the CPU inside the sweet spot for clock.

I’m not saying that AMD would never make an adjustment to AGESA that impacted clocking. But the idea that the company discovered a critical reliability issue that required it to make a subtle change that reduced clock by a mere handful of MHz in order to protect long-term reliability doesn’t immediately square with my understanding of how CPUs are designed, binned and tested. We have reached out to AMD for additional information.

I’m still confident and comfortable recommending the Ryzen 3000 family because I’ve spent a significant amount of time with these chips and seen how fast they are. But AMD’s “up to” boost clocks are also more tenuous than we initially knew. It doesn’t change our expectation of the part’s overall performance, but the company appears to have decided to interpret “up to” differently this cycle than in previous product launches. That shift should have been communicated. Going forward, we will examine both Intel and AMD clock behavior more closely as a component of our review coverage.

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NASA Has Fired Up the Deep Space Atomic Clock


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NASA has to rethink some tried-and-true approaches to spacecraft navigation as it eyes more distant targets. Spacecraft need extremely accurate location measurements to plan maneuvers, but the way we’ve been doing that can be painfully slow. That’s why NASA launched a new prototype atomic clock into orbit recently. This device could revolutionize space exploration, and the team just turned it on for the first time. 

The so-called Deep Space Atomic Clock went into space on a Falcon Heavy rocket earlier this year along with two dozen other payloads. Like ground-based atomic clocks, this device measures the passage of time with extraordinary accuracy, and that’s a must-have for space travel. 

Current spacecraft determine their position through a convoluted and time-consuming method relying on ground-based atomic clocks. These missions have to beam signals back to Earth, allowing a clock to calculate how long it took for the signal to reach us. Then, the result goes back out to the spacecraft. This test, if successful, could lead to a new generation of spacecraft that have an atomic clock on-board rather than relying on ground-based clocks. 

The Deep Space Clock is about the size of a toaster, mounted to the General Atomics Electromagnetic Systems Orbital Test Bed satellite. That’s tiny for an atomic clock, most of which are the size of a refrigerator. With an atomic clock like this one on a spacecraft, the location calculation would be one-way. Signals from Earth would allow the computer to instantly calculate a position based on how long it took for those signals to reach the spacecraft. 

NASA even has free poster designs commemorating the Deep Space Atomic Clock.

NASA created this compact atomic clock using a mercury ion design. It uses the oscillations of mercury ions at low temperatures to measure the passage of time. Now that the clock is online, NASA will be able to track its performance to ensure it’s accurate, and it has to be almost unbelievably so. Even a few lost nanoseconds here and there could lead to disaster as a vessel aims for precise maneuvers. 

If the Deep Space Atomic Clock lives up to expectations, it should only lose one second in 10 million years. NASA will measure the clock’s performance down to the nanosecond over the coming months. Success could mean similar devices will show up on future deep-space missions to Mars, Europa, and beyond.

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New CRISPR Method Advances the Clock for Genetic Editing


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Credit: Getty Images

If genetic editing wasn’t crazy enough for your reality, a recent breakthrough in CRISPR technology has paved the way for editing entire gene networks in a single step.  While this discovery will likely shorten the timeframes required for finding cures for deadly illnesses, it can also bring us closer to threats of bioterrorism.

Scientists at ETH Zurich recently published a new CRISPR technique in Nature Methods that removes one of the most significant limitations of the technology.  Prior to this discovery, the process could only target a single gene for editing.  The ETH scientists now managed to target 25 at once and believe that, theoretically, this method could target hundreds.  Here’s how they describe the process:

[W]e demonstrate that both Cas12a and a clustered regularly interspaced short palindromic repeat (CRISPR) array can be encoded in a single transcript by adding a stabilizer tertiary RNA structure. By leveraging this system, we illustrate constitutive, conditional, inducible, orthogonal and multiplexed genome engineering of endogenous targets using up to 25 individual CRISPR RNAs delivered on a single plasmid. Our method provides a powerful platform to investigate and orchestrate the sophisticated genetic programs underlying complex cell behaviors.

While the method only increases CRISPR’s efficiency, time plays a significant role in genetic editing.  Complex genetic conditions occur through the interaction of genes in a cell.  Targeting each gene individually to test a different configuration takes a long time and that process can require significant repetition in order to discover the desired genetic variation.  Reducing the time required to produce each variant makes the discovery process significantly more efficient. That may lead to finding important gene therapies that can cure morbid conditions with daily death tolls.  With antibiotic resistance on the rise, many expect CRISPR will offer a viable alternative to a problem the Center for Disease Control (CDC) calls “one of the most urgent threats to the public’s health.”

However, genetic editing comes with a number of dangers and they go beyond making tragic mistakes in human trials.  Currently, you can buy a DIY CRISPR kit for $165.  For the cost of Apple’s new Mac Pro package, 72 people could learn genetic editing at home.  That’s wonderful and amazing until a kit arrives at the home of someone willing to commit and act of mass violence.  While it’s much easier to buy an assault rifle in the United States than it is to learn CRISPR—as evidenced by an Engadget writer learning the process—it only takes one person to decide to trade in their AR-15 for a bio-engineered weapon that could bring the death toll from more than four people to millions.

On the bright side, we still have time. Some believe that CRISPR will serve as a shield to threats of bioterrorism that are easier to create with older gene hacking techniques from a simpler time. Millions have been invested in making CRISPR a safe technology that won’t first result in a health epidemic. An advance in the timeframe for genetic editing can look like a good thing with actions like that.

Right now there’s no cause for panic or celebration because CRISPR technology won’t mature overnight. Nevertheless, we shouldn’t waste any time getting ready.  Everything we make is a double-edged sword and we need to be prepared for any direction it swings.  Fortunately, for just 0.5 percent of the cost of that Mac Pro package, you can acquire the resources to learn the science that can help prevent an epidemic.

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Intel Reveals Clock Speeds, GPU Specs for 10nm Ice Lake Mobile SoCs


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Last week, Intel announced that it had begun shipping 10nm Ice Lake CPUs to its OEM customers to support a holidays 2019 launch. Today, the company is sharing more details about Ice Lake and the new chips it will launch on 10nm later this year. The company has been revealing details about Ice Lake and its architecture, Sunny Cove, since Architecture Day last winter. As “Holidays 2019” draws closer, we’re starting to find out more information.

With 10nm, Intel is pushing forward on multiple fronts. CPU-wise, the company expects to offer up to 1.18x improved IPC, though that gain is largely offset by declines in top-end frequency. Intel’s own slides show a relatively small gain in terms of raw performance over and above Whiskey Lake,SEEAMAZON_ET_135 See Amazon ET commerce though users with older systems based on Broadwell or Skylake will see much larger improvements.

Intel-Slide-10nm-2

Ice Lake packs a grab bag of improvements intended to appeal to multiple different markets. Boosted AI inferencing performance is potentially appealing to those working in the field, though I’m not sure if any practical applications actually use AI or AVX-512 on the desktop yet. Faster Wi-Fi via 802.11ax, aka Wi-Fi 6, should boost download speeds. Thunderbolt 3 is not integrated on-die with Intel Ice Lake, though actually offering that connectivity to customers will still require a degree of external hardware and is therefore somewhat dependent on OEMs to make available. Intel has stated, however, that the costs and amount of external components will be smaller than usual.

Mobile GPU performance is said to be significantly stronger, courtesy of a wider GPU core and more efficient execution. Ice Lake will support either dual-channel DDR4-3200 or LPDDR4X-3733 in four 32-bit channels. Overall power consumption is said to be similar between both standards, though the LPDDR4X systems will top out at 32GB, while the DDR4-3200 rigs will support up to 64GB. Our slideshow on the Sunny Cove architecture and the various improvements baked into the core is presented below:

One new bit of data Intel is revealing today is the actual SKUs and products. Here’s the lineup of 10th Generation mobile parts, with data on their wattage envelopes, clocks, and GPU configurations.

Intel-Slide-10nm-1

Let’s start with the 28W CPU. The best comparison to that is the Core i7-8569U, a 28W 4C/8T CPU with a 2.8GHz base clock, 4.7GHz boost clock, and 128MB of onboard EDRAM to improve the performance of its integrated Iris Plus Graphics 655 solution. We will immediately grant that we expect Gen 11 Intel graphics to be faster than the EDRAM-boosted solutions the company has used before. We also note that the 10nm Ice Lake Core i7-1068G7 supports faster RAM (DDR4-3200 / LPDDR4-3733 as compared to DDR4-2400). Intel CPUs typically haven’t benefited as much from faster RAM clocks as AMD CPUs, but the fact that Intel is increasing its RAM clock suport with 10nm may mean this has changed.

Both CPU and GPU maximum frequencies have declined. The Core i7-8569U has a maximum GPU frequency of 1.2GHz, while the Core i7-1068G7 supports a maximum frequency of 1.1GHz. Base frequency for the 10th Generation core CPU has dropped 18 percent. Since we know that Intel TDPs are based solely on boost clocks, the implication is that the company had to give up base clock to make its TDP figures.

The 15W minimum frequencies have also come down. The Core i7-1065G7 has a base frequency of 1.3GHz, while the comparative Core i7-8665U is a 1.9GHz CPU with a 4.8GHz base clock. That’s a 32 percent reduction in minimum frequency. I don’t want to sound negative on Ice Lake before we see the chips. It’s possible that some of the clock pulldown has been to make room for the GPU. But this is a point we’ll be watching closely — Intel may have had to strike a difficult balance between allocating TDP for CPU versus GPU operations.

Word from Intel is that Ice Lake will be built on a 10nm+ process, which puts that question to rest. The little-used Cannon Lake Core i3-8121 will evidently be the sole representative of Intel’s base 10nm process. 10nm+ will debut with Ice Lake. Whether Intel has a 10nm++ process in the works or will proceed directly to 7nm for future CPUs isn’t something the company has disclosed yet.

For more on this and some initial benchmarks, read PCMag’s Intel ‘Ice Lake’ Benchmarked: How 10nm CPUs Could Bring Major GPU Grunt to New Laptops.

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