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AMD Athlon Gold 3150C + Athlon Silver 3050C Revealed!

AMD Athlon Gold 3150C + Athlon Silver 3050C Revealed!

AMD just introduced the Athlon Gold 3150C and Athlon Silver 3050C mobile processors with Radeon Graphics!

Here is what you need to know about the new AMD Athlon 3000 C-Series mobile APUs!

 

Athlon Gold 3150C + Athlon Silver 3050C : Zen Comes To Chromebooks!

The two new AMD Athlon 3000 C-Series mobile processors come with integrated Radeon Graphics cores. That makes them APUs, instead of pure processors.

Built on the older Zen architecture and fabricated on the 14 nm process technology, they are designed to power Chromebooks.

At launch, AMD is introducing these two Athlon 3000 C-Series processors, both with a 15 W TDP :

  • AMD Athlon Gold 3150C : 2C/4T | up to 3.3 GHz | 5 MB cache | 3 graphics cores
  • AMD Athlon Silver 3050C : 2C/2T | up to 3.2 GHz | 5 MB cache | 2 graphics cores

These Athlon 3000 C-Series processors will be used in mid-level Chromebooks, offering better performance than the old AMD A-Series APUs, but less than the AMD Ryzen 3000 C-Series processors.

The AMD A-Series APUs, with a 6 W TDP, will continue to ship in entry-level Chromebooks.

Although they are not part of these processors, Chromebooks based on the AMD Athlon 3000 C-Series will feature Wi-Fi 6 and Bluetooth 5 connectivity.

 

Athlon Gold 3150C + Athlon Silver 3050C : Specifications

Specifications Athlon Gold
3150C
Athlon Silver
3050C
Architecture Zen
Process 14 nm
Cores / Threads 2 / 4 2 / 2
Base Clock 2.4 GHz 2.3 GHz
Boost Clock 3.3 GHz 3.2 GHz
L1 Cache 128 KB
L2 Cache 1 MB
L3 Cache 4 MB
Graphics Cores 3 2
Graphics Clock 1.1 GHz
TDP 15 W

 

Athlon Gold 3150C + Athlon Silver 3050C : Availability

AMD will only say that their partners – HP, ASUS and Lenovo – will introduce six Chromebook laptops in 2020, powered by the new Ryzen and Athlon 3000 C-Series APUs.

No specifics about the models and choice of processor yet. We will keep you updated when we learn more.

 

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11th Gen Intel Core (Tiger Lake) : What You Need To Know!

Intel just unveiled Tiger Lake – the 11th Gen Intel Core mobile processor family, built on the 10nm SuperFin process technology!

Here is what you need to know about the new 10nm mobile processors that will soon come to a laptop near you!

 

11th Gen Intel Core (Tiger Lake) : A Quick Primer!

11th Gen Intel Core, codenamed Tiger Lake, is the newly-launched mobile processor family, designed for thin and light laptops.

Built on the new Willow Cove microarchitecture, and fabricated on the 10 nm SuperFin process, it offers a bevy of new features :

  • LPDDR4X Support : allows for fast and more power-efficient LPDDR4X memory.
  • New Intel Iris Xe graphics : significantly improved graphics performance, with up to 96 EUs
  • New Intel DL Boost instruction set : enables neural network inferencing on integrated graphics, with native support for INT8
  • Hardware Security : through Intel Control Flow Enforcement Technology (CET) and Intel Total Memory Encryption.
  • AV1 CODEC Support : hardware decoding for power-efficient 4K streaming
  • PCI Express 4.0 Support : allows for higher PCI Express bandwidth
  • Dolby Vision Support : allows for 20% better power consumption
  • Thunderbolt 4 Support : adds support for up to four Thunderbolt 4 ports

 

11th Gen Intel Core (Tiger Lake) : Official Tech Briefing

For those who want an in-depth look at the 11th Gen Intel Core (Tiger Lake) mobile processors, what’s better than the official Intel tech briefing?

 

11th Gen Intel Core (Tiger Lake) : Specifications

Intel is offering their Tiger Lake processors in two package designs, with two variable TDP ranges.

UP3-Class 11th Gen Intel Core Processors (12-28W)

Specifications Core i7
1185G7
Core i7
1165G7
Core i5
1135G7
Core i3
1125G4
Core i3
1115G4
Fab Process 10 nm
Core / Thread 4 / 8 2 / 4
Base Clock (28W) 3.0 GHz 2.8 GHz 2.4 GHz 2.0 GHz 3.0 GHz
Single Core Turbo 4.8 GHz 4.7 GHz 4.2 GHz 3.7 GHz 4.1 GHz
Multi-Core Turbo 4.3 GHz 4.1 GHz 3.8 GHz 3.3 GHz 4.1 GHz
L2 Cache 5 MB 2.5 MB
L3 Cache 12 MB 8 MB 6 MB
Graphics Cores 96 80 48
Graphics Clock 1.35 GHz 1.3 GHz 1.25 GHz
Memory Support DDR4-3200
LPDDR4x-4266

DDR4-3200
LPDDR4x-3733

TDP 12 W to 28 W

UP4-Class 11th Gen Intel Core Processors (7-15W)

Specifications Core i7
1160G7
Core i5
1130G7
Core i3
1120G4
Core i3
1110G4
Fab Process 10 nm
Core / Thread 4 / 8 2 / 4
Base Clock (15W) 1.2 GHz 1.1 GHz 1.1 GHz 1.8 GHz
Single Core Turbo 4.4 GHz 4.0 GHz 3.5 GHz 3.9 GHz
Multi-Core Turbo 3.6 GHz 3.4 GHz 3.0 GHz 3.9 GHz
L2 Cache 5 MB 2.5 MB
L3 Cache 12 MB 8 MB 6 MB
Graphics Cores 96 80 48
Graphics Clock 1.1 GHz
Memory Support LPDDR4x-4266
TDP 7 W to 15 W

 

11th Gen Intel Core (Tiger Lake) : Performance

Intel is targeting their top-of-the-line Tiger Lake processor – the Core i7-1185G7 – against the AMD Ryzen 7 4800U.

We have to point out that this may not be quite a fair comparison since the Ryzen 7 4800U is an 8-core, 16-thread processor with an 8-core Vega GPU and a 15W TDP.

But that’s what Intel is showcasing – a face-off between their Core i7-1185G7 and the AMD Ryzen 7 4800U.

 

Intel Evo : Project Athena Second Edition

Intel is also introducing the Intel Evo platform, as part of the Project Athena Second Edition program.

Based on 11th Gen Core processors with Intel Iris Xe graphics, Intel Evo laptops must meet the Project Athena Second Edition experiences :

  • Consistent responsiveness on battery
  • System wake from sleep in less than 1 second
  • Nine or more hours of real-world battery life on systems with FHD displays
  • Fast charging with up to a four-hour charge in under 30 minutes on systems with FHD displays

To qualify for the Intel Evo platform and branding, laptop designs will have to meet or exceed these minimum specifications :

  • Intel Wi-Fi 6 (Gig+) 802.11ax
  • Thunderbolt 4
  • ≥ 256GB PCIe / NVMe SSD
  • ≥ 8GB Dual Channel Memory
  • Bluetooth 5 with Audio Offload
  • > 2 digital microphones of at least 63dB Signal to Noise ratio and +/- 1dB matching
  • High fidelity audio codec / speaker tuning and Intel Smart Sound Technology
  • Speaker Sound Pressure Level >78dB @ 50 cm and bass frequency <353 Hz
  • User-facing camera ≥ HD/720p @ 30fps
  • Voice Assistant with WoV – Cortana Premium Far Field requirements (≥4 m effective)

 

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AMD 25×20 Initiative : Goals FAR Exceeded!

AMD just announced that they FAR exceeded the goals of the 25×20 initiative they set in 2014.

Join us for a quick video overview of the AMD 25×20 Initiative, and how far they exceeded those goals!

 

AMD 25×20 Initiative : What Is It?

Back in 2014, AMD mobile APUs were widely panned for their poor energy efficiency. That ensured the continued dominance of Intel mobile processors in the laptop market.

So they challenged themselves to dramatically improve the real-world energy efficiency of their mobile processors, setting the moonshot goal of delivering at least 25 times better energy efficiency by the year 2020.

That is essentially the crux of the AMD 25×20 initiative.

 

AMD 25×20 Initiative : Goals FAR Exceeded!

Six years later, AMD announced that they far exceeded the goals of their 25×20 initiative.

With the introduction of their 3rd Gen AMD Ryzen 4000 series of mobile APUs (codenamed Renoir), they actually delivered 31.7X more energy efficiency!

AMD achieved their 25×20 goals by delivering :

  • New CPU and GPU architectures tightly integrated into a common SoC
  • New innovations in real-time power management
  • Continued evolution of the AMD Infinity Fabric architecture
  • Silicon-level power optimizations
  • Rapid adoption of the latest process technologies (28nm > 14nm > 12nm > 7nm)

 

AMD 25×20 Initiative : The Impact

To illustrate the impact of this leap in energy efficiency, AMD shared these calculations.

If an enterprise upgrades 50,000 AMD laptops from 2014 models to 2020 models, it would save approximately 1.4 million kilowatt hours of electricity and 971,000 kg of carbon emissions,

That would be roughly equivalent to growing 16,000 trees for 10 years!

 

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Fact Check : AMD Ryzen 4000 Will Use 5nm TSMC Process?

Is it true that the upcoming AMD Ryzen 4000 (Zen 3) desktop processors will be fabricated on the 5nm TSMC process, instead of 7nm as announced? Let’s find out!

 

AMD Ryzen 4000 : Zen 2 | Zen 3

At CES 2020, AMD launched the Ryzen 4000 family of mobile processors, which only just kicked off after delays due to the COVID-19 pandemic.

AMD is expected to introduce the Ryzen 4000 family of desktop processors, built on a newer Zen 3 microarchitecture, later this year.

AMD’s naming convention confuses people, because the Ryzen 4000 mobile processors are 3rd Gen Ryzen processors, while the upcoming Ryzen 4000 desktop processors will be 4th Gen Ryzen processors.

To make it easier for you to understand, we created this table to differentiate the two processor families.

Specifications Ryzen 4000
Desktop
Ryzen 4000
Mobile
Ryzen Generation 4th Gen 3rd Gen
Microarchitecture Zen 3 Zen 2
Fabrication Process Improved 7 nm 7 nm
Launch Date Late 2020 Jan 2020

 

DigiTimes : AMD Ryzen 4000 Will Use 5nm TSMC Process

A DigiTimes article, purportedly translated and posted by RetiredEngineer, claimed that the next-generation AMD Ryzen 4000 desktop processors, using the Zen 3 microarchitecture, will be fabricated on the brand-new 5nm process technology, instead of 7nm as announced earlier.

Rumor has it that AMD and TSMC have adjusted their foundry blueprints. The Ryzen 4000 series of desktop processors originally expected to launch at the end of 2020 will now use TSMC’s enhanced 5nm process (5nm Plus) instead of 7nm EUV, clearly demonstrating that AMD is now considered a tier-one customer for TSMC.

This new development confirms earlier news that TSMC, which only recently entered the 5nm era in April, is accelerating its enhanced 5nm process, bringing forward the mass production schedule to 4Q; and the enhanced 5nm Ryzen series processors will also put unprecedented pressure on Intel. Both TSMC and AMD declined to comment on rumors.

In the first quarter of 2020, AMD benefitted from the pandemic, which boosted demand due to the work-from-home economy. PC and server sales exceeded expectations; Ryzen and EPYC series processors shipments were strong, driving first quarter revenue up by 40% compared to the same period in 2019. Earnings were also better than market expectations.

Despite AMD’s conservative outlook for Q2, with revenue estimates between $1.75B and $1.95B, it is still up by 21% compared with the same period in 2019, and up 4% sequentially, still a good result despite the traditional low season for PCs and the impact of the pandemic.

As understood, AMD’s desktop and server shipments have strengthened across the board since the second half of 2019, and demand has exceeded market expectations. Even AMD themselves and TSMC were caught by surprise. This has led to significant improvements in AMD’s profitability. TSMC happily welcomes the growing strength of its chip customers.

According to sources in the semiconductor industry, AMD had announced a comprehensive partnership with TSMC for sub-7nm processes, and has also confirmed mass production schedules for 7nm, 7nm EUV, 5nm and 3nm products. However, beyond expectations, AMD’s performance took a Great Leap Forward over the last one and a half years. Board, PC and server manufacturers significantly increased their ‘weightage’ (adoption of AMD products relative to others), in part due to Intel’s chip shortages. More importantly, the partnership with TSMC resulted in drastically improved product performance and yield, as well as price competitiveness for AMD, leading to rising shipments and market share quarter after quarter.

In 2020, because of the huge increase in sales, AMD has been urgently chasing after TSMC to expedite orders. The size of those orders were not small, becoming the greatest fallback for TSMC, which got caught in the Huawei ban crisis, making demand and production planning extremely difficult. As a result, TSMC is also adjusting (broadening) its services for AMD, and in considering the optimum allocation of production capacity, modified the process plans for AMD’s products.

As understood, TSMC has entered the 5nm era since April. The enhanced version of 5nm will also enter mass production in Q4, ahead of market expectations, and the first customer to adopt it is AMD, with its new Ryzen 4000 series processors.

AMD’s new generation Ryzen 4000 series processor (codenamed Vermeer), originally planned to use 7nm EUV, will be unveiled around Sep-Oct, but in line with the mass production schedule of TSMC’s enhanced 5nm process, will only be launched at the end of the year or during CES in Jan 2021.

According to semiconductor industry players, AMD plonked down a lot of money to enter the enhanced 5nm era, hoping to build upon its success and expand its leadership in advanced process technology before Intel’s 10nm process is fully deployed and 7nm process is yet to debut, once again capitalising on the narrative around introduction of advanced process technology and performance/efficiency improvements, to narrow its market share with Intel.

Judging by AMD’s current momentum and product performance, the enhanced 5nm Ryzen series processors will put unprecedented pressure on Intel. If Intel does not cut prices or accelerate the introduction of 10nm desktop processors, its empire may be gradually eroded by AMD, ushering in the biggest change in the global PC platform competitive landscape in 15 years: AMD’s market share can be expected to reach historical highs.

Separately, Nvidia has finally joined the 7nm bandwagon recently, entering full production in the second half of the year, while 5nm capacity continues to be reserved for Apple and HiSilicon, although the status of HiSilicon’s orders after Q4 is unknown due to the heightened US ban on Huawei.

Now, we have not directly seen the DigiTimes article, so we cannot vouch for its authenticity. We only have this picture to go by :

 

5 Reasons Why AMD Ryzen 4000 Will NOT Use 5nm TSMC Process

We have no idea whether the DigiTimes article exists, or was translated accurately, but we seriously doubt it will happen. Here’s why…

Reason #1 : AMD Unlikely To Delay Ryzen 4000 Desktop Launch To 2021

AMD CEO Dr. Lisa Su confirmed at CES 2020 that Zen 3 will debut in 2020, most likely around October to make it in time for the year-end holiday season.

While the COVID-19 pandemic has delayed the consumer launch of the Ryzen 4000 mobile processors, it is unlikely to delay the launch of the Ryzen 4000 desktop processors until early 2021.

Reason #2 : Desktop Ryzen Processors Don’t “Need” 5nm

While shrinking die size is generally a good thing, desktop processors like the upcoming 4th Gen Ryzen 4000 CPUs do not “need” a die shrink.

The focus will be on achieving high clock speeds at lower costs. That’s why the 3rd Gen Ryzen 3000 desktop processors use a chiplet design – the CPU dies are fabricated on 7nm, while the I/O die is fabricated on 12nm.

A matured and improved 7nm process would allow the 4th Gen Ryzen 4000 processors to deliver higher clock speeds at a much lower cost than a new 5nm process.

Reason #3 : Mobile Ryzen Processors Will Likely Be First To Use 5nm

AMD is strongest in the desktop and HEDT segment, outperforming Intel by sheer brute force, thanks to the higher number of cores in their desktop Ryzen and Threadripper processors.

They are weakest in the mobile market, with Intel mobile processors still controlling the vast majority of the market.

To seriously take on Intel in this critical segment, AMD would probably leverage the costly 5nm process to give their future Ryzen 5000 mobile processors a significant advantage in both performance and power consumption.

Reason #4 : 5nm Not That Advantageous Over Improved 7nm

While a 5nm transistor node sounds like it will offer 28.5% smaller transistors than a 7nm node, the difference in reality is much smaller.

That’s partly because the transistor sizes – 7nm, 5nm – are really marketing terms, not precise engineering definitions – and partly because of diminishing returns.

In any case, the TSMC 5nm process promises to offer 25% better performance over 7nm, but their improved 7nm process will offer at least 10% better performance over 7nm.

In other words, the net performance difference between the TSMC 5nm and improved TSMC 7nm (N7+) is just 13.6%. The cost of 5nm would, no doubt, be far more than improved 7nm.

Reason #5 : 5nm Yields Are Still Poor

Another thing to consider with a new transistor node is yield. This is the problem Intel had with their 10nm process technology – poor yield.

As of December 2019, the 5nm TSMC process has an average yield per wafer of ~80% with a tiny die size of 17.92 mm2. That yield goes down to an abysmal 32% with a 100 mm2 die size.

While no one knows how big the Zen 3 die will be, it is safe to say it will be closer to 100 mm2. The Zen 2 die, for example, is 74 mm2 in size.

Will AMD risk the success of their 4th Gen Ryzen 4000 desktop processors on TSMC hitting reasonable yields on 5 nm? We think not!

 

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AMD Ryzen PRO 4000 Mobile APUs : A Quick Primer!

Together with their Spring 2020 desktop Ryzen launch, AMD also launched the Ryzen PRO 4000 mobile APUs for professional laptops!

Here is EVERYTHING AMD has revealed so far about the new Ryzen PRO 4000 mobile APUs!

 

3rd Gen Ryzen 4000 Mobile Family : An Overview

The 3rd Gen Ryzen 4000 Mobile processor family comes in three product line-ups :

  • PRO-series for professional laptops
  • 45 watt H-series for high-performance laptops, and
  • 15 watt U-series for low-power ultra-thin laptops.

All three series boasts the same architectural features :

  • Built on the 7nm process technology
  • 512 KB L2 cache per core
  • 4 MB L3 cache for 2 / 4-core parts
  • 8 MB L3 cache for 6 / 8-core parts
  • LPDDR4x memory support
  • Integrated Radeon Vega Graphics (5 to 8 cores)
  • support AMD SmartShift

Recommended : AMD SmartShift Explained : Smart Power Distribution FTW!

 

AMD Ryzen PRO 4000 Mobile APUs : A Quick Primer!

AMD announced three models under the new Ryzen PRO 4000 Mobile family :

AMD Ryzen 7 PRO 4750U

  • Designed for ultra-thin business laptops, with 8 cores and 16 threads
  • Up to 33% better multi-threaded performance than the competition
  • Up to 2.2X better graphics performance than the competition
  • Up to 2X better performance per watt over previous generation

AMD Ryzen 5 PRO 4650U

  • Designed for ultra-thin business laptops, with 6 cores and 12 threads
  • Up to 2X better multi-threaded performance than the competition
  • Up to 2.3X better graphics performance than the competition
  • Up to 2X better performance per watt over previous generation

AMD Ryzen 3 PRO 4550U

  • Designed for ultra-thin business laptops, with 4 cores and 8 threads

 

AMD Ryzen PRO 4000 Mobile APUs : Specifications

Specifications Ryzen 7
PRO
4750U
Ryzen 5 PRO
4650U
Ryzen 3 PRO
4450U
Process 7 nm + 12 nm
Cores / Threads 8 / 16 6 / 12 4 / 8
Base Clock 1.7 GHz 2.1 GHz 2.5 GHz
Boost Clock 4.1 GHz 4.0 GHz 3.7 GHz
L2 Cache 4 MB 3 MB 2 MB
L3 Cache 8 MB 4 MB
GPU Cores 7 6 5
Memory
Support
DDR4-3200
LPDDR4-4266
TDP 15 W

 

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AMD Athlon 3000 Mobile Processors : A Quick Primer!

Together with the Ryzen 4000 Mobile series, AMD also introduced the Athlon 3000 mobile processors with Radeon Graphics for mainstream laptops!

Here is EVERYTHING AMD has revealed so far about their Athlon 3000 mobile processors!

 

AMD Athlon 3000 Mobile Processors : A Quick Primer!

The AMD Athlon 3000 mobile processors appears to be a rehash of last year’s Athlon 300 mobile processor.

It maintains the same 15W TDP, with the same 2-core, 4-thread configuration, as well as integrated Radeon Vega Graphics.

AMD is introducing two new SKUs – the Athlon Gold 3150U and the Athlon Silver 3050U.

There is nothing new about the Athlon 3000 mobile processors. From what we can tell, the AMD Athlon Gold 3150U is a renamed Athlon 300U from last year.

The AMD Athlon Silver 3050U, on the other hand, not only has 100 MHz lower base and boost clocks, it also removes support for simultaneous multi-threading.

Recommended : 3rd Gen Ryzen 4000 Mobile Family : A Quick Primer!

 

AMD Athlon 3000 Mobile Processors : Specifications

Processor Model Cores /
Threads
cTDP Base
Clock
Boost
Clock
L2
Cache
L3
Cache
Graphics
Athlon Gold 3150U 2 / 4 15 W 2.4 GHz 3.3 GHz 1 MB 4 MB Vega 3
Athlon Silver 3050U 2 / 2 15 W 2.3 GHz 3.2 GHz 1 MB 4 MB Vega 2

 

AMD Athlon 3000 Mobile Processor Performance

AMD is targeting the Athlon Gold 3150U at the Intel Pentium Gold 5405U mobile processor. Here is how they compare, based on AMD’s internal tests :

The AMD Athlon Gold 3150U’s performance advantage over the Intel Pentium Gold 5405U varies between 39% and 90%.

But we should point out that the Pentium Gold 5405U has a fixed 2.3 GHz clock speed, and half the L2 and L3 cache.

 

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AMD Ryzen 7 4800H : 8C/16T High Performance Mobile APU!

AMD just introduced the Ryzen 7 4800H – a high-performance 8-core, 16-thread mobile processor with a nominal TDP of 45 watts!

Here is EVERYTHING AMD has revealed so far about the Ryzen 7 4800H, including when you can expect it to debut!

 

AMD Ryzen 4000 H-Series

The AMD Ryzen 7 4800H is part of the new Ryzen 4000 H-Series, which consists at launch of just these two models :

  • Ryzen 7 4800H : 8 cores, 16 threads, 2.9 GHz base clock, 4.2 GHz boost clock
  • Ryzen 5 4600H : 6 cores, 12 threads, 3.0 GHz base clock, 4.0 GHz boost clock

Recommended : 3rd Gen Ryzen 4000 Mobile Family : A Quick Primer!

 

AMD Ryzen 7 4800H Mobile APU

The AMD Ryzen 7 4800U not only comes with 8 cores, it also supports simultaneous multithreading, allowing it to process up to 16 threads at the same time.

It has a 4 MB L2 cache and 8 MB L3 cache, with a 2.9 GHz base clock and a 4.2 GHz boost clock. It comes with a Radeon Vega 7 Graphics integrated GPU that runs at 1.6 GHz.

The AMD Ryzen 7 4800H has a nominal TDP of 45 watts, but is configurable by the laptop manufacturer for a TDP of 35 watts to 45 watts.

Like the other AMD Ryzen 4000 Mobile processors, it is fabricated on the 7 nm process, and supports LPDDR4x memory. It also has SmartShift capability, when paired with a separate Radeon GPU.

 

AMD Ryzen 7 4800H Specifications Compared

Here is a comparison of the AMD Ryzen 7 4800H against the other members of the AMD Ryzen 4000 Mobile family.

Processor Model Cores /
Threads
cTDP Base
Clock
Boost
Clock
L2
Cache
L3
Cache
GPU GPU
Clock
Ryzen 7 4800H 8 / 16 45 W 2.9 GHz 4.2 GHz 4 MB 8 MB Vega 7 1.6 GHz
Ryzen 7 4800U 8 / 16 15 W 1.8 GHz 4.2 GHz 4 MB 8 MB Vega 8 1.75 GHz
Ryzen 5 4700U 8 / 8 15 W 2.0 GHz 4.1 GHz 4 MB 8 MB Vega 7 1.6 GHz
Ryzen 5 4600H 6 / 12 45 W 3.0 GHz 4.0 GHz 3 MB 8 MB Vega 6 1.5 GHz
Ryzen 5 4600U 6 / 12 15 W 2.1 GHz 4.0 GHz 3 MB 8 MB Vega 6 1.5 GHz
Ryzen 5 4500U 6 / 6 15 W 2.3 GHz 4.0 GHz 3 MB 8 MB Vega 6 1.5 GHz
Ryzen 3 4300U 4 / 4 15 W 2.7 GHz 3.7 GHz 2 MB 4 MB Vega 5 1.4 GHz

 

AMD Ryzen 7 4800H Performance

The AMD Ryzen 7 4800U is targeted directly at the Intel Core i7-9750H, offering :

  • Up to 5% better single-threaded performance
  • Up to 46% better multi-threaded performance
  • Up to 25% faster 4K video encoding on Adobe Premiere
  • Up to 39% faster gameplay physics simulation performance

Thanks to its 2 extra cores and ability to process 4 extra threads, the Ryzen 7 4800H significantly cuts down on the time it takes for content creators to process their work.

Now, its integrated Radeon Vega 7 Graphics is not very fast, which is why AMD did not quote any graphics performance figures. In fact, it has one less core and runs at at a slower speed than the Radeon Vega 8 Graphics in the Ryzen 7 4800U.

Instead, AMD shared with us the PHYSICS test results of the 3DMark Firestrike benchmark. It shows the Ryzen 7 4800H beating not only the Core i7-9750H mobile processor, but also the Core i7-9700K desktop processor! However, it is CPU-only benchmark.

Its gaming performance will definitely be poorer than that of the 15W Ryzen 7 4800U, which means it will likely be paired with a Radeon RX 5500M or RX 5600M, to take advantage of the new AMD SmartShift capability.

 

AMD Ryzen 7 4800H Availability

One of the first laptops to feature the AMD Ryzen 7 4800H is the ASUS ROG Zephyrus G14, which claims to be the world’s most powerful 14-inch gaming laptop.

It comes with a 14-inch Pantone-validated display with a Full HD or WQHD resolution, and a 120 Hz refresh rate.

It is less than 18 mm thick and weighs just 1.6 kg. ASUS claims a 10 hour battery life, not while gaming though but playing videos.

The Zephyrus G14 and the first slew of laptops to feature the Ryzen 7 4800H will debut in Q1 2020. We will update this article once we know more.

 

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AMD Ryzen 7 4800U : 8C/16T Mobile APU @ Just 15W!

AMD just introduced the Ryzen 7 4800U – the world’s first 8-core, 16-thread mobile processor with a nominal TDP of just 15 watts!

Here is EVERYTHING AMD has revealed so far about the Ryzen 7 4800U, including when you can expect it to debut!

 

AMD Ryzen 4000 U-Series

The AMD Ryzen 7 4800U is part of the new Ryzen 4000 U-Series, which consists at launch of these five models :

  • Ryzen 7 4800U : 8 cores, 16 threads, 1.8 GHz base clock, 4.2 GHz boost clock
  • Ryzen 7 4700U : 8 cores, 8 threads, 2.0 GHz base clock, 4.1 GHz boost clock
  • Ryzen 5 4600U : 6 cores, 12 threads, 2.1 GHz base clock, 4.0 GHz boost clock
  • Ryzen 5 4500U : 6 cores, 6 threads, 2.3 GHz base clock, 4.0 GHz boost clock
  • Ryzen 3 4300U : 4 cores, 4 threads, 2.7 GHz base clock, 3.7 GHz boost clock

Recommended : 3rd Gen Ryzen 4000 Mobile Family : A Quick Primer!

 

AMD Ryzen 7 4800U Mobile APU

There are two 8-core U-series processors, but the AMD Ryzen 7 4800U is the only one to support simultaneous multithreading, allowing it to process up to 16 threads at the same time.

It has a 4 MB L2 cache and 8 MB L3 cache, with a 1.8 GHz base clock and a 4.2 GHz boost clock. It comes with a Radeon Vega 8 Graphics integrated GPU that runs at 1.75 GHz.

The AMD Ryzen 7 4800U has a nominal TDP of 15 watts, but is configurable by the laptop manufacturer for a TDP of 12 watts to 25 watts.

Like the other AMD Ryzen 4000 Mobile processors, it is fabricated on the 7 nm process, and supports LPDDR4x memory. It also has SmartShift capability, when paired with a separate Radeon GPU.

 

AMD Ryzen 7 4800U Specifications Compared

Here is a comparison of the AMD Ryzen 7 4800U against the other members of the AMD Ryzen 4000 Mobile family.

Processor Model Cores /
Threads
cTDP Base
Clock
Boost
Clock
L2
Cache
L3
Cache
GPU GPU
Clock
Ryzen 7 4800H 8 / 16 45 W 2.9 GHz 4.2 GHz 4 MB 8 MB Vega 7 1.6 GHz
Ryzen 7 4800U 8 / 16 15 W 1.8 GHz 4.2 GHz 4 MB 8 MB Vega 8 1.75 GHz
Ryzen 5 4700U 8 / 8 15 W 2.0 GHz 4.1 GHz 4 MB 8 MB Vega 7 1.6 GHz
Ryzen 5 4600H 6 / 12 45 W 3.0 GHz 4.0 GHz 3 MB 8 MB Vega 6 1.5 GHz
Ryzen 5 4600U 6 / 12 15 W 2.1 GHz 4.0 GHz 3 MB 8 MB Vega 6 1.5 GHz
Ryzen 5 4500U 6 / 6 15 W 2.3 GHz 4.0 GHz 3 MB 8 MB Vega 6 1.5 GHz
Ryzen 3 4300U 4 / 4 15 W 2.7 GHz 3.7 GHz 2 MB 4 MB Vega 5 1.4 GHz

 

AMD Ryzen 7 4800U Performance

The AMD Ryzen 7 4800U is targeted directly at the Intel Core i7-1065G7, offering :

  • Up to 4% better single-threaded performance
  • Up to 90% better multi-threaded performance
  • Up to 18% faster graphics performance

Thanks to its 4 extra cores and ability to process 8 extra threads, the Ryzen 7 4800U can really cut down on the time it takes for content creators to process their work.

Now, its integrated Radeon Vega 8 Graphics is no Speedy Gonzales, but if you can live with low graphics settings, you can actually game at 1080p with decent frame rates.

In League of Legends, its 8-core GPU is slightly slower than the 7-core Intel Iris Plus Graphics, but in most cases, it is between 20%-50% faster.

 

AMD Ryzen 7 4800U Availability

One of the first laptops to feature the AMD Ryzen 7 4800U is the Lenovo Yoga Slim 7, which lays claim to be the world’s thinnest and lightest 8-core 25W laptop.

Its AMD Ryzen 7 4800U has been adjusted to use the higher 25 watt TDP, and it can be configured with up to 16 GB of LPDDR4x memory.

It comes with a 14-inch Full HD display that supports AMD FreeSync, with a resolution of 1920 x 1080 pixels. It is less than 15 mm thick and weighs just 1.4 kg.

The Lenovo Yoga Slim 7 and the first slew of laptops to feature the Ryzen 7 4800U will debut in Q1 2020. We will update this article once we know more.

 

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3rd Gen Ryzen 4000 Mobile Family : A Quick Primer!

At CES 2020, AMD unveiled the 3rd Gen Ryzen 4000 Mobile processor family, which offers the world’s first 8-core processors for both ultra-thin and gaming laptops.

Here is EVERYTHING AMD has revealed so far about the 3rd Gen Ryzen 4000 Mobile processor family!

 

3rd Gen Ryzen 4000 Mobile Family : A Quick Primer!

The 3rd Gen Ryzen 4000 Mobile processor family will offer three product line-ups :

  • PRO-series for professional laptops
  • 45 watt H-series for high-performance laptops, and
  • 15 watt U-series for low-power ultra-thin laptops.

All three series boasts the same architectural features :

  • Built on the 7nm process technology
  • 512 KB L2 cache per core
  • 4 MB L3 cache for 2 / 4-core parts
  • 8 MB L3 cache for 6 / 8-core parts
  • LPDDR4x memory support
  • Integrated Radeon Vega Graphics (5 to 8 cores)
  • support AMD SmartShift

Recommended : AMD SmartShift Explained : Smart Power Distribution FTW!

[adrotate group=”1″]

 

The Top H-Series 3rd Gen Ryzen 4000 Mobile Processor

The top H-series 3rd Gen Ryzen 4000 Mobile processor is the AMD Ryzen 7 4800H, which is targeted directly at the Intel Core i7-9750H, offering :

  • Up to 5% better single-threaded performance
  • Up to 46% better multi-threaded performance
  • Up to 25% faster 4K video encoding on Adobe Premiere
  • Up to 39% faster gameplay physics simulation performance

Recommended : AMD Ryzen 7 4800H : 8C/16T High Performance Mobile APU!

 

The Top U-Series 3rd Gen Ryzen 4000 Mobile Processor

The top U-series 3rd Gen Ryzen 4000 Mobile processor is the AMD Ryzen 7 4800U, which is targeted directly at the Intel Core i7-1065G7, offering :

  • Up to 4% better single-threaded performance
  • Up to 90% better multi-threaded performance
  • Up to 18% faster graphics performance

Recommended : AMD Ryzen 7 4800U : 8C/16T Mobile APU @ Just 15W!

 

3rd Gen Ryzen 4000 Mobile Family : Specifications

Processor Model Cores /
Threads
cTDP Base
Clock
Boost
Clock
L2
Cache
L3
Cache
GPU GPU
Clock
Ryzen 7 4800H 8 / 16 45 W 2.9 GHz 4.2 GHz 4 MB 8 MB Vega 7 1.6 GHz
Ryzen 7 4800U 8 / 16 15 W 1.8 GHz 4.2 GHz 4 MB 8 MB Vega 8 1.75 GHz
Ryzen 5 4700U 8 / 8 15 W 2.0 GHz 4.1 GHz 4 MB 8 MB Vega 7 1.6 GHz
Ryzen 5 4600H 6 / 12 45 W 3.0 GHz 4.0 GHz 3 MB 8 MB Vega 6 1.5 GHz
Ryzen 5 4600U 6 / 12 15 W 2.1 GHz 4.0 GHz 3 MB 8 MB Vega 6 1.5 GHz
Ryzen 5 4500U 6 / 6 15 W 2.3 GHz 4.0 GHz 3 MB 8 MB Vega 6 1.5 GHz
Ryzen 3 4300U 4 / 4 15 W 2.7 GHz 3.7 GHz 2 MB 4 MB Vega 5 1.4 GHz

 

Ryzen 4000 vs Ryzen 3000

Here’s a quick summary of how the new 3rd Gen Ryzen 4000 Mobile processors compare to last year’s 2nd Gen Ryzen 3000 Mobile processors :

  • Fabricated on the 7 nm process technology, instead of 12 nm
  • Up to 2X better performance per watt

  • Double the cores and threads in a single SoC
  • Now with LPDDR4x memory support
  • Up to 5X lower power state entry / exit latency
  • Up to 20% lower SoC power

 

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IOQD from The Tech ARP BIOS Guide!

IOQD

Common Options : 1, 4, 8, 12

 

IOQD : A Quick Review

The IOQD BIOS feature controls the use of the processor bus’ command queue.

Normally, there are only two options available. Depending on the motherboard chipset, the options could be (1 and 4), (1 and 8) or (1 and 12).

The first queue depth option is always 1, which prevents the processor bus pipeline from queuing any outstanding commands. If selected, each command will only be issued after the processor has finished with the previous one.

Therefore, every command will incur the maximum amount of latency. This varies from 4 clock cycles for a 4-stage pipeline to 12 clock cycles for pipelines with 12 stages.

In most cases, it is highly recommended that you enable command queuing by selecting the option of 4 / 8 / 12 or in some cases, Enabled.

This allows the processor bus pipeline to mask its latency by queuing outstanding commands. You can expect a significant boost in performance with this feature enabled.

Interestingly, this IOQD feature can also be used as an aid in overclocking the processor. Although the queuing of commands brings with it a big boost in performance, it may also make the processor unstable at overclocked speeds. To overclock beyond what’s normally possible, you can try disabling command queuing.

But please note that the performance deficit associated with deeper pipelines (8 or 12 stages) may not be worth the increase in processor overclockability. This is because the deep processor bus pipelines have very long latencies.

If they are not masked by command queuing, the processor may be stalled so badly that you may end up with poorer performance even if you are able to further overclock the processor. So, it is recommended that you enable command queuing for deep pipelines, even if it means reduced overclockability.

 

IOQD : The Details

For greater performance at high clock speeds, motherboard chipsets now feature a pipelined processor bus. The multiple stages in this pipeline can also be used to queue up multiple commands to the processor.

This command queuing greatly improves performance because it effectively masks the latency of the processor bus. In optimal situations, the amount of latency between each succeeding command can be reduced to only a single clock cycle!

The IOQD BIOS feature controls the use of the processor bus’ command queue. Normally, there are only two options available.

Depending on the motherboard chipset, the options could be (1 and 4), (1 and 8) or (1 and 12). This is because the IOQD BIOS feature does not actually allow you to select the number of commands that can be queued.

It merely allows you to disable or enable the command queuing capability of the processor bus pipeline. This is because the number of commands that can be queued depends entirely on the number of stages in the pipeline.

As such, you can expect to see IOQD to be associated with options like Enabled and Disabled in some motherboards.

The first queue depth option is always 1, which prevents the processor bus pipeline from queuing any outstanding commands.

If selected, each command will only be issued after the processor has finished with the previous one. Therefore, every command will incur the maximum amount of latency. This varies from 4 clock cycles for a 4-stage pipeline to 12 clock cycles for pipelines with 12 stages.

As you can see, this reduces performance as the processor has to wait for each command to filter down the pipeline. The severity of the effect depends greatly on the depth of the pipeline. The deeper the pipeline, the greater the effect.

If the second queue depth option is 4, this means that the processor bus pipeline has 4 stages in it. Selecting this option allows the queuing of up to 4 commands in the pipeline. Each command can then be processed successively with a latency of only 1 clock cycle.

If the second queue depth option is 8, this means that the processor bus pipeline has 8 stages in it. Selecting this option allows the queuing of up to 8 commands in the pipeline. Each command can then be processed successively with a latency of only 1 clock cycle.

If the second queue depth option is 12, this means that the processor bus pipeline has 12 stages in it. Selecting this option allows the queuing of up to 12 commands in the pipeline. Each command can then be processed successively with a latency of only 1 clock cycle.

Please note that the latency of only 1 clock cycle is only possible if the pipeline is completely filled up. If the pipeline is only partially filled up, then the latency affecting one or more of the commands will be more than 1 clock cycle. Still, the average latency for each command will be much lower than it would be with command queuing disabled.

In most cases, it is highly recommended that you enable command queuing by selecting the option of 4 / 8 / 12 or in some cases, Enabled. This allows the processor bus pipeline to mask its latency by queuing outstanding commands. You can expect a significant boost in performance with this feature enabled.

Interestingly, this IOQD feature can also be used as an aid in overclocking the processor. Although the queuing of commands brings with it a big boost in performance, it may also make the processor unstable at overclocked speeds.

To overclock beyond what’s normally possible, you can try disabling command queuing. This may reduce performance but it will make the processor more stable and may allow it to be further overclocked.

But please note that the performance deficit associated with deeper pipelines (8 or 12 stages) may not be worth the increase in processor overclockability. This is because the deep processor bus pipelines have very long latencies.

If they are not masked by command queuing, the processor may be stalled so badly that you may end up with poorer performance even if you are able to further overclock the processor. So, it is recommended that you enable command queuing for deep pipelines, even if it means reduced overclockability.

 

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10th Gen Intel Comet Lake : 1 Step Forward, 1 Step Back!

Intel just introduced the Comet Lake mobile processors, taking a step forward with its performance, but a step back on its features.

Confused? You should be, after what Intel just did with the 10th Gen family of Core processors…

 

10th Gen Intel Core Mobile Processor Family… Families?

At Computex 2019, Intel shared that they will be introducing eleven new 10th Gen Core mobile processors, which they formally launched just 20 days ago.

Codenamed Ice Lake, these processors are built on the 10 nm process technology, offering better performance with lower power consumption and heat output.

Now, Intel is offering a completely different slew of mobile processors, under the same 10th Gen Core family.

It’s as if they have two different mobile CPU divisions…

 

10th Gen Intel Comet Lake – One Step Forward, One Step Back

Just 20 days after they launched the 10nm Ice Lake, Intel went retro. Reaching back to 2014, they are reintroducing the 14 nm process technology with Comet Lake.

Yes, my friends, Intel Comet Lake will be built on the old, old 14 nm process technology. Ahh, the nostalgia of playing Far Cry 4 and Wasteland 2… Anyone remember them?

Intel Comet Lake – One Step Forward

Now, Intel Comet Lake is no old 2014 mobile processor. Intel made significant improvements, offering significant performance improvements and features :

  • Up to 16% better performance than the last-generation Intel Whiskey Lake processors, never mind 2014 dinosaurs
  • Intel Adaptix technologies – a set of tools that will help Intel’s OEM partners tune their laptop designs for 8% to 12% better performance
  • Support for faster memory – up to DDR4-2666
  • Support for Intel Wi-Fi 6 (Gig+) and Thunderbolt 3 connectivity

Intel Comet Lake – One Step Back

On the other hand, Intel Comet Lake processors represent a step backwards too, especially when compared to the Ice Lake processors that were just launched :

  • They are fabricated on the less-efficient 14 nm process technology from 2014
  • Their older UHD Graphics is half as fast as Ice Lake‘s new Iris Plus graphics
  • They do not support Intel Deep Learning Boost that accelerates AI workloads
  • They do not come with the Intel Gaussian & Neural Accelerator (GNA) for background workloads at ultra-low power.
  • Their LPDDR4x memory speed is limited to 2933 MHz, compared to 3733 MHz in Ice Lake.
  • Their DDR4 memory speed is limited to 2666 MHz, compared to 3200 MHz in Ice Lake.

Recommended : 10th Gen Intel Ice Lake Mobile CPU Features + Specifications!

 

A New… Old Processor Number System?

When Intel introduced Ice Lake, they announced a new processor number system.

Intel Comet Lake, confusingly, ditches the newly-announced Level of Graphics suffix, and resurrects the U and Y suffixes from the 8th Gen Core processor number system.

 

10th Gen Intel Comet Lake Models + Specifications (U Series)

Intel announced four new 10th Gen Intel Comet Lake mobile processors under the U-series.

They all have a TDP of 15 watts, and support for LPDDR4x-2933, LPDDR3-2133 or DDR4-2666 memory options.

10th Gen U-Series Cores / Threads Cache Base Freq Single Core Turbo All Core Turbo Graphics Graphics Max Freq Nominal TDP
Intel Core i7-10710U 6 / 12 12 MB 1.1 GHz 4.7 GHz 3.9 GHz Intel UHD Graphics
(24 EUs)
1.15 GHz 15W
Intel Core i7-10510U 4 / 8 8 MB 1.8 GHz 4.9 GHz 4.3 GHz Intel UHD Graphics
(24 EUs)
1.15 GHz 15W
Intel Core i5-10210U 4 / 8 8 MB 1.8 GHz 4.9 GHz 4.3 GHz Intel UHD Graphics
(24 EUs)
1.10 GHz 15W
Intel Core i3-10110U 2 / 4 4 MB 2.1 GHz 4.1 GHz 3.7 GHz Intel UHD Graphics
(23 EUs)
1.0 GHz 15W

 

10th Gen Intel Comet Lake Models + Specifications (Y Series)

They also announced four new 10th Gen Intel Comet Lake mobile processors under the Y-series.

They all have a lower TDP of 9 watts, with support for only LPDDR3 memory at up to 2133 MHz.

10th Gen Y-Series Cores / Threads Cache Base Freq Single Core Turbo All Core Turbo Graphics Graphics Max Freq Nominal TDP
Intel Core i7-10510Y 4 / 8 8 MB 1.2 GHz 4.5 GHz 3.2 GHz Intel UHD Graphics
(24 EUs)
1.15 GHz 9W
Intel Core i5-10310Y 4 / 8 6 MB 1.1 GHz 4.1 GHz 2.8 GHz Intel UHD Graphics
(24 EUs)
1.05 GHz 9W
Intel Core i5-10210Y 4 / 8 6 MB 1.0 GHz 4.0 GHz 2.7 GHz Intel UHD Graphics
(24 EUs)
1.05 GHz 9W
Intel Core i3-10110Y 2 / 4 4 MB 1.0 GHz 4.0 GHz 3.7 GHz Intel UHD Graphics
(24 EUs)
1.0 GHz 9W

 

Intel Comet Lake : The Last Hurrah For 14 nm?

The Intel Ice Lake mobile processors are definitely technologically superior, which makes Comet Lake an awkward addition to the same 10th Gen Core processor family.

Frankly, the only interesting Intel Comet Lake model is the Intel Core i7-10710U, which offers 6 cores and 12 threads, with 12 MB of L3 cache and a TDP of just 15 watts.

The other Comet Lake models are, arguably, outclassed and overshadowed by their Ice Lake brethren.

We have to say, it’s really sad to see Intel struggle getting their 10 nm process yields up, while AMD is churning out tons of 3rd Gen Ryzen desktop CPUs, Radeon RX 5700 GPUs and even 2nd Gen EPYC server CPUs in 7 nm.

After all, they were once the leaders in chip fabrication technologies, ahead of everyone else by years.

Seriously, guys… let this be the last hurrah for 14 nm on mobile already!

 

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The Tech ARP Mobile CPU Comparison Guide Rev. 14.0

There are so many mobile CPU models that it has become quite impossible to keep up with the different models or even remember their specifications!

Therefore, we decided to compile this guide to provide an easy reference for those who are interested in comparing the specifications of the various mobile CPU models in the market, as well as those already obsolescent or obsolete.

Currently covering 1,249 mobile CPUs, this comprehensive comparison will allow you to easily compare 19 different specifications for each and every mobile CPU.

We hope it will prove to be a useful reference. We will keep this guide updated regularly so do check back for the latest updates!

To make it easy to compare the specifications, we split the longer lists into three smaller sections for your convenience. Just click on Split List to access them.

However, if you prefer to compare all the mobile CPU models for each company in a single table, we also have a single list which can be accessed by clicking on Full List. Just click on the company and the type of list you prefer.

For desktop and workstation CPUs, please refer to our Desktop CPU Comparison Guide and Workstation & Server CPU Comparison Guide.

 

Revision History

DateRevisionRevision History
14-08-201914.0Added the AMD Ryzen 7 3750H processor.
Added the AMD Ryzen 7 Pro 3700U processor.
Added the AMD Ryzen 7 3700U processor.
Added the AMD Ryzen 5 3550H processor.
Added the AMD Ryzen 5 Pro 3500U processor.
Added the AMD Ryzen 5 3500U processor.
Added the AMD Ryzen 3 Pro 3300U processor.
Added the AMD Ryzen 3 3300U processor.
Added the AMD Ryzen 3 3200U processor.
Added the AMD Athlon Pro 300U processor.
Added the AMD Athlon Pro 200U processor.
Added the AMD Ryzen 7 2800H processor.
Added the AMD Ryzen 7 Pro 2700U processor.
Added the AMD Ryzen 5 2600H processor.
Added the AMD Ryzen 5 Pro 2500U processor.
Added the AMD Ryzen 3 Pro 2300U processor.
Added the AMD Ryzen 3 2300U processor.
Added the AMD Ryzen 3 2200U processor.
Added the AMD Athlon 300U processor.

Updated the AMD Ryzen 7 2700U processor.
Updated the AMD Ryzen 5 2500U processor.

Added the Intel Xeon E3-1505M v5 processor.
Added the Intel Xeon E3-1515M v5 processor.
Added the Intel Xeon E3-1535M v5 processor.
Added the Intel Xeon E3-1545M v5 processor.
Added the Intel Xeon E3-1575M v5 processor.
Added the Intel Celeron 3965Y processor.
Added the Intel Core m3-7Y32 processor.
Added the Intel Core i3-7020U processor.
Added the Intel Core i3-7130U processor.
Added the Intel Xeon E3-1505M v6 processor.
Added the Intel Xeon E3-1535M v6 processor.
Added the Intel Core i7-8650U processor.
Added the Intel Core i7-8550U processor.
Added the Intel Core i5-8350U processor.
Added the Intel Core i5-8250U processor.
Added the Intel Core i3-8130U processor.
Added the Intel Core i7-8809G processor.
Added the Intel Core i7-8709G processor.
Added the Intel Core i7-8706G processor.
Added the Intel Core i7-8705G processor.
Added the Intel Core i5-8305G processor.
Added the Intel Core i7-8510Y processor.
Added the Intel Core i7-8500Y processor.
Added the Intel Core i5-8310Y processor.
Added the Intel Core i5-8210Y processor.
Added the Intel Core i5-8200Y processor.
Added the Intel Core m3-8100Y processor.
Added the Intel Xeon E-2176M processor.
Added the Intel Xeon E-2186M processor.
Added the Intel Core i9-8950HK processor.
Added the Intel Core i7-8850H processor.
Added the Intel Core i7-8750H processor.
Added the Intel Core i7-8700B processor.
Added the Intel Core i7-8569U processor.
Added the Intel Core i7-8559U processor.
Added the Intel Core i7-8557U processor.
Added the Intel Core i5-8500B processor.
Added the Intel Core i5-8400B processor.
Added the Intel Core i5-8400H processor.
Added the Intel Core i5-8300H processor.
Added the Intel Core i5-8279U processor.
Added the Intel Core i5-8269U processor.
Added the Intel Core i5-8259U processor.
Added the Intel Core i5-8257U processor.
Added the Intel Core i3-8100B processor.
Added the Intel Core i3-8100H processor.
Added the Intel Core i3-8109U processor.
Added the Intel Xeon E-2276M processor.
Added the Intel Xeon E-2286M processor.
Added the Intel Core i9-9980HK processor.
Added the Intel Core i9-9880H processor.
Added the Intel Core i7-9850H processor.
Added the Intel Core i7-9750H processor.
Added the Intel Core i7-9750HF processor.
Added the Intel Core i5-9400H processor.
Added the Intel Core i5-9300H processor.
Added the Intel Core i7-8665U processor.
Added the Intel Core i7-8565U processor.
Added the Intel Core i5-8365U processor.
Added the Intel Core i5-8265U processor.
Added the Intel Core i3-8145U processor.
Added the Intel Pentium Gold 5405U processor.
Added the Intel Celeron 4205U processor.
Added the Intel Core i3 -8121U processor.
Added the Intel Core i7-1068G7 processor.
Added the Intel Core i7-1065G7 processor.
Added the Intel Core i7-1060G7 processor.
Added the Intel Core i5-1035G7 processor.
Added the Intel Core i5-1035G4 processor.
Added the Intel Core i5-1035G1 processor.
Added the Intel Core i5-1030G7 processor.
Added the Intel Core i5-1030G4 processor.
Added the Intel Core i3-1005G1 processor.
Added the Intel Core i3-1000G4 processor.
Added the Intel Core i3-1000G1 processor.

Total CPUs : 1249
07-05-201813.1Added the AMD Ryzen 7 PRO 2700U quad-core processor.
Added the AMD Ryzen 5 PRO 2500U quad-core processor.
Added the AMD Ryzen 3 PRO 2300U quad-core processor.
Added the AMD Ryzen 3 2300U quad-core processor.
Added the AMD Ryzen 3 2200U quad-core processor.
Total CPUs : 1155
01-11-201713.0Added the AMD Ryzen 7 2700U quad-core processor.
Added the AMD Ryzen 5 2500U quad-core processor.
Added the AMD Pro A12-9830B quad-core processor.
Added the AMD FX-9830P quad-core processor.
Added the AMD Pro A12-9800B quad-core processor.
Added the AMD FX-9800P quad-core processor.
Added the AMD A12-9730P quad-core processor.
Added the AMD Pro A10-9730B quad-core processor.
Added the AMD A12-9720P (OEM) quad-core processor.
Added the AMD A12-9700P quad-core processor.
Added the AMD Pro A10-9700B quad-core processor.
Added the AMD A10-9630P quad-core processor.
Added the AMD Pro A8-9630B quad-core processor.
Added the AMD A10-9620P (OEM) quad-core processor.
Added the AMD A10-9600P quad-core processor.
Added the AMD Pro A8-9600B quad-core processor.
Added the AMD Pro A6-9500B dual-core processor.
Added the AMD Pro A12-8800B quad-core processor.
Added the AMD FX-8800P quad-core processor.
Added the AMD A10-8780P quad-core processor.
Added the AMD A10-8700P quad-core processor.
Added the AMD Pro A8-8600B quad-core processor.
Added the AMD A8-8600P quad-core processor.
Added the AMD Pro A6-8500B dual-core processor.
Added the AMD A6-8500P dual-core processor.
Total CPUs : 1150
27-01-201712.9Added the Intel Core i7-7920HQ quad-core processor.
Added the Intel Core i7-7820HK quad-core processor.
Added the Intel Core i7-7820EQ quad-core processor.
Added the Intel Core i7-7820HQ quad-core processor.
Added the Intel Core i7-7700HQ quad-core processor.
Added the Intel Core i7-7660U dual-core processor.
Added the Intel Core i7-7600U dual-core processor.
Added the Intel Core i7-7667U dual-core processor.
Added the Intel Core i7-7560U dual-core processor.
Added the Intel Core i5-7442EQ quad-core processor.
Added the Intel Core i5-7440EQ quad-core processor.
Added the Intel Core i5-7440HQ quad-core processor.
Added the Intel Core i5-7300HQ quad-core processor.
Added the Intel Core i5-7360U dual-core processor.
Added the Intel Core i5-7300U dual-core processor.
Added the Intel Core i5-7287U dual-core processor.
Added the Intel Core i5-7267U dual-core processor.
Added the Intel Core i5-7260U dual-core processor.
Added the Intel Core i5-7Y57 dual-core processor.
Added the Intel Core i3-7167U dual-core processor.
Added the Intel Core i3-7102E dual-core processor.
Added the Intel Core i3-7100H dual-core processor.
Added the Intel Core i3-7100E dual-core processor.
Added the Intel Pentium 4415U dual-core processor.
Added the Intel Pentium 4410Y dual-core processor.
Added the Intel Celeron 3965U dual-core processor.
Added the Intel Celeron 3865U dual-core processor.
Total CPUs : 1125
06-09-201612.8Added the Intel Core i7-7500U dual-core processor.
Added the Intel Core i7-7Y75 dual-core processor.
Added the Intel Core i5-7200U dual-core processor.
Added the Intel Core i5-7Y54 dual-core processor.
Added the Intel Core i3-7100U dual-core processor.
Added the Intel Core m3-7Y30 dual-core processor.
Total CPUs : 1098
08-04-201612.7Added the Intel Core i7-6600U dual-core processor.
Added the Die Size specification for all Intel Skylake processors.
Total CPUs : 1092
22-03-201612.6Added the Intel Core i7-6970HQ quad-core processor.
Added the Intel Core i7-6870HQ quad-core processor.
Added the Intel Core i7-6820HK quad-core processor.
Added the Intel Core i7-6770HQ quad-core processor.
Added the Intel Core i5-6350HQ quad-core processor.
Added the Intel Pentium N3710 quad-core processor.
Added the Intel Celeron N3160 quad-core processor.
Added the Intel Celeron N3060 dual-core processor.
Added the Intel Celeron N3010 dual-core processor.
Removed the Intel Core i7-6820EQ quad-core processor.
Total CPUs : 1091
29-02-201612.5Added the AMD RX-421BD quad-core processor.
Added the AMD RX-421NB quad-core processor.
Added the AMD RX-418GB quad-core processor.
Added the AMD RX-216GB dual-core processor.
Added the AMD RX-216TD dual-core processor.
Added the AMD GX-218GL dual-core processor.
Added the AMD GX-217GI dual-core processor.
Added the AMD GX-215GL dual-core processor.
Added the AMD GX-210JL dual-core processor.
Added the AMD GX-208JL dual-core processor.
Total CPUs : 1083
16-01-201612.4Added the Intel Core i7-6498DU dual-core processor.
Added the Intel Core i7-5500DU dual-core processor.
Added the Intel Core i5-6198DU dual-core processor.
Added the Intel Core i5-5200DU dual-core processor.
Added the Celeron 3955U dual-core processor.
Added the Celeron 3955U dual-core processor.
Updated the specifications of the Intel Core i7-6822EQ quad-core processor.
Updated the specifications of the Intel Core i7-6820EQ quad-core processor.
Total CPUs : 1073
13-10-201512.3Added the Intel Core i7-6920HQ quad-core processor.
Added the Intel Core i7-6822EQ quad-core processor.
Added the Intel Core i7-6820HK quad-core processor.
Added the Intel Core i7-6820HQ quad-core processor.
Added the Intel Core i7-6820EQ quad-core processor.
Added the Intel Core i7-6700HQ quad-core processor.
Added the Intel Core i7-6650U dual-core processor.
Added the Intel Core i7-6600U dual-core processor.
Added the Intel Core i7-6567U dual-core processor.
Added the Intel Core i7-6560U dual-core processor.
Added the Intel Core i7-6500U dual-core processor.
Added the Intel Core i5-6442EQ quad-core processor.
Added the Intel Core i5-6440HQ quad-core processor.
Added the Intel Core i5-6440EQ quad-core processor.
Added the Intel Core i5-6360U dual-core processor.
Added the Intel Core i5-6300HQ quad-core processor.
Added the Intel Core i5-6300U dual-core processor.
Added the Intel Core i5-6287U dual-core processor.
Added the Intel Core i5-6267U dual-core processor.
Added the Intel Core i5-6260U dual-core processor.
Added the Intel Core i5-6200U dual-core processor.
Added the Intel Core i3-6102E dual-core processor.
Added the Intel Core i3-6100H dual-core processor.
Added the Intel Core i3-6100E dual-core processor.
Added the Intel Core m7-6Y75 dual-core processor.
Added the Intel Core m5-6Y57 dual-core processor.
Added the Intel Core m5-6Y54 dual-core processor.
Added the Intel Core m3-6Y30 dual-core processor.
Total CPUs : 1067
04-08-201512.2Added the Intel Celeron 3765U dual-core processor.
Added the Intel Celeron 3215U dual-core processor.
Updated the specifications of the Intel Pentium N3700 quad-core processor.
Updated the specifications of the Intel Celeron N3000 family of processors.
Updated the Release Date specifications for the Intel "Broadwell" family of processors.
Total CPUs : 1039
25-06-201512.1Added the Intel Core i7-5950HQ quad-core processor.
Added the Intel Core i7-5850EQ quad-core processor.
Added the Intel Core i7-5850HQ quad-core processor.
Added the Intel Core i7-5750HQ quad-core processor.
Added the Intel Core i7-5700EQ quad-core processor.
Added the Intel Core i7-5700HQ quad-core processor.
Added the Intel Core i5-5350H dual-core processor.
Total CPUs : 1037
08-05-201512.0Added the AMD A8-7410 quad-core processor.
Added the AMD A6-7310 quad-core processor.
Added the AMD A4-7210 quad-core processor.
Added the AMD E2-7110 quad-core processor.
Added the AMD E1-7010 dual-core processor.
Total CPUs : 1030
09-04-201511.9Added the Intel Core i3-5020U dual-core processor.
Added the Intel Core i3-5015U dual-core processor.
Added the Intel Pentium 3825U dual-core processor.
Added the Intel Pentium N3700 quad-core processor.
Added the Intel Celeron N3150 quad-core processor.
Added the Intel Celeron N3050 dual-core processor.
Added the Intel Celeron N3000 dual-core processor.
Removed an extra iteration of the Intel Core i3-2328M dual-core processor.
Total CPUs : 1025
20-01-201511.8Added the Intel Core i7-4722HQ quad-core processor.
Added the Intel Core i7-4720HQ quad-core processor.
Added the Voltage and Maximum Current specifications for all Intel 5th Generation Core (Broadwell) processors.
Added the Voltage and Maximum Current specifications for all Intel 5th Generation Pentium (Broadwell) processors.
Added the Voltage and Maximum Current specifications for all Intel 5th Generation Celeron (Broadwell) processors.
Total CPUs : 1019
07-01-201511.7Added the Intel Core i7-5650U dual-core processor.
Added the Intel Core i7-5600U dual-core processor.
Added the Intel Core i7-5557U dual-core processor.
Added the Intel Core i7-5550U dual-core processor.
Added the Intel Core i7-5500U dual-core processor.
Added the Intel Core i5-5350U dual-core processor.
Added the Intel Core i5-5300U dual-core processor.
Added the Intel Core i5-5287U dual-core processor.
Added the Intel Core i5-5257U dual-core processor.
Added the Intel Core i5-5250U dual-core processor.
Added the Intel Core i5-5200U dual-core processor.
Added the Intel Core i3-5157U dual-core processor.
Added the Intel Core i3-5010U dual-core processor.
Added the Intel Core i3-5005U dual-core processor.
Added the Intel Pentium 3805U dual-core processor.
Added the Intel Celeron 3755U dual-core processor.
Added the Intel Celeron 3205U dual-core processor.
Total CPUs : 1017
09-12-201411.6Added the AMD A4 PRO-3340B quad-core processor.
Corrected the L2 Cache specification for all AMD "Kabini" processors.
Corrected the L2 Cache specification for all AMD "Temash" processors.
Renamed the AMD A4-5200 as the AMD A6-5200.
Added the Maximum Current specification for the AMD A4-5200 processor.
Added the Maximum Current specification for the AMD A4-5000 processor.
Added the Maximum Current specification for the AMD A6-1450 processor.
Added the Maximum Current specification for the AMD A4-1200 processor.
Added the Maximum Current specification for the AMD E2-3000 processor.
Added the Maximum Current specification for the AMD E1-2500 processor.
Added the Maximum Current specification for the AMD E1-2100 processor.
Updated the Maximum Current and TDP specifications for the AMD Turion 64 MT-37 processor.
Updated the Maximum Current and TDP specifications for the AMD Turion 64 MT-34 processor.
Updated the Maximum Current and TDP specifications for the AMD Turion 64 MT-32 processor.
Total CPUs : 1000
12-11-201411.5Added the Intel Core M-5Y71 dual-core processor.
Added the Intel Core M-5Y70 dual-core processor.
Added the Intel Core M-5Y51 dual-core processor.
Added the Intel Core M-5Y31 dual-core processor.
Added the Intel Core M-5Y10c dual-core processor.
Added the Intel Core M-5Y10a dual-core processor.
Added the Intel Core M-5Y10 dual-core processor.
Total CPUs : 999
23-10-201411.4Updated the specifications of the Intel Pentium N3500 (Bay Trail) family of quad-core processors.
Updated the specifications of the Intel Celeron N2900 (Bay Trail) family of quad-core processors.
Updated the specifications of the Intel Celeron N2800 (Bay Trail) family of dual-core processors.
Updated the specifications of all Intel 3rd Generation (Ivy Bridge) Core mobile processors.
Updated the specifications of all Intel 2nd Generation (Sandy Bridge) Core mobile processors.
Total CPUs : 992
17-09-201411.3Added the AMD A6-6410 quad-core processor.
Corrected the specifications of the AMD A6-6310 quad-core processor.
Updated the specifications of the entire AMD "Kaveri" family of processors.
Updated the specifications of the entire AMD "Beema" family of processors.
Updated the specifications of the entire AMD "Mullins" family of processors.
Updated the specifications of the entire AMD "Kabini" family of processors.
Updated the specifications of the entire AMD "Temash" family of processors.
Total CPUs : 992
25-07-201411.2Added the Intel Core i7-4980HQ quad-core processor.
Added the Intel Core i7-4870HQ quad-core processor.
Added the Intel Core i7-4770HQ quad-core processor.
Added the Intel Core i7-4760HQ quad-core processor.
Added the Intel Core i7-4578U dual-core processor.
Added the Intel Core i5-4308U dual-core processor.
Added the Intel Core i5-4278U dual-core processor.
Added the Intel Core i5-4210H dual-core processor.
Total CPUs : 991
26-06-201411.1Added the Intel Pentium 3560M dual-core processor.
Added the Intel Pentium N3540 quad-core processor.
Added the Intel Celeron 2970M dual-core processor.
Added the Intel Celeron N2940 dual-core processor.
Added the Intel Celeron N2840 dual-core processor.
Added the Intel Celeron N2808 dual-core processor.
Total CPUs : 983
04-06-201411.0Added the AMD FX-7600P quad-core processor.
Added the AMD FX-7500 quad-core processor.
Added the AMD A10-7400P quad-core processor.
Added the AMD A10 PRO-7350B quad-core processor.
Added the AMD A10-7300 quad-core processor.
Added the AMD A8-7200P quad-core processor.
Added the AMD A8 PRO-7150B quad-core processor.
Added the AMD A8-7100 quad-core processor.
Added the AMD A6 PRO-7050B dual-core processor.
Added the AMD A6-7000 dual-core processor.
Total CPUs : 977
22-05-201410.9Added the Intel Core i7-4712HQ quad-core processor.
Added the Intel Core i7-4712MQ quad-core processor.
Added the Intel Core i7-4710HQ quad-core processor.
Added the Intel Core i7-4710MQ quad-core processor.
Added the Intel Core i7-4510U dual-core processor.
Added the Intel Core i5-4422E dual-core processor.
Added the Intel Core i5-4410E dual-core processor.
Added the Intel Core i5-4260U dual-core processor.
Added the Intel Core i5-4220Y dual-core processor.
Added the Intel Core i5-4210U dual-core processor.
Added the Intel Core i5-4210M dual-core processor.
Added the Intel Core i3-4120U dual-core processor.
Added the Intel Core i3-4112E dual-core processor.
Added the Intel Core i3-4110E dual-core processor.
Added the Intel Core i3-4110M dual-core processor.
Added the Intel Core i3-4030Y dual-core processor.
Added the Intel Core i3-4030U dual-core processor.
Added the Intel Core i3-4025U dual-core processor.
Total CPUs : 967
01-05-201410.8Added the AMD A6-6310 quad-core processor.
Added the AMD A4-6210 quad-core processor.
Added the AMD E2-6110 quad-core processor.
Added the AMD E1-6010 dual-core processor.
Added the AMD A10 Micro-6700T quad-core processor.
Added the AMD A4 Micro-6400T quad-core processor.
Added the AMD E1 Micro-6200T dual-core processor.
Total CPUs : 949
14-04-201410.7Added the Intel Core i7-4801EQ quad-core processor.
Added the Intel Core i7-4702EC quad-core processor.
Added the Intel Core i7-4700EC quad-core processor.
Added the Intel Core i5-4402EC dual-core processor.
Corrected the Release Date specification for the Intel Core i7-4960HQ quad-core processor.
Corrected the L3 Cache specification for the Intel Core i7-4700EQ quad-core processor.
Total CPUs : 942
24-03-201410.6Added the Intel Pentium N3530 quad-core processor.
Added the Intel Celeron 2002E dual-core processor.
Added the Intel Celeron 2000E dual-core processor.
Added the Intel Celeron N2930 quad-core processor.
Added the Intel Celeron N2830 dual-core processor.
Added the Intel Celeron N2807 dual-core processor.
Updated the Transistor Count and Die Size specifications of all Intel "Haswell"-based mobile processors.
Updated the specifications of the Intel Core i7-4940MX quad-core processor.
Updated the specifications of the Intel Core i7-4910MQ quad-core processor.
Updated the specifications of the Intel Core i7-4860HQ quad-core processor.
Updated the specifications of the Intel Core i7-4810MQ quad-core processor.
Updated the specifications of the Intel Core i7-4610M dual-core processor.
Updated the specifications of the Intel Core i5-4360U dual-core processor.
Updated the specifications of the Intel Core i5-4340M dual-core processor.
Updated the specifications of the Intel Core i5-4310U dual-core processor.
Updated the specifications of the Intel Core i5-4310M dual-core processor.
Updated the specifications of the Intel Pentium N3520 quad-core processor.
Updated the specifications of the Intel Pentium N3510 quad-core processor.
Updated the specifications of the Intel Celeron N2900 (Bay Trail) family of quad-core processors.
Updated the specifications of the Intel Celeron N2800 (Bay Trail) family of dual-core processors.
Total CPUs : 938
19-02-201410.5Added the AMD A4-5100 quad-core processor.
Added the AMD E2-3800 quad-core processor.
Added the AMD E1-2200 dual-core processor.
Updated the specifications of the AMD Richland processor family.
Updated the specifications of the AMD Kabini processor family.
Updated the specifications of the AMD Temash processor family.
Total CPUs : 932
23-01-201410.4Added the Intel Core i7-4940MX quad-core processor.
Added the Intel Core i7-4910MQ quad-core processor.
Added the Intel Core i7-4860HQ quad-core processor.
Added the Intel Core i7-4810MQ quad-core processor.
Added the Intel Core i7-4610M dual-core processor.
Added the Intel Core i5-4360U dual-core processor.
Added the Intel Core i5-4340M dual-core processor.
Added the Intel Core i5-4310U dual-core processor.
Added the Intel Core i5-4310M dual-core processor.
Total CPUs : 929
19-12-201310.3Added the Intel Pentium 3561Y dual-core processor.
Added the Intel Pentium 3560Y dual-core processor.
Added the Intel Pentium 3558U dual-core processor.
Added the Intel Pentium 3556U dual-core processor.
Added the Intel Pentium 3550M dual-core processor.
Added the Intel Pentium N3520 quad-core processor.
Added the Intel Pentium N3510 quad-core processor.
Added the Intel Pentium A1018 dual-core processor.
Added the Intel Celeron 2981U dual-core processor.
Added the Intel Celeron 2980U dual-core processor.
Added the Intel Celeron 2961Y dual-core processor.
Added the Intel Celeron 2957U dual-core processor.
Added the Intel Celeron 2955U dual-core processor.
Added the Intel Celeron 2950M dual-core processor.
Added the Intel Celeron N2920 quad-core processor.
Added the Intel Celeron N2910 quad-core processor.
Added the Intel Celeron N2820 dual-core processor.
Added the Intel Celeron N2815 dual-core processor.
Added the Intel Celeron N2810 dual-core processor.
Added the Intel Celeron N2806 dual-core processor.
Added the Intel Celeron N2805 dual-core processor.
Total CPUs : 920
15-11-201310.2Added the Intel Core i7-4960HQ quad-core processor.
Added the Intel Core i7-4610Y dual-core processor.
Added the Intel Core i7-4600M dual-core processor.
Added the Intel Core i7-4600U dual-core processor.
Added the Intel Core i5-4402E dual-core processor.
Added the Intel Core i5-4400E dual-core processor.
Added the Intel Core i5-4330M dual-core processor.
Added the Intel Core i5-4302Y dual-core processor.
Added the Intel Core i5-4300M dual-core processor.
Added the Intel Core i5-4300U dual-core processor.
Added the Intel Core i5-4300Y dual-core processor.
Added the Intel Core i5-4210Y dual-core processor.
Added the Intel Core i5-4202Y dual-core processor.
Added the Intel Core i5-4200H dual-core processor.
Added the Intel Core i5-4200M dual-core processor.
Added the Intel Core i3-4102E dual-core processor.
Added the Intel Core i3-4100M dual-core processor.
Added the Intel Core i3-4100E dual-core processor.
Added the Intel Core i3-4020Y dual-core processor.
Added the Intel Core i3-4012Y dual-core processor.
Added the Intel Core i3-4005U dual-core processor.
Added the Intel Core i3-4000M dual-core processor.
Total CPUs : 899
14-10-201310.1Added the AMD A4-5200 quad-core APU.
Added the AMD A4-5000 quad-core APU.
Added the AMD A6-1450 quad-core APU.
Added the AMD A4-1250 dual-core APU.
Added the AMD A4-1200 dual-core APU.
Added the AMD E2-3000 dual-core APU.
Added the AMD E1-2500 dual-core APU.
Added the AMD E1-2100 dual-core APU.
Added the AMD GX-420CA quad-core APU.
Added the AMD GX-416RA quad-core APU.
Added the AMD GX-415GA quad-core APU.
Added the AMD GX-217GA dual-core APU.
Added the AMD GX-210HA dual-core APU.
Added the AMD GX-210JA dual-core APU.
Added the AMD E2-2000 dual-core APU.
Added the AMD E1-1500 dual-core APU.
Added the AMD C-70 dual-core APU.
Updated the Transistor Count and Die Size specifications of the AMD A10 (Richland) family of processors.
Updated the Transistor Count and Die Size specifications of the AMD A8 (Richland) family of processors.
Updated the Transistor Count and Die Size specifications of the AMD A6 (Richland) family of processors.
Updated the Transistor Count and Die Size specifications of the AMD A4 (Richland) family of processors.
Corrected the Multiplier specifications for all AMD APUs.
Total CPUs : 877
28-08-201310.0Added the Intel Core i7-4860EQ quad-core processor.
Added the Intel Core i7-4850EQ quad-core processor.
Added the Voltage specification for all Intel Haswell-based mobile processors.
Added the Maximum Current specification for all Intel Haswell-based mobile processors.
Total CPUs : 860
31-07-20139.9Added the AMD A10-5757M quad-core processor.
Added the AMD A10-5750M quad-core processor.
Added the AMD A10-5745M quad-core processor.
Added the AMD A8-5557M quad-core processor.
Added the AMD A8-5550M quad-core processor.
Added the AMD A8-5545M quad-core processor.
Added the AMD A6-5357M dual-core processor.
Added the AMD A6-5350M dual-core processor.
Added the AMD A6-5345M dual-core processor.
Added the AMD A4-5150M dual-core processor.
Added the AMD A4-5145M dual-core processor.
Total CPUs : 858
10-07-20139.8Added the Intel Pentium 2127U dual-core processor.
Added the Intel Celeron 1017U dual-core processor.
Added the Intel Celeron 1005M dual-core processor.
Corrected the specifications of the Intel Celeron 1019Y dual-core processor.
Renamed the Intel Celeron 1017Y processor as the Intel Celeron 1019Y processor.
Total CPUs : 847
24-06-20139.7Added the Intel Core i7-4950HQ quad-core processor.
Added the Intel Core i7-4930MX quad-core processor.
Added the Intel Core i7-4900MQ quad-core processor.
Added the Intel Core i7-4850HQ quad-core processor.
Added the Intel Core i7-4800MQ quad-core processor.
Added the Intel Core i7-4750HQ quad-core processor.
Added the Intel Core i7-4702MQ quad-core processor.
Added the Intel Core i7-4702HQ quad-core processor.
Added the Intel Core i7-4700EQ quad-core processor.
Added the Intel Core i7-4700MQ quad-core processor.
Added the Intel Core i7-4700HQ quad-core processor.
Added the Intel Core i7-4650U dual-core processor.
Added the Intel Core i7-4558U dual-core processor.
Added the Intel Core i7-4550U dual-core processor.
Added the Intel Core i7-4500U dual-core processor.
Added the Intel Core i5-4350U dual-core processor.
Added the Intel Core i5-4288U dual-core processor.
Added the Intel Core i5-4258U dual-core processor.
Added the Intel Core i5-4250U dual-core processor.
Added the Intel Core i5-4200U dual-core processor.
Added the Intel Core i5-4200Y dual-core processor.
Added the Intel Core i3-4158U dual-core processor.
Added the Intel Core i3-4100U dual-core processor.
Added the Intel Core i3-4010U dual-core processor.
Added the Intel Core i3-4010Y dual-core processor.
Total CPUs : 844
04-05-20139.6Added the Intel Core i3-2375M dual-core processor.
Added the Intel Pentium 2030M dual-core processor.
Added the Intel Celeron 1047UE dual-core processor.
Added the Intel Celeron 1037U dual-core processor.
Added the Intel Celeron 1020E dual-core processor.
Added the Intel Celeron 1020M dual-core processor.
Added the Intel Celeron 1019Y dual-core processor.
Added the Intel Celeron 1007U dual-core processor.
Added the Intel Celeron 1000M dual-core processor.
Added the Intel Celeron 927UE processor.
Corrected the Other Features specifications for the Intel Core i3-2300M family of processors.
Total CPUs : 819
06-03-20139.5Added the Intel Core 2 Duo P7570 dual-core processor.
Added the Intel Core 2 Duo T6670 dual-core processor.
Added the Intel Core 2 Duo T6570 dual-core processor.
Added the Intel Atom Z2610 processor.
Added the Intel Atom Z2480 processor.
Added the Intel Atom Z2420 processor.
Updated the Instruction Set specifications for all Intel Pentium T6000 series of mobile processors.
Updated the Instruction Set specifications for all Intel Pentium T4000 series of mobile processors.
Updated the Instruction Set specifications for all Intel Pentium SU4000 series of mobile processors.
Updated the specifications of the Intel Core 2 Duo P8000 series of dual-core processors.
Updated the specifications of the Intel Core 2 Duo P7000 series of dual-core processors.
Updated the specifications of the Intel Atom Z2760 processor.
Updated the specifications of the Intel Atom Z2460 processor.
Corrected the Die Size and Transistor Count specifications for all Penryn-3M processors.
Total CPUs : 809
19-02-20139.4Added the Intel Core i7-3687U dual-core processor.
Added the Intel Core i7-3540M dual-core processor.
Added the Intel Core i7-3537U dual-core processor.
Added the Intel Core i5-3437U dual-core processor.
Added the Intel Core i5-3380M dual-core processor.
Added the Intel Core i5-3340M dual-core processor.
Added the Intel Core i5-3337U dual-core processor.
Added the Intel Core i5-3230M dual-core processor.
Added the Intel Core i3-3227U dual-core processor.
Added the Intel Core i3-3130M dual-core processor.
Added the Intel Core i3-2348M dual-core processor.
Total CPUs : 803
11-01-20139.3Added the Intel Core i7-3689Y dual-core processor.
Added the Intel Core i5-3439Y dual-core processor.
Added the Intel Core i5-3339Y dual-core processor.
Added the Intel Core i3-3229Y dual-core processor.
Added the Intel Pentium 2129Y dual-core processor.
Total CPUs : 792
11-12-20129.2Added the AMD A6-4555M quad-core processor.
Added the AMD A6-4355M dual-core processor.
Added the AMD Z-60 dual-core processor.
Added the AMD G-T16R processor.
Updated the Level 2 Cache specifications for the AMD A6-4455M dual-core processor.
Updated the Release Date specifications for the AMD E2-1800 and E1-1200 dual-core processors.
Updated the specifications of the AMD Z-01 dual-core processor.
Removed the AMD Z-03 dual-core processor.
Total CPUs : 787
27-11-20129.1Added the Intel Core i7-3632QM quad-core processor.
Added the Intel Core i3-2328M dual-core processor.
Added the Intel Celeron 887 dual-core processor.
Added the Intel Celeron 877 dual-core processor.
Added the Intel Celeron B830 dual-core processor.
Added the Intel Celeron B820 dual-core processor.
Added the Intel Celeron 807 processor.
Added the Intel Celeron B730 processor.
Added the Intel Atom Z2760 dual-core processor.
Added the Intel Atom Z2460 dual-core processor.
Corrected the Socket specification for the Intel Core i7-3612QM quad-core processor.
Total CPUs : 784
15-10-20129.0Added the Intel Core i7-3635QM quad-core processor.
Added the Intel Core i7-3630QM quad-core processor.
Added the Intel Core i3-3120M dual-core processor.
Added the Intel Core i3-2377M dual-core processor.
Added the Intel Core i3-2365M dual-core processor.
Added the Intel Core i3-2328M dual-core processor.
Added the Intel Pentium 2117U dual-core processor.
Added the Intel Pentium 2020M dual-core processor.
Added the Intel Pentium 997 dual-core processor.
Added the Intel Pentium B980 dual-core processor.
Updated the Maximum Temp. specification of the Intel Core i3-3110M dual-core processor.
Total CPUs : 774
04-09-20128.9Added the Intel Core i7-3940XM quad-core processor.
Added the Intel Core i7-3840QM quad-core processor.
Added the Intel Core i7-3740QM quad-core processor.
Added the Intel Core i3-3217UE dual-core processor.
Added the Intel Core i3-3120ME dual-core processor.
Corrected the Socket specification of the Intel Core i3-3110M dual-core processor.
Total CPUs : 764
18-08-20128.8Added the AMD A10-4655M quad-core processor.
Added the AMD A10-4600M quad-core processor.
Added the AMD A8-4500M quad-core processor.
Added the AMD A6-4455M dual-core processor.
Added the AMD A6-4400M dual-core processor.
Added the AMD A4-4300M dual-core processor.
Added the AMD R-464L quad-core processor.
Added the AMD R-460L quad-core processor.
Added the AMD R-460H quad-core processor.
Added the AMD R-452L quad-core processor.
Added the AMD R-272F dual-core processor.
Added the AMD R-268D dual-core processor.
Added the AMD R-260H dual-core processor.
Added the AMD R-252F dual-core processor.
Corrected the Level 1 Cache specifications for the AMD A8-3500 series of quad-core processors.
Corrected the Level 1 Cache specifications for the AMD A6-3400 series of quad-core processors.
Total CPUs : 759
17-07-20128.7Added the Intel Core i3-3217U dual-core processor.
Added the Intel Core i3-3110M dual-core processor.
Total CPUs : 745
18-06-20128.6Added the Intel Core i7-3667U dual-core processor.
Added the Intel Core i5-3610ME dual-core processor.
Added the Intel Core i7-3555LE dual-core processor.
Added the Intel Core i7-3520M dual-core processor.
Added the Intel Core i7-3517U dual-core processor.
Added the Intel Core i7-3517UE dual-core processor.
Added the Intel Core i5-3427U dual-core processor.
Added the Intel Core i5-3360M dual-core processor.
Added the Intel Core i5-3320M dual-core processor.
Added the Intel Core i5-3317U dual-core processor.
Added the Intel Core i5-3210M dual-core processor.
Total CPUs : 743
24-05-20128.5Added the Intel Pentium 977 dual-core processor.
Added the Intel Pentium B970 dual-core processor.
Added the Intel Pentium 967 dual-core processor.
Updated the specifications of the Intel Core i5-2467M dual-core processor.
Updated the specifications of the Intel Core i5-2450M dual-core processor.
Updated the specifications of the Intel Core i5-2435M dual-core processor.
Updated the specifications of the Intel Core i5-2430M dual-core processor.
Renamed the Intel Pentium B957 to the Intel Pentium 957.
Renamed the Intel Celeron B867 to the Intel Celeron 867.
Renamed the Intel Celeron B857 to the Intel Celeron 857.
Renamed the Intel Celeron B847E to the Intel Celeron 847E.
Renamed the Intel Celeron B847 to the Intel Celeron 847.
Renamed the Intel Celeron B827E to the Intel Celeron 827E.
Renamed the Intel Celeron B807UE to the Intel Celeron 807UE.
Renamed the Intel Celeron B797 to the Intel Celeron 797.
Renamed the Intel Celeron B787 to the Intel Celeron 787.
Total CPUs : 732
12-05-20128.4Added the Intel Core i7-3615QM quad-core processor.
Added the Intel Core i7-3615QE quad-core processor.
Added the Intel Core i7-3612QM quad-core processor.
Added the Intel Core i7-3612QE quad-core processor.
Added the Intel Core i7-3610QM quad-core processor.
Added the Intel Core i7-3610QE quad-core processor.
Updated the specifications of the Intel Core i7-3920XM quad-core processor.
Updated the specifications of the Intel Core i7-3820QM quad-core processor.
Updated the specifications of the Intel Core i7-3720QM quad-core processor.
Total CPUs : 729
24-04-20128.3Added the AMD E2-1800 dual-core processor.
Added the AMD E1-1200 dual-core processor.
Added the AMD G-T56N dual-core processor.
Added the AMD G-T52R processor.
Added the AMD G-T48N dual-core processor.
Added the AMD G-T48L dual-core processor.
Added the AMD G-T44R processor.
Added the AMD G-T40N dual-core processor.
Added the AMD G-T40E dual-core processor.
Added the AMD G-T40R processor.
Added the AMD G-T30L processor.
Added the AMD G-T24L processor.
Added the AMD Z-03 dual-core processor.
Updated the Transistor Count specifications for the AMD C-60 dual-core processor.
Updated the Transistor Count specifications for the AMD C-50 dual-core processor.
Updated the Transistor Count specifications for the AMD C-30 processor.
Total CPUs : 723
21-03-20128.2Added the Intel Core i7-3920XM quad-core processor.
Added the Intel Core i7-3820QM quad-core processor.
Added the Intel Core i7-3720QM quad-core processor.
Updated the Transistor Count specification for the Intel Core i7-2900 series of quad-core processors.
Updated the Transistor Count specification for the Intel Core i7-2800 series of quad-core processors.
Updated the Transistor Count specification for the Intel Core i7-2700 series of quad-core processors.
Total CPUs : 710
06-03-20128.1Added the Intel Celeron B867 dual-core processor.
Added the Intel Celeron B815 dual-core processor.
Added the Intel Celeron B797 processor.
Added the Intel Celeron B720 processor.
Added the Intel Atom N2800 dual-core processor.
Added the Intel Atom N2600 dual-core processor.
Added the Intel Celeron U4600 dual-core processor.
Added the Intel Celeron U4505 dual-core processor.
Added the Intel Celeron U4500 dual-core processor.
Added the Intel Celeron U3600 dual-core processor.
Added the Intel Celeron U3405 dual-core processor.
Added the Intel Celeron U3400 dual-core processor.
Added the Intel Atom Z670 processor.
Added the Intel Atom Z650 processor.
Added the Intel Atom Z625 processor.
Added the Intel Atom Z615 processor.
Added the Intel Atom Z600 processor.
Total CPUs : 707
23-02-20128.0Updated the specifications of the AMD A8 series of quad-core processors.
Updated the specifications of the AMD A6 series of quad-core processors.
Updated the specifications of the AMD A4 series of dual-core processors.
Updated the specifications of the AMD E2-3000M dual-core processor.
Updated the specifications of the AMD E-series of single- and dual-core processors.
Updated the specifications of the AMD C-series of single- and dual-core processors.
Updated the specifications of the AMD Z-01 processor.
Total CPUs : 690
23-01-20127.9Added the Intel Pentium B960 dual-core processor.
Added the Intel Celeron 807UE processor.
Updated the specifications of the Intel Core i7-2675QM quad-core processor.
Updated the specifications of the Intel Core i5-2450M dual-core processor.
Updated the specifications of the Intel Celeron B847E dual-core processor.
Updated the specifications of the Intel Celeron B810E dual-core processor.
Removed the Intel Mobile Pentium II 400 PE processor.
Total CPUs : 690
22-12-20117.8Added the AMD A8-3550MX quad-core processor.
Added the AMD A8-3530MX quad-core processor.
Added the AMD A8-3520M quad-core processor.
Added the AMD A8-3510MX quad-core processor.
Added the AMD A8-3500M quad-core processor.
Added the AMD A6-3430MX quad-core processor.
Added the AMD A6-3420M quad-core processor.
Added the AMD A6-3410MX quad-core processor.
Added the AMD A6-3400M quad-core processor.
Added the AMD A4-3330MX dual-core processor.
Added the AMD A4-3320M dual-core processor.
Added the AMD A4-3310MX dual-core processor.
Added the AMD A4-3305M dual-core processor.
Added the AMD A4-3300M dual-core processor.
Added the AMD E2-3000M dual-core processor.
Added the AMD E-450 dual-core processor.
Added the AMD E-300 dual-core processor.
Added the AMD C-60 dual-core processor.
Added the AMD Z-01 dual-core processor.
Total CPUs : 689
01-11-20117.7Added the Intel Core i7-2675QM (Future) quad-core processor.
Added the Intel Core i7-2670QM quad-core processor.
Added the Intel Core i5-2450M (Future) dual-core processor.
Added the Intel Core i5-2435M dual-core processor.
Added the Intel Core i3-2393M dual-core processor.
Updated the Intel Core i7-2635QM quad-core processor.
Updated the Intel Core i7-2630QM quad-core processor.
Updated the Intel Core i5-2430M dual-core processor.
Updated the Intel Core i3-2367M dual-core processor.
Total CPUs : 670
12-10-20117.6Added the Intel Core i5-2467M dual-core processor.
Added the Intel Core i5-2430M dual-core processor.
Added the Intel Core i5-2415M dual-core processor.
Added the Intel Core i3-2394M dual-core processor.
Added the Intel Core i3-2367M dual-core processor.
Added the Intel Core i3-2350M dual-core processor.
Added the Intel Core i3-2332M dual-core processor.
Added the Intel Core i3-2312M dual-core processor.
Removed the Intel Core i7-2640LM dual-core processor.
Removed the Intel Core i7-2630UM dual-core processor.
Removed the Intel Core i7-2620LM dual-core processor.
Removed the Intel Core i5-2530UM dual-core processor.
Total CPUs : 665
30-09-20117.5Added the Intel Celeron B857 dual-core processor.
Added the Intel Celeron B847E dual-core processor.
Added the Intel Celeron B847 dual-core processor.
Added the Intel Celeron B840 dual-core processor.
Added the Intel Celeron B827E processor.
Added the Intel Celeron B810E dual-core processor.
Added the Intel Celeron B810 dual-core processor.
Added the Intel Celeron B800 dual-core processor.
Added the Intel Celeron B787 processor.
Added the Intel Celeron B710 processor.
Added the Intel Celeron P1053 processor.
Total CPUs : 661
16-09-20117.4Added the Intel Core i7-2960XM quad-core processor.
Added the Intel Core i7-2860QM quad-core processor.
Added the Intel Core i7-2760QM quad-core processor.
Added the Intel Core i7-2640M dual-core processor.
Updated the specifications of the Intel Core i7-2635QM quad-core processor.
Updated the specifications of the Intel Core i7-2630QM quad-core processor.
Total CPUs : 650
26-08-20117.3Added the Intel Pentium B957 dual-core processor.
Added the Intel Pentium B950 dual-core processor.
Added the Intel Pentium B940 dual-core processor.
Added the Intel Pentium P6300 dual-core processor.
Added the Intel Pentium P6200 dual-core processor.
Added the Intel Pentium P6100 dual-core processor.
Added the Intel Pentium P6000 dual-core processor.
Added the Intel Pentium U5600 dual-core processor.
Added the Intel Pentium U5400 dual-core processor.
Added the Intel Pentium T4400 dual-core processor.
Added the Intel Pentium SU4100 dual-core processor.
Updated the specifications of the Intel Pentium T4x00 dual-core processors.
Updated the specifications of the Intel Pentium SU2700 single-core processor.
Total CPUs : 646
05-07-20117.2Added the Intel Core i7-2677M dual-core processor.
Added the Intel Core i7-2637M dual-core processor.
Added the Intel Core i5-2557M dual-core processor.
Added the Intel Core i3-2357M dual-core processor.
Added the Intel Core i3-2340UE dual-core processor.
Added the Intel Core i3-2330M dual-core processor.
Added the Intel Core i3-2330E dual-core processor.
Updated the Transistor Count and Die Size specifications for Intel Core i7, Core i5 and Core i3 dual-core processors.
Updated the specifications of the Intel Core i7-2655LE dual-core processor.
Updated the specifications of the Intel Core i7-2610UE dual-core processor.
Total CPUs : 635
25-04-20117.1Added a new Cores / Threads specification for Intel mobile processors.
Updated the Instruction Set specifications for many newer Intel mobile processors to indicate support for AES-NI (Advanced Encryption Standard - New Instructions).
Corrected the L1 Cache specifications for many Intel mobile processors.
Total CPUs : 628
15-04-20117.0Added a new CPU Cores specification for AMD mobile processors.
Updated the specifications of the AMD Turion 64 X2 series of processors.
Updated the specifications of the AMD Athlon 64 X2 series of processors.
Consolidated the AMD Turion 64 X2 TL series, removing 3 processors.
Consolidated the AMD Mobile Sempron series, removing 5 processors.
Consolidated the AMD Mobile Athlon 64 series, removing 7 processors.
Consolidated the AMD Athlon XP-M series, removing 12 processors.
Renamed the AMD Mobile Athlon XP-M processors to Athlon XP-M.
Total CPUs : 628
05-04-20116.9Added the AMD Athlon II P360 dual-core processor.
Added the AMD Athlon II Neo K345 dual-core processor.
Added the AMD Athlon II Neo K145 single-core processor.
Added the AMD V160 single-core processor.
Updated the HT Speed specification for the AMD Athlon II series of processors.
Updated the Transistor Count and Die Size specifications for the AMD E-350 and E-240 processors.
Total CPUs : 655
16-03-20116.8Replaced the FSB / QPI Speed with a new Interconnect specification for all Intel mobile processors.
Added the Intel Core i7-2655LE dual-core processor.
Added the Intel Core i7-2610UE dual-core processor.
Added the Intel Core i3-2510E dual-core processor.
Added the Intel Core i3-390M dual-core processor.
Added the Intel Atom N570 dual-core processor.
Updated the specifications of numerous Intel Core i7, Core i5 and Core i3 (Sandy Bridge) mobile processors.
Updated the specifications of numerous Intel Atom mobile processors.
Updated the specifications of the Intel Core i5-480M dual-core processor.
Updated the specifications of the Intel Core i3-380M, Core i3-370M and Core i3-330M dual-core processors.
Removed the Intel Core i7-2610UM dual-core processor.
Total CPUs : 651
04-03-20116.7Added the AMD Phenom II X940 BE quad-core processor.
Added the AMD Phenom II N970 quad-core processor.
Added the AMD Phenom II N870 triple-core processor.
Added the AMD Phenom II P860 triple-core processor.
Added the AMD Phenom II N660 dual-core processor.
Added the AMD Turion II Neo K685 dual-core processor.
Added the AMD Turion II Neo K645 dual-core processor.
Added the AMD E-350 dual-core APU.
Added the AMD E-240 single-core APU.
Added the AMD C-50 dual-core APU.
Added the AMD C-30 single-core APU.
Consolidated the Mobile Athlon XP-M series (removing 10 processors).
Total CPUs : 647
24-01-20116.6Added the Intel Core i7-2657M dual-core processor.
Added the Intel Core i7-2649M dual-core processor.
Added the Intel Core i7-2640LM dual-core processor.
Added the Intel Core i7-2635QM quad-core processor.
Added the Intel Core i7-2630QM quad-core processor.
Added the Intel Core i7-2630UM dual-core processor.
Added the Intel Core i7-2629M dual-core processor.
Added the Intel Core i7-2620M dual-core processor.
Added the Intel Core i7-2620LM dual-core processor.
Added the Intel Core i7-2617M dual-core processor.
Added the Intel Core i7-2610UM dual-core processor.
Added the Intel Core i5-2530UM dual-core processor.
Added the Intel Core i5-2410M dual-core processor.
Added the Intel Core i3-2310M dual-core processor.
Updated the specifications of the Intel Core i5-2500 series of processors.
Updated the specifications of the Intel Core i5-2400 series of processors.
Total CPUs : 646
14-01-20116.5Added the Intel Core i7-2920XM quad-core processor.
Added the Intel Core i7-2820QM quad-core processor.
Added the Intel Core i7-2720QM quad-core processor.
Added the Intel Core i7-2715QE quad-core processor.
Added the Intel Core i7-2710QE quad-core processor.
Added the Intel Core i5-2540M dual-core processor.
Added the Intel Core i5-2537M dual-core processor.
Added the Intel Core i5-2520M dual-core processor.
Added the Intel Core i5-2515E dual-core processor.
Added the Intel Core i5-2510E dual-core processor.
Added the Intel Core i5-480M dual-core processor.
Added the Intel Core 2 Duo SU7300 dual-core processor.
Updated the specifications of the Intel Core i7-600 series of processors.
Updated the specifications of the Intel Core i5-500 series of processors.
Updated the specifications of the Intel Core i5-400 series of processors.
Updated the specifications of the Intel Core i3-300 series of processors.
Total CPUs : 632
30-11-20106.4Added the Intel Core i5-470UM quad-core processor.
Added the Intel Core i3-380UM dual-core processor.
Updated the specifications of the Intel Core i7-940XM, Core i7-840QM and Core i7-740QM quad-core processors.
Updated the specifications of the Intel Core i3-380M, Core i3-370M, Core i3-350M and Core i3-330M dual-core processors.
Updated the specifications of the Intel Atom N550 dual-core processor.
Updated the specifications of the Intel Atom N475 and Atom N455 single-core processors.
Cleaned up the Maximum Current, TDP and Frequency specifications for all Intel processors.
Total CPUs : 620
15-11-20106.3Added the AMD Phenom II P960 quad-core processor.
Added the AMD Phenom II P650 dual-core processor.
Added the AMD Turion II P560 dual-core processor.
Corrected the specifications of the AMD Phenom II P940 quad-core processor.
Total CPUs : 618
28-10-20106.2Added the AMD Phenom II N640 dual-core processor.
Added the Transistor Count and Die Size for the AMD Champlain core.
Updated the Release Dates of the AMD Phenom II series of mobile processors.
Updated the Release Dates of the AMD Turion II series of mobile processors.
Updated the Release Dates of the AMD Athlon II series of mobile processors.
Made numerous formatting changes to improve the AMD charts.
Total CPUs : 615
18-10-20106.1Added the Turbo Boost speeds for all Intel Core i7 and Core i5 mobile processors.
Added the Intel Core i7-680UM, i7-660LM, i7-660UE and i7-640M dual-core processors.
Added the Intel Core i5-580M, i5-560M and i5-560UM dual-core processors.
Added the Intel Core i5-460M and i5-430UM dual-core processors.
Added the Intel Core i3-380M dual-core processor.
Updated the specifications of the Intel Mobile Pentium II series of processors.
Updated the specifications of the Intel Mobile Celeron (Mendocino) series of processors.
Total CPUs : 614
30-09-20106.0Added the AMD Phenom II N950 and P940 quad-core processors.
Added the AMD Phenom II N850 and P840 triple-core processors.
Added the AMD Turion II N550 and P540 dual-core processors.
Added the AMD Athlon II N350 and P340 dual-core processors.
Added the AMD V140 single-core processor.
Updated the specifications of the Intel V120 single-core processor.
Total CPUs : 604
04-09-20105.9Added the Intel Core i7-940XM quad-core processor.
Added the Intel Core i7-840QM quad-core processor.
Added the Intel Core i7-740QM quad-core processor.
Added the Intel Core i7-660UM dual-core processor.
Added the Intel Core i5-540UM dual-core processor.
Added the Intel Core i5-450UM dual-core processor.
Added the Intel Core i3-370M, 330UM and 330E dual-core processors.
Added the Intel Atom N550 dual-core processor.
Added the Intel Atom N475 and N455 single-core processors.
Added the Intel Atom Z560 single-core processor.
Updated the specifications of the Intel Core i7-920XM, 820QM and 720QM quad-core processors.
Updated the specifications of the Intel Core i7-640UM, 640LM, 620UM, 620UE, 620M, 620LM, 620LE and 610E dual-core processors.
Updated the specifications of the Intel Core i5-540M, 520UM, 520M and 520E dual-core processors.
Updated the specifications of the Intel Core i5-430M dual-core processor.
Updated the specifications of the Intel Core i3-350M and 330M dual-core processors.
Updated the specifications of the Intel Atom Z500 and N400 series of processors.
Total CPUs : 595
18-08-20105.8Added the AMD Turion II Ultra M660, M640, M620 and M600 dual-core processors.
Added the AMD Turion II M560, M540, M520 and M500 dual-core processors.
Added the Athlon II M360, M340, M320 and M300 dual-core processors.
Added the Sempron M140, M120 and M100 single-core processors.
Added the AMD Athlon Neo X2 L510, L335 and L325 dual-core processors.
Added the AMD Athlon Neo TF-20 and MV-40 single-core processors.
Added the AMD Sempron 220U, 210U and 200U single-core processors.
Added the AMD Turion X2 Ultra XM-85 dual-core processor.
Added the AMD Turion X2 RM-77 and RM-76 dual-core processors.
Added the AMD Athlon X2 QL-67 and QL-66 dual-core processors.
Updated the specifications of the AMD Turion Neo X2 L625 dual-core processor.
Updated the specifications of the AMD Turion X2 Ultra ZM-88, ZM-87, ZM-86, ZM-84, ZM-82 and ZM-80 dual-core processors.
Updated the specifications of the AMD Turion X2 RM-75, RM-74, RM-72 and RM-70 dual-core processors.
Updated the specifications of the AMD Athlon X2 QL-65, QL-64, QL-62 and QL-60 dual-core processors.
Removed the AMD Turion Ultra RM-84, RM-82 and RM 80 dual-core processors.
Total CPUs: 582
04-06-20105.7Added the AMD Phenom II X920 BE, N930 and P920 quad-core processors.
Added the AMD Phenom II N830 and P820 triple-core processors.
Added the AMD Phenom II X620 BE and N620 dual-core processors.
Added the AMD Turion II N530 and P520 dual-core processors.
Added the AMD Turion II Neo K665 and K625 dual-core processors.
Added the AMD Athlon II N330 and P320 dual-core processors.
Added the AMD Athlon II Neo K325 dual-core processor.
Added the AMD Athlon II Neo K125 single-core processor.
Added the AMD V120 and V105 single-core processors.
Total CPUs: 557
23-02-20105.6Added the Intel Pentium T4500 and T4300 mobile processors.
Added the Intel Core 2 Solo SU3500 and SU3300 mobile processors.
Added the Intel Core 2 Solo U2200 and U2100 mobile processors.
Updated the Intel Core 2 Duo SU9000, T8000, T6000, P9000, P8000 and P7000 series of mobile processors.
Updated the Intel Pentium T4200 and SU2700 mobile processors.
Total CPUs: 540
13-02-20105.5Added the Intel Atom Z550, Z530P, Z520PT, Z515, Z510PT and Z510P mobile processors.
Added the Intel Atom N470 and N450 mobile processors.
Updated the specifications of the Intel Atom Z500 and N200 series of mobile processors.
Total CPUs: 534
22-01-20105.4Added the Intel Core i7-920XM processor.
Added the Intel Core i7-820QM processor.
Added the Intel Core i7-720QM processor.
Added the Intel Core i7-640UM, 640LM, 620UM, 620UE, 620M, 620LM, 620LE and 610E processors.
Added the Intel Core i5-540M, 520UM, 520M and 520E processors.
Added the Intel Core i5-430M processor.
Added the Intel Core i3-350M and 330M processors.
Added a new specification - Level 3 Cache.
Total CPUs: 526
15-09-20095.3Added the Intel Core 2 Duo P9700, P9600 and P9500 processors.
Added the Intel Core 2 Duo P8800, P8700, P8600 and P8400 processors.
Added the Intel Core 2 Duo P7550, P7450, P7370 and P7350 processors.
Corrected the Instruction Set specification for the Intel Core 2 Duo, Pentium Dual-Core and Pentium (Penryn, Penryn-3M) processors.
Corrected the Die Size specifications for the Intel Core 2 Duo (Penryn-3M) processors.
Total CPUs: 508
30-08-20095.2Added the AMD Turion Neo X2 L625 processor.
Added the AMD Turion Ultra ZM-87 processor.
Added the AMD Turion RM-75 processor.
Added the AMD Athlon X2 QL-65 processor.
Updated the AMD Turion Ultra ZM series of processors.
Updated the AMD Turion RM series of processors.
Updated the AMD Athlon X2 QL series of processors.
Updated the AMD Turion 64 X2 TL series of processors.
Updated the AMD Athlon 64 X2 TK series of processors.
Total CPUs: 497
20-08-20095.1Added the Intel Core 2 Quad Q9000 processor.
Added the Intel Core 2 Duo T9900, T9800, T9600, T9550 and T9400 processors.
Added the Intel Core 2 Duo T6600, T6500 and T6400 processors.
Added the Intel Core 2 Duo SP9600, SP9400 and SP9300 processors.
Added the Intel Core 2 Duo SL9600, SL9400, SL9380 and SL9300 processors.
Added the Intel Core 2 Duo SU9600, SU9400 and SU9300 processors.
Updated the specifications of the Intel Core 2 Duo T9300 processor.
Updated the specifications of the Intel Core 2 Duo T8300 and T8100 processors.
Total CPUs: 493
17-06-20095.0Revamped the entire guide, improving the layout and design.
Added Full Lists for all four processor companies.
Added the Intel Pentium Dual-Core T4200 processor.
Added the Intel Pentium SU2700 processor.
Added the Intel Pentium Dual-Core T3400 and T3200 processors.
Added the Intel Pentium Dual-Core T2410, T2390, T2370, T2330 and T2310 processors.
Added the Intel Pentium Core Duo T2350 processor.
Added the Intel Pentium Dual-Core T2130, T2080 and T2060 processors.
Total CPUs: 474
09-03-20094.3Added the Intel Atom Z540, Z530, Z520, Z510 and Z500 processors.
Added the Intel Atom N280 and N270 processors.
Total CPUs: 461
03-12-20084.2Added the Intel Core 2 Quad Q9300 and Q9200 processors.
Updated the specifications of the Intel Core 2 Extrem QX9300 processor.
Updated the specifications of the Intel Core 2 Extreme X9100 processor.
Updated the specifications of the Intel Core 2 Quad Q9100 processor.
Total CPUs: 454
07-11-20084.1Added the AMD Turion Ultra ZM-80, ZM-82, ZM-84, ZM-86 & ZM-88 processors.
Added the AMD Turion RM-70, RM-72, RM-74, RM-80, RM-82 & RM-84 processors.
Added the AMD Athlon QL-60, QL-62 & QL-64 processors.
Added the Intel Core 2 Duo T5550, T5670, T5750, T5800, T5850, T5870 & T5900 processors.
Added the Intel Core 2 Extreme X9100 & QX9300 processors.
Added the Intel Core 2 Quad Q9100 processor.
Total CPUs: 452
08-03-20084.0Added the AMD Turion MK-38 processor.
Added the AMD Athlon 64 X2 TK-53, TK-55 & TK-57 processors.
Added the AMD Turion X2 TL-64, TL-56, TL-58, TL-60, TL-62, TL-64, TL-66 & TL-68 processors
Added Release Date specifications for the AMD Turion MK-36 processor.
Corrected Voltage specifications for the AMD Turion 64 X2 TL-50, TL-52, TL-56 & TL-60 processors.
Total CPUs: 428
28-10-20073.0Added the Intel Core 2 Extreme (Penryn) X9000 processor.
Added the Intel Core 2 Duo (Penryn) T9500, T9300, T8300 and T8100 processors.
Added the Intel Core 2 Extreme (Merom) X7900 processor.
Added the Intel Core 2 Duo (Merom) T7800 and T5200 processors.
Added the Intel Core 2 Duo LV (Merom) L7700, L7500, L7400, L7300 and L7200 processors.
Added the Intel Core 2 Duo (Merom-2M) T7250, T5250, T5270, T5300, T5450 and T5470 processors.
Added the Intel Core 2 Duo ULV (Merom-2M) U7600 and U7500 processors.
Corrected the Instruction Set of all Core 2 Duo processors.
Corrected the Voltages of all Core 2 Duo processors.
Total CPUs : 416
22-12-20062.1Added Voltage and Maximum Current specifications for the Intel Core 2 Duo Txxxx processors.
Added Maximum Current specifications for the Intel Core Duo U2400 and U2500 processors.
Added Maximum Current specifications for the Intel Mobile Pentium 150 MMX, 166 MMX and 233 MMX processors.
Minor layout corrections in the AMD tables.
Total CPUs : 395
21-10-20062.0Added the AMD Turion 64 MK-36 processor.
Added four new specifications - Transistor Count, Die Size, Maximum Current and Maximum Temperature.
Corrected the Instruction Sets specification for all Clawhammer-based Mobile Athlon 64 processors.
Corrected the Core specifications for AMD Turion 64 TL-52, TL-56 & TL-60 processor.
Split all data into three tables to fit the page.
Renamed A64 to Athlon 64.
Total CPUs : 395
01-10-20061.0Initial release.
Total CPUs : 394

 

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AMD Mobile CPU Details & Features

 

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10th Gen Intel Ice Lake Mobile CPU Features + Specifications!

Intel Ice Lake is finally here! Intel just officially launched eleven new 10th Gen Intel Core U-series and Y-series mobile processors!

Here is our primer on the 10th Gen Intel Core mobile processors, codenamed Ice Lake!

 

Intel Ice Lake – 10th Gen, Designed For Thin-And-Light

Codenamed Ice Lake, the 10th Gen Intel Core mobile processors are designed for thin-and-light laptops, including 2-in-1 devices. Here is a quick summary of what’s new…

AI For Mobile Computing

More than just evolutions of previous generations, the 10th Gen Intel Ice Lake mobile processors are the first to be purpose-built for AI in mobile computers. It features :

  • Intel Deep Learning Boost – a new, dedicated instruction set for hardware acceleration of neural networks, which will boost applications like automatic image enhancements, photo indexing and photorealistic effects.
  • GPU Engine Compute – developers can use the GPU, which provides up to 1 teraflops of compute capability, for high-throughput inference applications like video stylisation, analytics and real-time video resolution upscaling.
  • Intel Gaussian & Neural Accelerator (GNA) – a dedicated hardware engine for background workloads like voice processing and noise suppression at ultra-low power.

Greatly Improved Graphics Capability

Some of the 10th Gen Intel Ice Lake mobile processors come with Intel Iris Plus graphics, which deliver double the graphics performance.

Iris Plus graphics will let you game in 1080p, as well as handle 4K video editing and high-resolution photo editing, without the need for a separate GPU.

  • They are the first Intel GPUs to support the VESA Adaptive Sync standard, for a tear-free gaming experience.
  • They are the industry’s first GPU to use variable rate shading for improved rendering performance.
  • They support BT.2020 (also known as Rec. 2020), allowing you to watch 4K HDR video at up to 10 bits of colour.

Recommended : 10th Gen Intel Comet Lake : 1 Step Forward, 1 Step Back!

 

10th Gen Intel Ice Lake Models + Specifications (U Series)

Intel announced six new 10th Gen Intel Ice Lake mobile processors under the U-series, with TDPs of 15 to 28 watts. These are meant for thin-and-light laptops.

10th Gen U-Series Cores / Threads Cache Base Freq Single Core Turbo All Core Turbo Graphics Graphics Max Freq Nominal /
ConfigUP TDP
Intel Core i7-1068G7 4 / 8 8 MB 2.3 GHz 4.1 GHz 3.6 GHz Intel Iris Plus
(64 EUs)
1.10 GHz 28W
Intel Core i7-1065G7 4 / 8 8 MB 1.3 GHz 3.9 GHz 3.5 GHz Intel Iris Plus
(64 EUs)
1.10 GHz 15W / 25W
Intel Core i5-1035G7 4 / 8 6 MB 1.2 GHz 3.7 GHz 3.3 GHz Intel Iris Plus
(64 EUs)
1.05 GHz 15W / 25W
Intel Core i5-1035G4 4 / 8 6 MB 1.1 GHz 3.7 GHz 3.3 GHz Intel Iris Plus
(48 EUs)
1.05 GHz 15W / 25W
Intel Core i5-1035G1 4 / 8 6 MB 1.0 GHz 3.6 GHz 3.3 GHz Intel UHD Graphics
(32 EUs)
1.05 GHz 15W / 25W
Intel Core i3-1005G1 2 / 4 4 MB 1.2 GHz 3.4 GHz 3.4 GHz Intel UHD Graphics
(32 EUs)
0.90 GHz 15W

Recommended : The 10th Gen Intel Core Processor Number Guide!

 

10th Gen Intel Ice Lake Models + Specifications (Y Series)

Intel announced a further five new 10th Gen Intel Ice Lake mobile processors under the Y-series, with TDPs of 9 to 12 watts. These are meant for 2-in-1 laptops.

10th Gen Y-Series Cores / Threads Cache Base Freq Single Core Turbo All Core Turbo Graphics Graphics Max Freq Nominal /
ConfigUP TDP
Intel Core i7-1060G7 4 / 8 8 MB 1.0 GHz 3.8 GHz 3.4 GHz Intel Iris Plus
(64 EUs)
1.10 GHz 9W / 12W
Intel Core i5-1030G7 4 / 8 6 MB 0.8 GHz 3.5 GHz 3.2 GHz Intel Iris Plus
(64 EUs)
1.05 GHz 9W / 12W
Intel Core i5-1030G4 4 / 8 6 MB 0.7 GHz 3.5 GHz 3.2 GHz Intel Iris Plus
(48 EUs)
1.05 GHz 9W / 12W
Intel Core i3-1000G4 2 / 4 4 MB 1.1 GHz 3.2 GHz 3.2 GHz Intel Iris Plus
(48 EUs)
0.90 GHz 9W
Intel Core i3-1000G1 2 / 4 4 MB 1.1 GHz 3.2 GHz 3.2 GHz Intel UHD Graphics
(32 EUs)
0.90 GHz 9W

 

Recommended Reading

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The New AMD Ryzen PRO 3000 + Athlon PRO 300 APUs!

AMD just announced three new Ryzen PRO 3000 and one new Athlon PRO 300 mobile processors with Radeon Vega Graphics! Here are the full details of these four new PRO-grade mobile APUs!

 

2nd Gen AMD Ryzen PRO Features

The 2nd Gen Ryzen PRO 3000 Series mobile processor is built on 12nm manufacturing technology and offers up to 16% more multi-threading processor performance.

Among its key features are:

  • Up to 12 hours of general office use or 10 hours of video playback
  • Up to 14% faster content creation and accelerated everyday office applications such as 3D modeling and video editing
  • security co-processor built into the silicon
  • 18 months image stability
  • 24 months processor availability
  • 36 months limited warranty to system manufacturers

 

AMD Ryzen PRO 3000 + Athlon PRO 300 Series Specifications

Model Cores / Threads TDP Boost / Base Frequency Radeon Graphics Max. GPU Frequency L2 + L3 Cache
Ryzen 7 PRO 3700U 4C / 8T 15 W 4.0 / 2.3 GHz Vega 10 1.4 GHz 6 MB
Ryzen 5 PRO 3500U 4C / 8T 15 W 3.7 / 2.1 GHz Vega 8 1.2 GHz 6 MB
Ryzen 3 PRO 3300U 4C / 4T 15 W 3.5 / 2.3 GHz Vega 6 1.2 GHz 6 MB
Athlon PRO 300U 2C / 4T 15 W 3.3 / 2.4 GHz Vega 3 1.0 GHz 5 MB

 

AMD Ryzen PRO 3000 + Athlon PRO 300 Series Availability

PC manufacturers such as HP and Lenovo are partnering AMD to develop notebooks and laptops for business systems. These range from premium professional notebooks to regular productivity notebooks.

Initial commercial systems developed by HP and Lenovo are expected in this quarter of 2019 with other OEMs and further platform updates scheduled for release later this year.

 

Recommended Reading

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CPU L2 Cache ECC Checking from The Tech ARP BIOS Guide

CPU L2 Cache ECC Checking

Common Options : Enabled, Disabled

 

Quick Review of CPU L2 Cache ECC Checking

The CPU L2 Cache ECC Checking BIOS feature enables or disables the L2 (Level 2 or Secondary) cache’s ECC (Error Checking and Correction) capability, if available.

Enabling this feature is recommended because it will detect and correct single-bit errors in data stored in the L2 cache. As most data reads are satisfied by the L2 cache, the L2 cache’s ECC function should catch and correct almost all single-bit errors in the memory subsystem.

It will also detect double-bit errors although it cannot correct them. But this isn’t such a big deal since double-bit errors are extremely rare. For all practical purposes, the ECC check should be able to catch virtually all data errors. This is especially useful at overclocked speeds when errors are most likely to creep in.

So, for most intents and purposes, I recommend that you enable this feature for greater system stability and reliability.

Please note that the presence of this feature in the BIOS does not necessarily mean that your processor’s L2 cache actually supports ECC checking. Many processors do not ship with ECC-capable L2 cache. In such cases, you can still enable this feature in the BIOS, but it will have no effect.

 

Details of CPU L2 Cache ECC Checking

The CPU L2 Cache ECC Checking BIOS feature enables or disables the L2 (Level 2 or Secondary) cache’s ECC (Error Checking and Correction) capability, if available.

Enabling this feature is recommended because it will detect and correct single-bit errors in data stored in the L2 cache. As most data reads are satisfied by the L2 cache, the L2 cache’s ECC function should catch and correct almost all single-bit errors in the memory subsystem.

It will also detect double-bit errors although it cannot correct them. But this isn’t such a big deal since double-bit errors are extremely rare. For all practical purposes, the ECC check should be able to catch virtually all data errors. This is especially useful at overclocked speeds when errors are most likely to creep in.

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There are those who advocate disabling ECC checking because it reduces performance. True, ECC checking doesn’t come free. You can expect some performance degradation with ECC checking enabled. However, unlike ECC checking of DRAM modules, the performance degradation associated with L2 cache ECC checking is comparatively small.

Balance that against the increased stability and reliability achieved via L2 cache ECC checking and the minimal reduction in performance seems rather cheap, doesn’t it? Of course, if you don’t do any serious work with your system and want a little speed boost for your games, disable CPU L2 Cache ECC Checking by all means.

But if you are overclocking your processor, ECC checking may enable you to overclock higher than was originally possible. This is because any single-bit errors that occur as a result of overclocking will be corrected by the L2 cache’s ECC function. So, for most intents and purposes, I recommend that you enable this feature for greater system stability and reliability.

Please note that the presence of this feature in the BIOS does not necessarily mean that your processor’s L2 cache actually supports ECC checking. Many processors do not ship with ECC-capable L2 cache. In such cases, you can still enable this feature in the BIOS, but it will have no effect.

Go Back To > The Tech ARP BIOS Guide | Home

 

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The AMD Ryzen PRO Mobile APU Tech Report

AMD just announced the availability of seven Ryzen PRO APU models for the mobile and desktop markets, as well as laptops and desktops featuring these new APUs. Get the full details of the new AMD Ryzen PRO Mobile APUs – features, specifications and availability!

 

AMD Raven Ridge

Raven Ridge is AMD’s codename for their Ryzen-Vega APUs (Accelerated Processing Units). First introduced in the mobile segment as the AMD Ryzen Mobile, AMD is now offering PRO versions in both mobile and desktop markets.

These Ryzen APUs combine an AMD Ryzen CPU, with an AMD Radeon Vega GPU, in a single die.

Ryzen CPU + Radeon Vega GPU = Ryzen APU

Mobile APUs are not new. AMD have been making them for years, and Intel mobile processors all come with integrated graphics. But AMD is still the only manufacturer to integrate “premium CPU cores” with “premium graphics cores”.

 

AMD Ryzen PRO APU

The AMD Ryzen PRO desktop processors, revealed in September 2017, were enterprise-grade versions of the first-generation AMD Ryzen 7 and Ryzen 5 processors. A month later, AMD launched the AMD Ryzen Mobile APUs.

However, AMD has not launched any enterprise-grade APU for either the desktop or mobile market… until now, that is. Here are the first seven AMD Ryzen PRO APU models – three for the mobile market, and four for the desktop market.

AMD Ryzen PRO APU (Mobile SKUs)

  • AMD Ryzen 7 PRO 2700U – 4C/8T, 2.2 to 3.8 GHz, Vega 11 Graphics, 15W cTDP
  • AMD Ryzen 5 PRO 2500U – 4C/8T, 2.0 to 3.6 GHz, Vega 8 Graphics, 15W cTDP
  • AMD Ryzen 3 PRO 2300U – 4C/4T, 2.0 to 3.4 GHz, Vega 6 Graphics, 15W cTDP

AMD Ryzen PRO APU (Desktop SKUs)

  • AMD Ryzen 5 PRO 2400G – 4C/8T, 3.6 to 3.9 GHz, Vega 11 Graphics, 65W TDP
  • AMD Ryzen 5 PRO 2400GE – 4C/8T, 3.2 to 3.8 GHz, Vega 11 Graphics, 35W TDP
  • AMD Ryzen 3 PRO 2200G – 4C/4T, 3.5 to 3.7 GHz, Vega 8 Graphics, 65W TDP
  • AMD Ryzen 3 PRO 2200GE – 4C/4T, 3.2 to 3.6 GHz, Vega 8 Graphics, 35W TDP

In this article, we will focus on the Ryzen PRO Mobile APUs. For the AMD Ryzen PRO desktop APUs, we have a separate article – The AMD Ryzen PRO Desktop APU Tech Report.

 

Ryzen PRO Mobile APU Specifications

SpecificationsAMD Ryzen 7 PRO 2700UAMD Ryzen 5 PRO 2500UAMD Ryzen 3 PRO 2300U
CCX Configuration4+04+04+0
CPU Cores444
CPU Threads884
Base Clock2.2 GHz2.0 GHz2.0 GHz
Boost Clock3.8 GHz3.6 GHz3.4 GHz
L1 Cache64 KB instruction cache
32 KB data cache
64 KB instruction cache
32 KB data cache
64 KB instruction cache
32 KB data cache
L2 Cache512 KB x 4512 KB x 4512 KB x 4
L3 Cache4 MB4 MB4 MB
Integrated GPURadeon RX Vega 10
- 640 stream processors
- 40 TMUs, 16 ROPs
- Up to 1300 MHz
Radeon RX Vega 8
- 512 stream processors
- 32 TMUs, 16 ROPs
- Up to 1100 MHz
Radeon RX Vega 6
- 384 stream processors
- 24 TMUs, 8 ROPs
- Up to 1100 MHz
Memory SupportUp to DDR4-2400 (Dual Channel)Up to DDR4-2400 (Dual Channel)Up to DDR4-2400 (Dual Channel)
TDP15 W Nominal
12-25 W (Configurable)
15 W Nominal
12-25 W (Configurable)
15 W Nominal
12-25 W (Configurable)

Next Page > AMD Ryzen PRO Mobile APU Key Features

 

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AMD Ryzen PRO Mobile APU Key Features

AMD GuardMI Technology

Even though the Ryzen PRO APU uses the same silicon as its consumer-grade siblings, it has AMD GuardMI Technology enabled.

GuardMI is built into the silicon, which offers OS-agnostic security through :

  • Transparent Secure Memory Encryption – DRAM encryption with minimal performance impact
  • Secure Boot Process – hardware-based root of trust secures the BIOS from power-on
  • Real-Time Intrusion Detection – with support for fTPM and TPM 2.0

 

Enterprise-Grade Reliability

The AMD Ryzen PRO APU will come with enterprise-grade reliability features like :

  • 18 months of planned software stability
  • 24 months of planned processor availability
  • commercial-grade quality-assurance process
  • cherry-picked silicon for long-term reliability and performance
  • supports DASH manageability standard
  • 36-month limited warranty for system manufacturers

 

Single CCX Configuration

Unlike the Summit Ridge-based Ryzen CPUs, the AMD Raven Ridge processors use a single CCX configuration. This is a cost-saving measure with a much smaller die size, that also yield some performance benefits – reduced cache and memory latencies.

 

Precision Boost 2

The AMD Ryzen PRO APU also boasts the improved Precision Boost 2, whose more graceful and linear boost algorithm allows them to “boost more cores, more often, on more workloads“. It is now able to change frequencies in very fine granularity of just 25 MHz.

According to AMD, this will allow the AMD Ryzen PRO APU to perform better with apps that spawn many lightweight threads, as opposed to apps with persistent loads (e.g. video editing and 3D rendering).

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Mobile XFR (mXFR)

Mobile XFR (eXtended Frequency Range) is the automatic overclocking feature that boosts the processor voltage and clock speed beyond the Precision Boost clock speed. It leverages the temperature awareness of Precision Boost 2 to determine how much faster it can overclock.

Like the desktop XFR feature, it is highly dependent on the processor temperature, so a good cooling solution is necessary. Notebooks must have coolers that meet AMD’s performance criteria if they want to offer mXFR.

 

Synergistic Power Rail Sharing

The AMD Ryzen PRO mobile APUs have a unified VDD power rail with digital low-dropout (LDO) regulators. This synergistic power rail sharing allows the maximum current requirements to be reduced by 36%.

They also have multiple digital LDO regions for the CPU cores, graphics core and subregions. This allows those regions to be completely turned off when they are idle, greatly saving power.

The shared voltage regulators not only reduce the total current draw, it allows the Ryzen PRO mobile APU to gain a higher peak CPU and GPU current to boost performance.

Next Page > AMD Ryzen PRO Mobile APU Performance

 

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AMD Ryzen PRO Mobile APU Performance

Let’s take a look at some benchmark results that AMD shared with us.

General Office Productivity

In general office productivity apps, the AMD Ryzen 7 PRO 2700U is about 95% as fast as the Intel Core i7-8550U. The AMD Ryzen 5 PRO 2500U, on the other hand, is equivalent to the Intel Core i5-8250U.

Professional Applications

Thanks to the integrated Vega Graphics, the AMD Ryzen PRO Mobile APUs shine in professional applications. They are slightly faster in Photoshop, but offer significantly better performance in 3D CAD applications.

Desktop-Class Performance

Despite being a mobile processor, the Ryzen PRO Mobile offers desktop-class performance at a fraction of the power.

Ryzen PRO Mobile vs. 8th Gen Core

AMD shared some benchmarks to show you how the new AMD Ryzen PRO Mobile APUs fare against their Intel 8th Gen Core counterparts.

Ryzen PRO Mobile vs. 8th Gen vPro

Here are some benchmarks demonstrating how much faster the new AMD Ryzen PRO Mobile APUs again, compared to the Intel 8th Gen vPro counterparts.

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AMD Ryzen PRO Mobile APU Gaming Performance

Even though the AMD Ryzen PRO Mobile APUs are “technically” used only for work <wink wink>, the integrated Vega Graphics allow them to double as esports gaming systems! In fact, AMD shares that the AMD Ryzen 7 PRO 2700U is as fast as the Intel Core i7-8550U paired with the NVIDIA GeForce 950M GPU.

Now, the integrated Vega Graphics is not meant to be a true gaming GPU, but it is powerful enough to deliver playable frame rates for these games at 1080p resolution.

Next Page > AMD Ryzen PRO Mobile APU Availability + Slides

 

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AMD Ryzen PRO Mobile APU Availability

The AMD Ryzen PRO Mobile APUs (and Ryzen PRO desktop APUs) are already available to OEMs, with AMD announcing the following designs for both SME businesses, as well as enterprises.

 

Suggested Reading

 

AMD Ryzen PRO Mobile APU Slides

Here is the complete set of AMD Ryzen PRO Mobile APU slides for your perusal.

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The AMD Ryzen PRO Desktop APU Tech Report

AMD just announced the availability of seven Ryzen PRO APU models for the mobile and desktop markets, as well as laptops and desktops featuring these new APUs. Get the full details of the new AMD Ryzen PRO desktop APU – features, specifications and availability!

 

AMD Raven Ridge

Raven Ridge is AMD’s codename for their Ryzen-Vega APUs (Accelerated Processing Units). First introduced in the mobile segment as the AMD Ryzen Mobile, AMD is now offering PRO versions in both mobile and desktop markets.

These Ryzen APUs combine an AMD Ryzen CPU, with an AMD Radeon Vega GPU, in a single die.

Ryzen CPU + Radeon Vega GPU = Ryzen APU

Desktops APUs are not new. AMD have been making them for years, and many Intel desktop processors come with integrated graphics. But AMD is still the only manufacturer to integrate “premium CPU cores” with “premium graphics cores”.

 

AMD Ryzen PRO Desktop APU

The AMD Ryzen PRO desktop processors, revealed in September 2017, were enterprise-grade versions of the first-generation AMD Ryzen 7 and Ryzen 5 processors. A month later, AMD launched the AMD Ryzen Mobile APUs.

However, AMD has not launched any enterprise-grade APU for either the desktop or mobile market… until now, that is. Here are the first seven AMD Ryzen PRO APU models – three for the mobile market, and four for the desktop market.

AMD Ryzen PRO APU (Mobile SKUs)

  • AMD Ryzen 7 PRO 2700U – 4C/8T, 2.2 to 3.8 GHz, Vega 11 Graphics, 15W cTDP
  • AMD Ryzen 5 PRO 2500U – 4C/8T, 2.0 to 3.6 GHz, Vega 8 Graphics, 15W cTDP
  • AMD Ryzen 3 PRO 2300U – 4C/4T, 2.0 to 3.4 GHz, Vega 6 Graphics, 15W cTDP

AMD Ryzen PRO APU (Desktop SKUs)

  • AMD Ryzen 5 PRO 2400G – 4C/8T, 3.6 to 3.9 GHz, Vega 11 Graphics, 65W TDP
  • AMD Ryzen 5 PRO 2400GE – 4C/8T, 3.2 to 3.8 GHz, Vega 11 Graphics, 35W TDP
  • AMD Ryzen 3 PRO 2200G – 4C/4T, 3.5 to 3.7 GHz, Vega 8 Graphics, 65W TDP
  • AMD Ryzen 3 PRO 2200GE – 4C/4T, 3.2 to 3.6 GHz, Vega 8 Graphics, 35W TDP

In this article, we will focus on the Ryzen PRO desktop APUs. For the AMD Ryzen PRO Mobile APUs, we have a separate article – The AMD Ryzen PRO Mobile APU Tech Report.

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Ryzen PRO Desktop APU Specifications

SpecificationsAMD Ryzen 5 PRO 2400GAMD Ryzen 5 PRO 2400GEAMD Ryzen 3 PRO 2200GAMD Ryzen 3 PRO 2200GE
CCX Configuration4+04+04+04+0
CPU Cores4444
CPU Threads8844
Base Clock3.6 GHz3.2 GHz3.5 GHz3.2 GHz
Boost Clock3.9 GHz3.8 GHz3.7 GHz3.6 GHz
L1 Cache64 KB instruction cache
32 KB data cache
64 KB instruction cache
32 KB data cache
64 KB instruction cache
32 KB data cache
64 KB instruction cache
32 KB data cache
L2 Cache512 KB x 4512 KB x 4512 KB x 4512 KB x 4
L3 Cache4 MB4 MB4 MB4 MB
Integrated GPURadeon RX Vega 10
- 640 stream processors
- 40 TMUs, 16 ROPs
- Up to 1300 MHz
Radeon RX Vega 8
- 512 stream processors
- 32 TMUs, 16 ROPs
- Up to 1100 MHz
Radeon RX Vega 8
- 512 stream processors
- 32 TMUs, 16 ROPs
- Up to 1100 MHz
Radeon RX Vega 8
- 512 stream processors
- 32 TMUs, 16 ROPs
- Up to 1100 MHz
Memory SupportUp to DDR4-2933 (Dual Channel)Up to DDR4-2933 (Dual Channel)Up to DDR4-2933 (Dual Channel)Up to DDR4-2933 (Dual Channel)
TDP65 W35 W65 W35 W

Next Page > AMD Ryzen PRO Desktop APU Key Features

 

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AMD Ryzen PRO Desktop APU Key Features

AMD GuardMI Technology

Even though the Ryzen PRO APU uses the same silicon as its consumer-grade siblings, it has AMD GuardMI Technology enabled.

GuardMI is built into the silicon, which offers OS-agnostic security through :

  • Transparent Secure Memory Encryption – DRAM encryption with minimal performance impact
  • Secure Boot Process – hardware-based root of trust secures the BIOS from power-on
  • Real-Time Intrusion Detection – with support for fTPM and TPM 2.0

 

Enterprise-Grade Reliability

The AMD Ryzen PRO APU will come with enterprise-grade reliability features like :

  • 18 months of planned software stability
  • 24 months of planned processor availability
  • commercial-grade quality-assurance process
  • cherry-picked silicon for long-term reliability and performance
  • supports DASH manageability standard
  • 36-month limited warranty for system manufacturers

 

Single CCX Configuration

Unlike the Summit Ridge-based Ryzen CPUs, the AMD Raven Ridge processors use a single CCX configuration. This is a cost-saving measure with a much smaller die size, that also yield some performance benefits – reduced cache and memory latencies.

 

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Smaller L3 Cache

Using a single CCX configuration halves the Raven Ridge L3 cache size from 8 MB to 4 MB. To compensate, AMD increased their base and boost clock speeds.

 

New CPU Package

The Raven Ridge APUs also introduce a revised CPU package, and a switch to the traditional non-metallic TIM (thermal interface material). These are again cost-cutting measures, albeit with a side benefit of allowing the Raven Ridge processors to officially support DDR4-2933 memory.

 

Precision Boost 2

The AMD Ryzen PRO APU also boasts the improved Precision Boost 2, whose more graceful and linear boost algorithm allows them to “boost more cores, more often, on more workloads“. It is now able to change frequencies in very fine granularity of just 25 MHz.

According to AMD, this will allow the AMD Ryzen PRO APU to perform better with apps that spawn many lightweight threads, as opposed to apps with persistent loads (e.g. video editing and 3D rendering).

 

PCIe x8 For Discrete GPU

The Summit Ridge-based AMD Ryzen 7, Ryzen 5 and Ryzen 3 processors have 16 PCI Express 3.0 lanes dedicated to the PCIe graphics card. In Raven Ridge, that gets cut down to half. That means any external graphics card will only communicate with a Raven Ridge processor at PCIe x8 speed.

This is a cost-saving measure, making the Raven Ridge processor simpler and cheaper to produce. AMD also claims that the move contributed to a smaller and more efficient uncore.

Next Page > AMD Ryzen PRO Desktop APU Performance & Availability

 

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AMD Ryzen PRO Desktop APU Performance

We haven’t had the opportunity to benchmark these desktop APUs, but they should perform similarly to the consumer-grade Raven Ridge desktop APUs we reviewed earlier :

Let’s take a look at some benchmark results that AMD shared with us.

General Office Productivity

In general office productivity apps, the AMD Ryzen PRO 5 2400G was just under 90% as fast as the Intel Core i5-8400. The AMD Ryzen PRO 3 2200G, on the other hand, was slightly faster than the Intel Core i3-8100.

Professional Applications

Thanks to the integrated Vega Graphics, the AMD Ryzen PRO desktop APUs shine in professional applications. The AMD Ryzen PRO 5 2400G performed up to 2.8X faster than the Intel Core i5-8400. The AMD Ryzen PRO 3 2200G, on the other hand, was up to 2X faster than the Intel Core i3-8100.

 

AMD Ryzen PRO Desktop APU Availability

The AMD Ryzen PRO desktop APUs (and Ryzen PRO Mobile APUs) are already available to OEMs, with AMD announcing the following designs for both SME businesses, as well as enterprises.

 

Suggested Reading

Next Page > AMD Ryzen PRO Desktop APU Slides

 

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AMD Ryzen PRO Desktop APU Slides

Here is the complete set of AMD Ryzen PRO desktop APU slides for your perusal.

 

Suggested Reading

Go Back To > First PageComputer Hardware & Systems | Home

 

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Complete List Of CPUs Vulnerable To Meltdown / Spectre Rev. 8.0

The speculative execution CPU bug that literally kneecapped Intel, also affects many AMD and ARM processors. This means BILLIONS of CPUs around the world, including those powering smartphones, are affected by Meltdown and/or Spectre.

Our article Everything On The Meltdown + Spectre CPU Flaws! summarises the key details of  the speculative execution bug, and what we can do about it. This guide is to help those who want a full list of affected CPUs. Because we intend this to be an exhaustive list, we split it into multiple sections.

 

Article Update History

Click here for the Article Update History

Updated @ 2018-03-07 : Added a new list of 5 IBM z/Architecture CPUs. Added a new list of 22 VIA desktop and mobile CPUs. Added 1 ARM mobile CPU, 1 Intel server CPU, and 1 Intel mobile CPU. Also added 20 mobile SoCs, 9 digital TV or media player SoCs, and 43 industrial SoCs.

Updated @ 2018-02-15 : Added 96 Intel server CPUs, 91 Intel desktop CPUs, and 127 Intel mobile CPUs.

Updated @ 2018-02-07 : Added 128 AMD server CPUs, 11 AMD workstation CPUs, 128 AMD desktop CPUs, and 59 AMD mobile CPUs.

Updated @ 2018-02-02 : Added 11 Intel server CPUs, 96 AMD server CPUs, 168 AMD desktop CPUs, 77 AMD mobile CPUs, 10 IBM POWER CPUs, 9 HiSilicon Kirin mobile SoCs, 10 MediaTek mobile SOCs, 4 MediaTek digital TV SoCs, and 6 NVIDIA devices to the lists of vulnerable CPUs.

Updated @ 2018-01-14 : Added 416 Intel server CPUs, 8 Intel desktop CPUs, and 29 Intel mobile CPUs to the lists of vulnerable CPUs. Added a new list of 51 Intel mobile SoCs.

Updated @ 2018-01-12 : Added 71 AMD server CPUs, 71 AMD desktop CPUs, 29 AMD mobile CPUs and 3 AMD server SoCs based on a vulnerable ARM CPU. Also added a table summarising the number of vulnerable processors.

Updated @ 2018-01-11 : Added 18 Intel desktop CPUs and 165 Intel server / workstation CPUs. Also added a list of vulnerable Apple iOS devices, and expanded the list of vulnerable mobile SoCs used by smartphones.

Originally posted @ 2018-01-08


 

What Are Meltdown And Spectre?

Meltdown and Spectre are two exploits that take advantage of three variants of the speculative execution bug that affects billions of CPUs around the world.

The Spectre exploit targeted Variants 1 and 2, while the Meltdown exploit targets Variant 3, of the CPU bug.

For more information on the speculative execution bug, and the Meltdown / Spectre exploits, please read Everything On The Meltdown + Spectre CPU Flaws!

 

The CPUs Vulnerable To Meltdown / Spectre Updated!

For easy reference, we divided the affected CPUs by Company (arranged ALPHABETICALLY – no conspiracy, we promise), and subsequently by Segment (Workstation / Desktop / Mobile), or affected variants.

As of Revision 8.0, we believe we have covered all of the affected AMD, Apple, ARM, IBM, Intel and VIA CPUs. But we will add more CPUs (and devices) as and when they’re noted to be vulnerable to the Meltdown and Spectre exploits.

Note : It’s arguable that all CPUs that uses speculative execution to any degree are potentially vulnerable to Meltdown or Spectre or a future exploit. We will only focus on CPUs that are confirmed to be vulnerable to Meltdown or Spectre.

 

Vulnerable CPUs By The Numbers Updated!

Here is a quick summary of the number of CPUs vulnerable to Meltdown or Spectre, according to the company, and the type of processor.

Company Spectre 1 Spectre 2 Meltdown
AMD 295 Server CPUs
42 Workstation CPUs
396 Desktop CPUs
208 Mobile CPUs
295 Server CPUs
42 Workstation CPUs
396 Desktop CPUs
208 Mobile CPUs
None
Apple 13 Mobile SoCs 13 Mobile SoCs 13 Mobile SoCs
ARM 10 Mobile CPUs
3 Server SoCs
10 Mobile CPUs
3 Server SoCs
4 Mobile CPUs
3 Server SoCs
IBM 5 z/Architecture CPUs
10 POWER CPUs
5 z/Architecture CPUs
10 POWER CPUs
5 z/Architecture CPUs
10 POWER CPUs
Intel 733 Server / Workstation CPUs
443 Desktop CPUs
584 Mobile CPUs
51 Mobile SoCs
733 Server / Workstation CPUs
443 Desktop CPUs
584 Mobile CPUs
51 Mobile SoCs
733 Server / Workstation CPUs
443 Desktop CPUs
584 Mobile CPUs
51 Mobile SoCs
VIA 10 Desktop CPUs
12 Mobile CPUs
10 Desktop CPUs
12 Mobile CPUs
10 Desktop CPUs
12 Mobile CPUs

Total

2816 CPUs 2816 CPUs 1868 CPUs

 

Meltdown + Spectre Reading Suggestions

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The AMD Server CPUs Vulnerable To Spectre

Affected Variants : AMD CPUs are affected by both Variants 1 and 2 of the speculative execution CPU bug. Colloquially, many people refer to them as Spectre 1 and Spectre 2.

AMD Server CPUs Vulnerable To Spectre

AMD Naples (2017)

  • AMD EPYC 7601
  • AMD EPYC 7551
  • AMD EPYC 7551P
  • AMD EPYC 7501
  • AMD EPYC 7451
  • AMD EPYC 7401
  • AMD EPYC 7401P
  • AMD EPYC 7351
  • AMD EPYC 7351P
  • AMD EPYC 7301
  • AMD EPYC 7281
  • AMD EPYC 7251

AMD Toronto (2017)

  • AMD Opteron X3421
  • AMD Opteron X3418
  • AMD Opteron X3416

AMD Kyoto (2013)

  • AMD Opteron X2170
  • AMD Opteron X2150
  • AMD Opteron X1150

AMD Abu Dhabi (2012)

  • AMD Opteron 6386 SE
  • AMD Opteron 6380
  • AMD Opteron 6378
  • AMD Opteron 6370P
  • AMD Opteron 6366 HE
  • AMD Opteron 6348
  • AMD Opteron 6344
  • AMD Opteron 6338P
  • AMD Opteron 6328
  • AMD Opteron 6320
  • AMD Opteron 6308

AMD Seoul (2012)

  • AMD Opteron 4386
  • AMD Opteron 4376 HE
  • AMD Opteron 43GK HE
  • AMD Opteron 4365 EE
  • AMD Opteron 4340
  • AMD Opteron 4334
  • AMD Opteron 4332 HE
  • AMD Opteron 4310 EE
  • AMD Opteron 43CX EE

AMD Delhi (2012)

  • AMD Opteron 3380
  • AMD Opteron 3365
  • AMD Opteron 3350 HE
  • AMD Opteron 3320 EE

AMD Zurich (2012)

  • AMD Opteron 3280
  • AMD Opteron 3260 HE
  • AMD Opteron 3250 HE

AMD Interlagos (2011)

  • AMD Opteron 6284 SE
  • AMD Opteron 6282 SE
  • AMD Opteron 6278
  • AMD Opteron 6276
  • AMD Opteron 6274
  • AMD Opteron 6272
  • AMD Opteron 6262 HE
  • AMD Opteron 6238
  • AMD Opteron 6234
  • AMD Opteron 6230 HE
  • AMD Opteron 6220
  • AMD Opteron 6212
  • AMD Opteron 6204

AMD Valencia (2011)

  • AMD Opteron 4284
  • AMD Opteron 4280
  • AMD Opteron 4276 HE
  • AMD Opteron 4274 HE
  • AMD Opteron 42MX HE
  • AMD Opteron 4256 EE
  • AMD Opteron 4240
  • AMD Opteron 4238
  • AMD Opteron 4234
  • AMD Opteron 4230 HE
  • AMD Opteron 4228 HE
  • AMD Opteron 4226
  • AMD Opteron 42DX EE

AMD Magny-Cours (2010)

  • AMD Opteron 6180 SE
  • AMD Opteron 6176 SE
  • AMD Opteron 6176
  • AMD Opteron 6174
  • AMD Opteron 6172
  • AMD Opteron 6168
  • AMD Opteron 6164 HE
  • AMD Opteron 6140
  • AMD Opteron 6136
  • AMD Opteron 6134
  • AMD Opteron 6132 HE
  • AMD Opteron 6128
  • AMD Opteron 6128 HE
  • AMD Opteron 61QS
  • AMD Opteron 61KS
  • AMD Opteron 6124 HE

AMD Lisbon (2010)

  • AMD Opteron 4184
  • AMD Opteron 4180
  • AMD Opteron 4176 HE
  • AMD Opteron 4174 HE
  • AMD Opteron 4171 HE
  • AMD Opteron 4170 HE
  • AMD Opteron 41KX HE
  • AMD Opteron 4164 EE
  • AMD Opteron 4162 EE
  • AMD Opteron 41GL EE
  • AMD Opteron 4133
  • AMD Opteron 4130
  • AMD Opteron 4122
  • AMD Opteron 41QS HE
  • AMD Opteron 41LE HE

AMD Istanbul (2009)

  • AMD Opteron 8439 SE
  • AMD Opteron 8435
  • AMD Opteron 8431
  • AMD Opteron 8425 HE
  • AMD Opteron 8423
  • AMD Opteron 8419
  • AMD Opteron 8419 EE
  • AMD Opteron 2439 SE
  • AMD Opteron 2435
  • AMD Opteron 2431
  • AMD Opteron 2427
  • AMD Opteron 2425 HE
  • AMD Opteron 2423 HE
  • AMD Opteron 2419
  • AMD Opteron 2419 EE

AMD Suzuka (2009)

  • AMD Opteron 1389
  • AMD Opteron 1385
  • AMD Opteron 1381
  • AMD Opteron 13QS HE
  • AMD Opteron 13KS EE

AMD Shanghai (2009)

  • AMD Opteron 8393 SE
  • AMD Opteron 8389
  • AMD Opteron 8387
  • AMD Opteron 8386 SE
  • AMD Opteron 8384
  • AMD Opteron 8382
  • AMD Opteron 8381 HE
  • AMD Opteron 8380
  • AMD Opteron 8379 HE
  • AMD Opteron 8378
  • AMD Opteron 83VS
  • AMD Opteron 8374 HE
  • AMD Opteron 83QS HE
  • AMD Opteron 2393 SE
  • AMD Opteron 2389
  • AMD Opteron 2387
  • AMD Opteron 2386 SE
  • AMD Opteron 2384
  • AMD Opteron 2382
  • AMD Opteron 2381 HE
  • AMD Opteron 2380
  • AMD Opteron 2379 HE
  • AMD Opteron 2378
  • AMD Opteron 2377 EE
  • AMD Opteron 2376
  • AMD Opteron 2376 HE
  • AMD Opteron 23VS
  • AMD Opteron 2374 HE
  • AMD Opteron 2373 EE
  • AMD Opteron 2372 HE
  • AMD Opteron 23QS HE
  • AMD Opteron 23KS EE

AMD Budapest (2008)

  • AMD Opteron 1356
  • AMD Opteron 1354
  • AMD Opteron 1352

AMD Barcelona (2007)

  • AMD Opteron 8360 SE
  • AMD Opteron 8357 SE
  • AMD Opteron 8356
  • AMD Opteron 8354
  • AMD Opteron 8352
  • AMD Opteron 8350
  • AMD Opteron 8350 HE
  • AMD Opteron 8347
  • AMD Opteron 8347 HE
  • AMD Opteron 8346 HE

AMD Santa Rosa (2006)

  • AMD Opteron 8224 SE
  • AMD Opteron 8222 SE
  • AMD Opteron 8222
  • AMD Opteron 8220 SE
  • AMD Opteron 8220
  • AMD Opteron 8218
  • AMD Opteron 8218 HE
  • AMD Opteron 8216
  • AMD Opteron 8216 HE
  • AMD Opteron 8214
  • AMD Opteron 8214 HE
  • AMD Opteron 8212
  • AMD Opteron 8212 HE
  • AMD Opteron 8210 EE
  • AMD Opteron 2224 SE
  • AMD Opteron 2222 SE
  • AMD Opteron 2222
  • AMD Opteron 2220 SE
  • AMD Opteron 2220
  • AMD Opteron 2218
  • AMD Opteron 2218 HE
  • AMD Opteron 2216
  • AMD Opteron 2216 HE
  • AMD Opteron 2214
  • AMD Opteron 2214 HE
  • AMD Opteron 2212
  • AMD Opteron 2212 HE
  • AMD Opteron 2210
  • AMD Opteron 2210 HE
  • AMD Opteron 2210 EE
  • AMD Opteron 2208 HE

AMD Santa Ana (2006)

  • AMD Opteron 1224 SE
  • AMD Opteron 1222 SE
  • AMD Opteron 1222
  • AMD Opteron 1220 SE
  • AMD Opteron 1220
  • AMD Opteron 1218
  • AMD Opteron 1218 HE
  • AMD Opteron 1216
  • AMD Opteron 1216 HE
  • AMD Opteron 1214
  • AMD Opteron 1214 HE
  • AMD Opteron 1212
  • AMD Opteron 1212 HE
  • AMD Opteron 1210
  • AMD Opteron 1210 HE
  • AMD Opteron 1210 EE

AMD Egypt (2005)

  • AMD Opteron 890
  • AMD Opteron 885
  • AMD Opteron 880
  • AMD Opteron 875
  • AMD Opteron 875 HE
  • AMD Opteron 870
  • AMD Opteron 870 HE
  • AMD Opteron 865
  • AMD Opteron 865 HE
  • AMD Opteron 860 HE

AMD Italy (2005)

  • AMD Opteron 290
  • AMD Opteron 285
  • AMD Opteron 280
  • AMD Opteron 275
  • AMD Opteron 275 HE
  • AMD Opteron 270
  • AMD Opteron 270 HE
  • AMD Opteron 265
  • AMD Opteron 265 HE
  • AMD Opteron 260 HE

AMD Denmark (2005)

  • AMD Opteron 190
  • AMD Opteron 185
  • AMD Opteron 180
  • AMD Opteron 175
  • AMD Opteron 170
  • AMD Opteron 165

AMD Athens (2004)

  • AMD Opteron 856
  • AMD Opteron 854
  • AMD Opteron 852
  • AMD Opteron 850
  • AMD Opteron 850 HE
  • AMD Opteron 848
  • AMD Opteron 848 HE
  • AMD Opteron 846
  • AMD Opteron 846 HE
  • AMD Opteron 844
  • AMD Opteron 842

AMD Troy (2004)

  • AMD Opteron 256
  • AMD Opteron 254
  • AMD Opteron 252
  • AMD Opteron 250
  • AMD Opteron 250 HE
  • AMD Opteron 248
  • AMD Opteron 248 HE
  • AMD Opteron 246
  • AMD Opteron 246 HE
  • AMD Opteron 244
  • AMD Opteron 242

AMD Venus (2004)

  • AMD Opteron 156
  • AMD Opteron 154
  • AMD Opteron 152
  • AMD Opteron 150
  • AMD Opteron 148
  • AMD Opteron 148 HE
  • AMD Opteron 146
  • AMD Opteron 144
  • AMD Opteron 142

AMD Sledgehammer (2003)

  • AMD Opteron 850
  • AMD Opteron 848
  • AMD Opteron 846
  • AMD Opteron 846 HE
  • AMD Opteron 844
  • AMD Opteron 842
  • AMD Opteron 840
  • AMD Opteron 840 EE
  • AMD Opteron 250
  • AMD Opteron 248
  • AMD Opteron 246
  • AMD Opteron 246 HE
  • AMD Opteron 244
  • AMD Opteron 242
  • AMD Opteron 240
  • AMD Opteron 240 EE
  • AMD Opteron 150
  • AMD Opteron 148
  • AMD Opteron 146
  • AMD Opteron 146 HE
  • AMD Opteron 144
  • AMD Opteron 142
  • AMD Opteron 140
  • AMD Opteron 140 EE

Next Page > AMD Workstation & Desktop CPUs Vulnerable To Spectre

 

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The AMD Workstation CPUs Vulnerable To Spectre

Affected Variants : AMD CPUs are affected by both Variants 1 and 2 of the speculative execution CPU bug. Colloquially, many people refer to them as Spectre 1 and Spectre 2. They are not vulnerable to Meltdown.

AMD Summit Ridge (2017)

  • AMD Ryzen Threadripper 1950X
  • AMD Ryzen Threadripper 1920X
  • AMD Ryzen Threadripper 1900X

AMD Vishera (2012)

  • AMD FX-9590
  • AMD FX-9370
  • AMD FX-8370E
  • AMD FX-8370
  • AMD FX-8350
  • AMD FX-8320E
  • AMD FX-8320
  • AMD FX-8310
  • AMD FX-8300
  • AMD FX-6350
  • AMD FX-6300
  • AMD FX-6200
  • AMD FX-4350
  • AMD FX-4320
  • AMD FX-4300

AMD Zambezi (2011)

  • AMD FX-8170
  • AMD FX-8150
  • AMD FX-8140
  • AMD FX-8120
  • AMD FX-8100
  • AMD FX-6130
  • AMD FX-6120
  • AMD FX-6100
  • AMD FX-4170
  • AMD FX-4150
  • AMD FX-4130
  • AMD FX-4120
  • AMD FX-4100

AMD Windsor (2006)

  • AMD Athlon 64 FX-74
  • AMD Athlon 64 FX-72
  • AMD Athlon 64 FX-70
  • AMD Athlon 64 FX-62

AMD Toledo (2005)

  • AMD Athlon 64 FX-60

AMD San Diego (2005)

  • AMD Athlon 64 FX-57
  • AMD Athlon 64 FX-55

AMD Clawhammer (2004)

  • AMD Athlon 64 FX-55
  • AMD Athlon 64 FX-53

AMD Sledgehammer (2003)

  • AMD Athlon 64 FX-53
  • AMD Athlon 64 FX-51

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AMD Desktop CPUs Vulnerable To Spectre

Affected Variants : AMD CPUs are affected by both Variants 1 and 2 of the speculative execution CPU bug. Colloquially, many people refer to them as Spectre 1 and Spectre 2. They are not vulnerable to Meltdown.

AMD Raven Ridge (2018)

  • AMD Ryzen 5 2400G
  • AMD Ryzen 5 2200G

AMD Summit Ridge (2017)

  • AMD Ryzen 7 1800X
  • AMD Ryzen 7 1700X
  • AMD Ryzen 7 1700
  • AMD Ryzen 5 1600X
  • AMD Ryzen 5 1600
  • AMD Ryzen 5 1500X
  • AMD Ryzen 5 1400
  • AMD Ryzen 3 1300X
  • AMD Ryzen 3 1200

AMD Bristol Ridge (2016)

  • AMD PRO A12-9800
  • AMD A12-9800
  • AMD PRO A12-9800E
  • AMD A12-9800E
  • AMD PRO A10-9700
  • AMD A10-9700
  • AMD PRO A10-9700E
  • AMD A10-9700E
  • AMD PRO A8-9600
  • AMD A8-9600
  • AMD A6-9550
  • AMD PRO A6-9500
  • AMD A6-9500
  • AMD PRO A6-9500E
  • AMD A6-9500E
  • AMD Athlon X4 970
  • AMD Athlon X4 950
  • AMD Athlon X4 940

AMD Carrizo (2015)

  • AMD Athlon X4 845
  • AMD Athlon X4 835

AMD Kaveri (2014)

  • AMD A10-7890K
  • AMD A10-7870K
  • AMD A10-7860K
  • AMD A10 PRO-7850B
  • AMD A10-7850K
  • AMD A10 PRO-7800B
  • AMD A10-7800
  • AMD A10-7700K
  • AMD A8-7670K
  • AMD A8-7650K
  • AMD A8 PRO-7600B
  • AMD A8-7600
  • AMD A6-7470K
  • AMD A6-7400K
  • AMD A6 PRO-7400B
  • AMD A6 PRO-7350B
  • AMD FX-770K
  • AMD Athlon X4 880K
  • AMD Athlon X4 870K
  • AMD Athlon X4 860K
  • AMD Athlon X4 840
  • AMD Athlon X2 450

AMD Kabini (2014)

  • AMD Athlon 5370
  • AMD Athlon 5350
  • AMD Athlon 5150
  • AMD Sempron 3850
  • AMD Sempron 2650

AMD Richland (2013)

  • AMD A10-6800K
  • AMD A10-6800B
  • AMD A10-6790K
  • AMD A10-6790B
  • AMD A10-6700
  • AMD A10-6700T
  • AMD A8-6600K
  • AMD A8-6500B
  • AMD A8-6500
  • AMD A8-6500T
  • AMD A6-6420K
  • AMD A6-6420B
  • AMD A6-6400K
  • AMD A6-6400B
  • AMD A4 PRO-7300B
  • AMD A4-7300
  • AMD A4-6320B
  • AMD A4-6320
  • AMD A4-6300B
  • AMD A4-6300
  • AMD A4-4020
  • AMD A4-4000
  • AMD FX-670K
  • AMD Athlon X4 760K
  • AMD Athlon X4 750
  • AMD Athlon X2 370K
  • AMD Athlon X2 350
  • AMD Sempron X2 250

AMD Trinity (2012)

  • AMD A10-5800K
  • AMD A10-5800B
  • AMD A10-5700
  • AMD A8-5600K
  • AMD A8-5500B
  • AMD A8-5500
  • AMD A6-5400K
  • AMD A6-5400B
  • AMD A4-5300B
  • AMD A4-5300
  • AMD FirePro A320
  • AMD FirePro A300
  • AMD Athlon X4 750K
  • AMD Athlon X4 740
  • AMD Athlon X2 340
  • AMD Sempron X2 240

AMD Llano (2011)

  • AMD A8-3870K
  • AMD A8-3850
  • AMD A8-3820
  • AMD A8-3800
  • AMD A6-3670K
  • AMD A6-3650
  • AMD A6-3620
  • AMD A6-3600
  • AMD A4-3420
  • AMD A4-3400
  • AMD A4-3330
  • AMD E2-3200
  • AMD Athlon II X4 651K
  • AMD Athlon II X4 651
  • AMD Athlon II X4 641
  • AMD Athlon II X4 638
  • AMD Athlon II X4 631
  • AMD Athlon II X2 221
  • AMD Sempron X2 198

AMD Propus (2011)

  • AMD Phenom II X4 850
  • AMD Phenom II X4 840
  • AMD Athlon II X4 650
  • AMD Athlon II X4 645
  • AMD Athlon II X4 640
  • AMD Athlon II X4 635
  • AMD Athlon II X4 630
  • AMD Athlon II X4 620
  • AMD Athlon II X4 620e
  • AMD Athlon II X4 615e
  • AMD Athlon II X4 610e
  • AMD Athlon II X4 605e
  • AMD Athlon II X4 600e

AMD Regor (2011)

  • AMD Phenom II X2 521
  • AMD Phenom II X2 511
  • AMD Athlon II X2 B30
  • AMD Athlon II X2 280
  • AMD Athlon II X2 B28
  • AMD Athlon II X2 270
  • AMD Athlon II X2 270u
  • AMD Athlon II X2 265
  • AMD Athlon II X2 260
  • AMD Athlon II X2 260u
  • AMD Athlon II X2 B26
  • AMD Athlon II X2 255
  • AMD Athlon II X2 250e
  • AMD Athlon II X2 250
  • AMD Athlon II X2 250u
  • AMD Athlon II X2 245e
  • AMD Athlon II X2 245
  • AMD Athlon II X2 240e
  • AMD Athlon II X2 240
  • AMD Athlon II X2 B24
  • AMD Athlon II X2 235e
  • AMD Athlon II X2 220
  • AMD Athlon II X2 B22
  • AMD Athlon II X2 215
  • AMD Athlon II X2 210e
  • AMD Sempron 190
  • AMD Sempron 180

AMD Zosma (2010)

  • AMD Phenom II X4 970 Black Edition
  • AMD Phenom II X4 960T Black Edition
  • AMD Phenom II X4 960T
  • AMD Phenom II X4 840T
  • AMD Phenom II X4 650T
  • AMD Athlon II X4 640

AMD Thuban (2010)

  • AMD Phenom II X6 1100T Black Edition
  • AMD Phenom II X6 1090T Black Edition
  • AMD Phenom II X6 1075T Black Edition
  • AMD Phenom II X6 1075T
  • AMD Phenom II X6 1065T
  • AMD Phenom II X6 1055T
  • AMD Phenom II X6 1045T
  • AMD Phenom II X6 1035T

AMD Sargas (2009)

  • AMD Athlon II 170u
  • AMD Athlon II 160u
  • AMD Sempron 150
  • AMD Sempron 145
  • AMD Sempron 140
  • AMD Sempron 130

AMD Deneb (2009)

  • AMD Phenom II 42 TWKR
  • AMD Phenom II X4 980 Black Edition
  • AMD Phenom II X4 975 Black Edition
  • AMD Phenom II X4 970 Black Edition
  • AMD Phenom II X4 965 Black Edition
  • AMD Phenom II X4 B99
  • AMD Phenom II X4 955 Black Edition
  • AMD Phenom II X4 955
  • AMD Phenom II X4 B97
  • AMD Phenom II X4 945
  • AMD Phenom II X4 940 Black Edition
  • AMD Phenom II X4 B95
  • AMD Phenom II X4 925
  • AMD Phenom II X4 920
  • AMD Phenom II X4 B93
  • AMD Phenom II X4 910e
  • AMD Phenom II X4 910
  • AMD Phenom II X4 905e
  • AMD Phenom II X4 900e
  • AMD Phenom II X4 830
  • AMD Phenom II X4 820
  • AMD Phenom II X4 810
  • AMD Phenom II X4 805

AMD Heka (2009)

  • AMD Phenom II X3 B77
  • AMD Phenom II X3 740 Black Edition
  • AMD Phenom II X3 B75
  • AMD Phenom II X3 720 Black Edition
  • AMD Phenom II X3 B73
  • AMD Phenom II X3 720
  • AMD Phenom II X3 715 Black Edition
  • AMD Phenom II X3 710
  • AMD Phenom II X3 705e
  • AMD Phenom II X3 700e

AMD Callisto (2009)

  • AMD Phenom II X2 570 Black Edition
  • AMD Phenom II X2 B60
  • AMD Phenom II X2 565 Black Edition
  • AMD Phenom II X2 B59
  • AMD Phenom II X2 560 Black Edition
  • AMD Phenom II X2 555 Black Edition
  • AMD Phenom II X2 B57
  • AMD Phenom II X2 550 Black Edition
  • AMD Phenom II X2 550
  • AMD Phenom II X2 B55
  • AMD Phenom II X2 545
  • AMD Phenom II X2 B53

AMD Rana (2009)

  • AMD Athlon II X3 460
  • AMD Athlon II X3 455
  • AMD Athlon II X3 450
  • AMD Athlon II X3 445
  • AMD Athlon II X3 440
  • AMD Athlon II X3 435
  • AMD Athlon II X3 425e
  • AMD Athlon II X3 425
  • AMD Athlon II X3 420e
  • AMD Athlon II X3 415e
  • AMD Athlon II X3 405e
  • AMD Athlon II X3 400e

AMD Agena (2008)

  • AMD Phenom X4 9950 Black Edition
  • AMD Phenom X4 9850 Black Edition
  • AMD Phenom X4 9850B
  • AMD Phenom X4 9850
  • AMD Phenom X4 9750B
  • AMD Phenom X4 9750
  • AMD Phenom X4 9650
  • AMD Phenom X4 9600B
  • AMD Phenom X4 9600
  • AMD Phenom X4 9550
  • AMD Phenom X4 9500
  • AMD Phenom X4 9450
  • AMD Phenom X4 9350
  • AMD Phenom X4 9150e
  • AMD Phenom X4 9100e

AMD Toliman (2008)

  • AMD Phenom X3 8850
  • AMD Phenom X3 8750 Black Edition
  • AMD Phenom X3 8750
  • AMD Phenom X3 8750B
  • AMD Phenom X3 8650
  • AMD Phenom X3 8600B
  • AMD Phenom X3 8600
  • AMD Phenom X3 8550
  • AMD Phenom X3 8450e
  • AMD Phenom X3 8450
  • AMD Phenom X3 8400
  • AMD Phenom X3 8250e

AMD Kuma (2008)

  • AMD Athlon X2 7850 Black Edition
  • AMD Athlon X2 7750 Black Edition
  • AMD Athlon X2 7550
  • AMD Athlon X2 7450
  • AMD Athlon X2 6500 Black Edition

AMD Brisbane (2007)

  • AMD Athlon X2 5600B
  • AMD Athlon X2 5400B
  • AMD Athlon X2 5200B
  • AMD Athlon X2 5000B
  • AMD Athlon X2 5050e
  • AMD Athlon X2 4850B
  • AMD Athlon X2 4850e
  • AMD Athlon X2 4450B
  • AMD Athlon X2 4450e
  • AMD Athlon X2 4050e
  • AMD Athlon X2 3250e
  • AMD Athlon X2 BE-2400
  • AMD Athlon X2 BE-2350
  • AMD Athlon X2 BE-2300
  • AMD Athlon 64 X2 6000+
  • AMD Athlon 64 X2 5800+
  • AMD Athlon 64 X2 5600+
  • AMD Athlon 64 X2 5400+ Black Edition
  • AMD Athlon 64 X2 5400+
  • AMD Athlon 64 X2 5200+
  • AMD Athlon 64 X2 5000+ Black Edition
  • AMD Athlon 64 X2 5000+
  • AMD Athlon 64 X2 4800+
  • AMD Athlon 64 X2 4600+
  • AMD Athlon 64 X2 4400+
  • AMD Athlon 64 X2 4200+
  • AMD Athlon 64 X2 4000+
  • AMD Athlon 64 X2 3600+
  • AMD Sempron X2 2300
  • AMD Sempron X2 2200
  • AMD Sempron X2 2100

AMD Lima (2007)

  • AMD Athlon 64 3800+
  • AMD Athlon 64 3500+
  • AMD Athlon 64 3100+
  • AMD Athlon 64 2850e
  • AMD Athlon 64 2600+
  • AMD Athlon 64 2650e
  • AMD Athlon 64 2000+
  • AMD Athlon LE-1660
  • AMD Athlon LE-1640
  • AMD Athlon LE-1640B

AMD Sparta (2006)

  • AMD Sempron LE-1300
  • AMD Sempron LE-1250
  • AMD Sempron LE-1200
  • AMD Sempron LE-1150
  • AMD Sempron LE-1100

AMD Windsor (2006)

  • AMD Athlon 64 X2 6400+ Black Edition
  • AMD Athlon 64 X2 6000+
  • AMD Athlon 64 X2 5600+
  • AMD Athlon 64 X2 5400+
  • AMD Athlon 64 X2 5200+
  • AMD Athlon 64 X2 5000+
  • AMD Athlon 64 X2 4800+
  • AMD Athlon 64 X2 4600+
  • AMD Athlon 64 X2 4400+
  • AMD Athlon 64 X2 4200+
  • AMD Athlon 64 X2 4000+
  • AMD Athlon 64 X2 3800+
  • AMD Athlon 64 X2 3600+

AMD Manila (2006)

  • AMD Sempron 3800+
  • AMD Sempron 3600+
  • AMD Sempron 3500+
  • AMD Sempron 3400+
  • AMD Sempron 3200+
  • AMD Sempron 3000+
  • AMD Sempron 2800+

AMD Orleans (2006)

  • AMD Athlon 64 4000+
  • AMD Athlon 64 3800+
  • AMD Athlon 64 3500+
  • AMD Athlon 64 3200+
  • AMD Athlon 64 3000+
  • AMD Athlon 64 LE-1640
  • AMD Athlon 64 LE-1620
  • AMD Athlon 64 LE-1600

AMD Toledo (2005)

  • AMD Athlon 64 X2 4800+
  • AMD Athlon 64 X2 4600+
  • AMD Athlon 64 X2 4400+
  • AMD Athlon 64 X2 4200+
  • AMD Athlon 64 X2 4000+
  • AMD Athlon 64 X2 3800+
  • AMD Athlon 64 X2 3700+

AMD Palermo (2005)

  • AMD Sempron 3500+
  • AMD Sempron 3400+
  • AMD Sempron 3300+
  • AMD Sempron 3200+
  • AMD Sempron 3100+
  • AMD Sempron 3000+
  • AMD Sempron 2800+
  • AMD Sempron 2600+
  • AMD Sempron 2500+

AMD Manchester (2005)

  • AMD Athlon 64 X2 4600+
  • AMD Athlon 64 X2 4200+
  • AMD Athlon 64 X2 3800+
  • AMD Athlon 64 X2 3600+
  • AMD Athlon 64 X2 3500+
  • AMD Athlon 64 X2 3200+

AMD San Diego (2005)

  • AMD Athlon 64 4000+
  • AMD Athlon 64 3700+
  • AMD Athlon 64 3500+

AMD Venice (2005)

  • AMD Athlon 64 3800+
  • AMD Athlon 64 3500+
  • AMD Athlon 64 3400+
  • AMD Athlon 64 3200+
  • AMD Athlon 64 3000+
  • AMD Athlon 64 1500+

AMD Winchester (2004)

  • AMD Athlon 64 3500+
  • AMD Athlon 64 3200+
  • AMD Athlon 64 3000+

AMD Paris (2004)

  • AMD Sempron 3100+
  • AMD Sempron 3000+

AMD Clawhammer (2004)

  • AMD Athlon 64 4000+
  • AMD Athlon 64 3800+
  • AMD Athlon 64 3700+
  • AMD Athlon 64 3600+
  • AMD Athlon 64 3500+
  • AMD Athlon 64 3400+
  • AMD Athlon 64 3200+
  • AMD Athlon 64 3000+
  • AMD Athlon 64 2800+

AMD Newcastle (2003)

  • AMD Athlon 64 3800+
  • AMD Athlon 64 3500+
  • AMD Athlon 64 3400+
  • AMD Athlon 64 3300+
  • AMD Athlon 64 3200+
  • AMD Athlon 64 3000+
  • AMD Athlon 64 2800+

Next Page > AMD Mobile CPUs Vulnerable To Spectre

 

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AMD Mobile CPUs Vulnerable To Spectre

Affected Variants : AMD CPUs are affected by both Variants 1 and 2 of the speculative execution CPU bug. Colloquially, many people refer to them as Spectre 1 and Spectre 2. They are not vulnerable to Meltdown.

AMD Raven Ridge (2017)

  • AMD Ryzen 7 2700U
  • AMD Ryzen 5 2500U
  • AMD Ryzen 3 2300U
  • AMD Ryzen 3 2200U

AMD Bristol Ridge (2016)

  • AMD FX-9830P
  • AMD Pro A12-9830B
  • AMD FX-9800P
  • AMD Pro A12-9800B
  • AMD A12-9730P
  • AMD Pro A10-9730B
  • AMD A12-9720P
  • AMD A12-9700P
  • AMD Pro A10-9700B
  • AMD A10-9630P
  • AMD Pro A8-9630B
  • AMD A10-9620P
  • AMD A10-9600P
  • AMD Pro A8-9600B
  • AMD Pro A6-9500B

AMD Stoney Ridge (2015)

  • AMD A9-9430
  • AMD A9-9420
  • AMD A9-9410
  • AMD A9-9400
  • AMD A6-9220
  • AMD A6-9210
  • AMD A6-9200
  • AMD A6-9200e
  • AMD A4-9120
  • AMD E2-9010
  • AMD E2-9000
  • AMD E2-9000e

AMD Carrizo (2015)

  • AMD A10-8780P
  • AMD Pro A12-8800B
  • AMD FX-8800P
  • AMD Pro A10-8700B
  • AMD A10-8700P
  • AMD Pro A8-8600B
  • AMD A8-8600P
  • AMD Pro A6-8500B
  • AMD A6-8500P
  • AMD A8-7410
  • AMD A6-7310
  • AMD A4-7210
  • AMD E2-7110
  • AMD E1-7010

AMD Kaveri (2014)

  • AMD FX-7600P
  • AMD FX-7500
  • AMD A10-7400P
  • AMD Pro A10-7350B
  • AMD A10-7300
  • AMD A8-7200P
  • AMD Pro A8-7150B
  • AMD A8-7100
  • AMD Pro A6-7050B
  • AMD A6-7000

AMD Richland (2013)

  • AMD A10-5757M
  • AMD A10-5750M
  • AMD A10-5745M
  • AMD A8-5557M
  • AMD A8-5550M
  • AMD A8-5545M
  • AMD A6-5357M
  • AMD A6-5350M
  • AMD A6-5345M
  • AMD A4-5150M
  • AMD A4-5145M

AMD Trinity (2012)

  • AMD A10-4655M
  • AMD A10-4600M
  • AMD A8-4555M
  • AMD A8-4500M
  • AMD A6-4455M
  • AMD A6-4400M
  • AMD A4-4355M
  • AMD A4-4300M

AMD Llano (2011)

  • AMD A8-3550MX
  • AMD A8-3530MX
  • AMD A8-3520M
  • AMD A8-3510MX
  • AMD A8-3500M
  • AMD A6-3430MX
  • AMD A6-3420M
  • AMD A6-3410MX
  • AMD A6-3400M
  • AMD A4-3330MX
  • AMD A4-3320M
  • AMD A4-3310MX
  • AMD A4-3305M
  • AMD A4-3300M
  • AMD E2-3000M

AMD Champlain (2010)

  • AMD Phenom II X940 Black Edition
  • AMD Phenom II X920 Black Edition
  • AMD Phenom II N970
  • AMD Phenom II P960
  • AMD Phenom II N950
  • AMD Phenom II P940
  • AMD Phenom II N930
  • AMD Phenom II P920
  • AMD Phenom II N870
  • AMD Phenom II P860
  • AMD Phenom II N850
  • AMD Phenom II P840
  • AMD Phenom II N830
  • AMD Phenom II P820
  • AMD Phenom II N660
  • AMD Phenom II P650
  • AMD Phenom II N640
  • AMD Phenom II N620
  • AMD Phenom II X640 Black Edition
  • AMD Phenom II X620 Black Edition
  • AMD Athlon II N370
  • AMD Athlon II P360
  • AMD Athlon II N350
  • AMD Athlon II P340
  • AMD Athlon II N330
  • AMD Athlon II P320
  • AMD Athlon II Neo K145
  • AMD Athlon II Neo K125
  • AMD Turion II Neo K685
  • AMD Turion II Neo K665
  • AMD Turion II Neo K645
  • AMD Turion II Neo K625
  • AMD Turion II N570
  • AMD Turion II P560
  • AMD Turion II N550
  • AMD Turion II P540
  • AMD Turion II N530
  • AMD Turion II P520
  • AMD V160
  • AMD V140
  • AMD V120
  • AMD V105

AMD Geneva (2010)

  • AMD Turion II Neo N54L
  • AMD Turion II K685
  • AMD Turion II K665
  • AMD Turion II K645
  • AMD Turion II K625

AMD Caspian (2009)

  • AMD Turion II Ultra M660
  • AMD Turion II Ultra M640
  • AMD Turion II Ultra M620
  • AMD Turion II Ultra M600
  • AMD Turion II M560
  • AMD Turion II M540
  • AMD Turion II M520
  • AMD Turion II M500
  • AMD Athlon II M360
  • AMD Athlon II M340
  • AMD Athlon II M320
  • AMD Athlon II M300
  • AMD Sempron M140
  • AMD Sempron M120
  • AMD Sempron M100

AMD Conesus (2009)

  • AMD Athlon Neo X2 L510
  • AMD Athlon Neo X2 L335
  • AMD Athlon Neo X2 L325

AMD Sherman (2009)

  • AMD Athlon Neo TF-20

AMD Huron (2009)

  • AMD Athlon Neo MV-40
  • AMD Sempron 210U
  • AMD Sempron 200U

AMD Sable (2008)

  • AMD Sempron SI-42
  • AMD Sempron SI-40

AMD Sherman (2007)

  • AMD Mobile Sempron 4000+
  • AMD Mobile Sempron 3800+
  • AMD Mobile Sempron 3700+
  • AMD Mobile Sempron 3600+
  • AMD Sempron 2100+ fanless

AMD Keene (2006)

  • AMD Mobile Sempron 3600+
  • AMD Mobile Sempron 3500+
  • AMD Mobile Sempron 3400+
  • AMD Mobile Sempron 3200+

AMD Newark (2005)

  • AMD Mobile Athlon 64 4000+
  • AMD Mobile Athlon 64 3700+
  • AMD Mobile Athlon 64 3400+
  • AMD Mobile Athlon 64 3200+
  • AMD Mobile Athlon 64 3000+

AMD Albany (2005)

  • AMD Mobile Sempron 3600+
  • AMD Mobile Sempron 3400+
  • AMD Mobile Sempron 3300+
  • AMD Mobile Sempron 3100+
  • AMD Mobile Sempron 3000+

AMD Roma (2005)

  • AMD Mobile Sempron 3400+
  • AMD Mobile Sempron 3300+
  • AMD Mobile Sempron 3100+
  • AMD Mobile Sempron 3000+
  • AMD Mobile Sempron 2800+

AMD Oakville (2004)

  • AMD Mobile Athlon 64 3000+
  • AMD Mobile Athlon 64 2800+
  • AMD Mobile Athlon 64 2700+

AMD Georgetown (2004)

  • AMD Mobile Sempron 3300+
  • AMD Mobile Sempron 3100+
  • AMD Mobile Sempron 3000+
  • AMD Mobile Sempron 2800+
  • AMD Mobile Sempron 2600+

AMD Sonora (2004)

  • AMD Mobile Sempron 3100+
  • AMD Mobile Sempron 3000+
  • AMD Mobile Sempron 2800+
  • AMD Mobile Sempron 2600+

AMD Dublin (2004)

  • AMD Mobile Sempron 3000+
  • AMD Mobile Sempron 2800+
  • AMD Mobile Sempron 2600+

AMD Odessa (2004)

  • AMD Mobile Athlon 64 3000+
  • AMD Mobile Athlon 64 2800+
  • AMD Mobile Athlon 64 2700+

AMD Clawhammer (2004)

  • AMD Mobile Athlon 64 3700+
  • AMD Mobile Athlon 64 3400+
  • AMD Mobile Athlon 64 3200+
  • AMD Mobile Athlon 64 3000+
  • AMD Mobile Athlon 64 2800+
  • AMD Mobile Athlon 64 2700+

Next Page > Apple, ARM & Intel CPUs Vulnerable To Meltdown & Spectre

 

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The Apple CPUs Vulnerable To Meltdown / Spectre

Apple makes custom processors based on the ARM microarchitecture. They have not released specific information on which of their processors are affected by which exploit, but this is what we know so far.

Affected Variants : Apple only issued a general notice that their processors are affected by both Meltdown and Spectre, not the specific variants.

  • Apple A4
  • Apple A5
  • Apple A5X
  • Apple A6
  • Apple A6X
  • Apple A7
  • Apple A8
  • Apple A8X
  • Apple A9
  • Apple A9X
  • Apple A10 Fusion
  • Apple A10X Fusion
  • Apple A11 Bionic

Vulnerable iOS or tvOS Devices : Apple was vague about the iOS devices that were affected, but based on the affected CPU cores, here are the iOS devices that are vulnerable to Meltdown and Spectre :

  • Apple iPad, iPad 2, iPad 3, iPad 4
  • Apple iPad Air, iPad Air 2
  • Apple iPad Mini, iPad Mini 2, iPad Mini 3
  • Apple iPad Pro (9.7″, 10.5″ and 12.9″)
  • Apple iPhone 4, iPhone 4S, iPhone 5, iPhone 5C, iPhone 5S, iPhone 6, iPhone 6 Plus, iPhone 6S, iPhone 6S Plus, iPhone SE, iPhone 7, iPhone 7 Plus, iPhone 8, iPhone 8 Plus, iPhone X
  • Apple iPod Touch 4th Generation, iPod Touch 5th Generation, iPod Touch 6th Generation
  • Apple TV 2nd Generation, 3rd Generation, 4th Generation and 5th Generation

 

The ARM CPUs Vulnerable To Meltdown / Spectre

ARM CPUs Vulnerable To All Three Variants

Affected Variants : Variants 1 and 2, and either Variant 3 or Variant 3a, of the speculative execution CPU bug. They are vulnerable to Meltdown and both variants of Spectre.

  • ARM Cortex-A75
  • ARM Cortex-A72
  • ARM Cortex-A57
  • ARM Cortex-A15

Mobile SoCs Using These ARM CPUs (Not Exhaustive)

  • HiSilicon Kirin 955
  • HiSilicon Kirin 950
  • HiSilicon Kirin 928
  • HiSilicon Kirin 925
  • HiSilicon Kirin 920
  • MediaTek Helio X27 (MT6797X)
  • MediaTek Helio X25 (MT6797T)
  • MediaTek Helio X23 (MT6707D)
  • MediaTek Helio X20 (MT6797)
  • MediaTek MT8173
  • MediaTek MT8135 / MT8135V
  • MediaTek MT6795
  • NVIDIA Tegra X2
  • NVIDIA Tegra X1
  • NVIDIA Tegra K1
  • NVIDIA Tegra 4
  • Qualcomm Snapdragon 845
  • Qualcomm Snapdragon 810 / 808
  • Qualcomm Snapdragon 670
  • Qualcomm Snapdragon 653 / 652 / 650
  • Qualcomm Snapdragon 640
  • Samsung Exynos 7420
  • Samsung Exynos 5800
  • Samsung Exynos 5433
  • Samsung Exynos 5422 / 5420
  • Samsung Exynos 5410
  • Samsung Exynos 5260
  • Samsung Exynos 5250
  • Samsung Exynos 5 Dual (Exynos 5250)

AMD Server SoCs Using These ARM CPUs

  • AMD Opteron A1170
  • AMD Opteron A1150
  • AMD Opteron A1120

NVIDIA Devices Using These ARM CPUs (Not Exhaustive)

  • NVIDIA SHIELD TV (ARM Cortex-A57)
  • NVIDIA SHIELD Tablet (ARM Cortex-A15)
  • NVIDIA Jetson TX2 (ARM Cortex-A57)
  • NVIDIA Jetson TX1 (ARM Cortex-A57)
  • NVIDIA Jetson TK1 (ARM Cortex-A15)
  • NVIDIA Jetson Tegra K1 (ARM Cortex-A15)

Digital TV / Media Player SoCs Using These ARM CPUs (Not Exhaustive)

  • Rockchip RK3399

Industrial SoCs Using These ARM CPUs (Not Exhaustive)

  • Texas Instruments Sitara AM5728
  • Texas Instruments Sitara AM5726
  • Texas Instruments Sitara AM5718
  • Texas Instruments Sitara AM5716
  • Texas Instruments Sitara AM5708
  • Texas Instruments Sitara AM5706
  • Texas Instruments Sitara AM5K2E04
  • Texas Instruments Sitara AM5K2E02

 

ARM CPUs Vulnerable To Only Spectre 1 & 2

Affected Variant : Variants 1 and 2 of the speculative execution CPU bug. They are not vulnerable to Meltdown.

  • ARM Cortex-A73
  • ARM Cortex-A17
  • ARM Cortex-A12
  • ARM Cortex-A9
  • ARM Cortex-A8
  • ARM Cortex-R8
  • ARM Cortex-R7

Mobile SoCs Using These ARM CPUs (Not Exhaustive)

  • HiSilicon Kirin 970
  • HiSilicon Kirin 960
  • HiSilicon Kirin 910 / 910T
  • HiSilicon K3V2 / K3V2E
  • MediaTek Helio P70
  • MediaTek Helio P40
  • MediaTek Helio X30 (MT6799)
  • MediaTek MT8377
  • MediaTek MT8317 / MT8317T
  • MediaTek MT6595 / MT6595M / MT6595 Turbo
  • MediaTek MT6577 / MT6577T
  • MediaTek MT6575 / MT6575M
  • MediaTek MT6517 / MT6517T
  • MediaTek MT6515
  • NVIDIA Tegra 4i
  • NVIDIA Tegra 3
  • NVIDIA Tegra 2
  • Qualcomm Snapdragon 835
  • Qualcomm Snapdragon 653
  • Samsung Exynos 9610
  • Samsung Exynos 7885
  • Samsung Exynos 7872
  • Samsung Exynos 4415 / 4412
  • Samsung Exynos 4212 / 4210
  • Samsung Exynos 3110

Tablet SoCs Using These ARM CPUs (Not Exhaustive)

  • Amlogic AML8726-M / M3
  • Amlogic AML8726-M6 / Amlogic MX
  • Amlogic M802
  • Amlogic M801

Digital TV / Media Player SoCs Using These ARM CPUs (Not Exhaustive)

  • Amlogic S812
  • Amlogic S802
  • MediaTek MT5595
  • MediaTek MT5580
  • MediaTek MT5505
  • MediaTek MT5398
  • Panasonic UniPhier MN2WS0220
  • Rockchip RK3288
  • Rockchip RK3188 / RK3188T / RK3168
  • Rockchip RK3066
  • Rockchip RK2928 / RK2926 / RK2918 / RK2906
  • Rockchip RK2818

Industrial SoCs Using These ARM CPUs (Not Exhaustive)

  • Texas Instruments Sitara AMIC120
  • Texas Instruments Sitara AMIC110
  • Texas Instruments Sitara AM4388
  • Texas Instruments Sitara AM4384
  • Texas Instruments Sitara AM4382
  • Texas Instruments Sitara AM4379
  • Texas Instruments Sitara AM4378
  • Texas Instruments Sitara AM4377
  • Texas Instruments Sitara AM4376
  • Texas Instruments Sitara AM4372
  • Texas Instruments Sitara AM3894
  • Texas Instruments Sitara AM3892
  • Texas Instruments Sitara AM3874
  • Texas Instruments Sitara AM3871
  • Texas Instruments Sitara AM3715
  • Texas Instruments Sitara AM3703
  • Texas Instruments Sitara AM3517
  • Texas Instruments Sitara AM3505
  • Texas Instruments Sitara AM3359
  • Texas Instruments Sitara AM3358 / AM3358-EP
  • Texas Instruments Sitara AM3357
  • Texas Instruments Sitara AM3356
  • Texas Instruments Sitara AM3354
  • Texas Instruments Sitara AM3352
  • Texas Instruments Sitara AM3351
  • Texas Instruments Sitara AM1810
  • Texas Instruments Sitara AM1808
  • Texas Instruments Sitara AM1806
  • Texas Instruments Sitara AM1802
  • Texas Instruments Sitara AM1707
  • Texas Instruments Sitara AM1705
  • Texas Instruments Sitara OMAP3515
  • Texas Instruments Sitara OMAP3503 / OMAP3503-HIREL

Embedded Computers Using These ARM CPUs (Not Exhaustive)

  • VIA VAB-1000
  • VIA VAB-820 / VAB-800
  • VIA VAB-630 / VAB-600
  • VIA ALTA DS
  • VIA QSM-8Q60
  • VIA SOM-6X50
  • VIA VTS-8589

 

IBM POWER CPUs Vulnerable To Meltdown + Spectre

Affected Variants : These IBM POWER CPUs are affected by all three variants of the speculative execution CPU bug. They are vulnerable to the Meltdown and both Spectre exploits.

  • IBM POWER4
  • IBM POWER4+
  • IBM POWER5
  • IBM POWER5+
  • IBM POWER6
  • IBM POWER6+
  • IBM POWER7
  • IBM POWER7+
  • IBM POWER8
    – including IBM Murano, IBM Turismo, PowerCore CP1
  • IBM POWER8 with NVLink / POWER8+
  • IBM POWER9
    – IBM Nimbus, IBM Cumulus

 

IBM z/Architecture CPUs Vulnerable To Meltdown + Spectre

Affected Variants : These IBM z/Architecture CPUs are affected by all three variants of the speculative execution CPU bug. They are vulnerable to the Meltdown and both Spectre exploits.

  • IBM z14
  • IBM z13
  • IBM zEC12
  • IBM z196
  • IBM z10

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Intel UMPC / Smartphone SoCs Vulnerable To Meltdown + Spectre

Affected Variants : These Intel SoCs are affected by all three variants of the speculative execution CPU bug. They are vulnerable to the Meltdown and both Spectre exploits.

Intel Apollo Lake (2016)

  • Intel Atom x7-E3950
  • Intel Atom x7-E3940
  • Intel Atom x7-E3930

Intel Braswell (2016)

  • Intel Atom x5-E8000

Intel Cherry Trail-T (2015)

  • Intel Atom X7-Z8750
  • Intel Atom X7-Z8700
  • Intel Atom X7-Z8550
  • Intel Atom X7-Z8500
  • Intel Atom X7-Z8350
  • Intel Atom X7-Z8330
  • Intel Atom X7-Z8300

Intel SoFIA (2015)

  • Intel Atom x3-C3445
  • Intel Atom x3-C3405
  • Intel Atom x3-C3400
  • Intel Atom x3-C3295RK
  • Intel Atom x3-C3265RK
  • Intel Atom x3-C3235RK
  • Intel Atom x3-C3230RK
  • Intel Atom x3-C3205RK
  • Intel Atom x3-C3200RK
  • Intel Atom x3-C3130

Intel Moorefield (2014)

  • Intel Atom Z3590
  • Intel Atom Z3580
  • Intel Atom Z3570
  • Intel Atom Z3560
  • Intel Atom Z3530

Intel Merrifield (2014)

  • Intel Atom Z3480
  • Intel Atom Z3460

Intel Bay Trail-T (2013)

  • Intel Atom Z3795
  • Intel Atom Z3785
  • Intel Atom Z3775
  • Intel Atom Z3775D
  • Intel Atom Z3770
  • Intel Atom Z3770D
  • Intel Atom Z3745
  • Intel Atom Z3745D
  • Intel Atom Z3740
  • Intel Atom Z3740D
  • Intel Atom Z3736F
  • Intel Atom Z3736G
  • Intel Atom Z3735D
  • Intel Atom Z3735E
  • Intel Atom Z3735F
  • Intel Atom Z3735G
  • Intel Atom Z3680
  • Intel Atom Z3680D

Intel Bay Trail-I (2013)

  • Intel Atom E3845
  • Intel Atom E3827
  • Intel Atom E3826
  • Intel Atom E3825
  • Intel Atom E3815
  • Intel Atom E3805

Next Page > Intel Server / Workstation CPUs Vulnerable To Meltdown + Spectre

 

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Intel Server / Workstation CPUs Vulnerable To Meltdown + Spectre

Affected Variants : These Intel CPUs are affected by all three variants of the speculative execution CPU bug. They are vulnerable to the Meltdown and both Spectre exploits.

Intel Knights Mill (2017)

  • Intel Xeon Phi 7295
  • Intel Xeon Phi 7285
  • Intel Xeon Phi 7235

Intel Skylake-W (2017)

  • Intel Xeon W-2195
  • Intel Xeon W-2175
  • Intel Xeon W-2155
  • Intel Xeon W-2150B
  • Intel Xeon W-2145
  • Intel Xeon W-2140B
  • Intel Xeon W-2135
  • Intel Xeon W-2133
  • Intel Xeon W-2125
  • Intel Xeon W-2123
  • Intel Xeon W-2104
  • Intel Xeon W-2102

Intel Skylake-SP (2017)

  • Intel Xeon Platinum 8180
  • Intel Xeon Platinum 8180M
  • Intel Xeon Platinum 8176
  • Intel Xeon Platinum 8176F
  • Intel Xeon Platinum 8176M
  • Intel Xeon Platinum 8173M
  • Intel Xeon Platinum 8170
  • Intel Xeon Platinum 8170M
  • Intel Xeon Platinum 8168
  • Intel Xeon Platinum 8167M
  • Intel Xeon Platinum 8164
  • Intel Xeon Platinum 8163
  • Intel Xeon Platinum 8160
  • Intel Xeon Platinum 8160F
  • Intel Xeon Platinum 8160M
  • Intel Xeon Platinum 8160T
  • Intel Xeon Platinum 8158
  • Intel Xeon Platinum 8156
  • Intel Xeon Platinum 8153
  • Intel Xeon Gold 6161
  • Intel Xeon Gold 6154
  • Intel Xeon Gold 6152
  • Intel Xeon Gold 6150
  • Intel Xeon Gold 6149
  • Intel Xeon Gold 6148
  • Intel Xeon Gold 6148F
  • Intel Xeon Gold 6146
  • Intel Xeon Gold 6145
  • Intel Xeon Gold 6144
  • Intel Xeon Gold 6142
  • Intel Xeon Gold 6142F
  • Intel Xeon Gold 6142M
  • Intel Xeon Gold 6140
  • Intel Xeon Gold 6140M
  • Intel Xeon Gold 6138
  • Intel Xeon Gold 6138F
  • Intel Xeon Gold 6138T
  • Intel Xeon Gold 6136
  • Intel Xeon Gold 6134
  • Intel Xeon Gold 6134M
  • Intel Xeon Gold 6132
  • Intel Xeon Gold 6130
  • Intel Xeon Gold 6130F
  • Intel Xeon Gold 6130T
  • Intel Xeon Gold 6128
  • Intel Xeon Gold 6126
  • Intel Xeon Gold 6126F
  • Intel Xeon Gold 6126T
  • Intel Xeon Gold 6122
  • Intel Xeon Gold 6120
  • Intel Xeon Gold 6120T
  • Intel Xeon Gold 6119T
  • Intel Xeon Gold 6118
  • Intel Xeon Gold 6117
  • Intel Xeon Gold 6117F
  • Intel Xeon Gold 6115
  • Intel Xeon Silver 4116
  • Intel Xeon Silver 4116T
  • Intel Xeon Silver 4114
  • Intel Xeon Silver 4114T
  • Intel Xeon Silver 4112
  • Intel Xeon Silver 4110
  • Intel Xeon Silver 4109T
  • Intel Xeon Silver 4108
  • Intel Xeon Bronze 3106
  • Intel Xeon Bronze 3104

Intel Denverton (2017)

  • Intel Atom C3958
  • Intel Atom C3955
  • Intel Atom C3950
  • Intel Atom C3855
  • Intel Atom C3850
  • Intel Atom C3830
  • Intel Atom C3808
  • Intel Atom C3758
  • Intel Atom C3750
  • Intel Atom C3708
  • Intel Atom C3558
  • Intel Atom C3538
  • Intel Atom C3508
  • Intel Atom C3338
  • Intel Atom C3308

Intel Kaby Lake-DT (2017)

  • Intel Xeon E3-1285 v6
  • Intel Xeon E3-1280 v6
  • Intel Xeon E3-1275 v6
  • Intel Xeon E3-1270 v6
  • Intel Xeon E3-1245 v6
  • Intel Xeon E3-1240 v6
  • Intel Xeon E3-1230 v6
  • Intel Xeon E3-1225 v6
  • Intel Xeon E3-1220 v6

Intel Kaby Lake-H (2017)

  • Intel Xeon E3-1535M
  • Intel Xeon E3-1505M
  • Intel Xeon E3-1505L
  • Intel Xeon E3-1501L
  • Intel Xeon E3-1501M

Intel Knights Landing (2016)

  • Intel Xeon Phi 7290F
  • Intel Xeon Phi 7290
  • Intel Xeon Phi 7250F
  • Intel Xeon Phi 7250
  • Intel Xeon Phi 7230F
  • Intel Xeon Phi 7230
  • Intel Xeon Phi 7210F
  • Intel Xeon Phi 7210

Intel Skylake-H (2016)

  • Intel Xeon E3-1585 v5
  • Intel Xeon E3-1585L v5
  • Intel Xeon E3-1578L v5
  • Intel Xeon E3-1575M v5
  • Intel Xeon E3-1565L v5
  • Intel Xeon E3-1558L v5
  • Intel Xeon E3-1545M v5
  • Intel Xeon E3-1535M v5
  • Intel Xeon E3-1515M v5
  • Intel Xeon E3-1505M v5
  • Intel Xeon E3-1505L v5

Intel Broadwell-EX (2016)

  • Intel E7-8894 v4
  • Intel E7-8893 v4
  • Intel E7-8891 v4
  • Intel E7-8890 v4
  • Intel E7-8880 v4
  • Intel E7-8870 v4
  • Intel E7-8867 v4
  • Intel E7-8860 v4
  • Intel E7-8855 v4
  • Intel E7-4850 v4
  • Intel E7-4830 v4
  • Intel E7-4820 v4
  • Intel E7-4809 v4

Intel Broadwell-EP (2016)

  • Intel Xeon E5-4669 v4
  • Intel Xeon E5-4667 v4
  • Intel Xeon E5-4660 v4
  • Intel Xeon E5-4650 v4
  • Intel Xeon E5-4640 v4
  • Intel Xeon E5-4628L v4
  • Intel Xeon E5-4627 v4
  • Intel Xeon E5-4620 v4
  • Intel Xeon E5-4610 v4
  • Intel Xeon E5-2699 v4
  • Intel Xeon E5-2699A v4
  • Intel Xeon E5-2699C v4
  • Intel Xeon E5-2699P v4
  • Intel Xeon E5-2699R v4
  • Intel Xeon E5-2698 v4
  • Intel Xeon E5-2697 v4
  • Intel Xeon E5-2697A v4
  • Intel Xeon E5-2696 v4
  • Intel Xeon E5-2695 v4
  • Intel Xeon E5-2690 v4
  • Intel Xeon E5-2689 v4
  • Intel Xeon E5-2689A v4
  • Intel Xeon E5-2687W v4
  • Intel Xeon E5-2686 v4
  • Intel Xeon E5-2683 v4
  • Intel Xeon E5-2682 v4
  • Intel Xeon E5-2680 v4
  • Intel Xeon E5-2679 v4
  • Intel Xeon E5-2676 v4
  • Intel Xeon E5-2676 v4
  • Intel Xeon AWS-1100 v4
  • Intel Xeon E5-2667 v4
  • Intel Xeon E5-2666 v4
  • Intel Xeon E5-2660 v4
  • Intel Xeon E5-2658 v4
  • Intel Xeon E5-2650 v4
  • Intel Xeon E5-2650L v4
  • Intel Xeon E5-2648L v4
  • Intel Xeon E5-2643 v4
  • Intel Xeon E5-2640 v4
  • Intel Xeon E5-2637 v4
  • Intel Xeon E5-2630 v4
  • Intel Xeon E5-2630L v4
  • Intel Xeon E5-2628L v4
  • Intel Xeon E5-2623 v4
  • Intel Xeon E5-2620 v4
  • Intel Xeon E5-2618L v4
  • Intel Xeon E5-2609 v4
  • Intel Xeon E5-2608L v4
  • Intel Xeon E5-2607 v4
  • Intel Xeon E5-2603 v4
  • Intel Xeon E5-1680 v4
  • Intel Xeon E5-1660 v4
  • Intel Xeon E5-1650 v4
  • Intel Xeon E5-1630 v4
  • Intel Xeon E5-1620 v4
  • Intel Xeon E5-1607 v4
  • Intel Xeon E5-1603 v4

Intel Skylake-DT (2015)

  • Intel Xeon E5-1280 v5
  • Intel Xeon E5-1275 v5
  • Intel Xeon E5-1270 v5
  • Intel Xeon E5-1268L v5
  • Intel Xeon E5-1260L v5
  • Intel Xeon E5-1245 v5
  • Intel Xeon E5-1240 v5
  • Intel Xeon E5-1240L v5
  • Intel Xeon E5-1235L v5
  • Intel Xeon E5-1230 v5
  • Intel Xeon E5-1225 v5
  • Intel Xeon E5-1220 v5

Intel Broadwell-H (2015)

  • Intel Xeon E3-1285 v4
  • Intel Xeon E3-1285L v4
  • Intel Xeon E3-1284L v4
  • Intel Xeon E3-1278L v4
  • Intel Xeon E3-1270L v4
  • Intel Xeon E3-1265L v4
  • Intel Xeon E3-1258L v4

Intel Broadwell-DE (2015)

  • Intel Xeon D-1587
  • Intel Xeon D-1581
  • Intel Xeon D-1577
  • Intel Xeon D-1571
  • Intel Xeon D-1567
  • Intel Xeon D-1559
  • Intel Xeon D-1557
  • Intel Xeon D-1553N
  • Intel Xeon D-1548
  • Intel Xeon D-1543N
  • Intel Xeon D-1541
  • Intel Xeon D-1540
  • Intel Xeon D-1539
  • Intel Xeon D-1537
  • Intel Xeon D-1533N
  • Intel Xeon D-1531
  • Intel Xeon D-1529
  • Intel Xeon D-1528
  • Intel Xeon D-1527
  • Intel Xeon D-1523N
  • Intel Xeon D-1521
  • Intel Xeon D-1520
  • Intel Xeon D-1518
  • Intel Xeon D-1513N
  • Intel Pentium D1519
  • Intel Pentium D1517
  • Intel Pentium D1509
  • Intel Pentium D1508
  • Intel Pentium D1507

Intel Haswell-EX (2015)

  • Intel Xeon E7-8895 v3
  • Intel Xeon E7-8893 v3
  • Intel Xeon E7-8891 v3
  • Intel Xeon E7-8890 v3
  • Intel Xeon E7-8880 v3
  • Intel Xeon E7-8880L v3
  • Intel Xeon E7-8870 v3
  • Intel Xeon E7-8867 v3
  • Intel Xeon E7-8860 v3
  • Intel Xeon E7-4850 v3
  • Intel Xeon E7-4830 v3
  • Intel Xeon E7-4820 v3
  • Intel Xeon E7-4809 v3

Intel Haswell-EN (2015)

  • Intel Xeon E5-2438L v3
  • Intel Xeon E5-2428L v3
  • Intel Xeon E5-2418L v3
  • Intel Xeon E5-2408L v3
  • Intel Xeon E5-1428L v3

Intel Haswell-EP (2014)

  • Intel Xeon E5-4669 v3
  • Intel Xeon E5-4667 v3
  • Intel Xeon E5-4660 v3
  • Intel Xeon E5-4655 v3
  • Intel Xeon E5-4650 v3
  • Intel Xeon E5-4648 v3
  • Intel Xeon E5-4640 v3
  • Intel Xeon E5-4627 v3
  • Intel Xeon E5-4620 v3
  • Intel Xeon E5-4610 v3
  • Intel Xeon E5-2699 v3
  • Intel Xeon E5-2698 v3
  • Intel Xeon E5-2698A v3
  • Intel Xeon E5-2698B v3
  • Intel Xeon E5-2697 v3
  • Intel Xeon E5-2696 v3
  • Intel Xeon E5-2695 v3
  • Intel Xeon E5-2693 v3
  • Intel Xeon E5-2692 v3
  • Intel Xeon E5-2695 v3
  • Intel Xeon E5-2690 v3
  • Intel Xeon E5-2687W v3
  • Intel Xeon E5-2685 v3
  • Intel Xeon E5-2683 v3
  • Intel Xeon E5-2680 v3
  • Intel Xeon E5-2678 v3
  • Intel Xeon E5-2676 v3
  • Intel Xeon E5-2675 v3
  • Intel Xeon E5-2673 v3
  • Intel Xeon E5-2670 v3
  • Intel Xeon E5-2669 v3
  • Intel Xeon E5-2667 v3
  • Intel Xeon E5-2666 v3
  • Intel Xeon E5-2663 v3
  • Intel Xeon E5-2660 v3
  • Intel Xeon E5-2658 v3
  • Intel Xeon E5-2658A v3
  • Intel Xeon E5-2652 v3
  • Intel Xeon E5-2650 v3
  • Intel Xeon E5-2650L v3
  • Intel Xeon E5-2649 v3
  • Intel Xeon E5-2643 v3
  • Intel Xeon E5-2640 v3
  • Intel Xeon E5-2648L v3
  • Intel Xeon E5-2637 v3
  • Intel Xeon E5-2630 v3
  • Intel Xeon E5-2630L v3
  • Intel Xeon E5-2629 v3
  • Intel Xeon E5-2628 v3
  • Intel Xeon E5-2628L v3
  • Intel Xeon E5-2623 v3
  • Intel Xeon E5-2622 v3
  • Intel Xeon E5-2620 v3
  • Intel Xeon E5-2618L v3
  • Intel Xeon E5-2609 v3
  • Intel Xeon E5-2608L v3
  • Intel Xeon E5-2603 v3
  • Intel Xeon E5-1691 v3
  • Intel Xeon E5-1686 v3
  • Intel Xeon E5-1681 v3
  • Intel Xeon E5-1680 v3
  • Intel Xeon E5-1660 v3
  • Intel Xeon E5-1650 v3
  • Intel Xeon E5-1630 v3
  • Intel Xeon E5-1620 v3
  • Intel Xeon E5-1607 v3
  • Intel Xeon E5-1603 v3

Intel Ivy Bridge-EN (2014)

  • Intel Xeon E5-2470 v2
  • Intel Xeon E5-2450 v2
  • Intel Xeon E5-2450L v2
  • Intel Xeon E5-2448L v2
  • Intel Xeon E5-2440 v2
  • Intel Xeon E5-2430 v2
  • Intel Xeon E5-2430L v2
  • Intel Xeon E5-2428L v2
  • Intel Xeon E5-2420 v2
  • Intel Xeon E5-2418L v2
  • Intel Xeon E5-2407 v2
  • Intel Xeon E5-2403 v2
  • Intel Xeon E5-1428L v2
  • Intel Xeon E5-1410 v2

Intel Ivy Bridge-EX (2014)

  • Intel Xeon E7-8895 v2
  • Intel Xeon E7-8893 v2
  • Intel Xeon E7-8891 v2
  • Intel Xeon E7-8890 v2
  • Intel Xeon E7-8880 v2
  • Intel Xeon E7-8880L v2
  • Intel Xeon E7-8870 v2
  • Intel Xeon E7-8857 v2
  • Intel Xeon E7-8850 v2
  • Intel Xeon E7-4890 v2
  • Intel Xeon E7-4880 v2
  • Intel Xeon E7-4870 v2
  • Intel Xeon E7-4860 v2
  • Intel Xeon E7-4850 v2
  • Intel Xeon E7-4830 v2
  • Intel Xeon E7-4820 v2
  • Intel Xeon E7-4809 v2
  • Intel Xeon E7-2890 v2
  • Intel Xeon E7-2880 v2
  • Intel Xeon E7-2870 v2
  • Intel Xeon E7-2850 v2

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Intel Rangeley (2013)

  • Intel Atom C2758
  • Intel Atom C2738
  • Intel Atom C2718
  • Intel Atom C2558
  • Intel Atom C2538
  • Intel Atom C2518
  • Intel Atom C2516
  • Intel Atom C2508
  • Intel Atom C2358
  • Intel Atom C2338
  • Intel Atom C2316
  • Intel Atom C2308

Intel Avoton (2013)

  • Intel Atom C2750
  • Intel Atom C2730
  • Intel Atom C2550
  • Intel Atom C2530
  • Intel Atom C2350

Intel Haswell-WS (2013)

  • Intel Xeon E3-1286 v3
  • Intel Xeon E3-1286L v3
  • Intel Xeon E3-1285 v3
  • Intel Xeon E3-1285L v3
  • Intel Xeon E3-1284L v3
  • Intel Xeon E3-1281 v3
  • Intel Xeon E3-1280 v3
  • Intel Xeon E3-1276 v3
  • Intel Xeon E3-1275 v3
  • Intel Xeon E3-1275L v3
  • Intel Xeon E3-1271 v3
  • Intel Xeon E3-1270 v3
  • Intel Xeon E3-1268L v3
  • Intel Xeon E3-1265L v3
  • Intel Xeon E3-1246 v3
  • Intel Xeon E3-1245 v3
  • Intel Xeon E3-1241 v3
  • Intel Xeon E3-1240 v3
  • Intel Xeon E3-1240L v3
  • Intel Xeon E3-1230L v3
  • Intel Xeon E3-1231 v3
  • Intel Xeon E3-1230 v3
  • Intel Xeon E3-1226 v3
  • Intel Xeon E3-1225 v3
  • Intel Xeon E3-1220 v3
  • Intel Xeon E3-1220L v3

Intel Ivy Bridge-EP (2013)

  • Intel Xeon E5-4657L v2
  • Intel Xeon E5-4650 v2
  • Intel Xeon E5-4640 v2
  • Intel Xeon E5-4627 v2
  • Intel Xeon E5-4624L v2
  • Intel Xeon E5-4620 v2
  • Intel Xeon E5-4610 v2
  • Intel Xeon E5-4607 v2
  • Intel Xeon E5-4603 v2
  • Intel Xeon E5-2697 v2
  • Intel Xeon E5-2696 v2
  • Intel Xeon E5-2695 v2
  • Intel Xeon E5-2692 v2
  • Intel Xeon E5-2690 v2
  • Intel Xeon E5-2687W v2
  • Intel Xeon E5-2680 v2
  • Intel Xeon E5-2673 v2
  • Intel Xeon E5-2670 v2
  • Intel Xeon E5-2667 v2
  • Intel Xeon E5-2660 v2
  • Intel Xeon E5-2658 v2
  • Intel Xeon E5-2651 v2
  • Intel Xeon E5-2650 v2
  • Intel Xeon E5-2650L v2
  • Intel Xeon E5-2648L v2
  • Intel Xeon E5-2643 v2
  • Intel Xeon E5-2640 v2
  • Intel Xeon E5-2637 v2
  • Intel Xeon E5-2630 v2
  • Intel Xeon E5-2630L v2
  • Intel Xeon E5-2628L v2
  • Intel Xeon E5-2620 v2
  • Intel Xeon E5-2618L v2
  • Intel Xeon E5-2609 v2
  • Intel Xeon E5-2603 v2
  • Intel Xeon E5-1680 v2
  • Intel Xeon E5-1660 v2
  • Intel Xeon E5-1650 v2
  • Intel Xeon E5-1620 v2
  • Intel Xeon E5-1607 v2

Intel Gladden – Ivy Bridge (2013)

  • Intel Xeon E3-1135C v2
  • Intel Xeon E3-1125C v2
  • Intel Xeon E3-1105C v2

Intel Ivy Bridge (2012)

  • Intel Xeon E-1290 v2
  • Intel Xeon E-1280 v2
  • Intel Xeon E-1275 v2
  • Intel Xeon E-1270 v2
  • Intel Xeon E-1265L v2
  • Intel Xeon E-1245 v2
  • Intel Xeon E-1240 v2
  • Intel Xeon E-1230 v2
  • Intel Xeon E-1225 v2
  • Intel Xeon E-1220 v2
  • Intel Xeon E-1220L v2
  • Intel Pentium 1405 v2
  • Intel Pentium 1403 v2

Intel Sandy Bridge-EP (2012)

  • Intel Xeon E5-4650
  • Intel Xeon E5-4650L
  • Intel Xeon E5-4640
  • Intel Xeon E5-4620
  • Intel Xeon E5-4617
  • Intel Xeon E5-4610
  • Intel Xeon E5-4607
  • Intel Xeon E5-4603
  • Intel Xeon E5-2690
  • Intel Xeon E5-2689
  • Intel Xeon E5-2687W
  • Intel Xeon E5-2680
  • Intel Xeon E5-2670
  • Intel Xeon E5-2667
  • Intel Xeon E5-2665
  • Intel Xeon E5-2660
  • Intel Xeon E5-2658
  • Intel Xeon E5-2650
  • Intel Xeon E5-2650L
  • Intel Xeon E5-2648L
  • Intel Xeon E5-2643
  • Intel Xeon E5-2640
  • Intel Xeon E5-2637
  • Intel Xeon E5-2630
  • Intel Xeon E5-2630L
  • Intel Xeon E5-2628L
  • Intel Xeon E5-2620
  • Intel Xeon E5-2618L
  • Intel Xeon E5-2609
  • Intel Xeon E5-2603
  • Intel Xeon E5-1660
  • Intel Xeon E5-1650
  • Intel Xeon E5-1620
  • Intel Xeon E5-1607
  • Intel Xeon E5-1603

Intel Sandy Bridge-EN (2012)

  • Intel Xeon E5-2470
  • Intel Xeon E5-2450
  • Intel Xeon E5-2450L
  • Intel Xeon E5-2449L
  • Intel Xeon E5-2448L
  • Intel Xeon E5-2440
  • Intel Xeon E5-2430
  • Intel Xeon E5-2430L
  • Intel Xeon E5-2428L
  • Intel Xeon E5-2420
  • Intel Xeon E5-2418L
  • Intel Xeon E5-2407
  • Intel Xeon E5-2403
  • Intel Xeon E5-1428L
  • Intel Xeon E5-1410

Intel Gladden – Sandy Bridge (2012)

  • Intel Xeon E3-1125C
  • Intel Xeon E3-1105C

Intel Sandy Bridge (2011)

  • Intel Xeon E3-1290
  • Intel Xeon E3-1280
  • Intel Xeon E3-1275
  • Intel Xeon E3-1270
  • Intel Xeon E3-1260L
  • Intel Xeon E3-1245
  • Intel Xeon E3-1240
  • Intel Xeon E3-1235
  • Intel Xeon E3-1230
  • Intel Xeon E3-1225
  • Intel Xeon E3-1220
  • Intel Xeon E3-1220L
  • Intel Pentium 1407
  • Intel Pentium 1405
  • Intel Pentium 1403
  • Intel Pentium 350

Intel Westmere-EX (2011)

  • Intel Xeon E7-8870
  • Intel Xeon E7-8867L
  • Intel Xeon E7-8860
  • Intel Xeon E7-8850
  • Intel Xeon E7-8837
  • Intel Xeon E7-8830
  • Intel Xeon E7-4870
  • Intel Xeon E7-4860
  • Intel Xeon E7-4850
  • Intel Xeon E7-4830
  • Intel Xeon E7-4820
  • Intel Xeon E7-4807
  • Intel Xeon E7-2870
  • Intel Xeon E7-2860
  • Intel Xeon E7-2850
  • Intel Xeon E7-2830
  • Intel Xeon E7-2820
  • Intel Xeon E7-2803

Intel Gulftown (2010)

  • Intel Xeon W3690
  • Intel Xeon W3580
  • Intel Xeon W3570

Intel Clarksdale (2010)

  • Intel Xeon L3406
  • Intel Xeon L3403

Intel Jasper Forest (2010)

  • Intel Xeon EC5549
  • Intel Xeon EC5539
  • Intel Xeon EC5509
  • Intel Xeon LC5528
  • Intel Xeon LC5518
  • Intel Xeon EC3539
  • Intel Xeon LC3528
  • Intel Xeon LC3518

Intel Beckton (2010)

  • Intel Xeon X7560
  • Intel Xeon L7555
  • Intel Xeon X7550
  • Intel Xeon L7545
  • Intel Xeon X7542
  • Intel Xeon E7540
  • Intel Xeon E7530
  • Intel Xeon E7520
  • Intel Xeon X6550
  • Intel Xeon E6540
  • Intel Xeon E6510

Intel Westmere-EP (2010)

  • Intel Xeon X5698
  • Intel Xeon X5690
  • Intel Xeon X5687
  • Intel Xeon X5680
  • Intel Xeon X5679
  • Intel Xeon X5677
  • Intel Xeon X5675
  • Intel Xeon X5672
  • Intel Xeon X5670
  • Intel Xeon X5667
  • Intel Xeon X5660
  • Intel Xeon X5650
  • Intel Xeon E5649
  • Intel Xeon X5647
  • Intel Xeon E5645
  • Intel Xeon L5645
  • Intel Xeon E5640
  • Intel Xeon L5640
  • Intel Xeon L5639
  • Intel Xeon E5630
  • Intel Xeon L5638
  • Intel Xeon E5620
  • Intel Xeon E5607
  • Intel Xeon E5606
  • Intel Xeon E5603

Intel Gainestown (2009)

  • Intel Xeon W5590
  • Intel Xeon W5580
  • Intel Xeon X5570
  • Intel Xeon X5560
  • Intel Xeon X5550
  • Intel Xeon E5540
  • Intel Xeon E5530
  • Intel Xeon L5530
  • Intel Xeon E5520
  • Intel Xeon L5520
  • Intel Xeon L5518
  • Intel Xeon L5508
  • Intel Xeon E5507
  • Intel Xeon E5506
  • Intel Xeon L5506
  • Intel Xeon E5504
  • Intel Xeon E5503
  • Intel Xeon E5502

Intel Lynnfield (2009)

  • Intel Xeon X3480
  • Intel Xeon X3470
  • Intel Xeon X3460
  • Intel Xeon X3450
  • Intel Xeon X3440
  • Intel Xeon X3430
  • Intel Xeon L3426

Intel Bloomfield (2009)

  • Intel Xeon W3580
  • Intel Xeon W3570
  • Intel Xeon W3565
  • Intel Xeon W3550
  • Intel Xeon W3540
  • Intel Xeon W3530
  • Intel Xeon W3520
  • Intel Xeon W3505
  • Intel Xeon W3503

Intel Yorkfield (2008-2009)

  • Intel Xeon X3380
  • Intel Xeon L3380
  • Intel Xeon X3370
  • Intel Xeon X3360
  • Intel Xeon X3350

Intel Wolfdale (2008-2009)

  • Intel Xeon E3120
  • Intel Xeon E3110
  • Intel Xeon L3110

Intel Dunnington (2008)

  • Intel Xeon X7460
  • Intel Xeon E7458
  • Intel Xeon L7455
  • Intel Xeon E7450
  • Intel Xeon L7445
  • Intel Xeon E7440
  • Intel Xeon E7430
  • Intel Xeon E7420

Intel Yorkfield-6M (2008)

  • Intel Xeon X3330
  • Intel Xeon X3320

Intel Yorkfield-CL (2008)

  • Intel Xeon X3363
  • Intel Xeon X3353
  • Intel Xeon X3323
  • Intel Xeon X3113
  • Intel Xeon L3014

Intel Harpertown (2007-2008)

  • Intel Xeon X5492
  • Intel Xeon X5482
  • Intel Xeon X5472
  • Intel Xeon E5472
  • Intel Xeon E5462
  • Intel Xeon X5470
  • Intel Xeon X5460
  • Intel Xeon X5450
  • Intel Xeon E5450
  • Intel Xeon E5440
  • Intel Xeon E5430
  • Intel Xeon L5430
  • Intel Xeon E5420
  • Intel Xeon L5420
  • Intel Xeon E5410
  • Intel Xeon L5410
  • Intel Xeon L5408
  • Intel Xeon E5405

Intel Wolfdale-DP (2007-2008)

  • Intel Xeon X5272
  • Intel Xeon X5270
  • Intel Xeon X5260
  • Intel Xeon L5248
  • Intel Xeon X5240
  • Intel Xeon L5240
  • Intel Xeon L5238
  • Intel Xeon X5220
  • Intel Xeon L5215
  • Intel Xeon X5205

Intel Tigerton (2007)

  • Intel Xeon X7350
  • Intel Xeon L7345
  • Intel Xeon E7340
  • Intel Xeon E7330
  • Intel Xeon E7320
  • Intel Xeon E7310
  • Intel Xeon E7220
  • Intel Xeon E7210

Intel Kentsfield (2007)

  • Intel Xeon X3230
  • Intel Xeon X3220
  • Intel Xeon X3210

Intel Allendale (2007)

  • Intel Xeon 3050
  • Intel Xeon 3040

Intel Clovertown (2006-2007)

  • Intel Xeon X5365
  • Intel Xeon X5355
  • Intel Xeon X5350
  • Intel Xeon E5350
  • Intel Xeon E5345
  • Intel Xeon E5340
  • Intel Xeon E5335
  • Intel Xeon L5335
  • Intel Xeon E5330
  • Intel Xeon E5320
  • Intel Xeon L5320
  • Intel Xeon L5318
  • Intel Xeon E5310
  • Intel Xeon L5310

Intel Conroe (2006-2007)

  • Intel Xeon 3085
  • Intel Xeon 3075
  • Intel Xeon 3070
  • Intel Xeon 3065
  • Intel Xeon 3060
  • Intel Xeon 3050
  • Intel Xeon 3040

Intel Woodcrest (2006)

  • Intel Xeon 5160
  • Intel Xeon 5150
  • Intel Xeon LV 5148
  • Intel Xeon 5140
  • Intel Xeon LV 5138
  • Intel Xeon LV 5133
  • Intel Xeon 5130
  • Intel Xeon LV 5128
  • Intel Xeon 5120
  • Intel Xeon LV 5113
  • Intel Xeon 5110

Next Page > Intel Desktop CPUs Vulnerable To Meltdown + Spectre

 

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Intel Desktop CPUs Vulnerable To Meltdown + Spectre

Affected Variants : These Intel CPUs are affected by all three variants of the speculative execution CPU bug. They are vulnerable to the Meltdown and both Spectre exploits.

Intel Coffee Lake-S (2017)

  • Intel Core i7-8700K
  • Intel Core i7-8700
  • Intel Core i5-8600K
  • Intel Core i5-8400
  • Intel Core i3-8350K
  • Intel Core i3-8100

Intel Gemini Lake (2017)

  • Intel Pentium Silver J5005
  • Intel Celeron J4105
  • Intel Celeron J4005

Intel Denverton (2017)

  • Intel Celeron C3958
  • Intel Celeron C3955
  • Intel Celeron C3950
  • Intel Celeron C3858
  • Intel Celeron C3850
  • Intel Celeron C3830
  • Intel Celeron C3808
  • Intel Celeron C3758
  • Intel Celeron C3750
  • Intel Celeron C3708
  • Intel Celeron C3558
  • Intel Celeron C3538
  • Intel Celeron C3508
  • Intel Celeron C3338
  • Intel Celeron C3308

Intel Kaby Lake-X (2017)

  • Intel Core i7-7740X
  • Intel Core i5-7640X

Intel Kaby Lake-S (2017)

  • Intel Core i7-7700K
  • Intel Core i7-7700
  • Intel Core i7-7700T
  • Intel Core i5-7600K
  • Intel Core i5-7600
  • Intel Core i5-7600T
  • Intel Core i5-7500
  • Intel Core i5-7500T
  • Intel Core i5-7400
  • Intel Core i5-7400T
  • Intel Core i3-7350K
  • Intel Core i3-7320
  • Intel Core i3-7300
  • Intel Core i3-7300T
  • Intel Core i3-7101T
  • Intel Core i3-7101TE
  • Intel Core i3-7100
  • Intel Core i3-7100T
  • Intel Pentium G4620
  • Intel Pentium G4600
  • Intel Pentium G4600T
  • Intel Pentium G4560
  • Intel Pentium G4560T
  • Intel Celeron G3950
  • Intel Celeron G3930
  • Intel Celeron G3930T
  • Intel Celeron G3930E
  • Intel Celeron G3930TE

Intel Skylake-X (2017)

  • Intel Core i9-7980XE
  • Intel Core i9-7960X
  • Intel Core i9-7940X
  • Intel Core i9-7920X
  • Intel Core i9-7900X
  • Intel Core i7-7820X
  • Intel Core i7-7800X

Intel Apollo Lake (2016)

  • Intel Pentium J4205
  • Intel Pentium J3455
  • Intel Pentium J3355
  • Intel Celeron J3455
  • Intel Celeron J3355
  • Intel Atom x5-E3950
  • Intel Atom x5-E3940
  • Intel Atom x5-E3930

Intel Skylake-H (2016)

  • Intel Core i7-6785R
  • Intel Core i5-6685R
  • Intel Core i5-6585R

Intel Braswell (2016)

  • Intel Pentium J3710
  • Intel Celeron J3160
  • Intel Celeron J3060
  • Intel Atom x5-E8000

Intel Broadwell-E (2016)

  • Intel Core i7-6950X
  • Intel Core i7-6900K
  • Intel Core i7-6850X
  • Intel Core i7-6800X

Intel Skylake-S (2015)

  • Intel Core i7-6700K
  • Intel Core i7-6700
  • Intel Core i7-6700T
  • Intel Core i7-6700TE
  • Intel Core i5-6600K
  • Intel Core i5-6600
  • Intel Core i5-6600T
  • Intel Core i5-6500
  • Intel Core i5-6500T
  • Intel Core i5-6500TE
  • Intel Core i5-6402P
  • Intel Core i5-6400
  • Intel Core i5-6400T
  • Intel Core i3-6320
  • Intel Core i3-6300
  • Intel Core i3-6300T
  • Intel Core i3-6100
  • Intel Core i3-6100T
  • Intel Core i3-6100TE
  • Intel Core i3-6098P
  • Intel Pentium G4520
  • Intel Pentium G4500
  • Intel Pentium G4500T
  • Intel Pentium G4400
  • Intel Pentium G4400T
  • Intel Pentium G4400TE
  • Intel Celeron G3920
  • Intel Celeron G3902E
  • Intel Celeron G3900
  • Intel Celeron G3900T
  • Intel Celeron G3900E
  • Intel Celeron G3900TE

Intel Broadwell-H (2015)

  • Intel Core i7-5775C
  • Intel Core i7-5775R
  • Intel Core i5-5675R
  • Intel Core i5-5675C
  • Intel Core i5-5575R

Intel Haswell-E (2014)

  • Intel Core i7-5960X
  • Intel Core i7-5930K
  • Intel Core i7-5820K

Intel Haswell-H (2013)

  • Intel Core i7-4770R
  • Intel Core i5-4670R
  • Intel Core i5-4570R

Intel Haswell-DT (2013)

  • Intel Core i7-4790K
  • Intel Core i7-4790
  • Intel Core i7-4790S
  • Intel Core i7-4790T
  • Intel Core i7-4785T
  • Intel Core i7-4771
  • Intel Core i7-4770K
  • Intel Core i7-4770
  • Intel Core i7-4770S
  • Intel Core i7-4770T
  • Intel Core i7-4770TE
  • Intel Core i7-4765T
  • Intel Core i5-4690K
  • Intel Core i5-4690
  • Intel Core i5-4690S
  • Intel Core i5-4690T
  • Intel Core i5-4670K
  • Intel Core i5-4670
  • Intel Core i5-4670S
  • Intel Core i5-4670T
  • Intel Core i5-4590
  • Intel Core i5-4590S
  • Intel Core i5-4590T
  • Intel Core i5-4570
  • Intel Core i5-4570S
  • Intel Core i5-4570T
  • Intel Core i5-4570TE
  • Intel Core i5-4460
  • Intel Core i5-4460S
  • Intel Core i5-4460T
  • Intel Core i5-4440
  • Intel Core i5-4440S
  • Intel Core i5-4430
  • Intel Core i5-4430S
  • Intel Core i3-4370
  • Intel Core i3-4370T
  • Intel Core i3-4360
  • Intel Core i3-4360T
  • Intel Core i3-4350
  • Intel Core i3-4350T
  • Intel Core i3-4340
  • Intel Core i3-4340TE
  • Intel Core i3-4330
  • Intel Core i3-4330T
  • Intel Core i3-4330TE
  • Intel Core i3-4170
  • Intel Core i3-4170T
  • Intel Core i3-4160
  • Intel Core i3-4160T
  • Intel Core i3-4150
  • Intel Core i3-4150T
  • Intel Core i3-4130
  • Intel Core i3-4130T
  • Intel Pentium G3470
  • Intel Pentium G3460
  • Intel Pentium G3460T
  • Intel Pentium G3450
  • Intel Pentium G3450T
  • Intel Pentium G3440
  • Intel Pentium G3440T
  • Intel Pentium G3430
  • Intel Pentium G3420
  • Intel Pentium G3420T
  • Intel Pentium G3320TE
  • Intel Pentium G3260
  • Intel Pentium G3260T
  • Intel Pentium G3258
  • Intel Pentium G3250
  • Intel Pentium G3250T
  • Intel Pentium G3240
  • Intel Pentium G3240T
  • Intel Pentium G3220
  • Intel Pentium G3220T
  • Intel Celeron G1850
  • Intel Celeron G1840
  • Intel Celeron G1840T
  • Intel Celeron G1830
  • Intel Celeron G1820
  • Intel Celeron G1820T
  • Intel Celeron G1820TE

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Intel Bay Trail-D (2013)

  • Intel Celeron J1900
  • Intel Celeron J1850
  • Intel Celeron J1800
  • Intel Celeron J1750

Intel Bay Trail-I (2013)

  • Intel Atom E3845
  • Intel Atom E3827
  • Intel Atom E3826
  • Intel Atom E3825
  • Intel Atom E3815
  • Intel Atom E3805

Intel Ivy Bridge-E (2012)

  • Intel Core i7-4960X
  • Intel Core i7-4960K
  • Intel Core i7-4820K

Intel Ivy Bridge (2012)

  • Intel Core i7-3770K
  • Intel Core i7-3770
  • Intel Core i7-3770S
  • Intel Core i7-3770T
  • Intel Core i5-3570K
  • Intel Core i5-3570
  • Intel Core i5-3570S
  • Intel Core i5-3570T
  • Intel Core i5-3550
  • Intel Core i5-3550S
  • Intel Core i5-3475S
  • Intel Core i5-3470
  • Intel Core i5-3470S
  • Intel Core i5-3470T
  • Intel Core i5-3450
  • Intel Core i5-3450S
  • Intel Core i5-3350P
  • Intel Core i5-3440
  • Intel Core i5-3440S
  • Intel Core i5-3335S
  • Intel Core i5-3330
  • Intel Core i5-3330S
  • Intel Core i3-3250
  • Intel Core i3-3250T
  • Intel Core i3-3245
  • Intel Core i3-3240
  • Intel Core i3-3240T
  • Intel Core i3-3225
  • Intel Core i3-3220
  • Intel Core i3-3220T
  • Intel Core i3-3210
  • Intel Pentium G2140
  • Intel Pentium G2130
  • Intel Pentium G2120
  • Intel Pentium G2120T
  • Intel Pentium G2100T
  • Intel Pentium G2030
  • Intel Pentium G2030T
  • Intel Pentium G2020
  • Intel Pentium G2020T
  • Intel Pentium G2010
  • Intel Celeron G1630
  • Intel Celeron G1620
  • Intel Celeron G1620T
  • Intel Celeron G1610
  • Intel Celeron G1610T

Intel Sandy Bridge-E (2011)

  • Intel Core i7-3970X
  • Intel Core i7-3960K
  • Intel Core i7-3930K
  • Intel Core i7-3820

Intel Sandy Bridge (2011)

  • Intel Core i7-2700K
  • Intel Core i7-2600K
  • Intel Core i7-2600
  • Intel Core i7-2600S
  • Intel Core i5-2550K
  • Intel Core i5-2500K
  • Intel Core i5-2500
  • Intel Core i5-2500S
  • Intel Core i5-2500T
  • Intel Core i5-2450P
  • Intel Core i5-2405S
  • Intel Core i5-2400
  • Intel Core i5-2400S
  • Intel Core i5-2390T
  • Intel Core i5-2370P
  • Intel Core i5-2320
  • Intel Core i5-2310
  • Intel Core i5-2300
  • Intel Core i3-2130
  • Intel Core i3-2125
  • Intel Core i3-2120
  • Intel Core i3-2120T
  • Intel Core i3-2105
  • Intel Core i3-2102
  • Intel Core i3-2100
  • Intel Core i3-2100T
  • Intel Pentium G870
  • Intel Pentium G860
  • Intel Pentium G860T
  • Intel Pentium G850
  • Intel Pentium G840
  • Intel Pentium G645
  • Intel Pentium G645T
  • Intel Pentium G640
  • Intel Pentium G640T
  • Intel Pentium G632
  • Intel Pentium G630
  • Intel Pentium G630T
  • Intel Pentium G622
  • Intel Pentium G620
  • Intel Pentium G620T
  • Intel Celeron G555
  • Intel Celeron G550
  • Intel Celeron G550T
  • Intel Celeron G540
  • Intel Celeron G540T
  • Intel Celeron G530
  • Intel Celeron G530T
  • Intel Celeron G470
  • Intel Celeron G465
  • Intel Celeron G460
  • Intel Celeron G440

Intel Gulftown (2010)

  • Intel Core i7-990X
  • Intel Core i7-980X
  • Intel Core i7-980
  • Intel Core i7-970

Intel Clarksdale (2010)

  • Intel Core i5-680
  • Intel Core i5-670
  • Intel Core i5-661
  • Intel Core i5-660
  • Intel Core i5-655K
  • Intel Core i5-650
  • Intel Core i3-560
  • Intel Core i3-550
  • Intel Core i3-540
  • Intel Core i3-530
  • Intel Pentium G6960
  • Intel Pentium G6951
  • Intel Pentium G6950
  • Intel Celeron G1101

Intel Lynnfield (2009)

  • Intel Core i7-880
  • Intel Core i7-875K
  • Intel Core i7-870
  • Intel Core i7-870S
  • Intel Core i7-860
  • Intel Core i7-860S
  • Intel Core i5-760
  • Intel Core i5-750
  • Intel Core i5-750S

Intel Bloomfield (2008)

  • Intel Core i7-975 Extreme Edition
  • Intel Core i7-965 Extreme Edition
  • Intel Core i7-960
  • Intel Core i7-950
  • Intel Core i7-940
  • Intel Core i7-930
  • Intel Core i7-920

Intel Yorkfield-6M (2008-2010)

  • Intel Core 2 Quad Q9705
  • Intel Core 2 Quad Q9700
  • Intel Core 2 Quad Q9505S
  • Intel Core 2 Quad Q9505
  • Intel Core 2 Quad Q9500
  • Intel Core 2 Quad Q9400S
  • Intel Core 2 Quad Q9400
  • Intel Core 2 Quad Q9300
  • Intel Core 2 Quad Q8400S
  • Intel Core 2 Quad Q8400
  • Intel Core 2 Quad Q8300
  • Intel Core 2 Quad Q8200S
  • Intel Core 2 Quad Q8200

Intel Yorkfield (2008-2009)

  • Intel Core 2 Quad Q9650
  • Intel Core 2 Quad Q9550S
  • Intel Core 2 Quad Q9550
  • Intel Core 2 Quad Q9450S
  • Intel Core 2 Quad Q9450

Intel Wolfdale (2008-2009)

  • Intel Core 2 Duo E8700
  • Intel Core 2 Duo E8600
  • Intel Core 2 Duo E8500
  • Intel Core 2 Duo E8400
  • Intel Core 2 Duo E8300
  • Intel Core 2 Duo E8290
  • Intel Core 2 Duo E8200
  • Intel Core 2 Duo E8190

Intel Wolfdale-3M (2008-2010)

  • Intel Core 2 Duo E7600
  • Intel Core 2 Duo E7500
  • Intel Core 2 Duo E7400
  • Intel Core 2 Duo E7300
  • Intel Core 2 Duo E7200
  • Intel Pentium E6800
  • Intel Pentium E6700
  • Intel Pentium E6600
  • Intel Pentium E6500K
  • Intel Pentium E6500
  • Intel Pentium E6300
  • Intel Pentium E5800
  • Intel Pentium E5700
  • Intel Pentium E5500
  • Intel Pentium E5400
  • Intel Pentium E5300
  • Intel Pentium Dual-Core E5300
  • Intel Pentium E5200
  • Intel Pentium Dual-Core E5200
  • Intel Pentium Dual-Core E2210
  • Intel Celeron E3500
  • Intel Celeron E3400
  • Intel Celeron E3300
  • Intel Celeron E3200

Intel Allendale (2008-2009)

  • Intel Celeron E1600
  • Intel Celeron E1500
  • Intel Celeron E1400
  • Intel Celeron E1200

Intel Yorkfield-XE (2007-2008)

  • Intel Core 2 Extreme QX9775
  • Intel Core 2 Extreme QX9770
  • Intel Core 2 Extreme QX9650

Intel Conroe-L (2007-2008)

  • Intel Celeron 450
  • Intel Celeron 445
  • Intel Celeron 430
  • Intel Celeron 420
  • Intel Celeron 220

Intel Kentsfield (2007)

  • Intel Core 2 Quad Q6700
  • Intel Core 2 Quad Q6600
  • Intel Core 2 Quad Q6400

Intel Conroe-CL (2007)

  • Intel Core 2 Duo E6405
  • Intel Core 2 Duo E6305
  • Intel Celeron 445

Intel Conroe (2006-2008)

  • Intel Core 2 Duo E6850
  • Intel Core 2 Duo E6750
  • Intel Core 2 Duo E6700
  • Intel Core 2 Duo E6600
  • Intel Core 2 Duo E6550
  • Intel Core 2 Duo E6540
  • Intel Core 2 Duo E6420
  • Intel Core 2 Duo E6400
  • Intel Core 2 Duo E6320
  • Intel Core 2 Duo E6300
  • Intel Core 2 Duo E4700
  • Intel Core 2 Duo E4600
  • Intel Core 2 Duo E4500
  • Intel Core 2 Duo E4400
  • Intel Core 2 Duo E4300
  • Intel Pentium Dual-Core E2220
  • Intel Pentium Dual-Core E2200
  • Intel Pentium Dual-Core E2180
  • Intel Pentium Dual-Core E2160
  • Intel Pentium Dual-Core E2140

Intel Kentsfield-XE (2006-2007)

  • Intel Core 2 Extreme QX6850
  • Intel Core 2 Extreme QX6800
  • Intel Core 2 Extreme QX6700

Next Page > Intel Mobile CPUs Vulnerable To Meltdown + Spectre

 

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Intel Mobile CPUs Vulnerable To Meltdown + Spectre

Affected Variants : These Intel CPUs are affected by all three variants of the speculative execution CPU bug. They are vulnerable to the Meltdown and both Spectre exploits.

Intel Gemini Lake (2017)

  • Intel Pentium Silver N5000
  • Intel Celeron N4100
  • Intel Celeron N4000

Intel Apollo Lake (2016)

  • Intel Pentium N4200
  • Intel Celeron N3450
  • Intel Celeron N3350

Intel Kaby Lake Refresh (2017)

  • Intel Core i7-8650U
  • Intel Core i7-8550U
  • Intel Core i5-8350U
  • Intel Core i5-8250U

Intel Kaby Lake-Y (2017)

  • Intel Core i5-Y757
  • Intel Core i5-Y754
  • Intel Core m3-7Y32
  • Intel Core m3-7Y30
  • Intel Pentium 4415Y
  • Intel Pentium 4410Y
  • Intel Celeron 3965Y

Intel Kaby Lake-U (2017)

  • Intel Core i7-7660U
  • Intel Core i7-7600U
  • Intel Core i7-7567U
  • Intel Core i7-7560U
  • Intel Core i7-7500U
  • Intel Core i5-7360U
  • Intel Core i5-7300U
  • Intel Core i5-7287U
  • Intel Core i5-7367U
  • Intel Core i5-7260U
  • Intel Core i5-7200U
  • Intel Core i3-7167U
  • Intel Core i3-7130U
  • Intel Core i3-7100U
  • Intel Pentium 4415U
  • Intel Celeron 3965U
  • Intel Celeron 3865U

Intel Kaby Lake-H (2016)

  • Intel Core i7-7920HQ
  • Intel Core i7-7820HQ
  • Intel Core i7-7820HK
  • Intel Core i7-7820EQ
  • Intel Core i7-7700HQ
  • Intel Core i7-7Y75
  • Intel Core i5-7442HQ
  • Intel Core i5-7442EQ
  • Intel Core i5-7440HQ
  • Intel Core i5-7440EQ
  • Intel Core i3-7102E
  • Intel Core i3-7100H
  • Intel Core i3-7100E

Intel Skylake-H (2015)

  • Intel Core i7-6970HQ
  • Intel Core i7-6920HQ
  • Intel Core i7-6870HQ
  • Intel Core i7-6822EQ
  • Intel Core i7-6820HQ
  • Intel Core i7-6820HK
  • Intel Core i7-6820EQ
  • Intel Core i7-6770HQ
  • Intel Core i7-6700HQ
  • Intel Core i5-6442EQ
  • Intel Core i5-6440HQ
  • Intel Core i5-6440EQ
  • Intel Core i5-6350HQ
  • Intel Core i5-6300HQ
  • Intel Core i3-6102E
  • Intel Core i3-6100H
  • Intel Core i3-6100E

Intel Skylake-Y (2015)

  • Intel Core m3-6Y75
  • Intel Core m3-6Y57
  • Intel Core m3-6Y54
  • Intel Core m3-6Y30
  • Intel Pentium 4405Y

Intel Skylake-U (2015)

  • Intel Core i7-6660U
  • Intel Core i7-6650U
  • Intel Core i7-6600U
  • Intel Core i7-6567U
  • Intel Core i7-6560U
  • Intel Core i7-6500U
  • Intel Core i5-6360U
  • Intel Core i5-6300U
  • Intel Core i5-6287U
  • Intel Core i5-6267U
  • Intel Core i5-6260U
  • Intel Core i5-6200U
  • Intel Core i5-6198DU
  • Intel Core i3-6167U
  • Intel Core i3-6157U
  • Intel Core i3-6100U
  • Intel Core i3-6006U
  • Intel Celeron 3955U
  • Intel Celeron 3855U
  • Intel Pentium 4405U

Intel Broadwell-H (2015)

  • Intel Core i7-5950HQ
  • Intel Core i7-5850HQ
  • Intel Core i7-5850EQ
  • Intel Core i7-5750HQ
  • Intel Core i7-5700HQ
  • Intel Core i7-5700EQ
  • Intel Core i5-5350H

Intel Broadwell-U (2015)

  • Intel Core i7-5650U
  • Intel Core i7-5600U
  • Intel Core i7-5557U
  • Intel Core i7-5550U
  • Intel Core i7-5500U
  • Intel Core i5-5350U
  • Intel Core i5-5300U
  • Intel Core i5-5287U
  • Intel Core i5-5257U
  • Intel Core i5-5250U
  • Intel Core i5-5200U
  • Intel Core i3-5157U
  • Intel Core i3-5020U
  • Intel Core i3-5015U
  • Intel Core i3-5010U
  • Intel Core i3-5005U
  • Intel Pentium 3825U
  • Intel Pentium 3805U
  • Intel Celeron 3765U
  • Intel Celeron 3755U
  • Intel Celeron 3215U
  • Intel Celeron 3205U

Intel Braswell (2015)

  • Intel Pentium N3710
  • Intel Pentium N3700
  • Intel Celeron N3160
  • Intel Celeron N3150
  • Intel Celeron N3060
  • Intel Celeron N3050
  • Intel Celeron N3010
  • Intel Celeron N3000

Intel Broadwell-Y (2014)

  • Intel Core M-5Y71
  • Intel Core M-5Y70
  • Intel Core M-5Y51
  • Intel Core M-5Y31
  • Intel Core M-5Y10c
  • Intel Core M-5Y10a
  • Intel Core M-5Y10

Intel Haswell-H (2013)

  • Intel Core i7-4980HQ
  • Intel Core i7-4960HQ
  • Intel Core i7-4950HQ
  • Intel Core i7-4870HQ
  • Intel Core i7-4860HQ
  • Intel Core i7-4860EQ
  • Intel Core i7-4850HQ
  • Intel Core i7-4850EQ
  • Intel Core i7-4770HQ
  • Intel Core i7-4760HQ
  • Intel Core i7-4750HQ
  • Intel Core i7-4722HQ
  • Intel Core i7-4720HQ
  • Intel Core i7-4712HQ
  • Intel Core i7-4710HQ
  • Intel Core i7-4702HQ
  • Intel Core i7-4702EC
  • Intel Core i7-4701EQ
  • Intel Core i7-4700HQ
  • Intel Core i7-4700MQ
  • Intel Core i7-4700EQ
  • Intel Core i7-4700EC
  • Intel Core i5-4422E
  • Intel Core i5-4410E
  • Intel Core i5-4402E
  • Intel Core i5-4402EC
  • Intel Core i5-4400E
  • Intel Core i5-4210H
  • Intel Core i5-4200H
  • Intel Core i3-4112E
  • Intel Core i3-4110E
  • Intel Core i3-4102E
  • Intel Core i3-4100E

Intel Haswell-ULX (2013)

  • Intel Core i7-4610Y
  • Intel Core i5-4302Y
  • Intel Core i5-4300Y
  • Intel Core i5-4220Y
  • Intel Core i5-4210Y
  • Intel Core i5-4202Y
  • Intel Core i3-4030Y
  • Intel Core i3-4020Y
  • Intel Core i3-4012Y
  • Intel Core i3-4010Y
  • Intel Pentium 3561Y
  • Intel Pentium 3560Y
  • Intel Celeron 2002E
  • Intel Celeron 2000E

Intel Haswell-ULX (2013)

  • Intel Celeron 2961Y

Intel Haswell-ULT (2013)

  • Intel Core i7-4650U
  • Intel Core i7-4600U
  • Intel Core i7-4578U
  • Intel Core i7-4558U
  • Intel Core i7-4550U
  • Intel Core i7-4510U
  • Intel Core i7-4500U
  • Intel Core i5-4360U
  • Intel Core i5-4360U
  • Intel Core i5-4310U
  • Intel Core i5-4308U
  • Intel Core i5-4300U
  • Intel Core i5-4288U
  • Intel Core i5-4280U
  • Intel Core i5-4278U
  • Intel Core i5-4258U
  • Intel Core i5-4250U
  • Intel Core i5-4210U
  • Intel Core i5-4200U
  • Intel Core i3-4158U
  • Intel Core i3-4120U
  • Intel Core i3-4100U
  • Intel Core i3-4030U
  • Intel Core i3-4025U
  • Intel Core i3-4010U
  • Intel Core i3-4005U
  • Intel Pentium 3558U
  • Intel Pentium 3556U
  • Intel Celeron 2981U
  • Intel Celeron 2980U
  • Intel Celeron 2957U
  • Intel Celeron 2955U

Intel Haswell-MB (2013)

  • Intel Core i7-4940MX
  • Intel Core i7-4930MX
  • Intel Core i7-4910MQ
  • Intel Core i7-4900MQ
  • Intel Core i7-4810MQ
  • Intel Core i7-4800MQ
  • Intel Core i7-4712MQ
  • Intel Core i7-4710MQ
  • Intel Core i7-4702MQ
  • Intel Core i7-4610M
  • Intel Core i7-4600M
  • Intel Core i5-4340M
  • Intel Core i5-4330M
  • Intel Core i5-4310M
  • Intel Core i5-4300M
  • Intel Core i5-4210M
  • Intel Core i5-4200M
  • Intel Core i3-4110M
  • Intel Core i3-4100M
  • Intel Core i3-4010M
  • Intel Core i3-4000M
  • Intel Pentium 3560M
  • Intel Pentium 3550M
  • Intel Celeron 2970M
  • Intel Celeron 2950M

Intel Bay Trail-M (2013)

  • Intel Pentium N3540
  • Intel Pentium N3530
  • Intel Pentium N3520
  • Intel Pentium N3510
  • Intel Celeron N2940
  • Intel Celeron N2930
  • Intel Celeron N2920
  • Intel Celeron N2910
  • Intel Celeron N2840
  • Intel Celeron N2830
  • Intel Celeron N2820
  • Intel Celeron N2815
  • Intel Celeron N2810
  • Intel Celeron N2808
  • Intel Celeron N2807
  • Intel Celeron N2806
  • Intel Celeron N2805

Intel Gladden – Ivy Bridge (2013)

  • Intel Core i3-3115C

Intel Ivy Bridge (2012)

  • Intel Core i7-3940XM
  • Intel Core i7-3920XM
  • Intel Core i7-3840QM
  • Intel Core i7-3820QM
  • Intel Core i7-3740QM
  • Intel Core i7-3720QM
  • Intel Core i7-3689Y
  • Intel Core i7-3687U
  • Intel Core i7-3667U
  • Intel Core i7-3635QM
  • Intel Core i7-3632QM
  • Intel Core i7-3630QM
  • Intel Core i7-3615QM
  • Intel Core i7-3615QE
  • Intel Core i7-3612QM
  • Intel Core i7-3612QE
  • Intel Core i7-3610QM
  • Intel Core i7-3610QE
  • Intel Core i7-3537U
  • Intel Core i7-3517U
  • Intel Core i7-3517UE
  • Intel Core i7-3555LE
  • Intel Core i7-3540M
  • Intel Core i7-3520M
  • Intel Core i5-3439Y
  • Intel Core i5-3437U
  • Intel Core i5-3427U
  • Intel Core i5-3339Y
  • Intel Core i5-3380M
  • Intel Core i5-3360M
  • Intel Core i5-3340M
  • Intel Core i5-3237U
  • Intel Core i5-3320M
  • Intel Core i5-3230M
  • Intel Core i5-3217U
  • Intel Core i5-3210M
  • Intel Core i5-3210ME
  • Intel Core i3-3229Y
  • Intel Core i3-3227U
  • Intel Core i3-3217U
  • Intel Core i3-3217UE
  • Intel Core i3-3130M
  • Intel Core i3-3120M
  • Intel Core i3-3120ME
  • Intel Core i3-3110M
  • Intel Pentium 2129Y
  • Intel Pentium 2127U
  • Intel Pentium 2117U
  • Intel Pentium 2030M
  • Intel Pentium 2020M
  • Intel Pentium A1018
  • Intel Celeron 1047UE
  • Intel Celeron 1037U
  • Intel Celeron 1020M
  • Intel Celeron 1020E
  • Intel Celeron 1019Y
  • Intel Celeron 1017U
  • Intel Celeron 1005M
  • Intel Celeron 1007U
  • Intel Celeron 1000M
  • Intel Celeron 927UE

Intel Gladden – Sandy Bridge (2012)

  • Intel Core i3-2115C
  • Intel Celeron 725C

Intel Sandy Bridge (2011)

  • Intel Core i7-2960XM
  • Intel Core i7-2920XM
  • Intel Core i7-2860QM
  • Intel Core i7-2820QM
  • Intel Core i7-2760QM
  • Intel Core i7-2720QM
  • Intel Core i7-2715QE
  • Intel Core i7-2710QE
  • Intel Core i7-2675QM
  • Intel Core i7-2677M
  • Intel Core i7-2670QM
  • Intel Core i7-2657M
  • Intel Core i7-2655LE
  • Intel Core i7-2649M
  • Intel Core i7-2640M
  • Intel Core i7-2637M
  • Intel Core i7-2635QM
  • Intel Core i7-2630QM
  • Intel Core i7-2629M
  • Intel Core i7-2620M
  • Intel Core i7-2617M
  • Intel Core i7-2610E
  • Intel Core i5-2557M
  • Intel Core i5-2540M
  • Intel Core i5-2537M
  • Intel Core i5-2520M
  • Intel Core i5-2467M
  • Intel Core i5-2450M
  • Intel Core i5-2435M
  • Intel Core i5-2430M
  • Intel Core i5-2415M
  • Intel Core i5-2415E
  • Intel Core i5-2410M
  • Intel Core i5-2410E
  • Intel Core i3-2377M
  • Intel Core i3-2375M
  • Intel Core i3-2370M
  • Intel Core i3-2367M
  • Intel Core i3-2365M
  • Intel Core i3-2357M
  • Intel Core i3-2350M
  • Intel Core i3-2348M
  • Intel Core i3-2340UE
  • Intel Core i3-2332M
  • Intel Core i3-2330M
  • Intel Core i3-2330E
  • Intel Core i3-2328M
  • Intel Core i3-2312M
  • Intel Core i3-2310M
  • Intel Core i3-2310E
  • Intel Core i3-2308M
  • Intel Pentium 997
  • Intel Pentium 987
  • Intel Pentium B980
  • Intel Pentium 977
  • Intel Pentium B970
  • Intel Pentium 967
  • Intel Pentium B960
  • Intel Pentium 957
  • Intel Pentium B950
  • Intel Pentium B940
  • Intel Celeron 887
  • Intel Celeron 877
  • Intel Celeron 867
  • Intel Celeron 857
  • Intel Celeron 847
  • Intel Celeron B847E
  • Intel Celeron B840
  • Intel Celeron B830
  • Intel Celeron B827E
  • Intel Celeron B820
  • Intel Celeron B815
  • Intel Celeron B810
  • Intel Celeron B810E
  • Intel Celeron 807
  • Intel Celeron B807UE
  • Intel Celeron B800
  • Intel Celeron 797
  • Intel Celeron 787
  • Intel Celeron B730
  • Intel Celeron B720
  • Intel Celeron B710

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Intel Arrandale (2010)

  • Intel Core i7-680UM
  • Intel Core i7-660LM
  • Intel Core i7-680UM
  • Intel Core i7-680UE
  • Intel Core i7-640M
  • Intel Core i7-640LM
  • Intel Core i7-640UM
  • Intel Core i7-620M
  • Intel Core i7-620LM
  • Intel Core i7-620LE
  • Intel Core i7-620UM
  • Intel Core i7-620UE
  • Intel Core i7-610E
  • Intel Core i5-580M
  • Intel Core i5-560M
  • Intel Core i5-560UM
  • Intel Core i5-540M
  • Intel Core i5-540UM
  • Intel Core i5-520M
  • Intel Core i5-520UM
  • Intel Core i5-520E
  • Intel Core i5-480M
  • Intel Core i5-470UM
  • Intel Core i5-460M
  • Intel Core i5-450M
  • Intel Core i5-430M
  • Intel Core i5-430UM
  • Intel Core i3-390M
  • Intel Core i3-380M
  • Intel Core i3-380UM
  • Intel Core i3-370M
  • Intel Core i3-350M
  • Intel Core i3-330M
  • Intel Core i3-330E
  • Intel Core i3-380UE
  • Intel Pentium P6300
  • Intel Pentium P6200
  • Intel Pentium P6100
  • Intel Pentium P6000
  • Intel Pentium U5600
  • Intel Pentium U5400
  • Intel Celeron P4600
  • Intel Celeron P4505
  • Intel Celeron P4500
  • Intel Celeron U3800
  • Intel Celeron U3405
  • Intel Celeron U3400

Intel Jasper Forest (2010)

  • Intel Celeron P1053

Intel Clarksfield (2009)

  • Intel Core i7-940XM
  • Intel Core i7-920XM
  • Intel Core i7-840QM
  • Intel Core i7-820QM
  • Intel Core i7-740QM
  • Intel Core i7-720QM

Intel Penryn-3M (2008-2011)

  • Intel Core 2 Duo SU9600
  • Intel Core 2 Duo SP9600
  • Intel Core 2 Duo SU9400
  • Intel Core 2 Duo SP9400
  • Intel Core 2 Duo SU9300
  • Intel Core 2 Duo SP9300
  • Intel Core 2 Duo SU7300
  • Intel Pentium T4500
  • Intel Pentium T4400
  • Intel Pentium T4300
  • Intel Pentium T4200
  • Intel Pentium SU4100
  • Intel Pentium SU2700
  • Intel Celeron T3500
  • Intel Celeron T3300
  • Intel Celeron T3100
  • Intel Celeron T3000
  • Intel Celeron SU2300
  • Intel Celeron 925
  • Intel Celeron 900
  • Intel Celeron ULV 763
  • Intel Celeron M ULV 743
  • Intel Celeron M ULV 723
  • Intel Celeron M ULV 722

Intel Penryn-L (2008-2009)

  • Intel Core 2 Solo SU3500
  • Intel Core 2 Solo SU3300

Intel Penryn (2008-2009)

  • Intel Core 2 Duo T9900
  • Intel Core 2 Duo T9800
  • Intel Core 2 Duo P9700
  • Intel Core 2 Duo P9600
  • Intel Core 2 Duo T9600
  • Intel Core 2 Duo SL9600
  • Intel Core 2 Duo T9550
  • Intel Core 2 Duo P9500
  • Intel Core 2 Duo T9500
  • Intel Core 2 Duo SL9400
  • Intel Core 2 Duo T9400
  • Intel Core 2 Duo SL9380
  • Intel Core 2 Duo SL9300
  • Intel Core 2 Duo T9300
  • Intel Core 2 Duo P8800
  • Intel Core 2 Duo P8700
  • Intel Core 2 Duo P8600
  • Intel Core 2 Duo E8435
  • Intel Core 2 Duo P8400
  • Intel Core 2 Duo E8335
  • Intel Core 2 Duo T8300
  • Intel Core 2 Duo E8235
  • Intel Core 2 Duo E8135
  • Intel Core 2 Duo T8100
  • Intel Core 2 Duo P7570
  • Intel Core 2 Duo P7550
  • Intel Core 2 Duo P7460
  • Intel Core 2 Duo P7450
  • Intel Core 2 Duo P7370
  • Intel Core 2 Duo P7350
  • Intel Core 2 Duo T6970
  • Intel Core 2 Duo T6900
  • Intel Core 2 Duo T6670
  • Intel Core 2 Duo T6600
  • Intel Core 2 Duo T6570
  • Intel Core 2 Duo T6500
  • Intel Core 2 Duo T6400

Intel Penryn QC-XE (2008)

  • Intel Core 2 Extreme QX9300

Intel Penryn QC (2008)

  • Intel Core 2 Quad Q9100
  • Intel Core 2 Quad Q9000

Intel Merom-2M (2007-2008)

  • Intel Core 2 Duo U7700
  • Intel Core 2 Duo U7600
  • Intel Core 2 Duo U7500
  • Intel Pentium Dual-Core T3400
  • Intel Pentium Dual-Core T3200
  • Intel Pentium Dual-Core T2410
  • Intel Pentium Dual-Core T2390
  • Intel Pentium Dual-Core T2370
  • Intel Pentium Dual-Core T2330
  • Intel Pentium Dual-Core T2310
  • Intel Celeron T1700
  • Intel Celeron T1600
  • Intel Celeron T1500
  • Intel Celeron T1400
  • Intel Celeron 585
  • Intel Celeron 575

Intel Merom-L (2007)

  • Intel Core 2 Solo ULV U2200
  • Intel Core 2 Solo ULV U2100
  • Intel Celeron ULV 573
  • Intel Celeron M ULV 523

Intel Merom (2007)

  • Intel Core 2 Duo T7800
  • Intel Core 2 Duo T7700
  • Intel Core 2 Duo SP7700
  • Intel Core 2 Duo L7700
  • Intel Core 2 Duo T7600G
  • Intel Core 2 Duo T7600
  • Intel Core 2 Duo SP7500
  • Intel Core 2 Duo T7500
  • Intel Core 2 Duo L7500
  • Intel Core 2 Duo T7400
  • Intel Core 2 Duo L7400
  • Intel Core 2 Duo T7300
  • Intel Core 2 Duo L7300
  • Intel Core 2 Duo T7250
  • Intel Core 2 Duo T7200
  • Intel Core 2 Duo L7200
  • Intel Core 2 Duo T7100
  • Intel Core 2 Duo SL7100
  • Intel Core 2 Duo T5900
  • Intel Core 2 Duo T5800
  • Intel Core 2 Duo T5750
  • Intel Core 2 Duo T5670
  • Intel Core 2 Duo T5600
  • Intel Core 2 Duo T5550
  • Intel Core 2 Duo T5500
  • Intel Core 2 Duo T5470
  • Intel Core 2 Duo T5450
  • Intel Core 2 Duo T5300
  • Intel Core 2 Duo T5270
  • Intel Core 2 Duo T5250
  • Intel Core 2 Duo T5200
  • Intel Celeron 570
  • Intel Celeron 560
  • Intel Celeron 550
  • Intel Celeron 540
  • Intel Celeron 530
  • Intel Celeron M 530
  • Intel Celeron M 520

Intel Merom-XE (2007)

  • Intel Core 2 Extreme X7900
  • Intel Core 2 Extreme X7800

Next Page > VIA Desktop + Mobile CPUs Vulnerable To Meltdown + Spectre

 

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VIA Desktop CPUs Vulnerable To Meltdown + Spectre

Affected Variants : These VIA CPUs are affected by all three variants of the speculative execution CPU bug. They are vulnerable to the Meltdown and both Spectre exploits.

VIA Nano QuadCore (2011)

  • VIA Nano QuadCore L4800E
  • VIA Nano QuadCore L4700E
  • VIA Nano QuadCore L4650E

VIA Nano Dual Core 2011)

  • VIA Nano X2 E L4350E
  • VIA Nano X2 E L4350E

VIA Nano 3000 Series (2009)

  • VIA Nano L3600
  • VIA Nano L3050
  • VIA Nano L3025

VIA Nano 2000 Series (2008)

  • VIA Nano L2200
  • VIA Nano L2100

 

VIA Mobile CPUs Vulnerable To Meltdown + Spectre

Affected Variants : These VIA CPUs are affected by all three variants of the speculative execution CPU bug. They are vulnerable to the Meltdown and both Spectre exploits.

VIA Nano Dual Core (2011)

  • VIA Eden X2 U4200E
  • VIA Eden X2 U4100E

VIA Nano 3000 Series (2010)

  • VIA Nano U3500
  • VIA Nano U3400
  • VIA Nano U3300
  • VIA Nano U3200
  • VIA Nano U3100

VIA Nano 2000/1000 Series (2008)

  • VIA Nano U2500
  • VIA Nano U2300
  • VIA Nano U2250
  • VIA Nano U2225
  • VIA Nano U1700

 

Meltdown + Spectre Reading Suggestions

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Confirmed : AMD K10 And K8 Processors Also Vulnerable To Spectre

It is common knowledge that the latest AMD Ryzen 7, Ryzen 5 and Ryzen 3 are vulnerable to the Spectre exploits, and so are the older AMD processors based on their Bulldozer microarchitecture. But what about the AMD K10 and K8 processors? Today, we can confirm that AMD K10 and K8 processors from as far back as 2003 are vulnerable to Spectre.

 

AMD K10 And K8 Processors Are Also Vulnerable To Spectre

AMD has been transparent about how AMD processors are vulnerable to both Spectre exploits, and their mitigation strategies. However, they have never revealed which AMD processors are affected by the Spectre exploits.

While it was common knowledge that the latest AMD Ryzen 7, Ryzen 5 and Ryzen 3, as well as the Bulldozer-based APUs are vulnerable to Spectre, no one knew for sure whether the older AMD K10 and K8 processors were also affected. After all, they were based on a different microarchitecture.

That was until they revealed their Spectre mitigation strategies. Hidden in their whitepaper were references to AMD Family 10h (also known as AMD K10), as well as AMD Family 0Fh (also known as AMD K8).

So we now know, for sure, that the AMD K10 and AMD K8 processors are also vulnerable to Spectre.

 

What Are The Affected AMD K10 & K8 Processors?

The AMD K10 family alone adds 96 AMD server CPUs, 168 AMD desktop CPUs, and 77 AMD mobile CPUs to the list of vulnerable processors.

The AMD K8 family adds a further 128 AMD server CPUs, 137 AMD desktop CPUs, and 57 AMD mobile CPUs to the list.

For your convenience, we included the entire list of vulnerable AMD K10 and AMD K8 processors, split into three lists :

 

Meltdown + Spectre Reading Suggestions

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Vulnerable AMD K10 And K8 Server CPUs

AMD Magny-Cours (2010)

  • AMD Opteron 6180 SE
  • AMD Opteron 6176 SE
  • AMD Opteron 6176
  • AMD Opteron 6174
  • AMD Opteron 6172
  • AMD Opteron 6168
  • AMD Opteron 6164 HE
  • AMD Opteron 6140
  • AMD Opteron 6136
  • AMD Opteron 6134
  • AMD Opteron 6132 HE
  • AMD Opteron 6128
  • AMD Opteron 6128 HE
  • AMD Opteron 61QS
  • AMD Opteron 61KS
  • AMD Opteron 6124 HE

AMD Lisbon (2010)

  • AMD Opteron 4184
  • AMD Opteron 4180
  • AMD Opteron 4176 HE
  • AMD Opteron 4174 HE
  • AMD Opteron 4171 HE
  • AMD Opteron 4170 HE
  • AMD Opteron 41KX HE
  • AMD Opteron 4164 EE
  • AMD Opteron 4162 EE
  • AMD Opteron 41GL EE
  • AMD Opteron 4133
  • AMD Opteron 4130
  • AMD Opteron 4122
  • AMD Opteron 41QS HE
  • AMD Opteron 41LE HE

AMD Istanbul (2009)

  • AMD Opteron 8439 SE
  • AMD Opteron 8435
  • AMD Opteron 8431
  • AMD Opteron 8425 HE
  • AMD Opteron 8423
  • AMD Opteron 8419
  • AMD Opteron 8419 EE
  • AMD Opteron 2439 SE
  • AMD Opteron 2435
  • AMD Opteron 2431
  • AMD Opteron 2427
  • AMD Opteron 2425 HE
  • AMD Opteron 2423 HE
  • AMD Opteron 2419
  • AMD Opteron 2419 EE

AMD Suzuka (2009)

  • AMD Opteron 1389
  • AMD Opteron 1385
  • AMD Opteron 1381
  • AMD Opteron 13QS HE
  • AMD Opteron 13KS EE

AMD Shanghai (2009)

  • Opteron 8393 SE
  • Opteron 8389
  • Opteron 8387
  • Opteron 8386 SE
  • Opteron 8384
  • Opteron 8382
  • Opteron 8381 HE
  • Opteron 8380
  • Opteron 8379 HE
  • Opteron 8378
  • Opteron 83VS
  • Opteron 8374 HE
  • Opteron 83QS HE
  • Opteron 2393 SE
  • Opteron 2389
  • Opteron 2387
  • Opteron 2386 SE
  • Opteron 2384
  • Opteron 2382
  • Opteron 2381 HE
  • Opteron 2380
  • Opteron 2379 HE
  • Opteron 2378
  • Opteron 2377 EE
  • Opteron 2376
  • Opteron 2376 HE
  • Opteron 23VS
  • Opteron 2374 HE
  • Opteron 2373 EE
  • Opteron 2372 HE
  • Opteron 23QS HE
  • Opteron 23KS EE

AMD Budapest (2008)

  • AMD Opteron 1356
  • AMD Opteron 1354
  • AMD Opteron 1352

AMD Barcelona (2007)

  • AMD Opteron 8360 SE
  • AMD Opteron 8357 SE
  • AMD Opteron 8356
  • AMD Opteron 8354
  • AMD Opteron 8352
  • AMD Opteron 8350
  • AMD Opteron 8350 HE
  • AMD Opteron 8347
  • AMD Opteron 8347 HE
  • AMD Opteron 8346 HE

AMD Santa Rosa (2006)

  • AMD Opteron 8224 SE
  • AMD Opteron 8222 SE
  • AMD Opteron 8222
  • AMD Opteron 8220 SE
  • AMD Opteron 8220
  • AMD Opteron 8218
  • AMD Opteron 8218 HE
  • AMD Opteron 8216
  • AMD Opteron 8216 HE
  • AMD Opteron 8214
  • AMD Opteron 8214 HE
  • AMD Opteron 8212
  • AMD Opteron 8212 HE
  • AMD Opteron 8210 EE
  • AMD Opteron 2224 SE
  • AMD Opteron 2222 SE
  • AMD Opteron 2222
  • AMD Opteron 2220 SE
  • AMD Opteron 2220
  • AMD Opteron 2218
  • AMD Opteron 2218 HE
  • AMD Opteron 2216
  • AMD Opteron 2216 HE
  • AMD Opteron 2214
  • AMD Opteron 2214 HE
  • AMD Opteron 2212
  • AMD Opteron 2212 HE
  • AMD Opteron 2210
  • AMD Opteron 2210 HE
  • AMD Opteron 2210 EE
  • AMD Opteron 2208 HE

AMD Santa Ana (2006)

  • AMD Opteron 1224 SE
  • AMD Opteron 1222 SE
  • AMD Opteron 1222
  • AMD Opteron 1220 SE
  • AMD Opteron 1220
  • AMD Opteron 1218
  • AMD Opteron 1218 HE
  • AMD Opteron 1216
  • AMD Opteron 1216 HE
  • AMD Opteron 1214
  • AMD Opteron 1214 HE
  • AMD Opteron 1212
  • AMD Opteron 1212 HE
  • AMD Opteron 1210
  • AMD Opteron 1210 HE
  • AMD Opteron 1210 EE

AMD Egypt (2005)

  • AMD Opteron 890
  • AMD Opteron 885
  • AMD Opteron 880
  • AMD Opteron 875
  • AMD Opteron 875 HE
  • AMD Opteron 870
  • AMD Opteron 870 HE
  • AMD Opteron 865
  • AMD Opteron 865 HE
  • AMD Opteron 860 HE

AMD Italy (2005)

  • AMD Opteron 290
  • AMD Opteron 285
  • AMD Opteron 280
  • AMD Opteron 275
  • AMD Opteron 275 HE
  • AMD Opteron 270
  • AMD Opteron 270 HE
  • AMD Opteron 265
  • AMD Opteron 265 HE
  • AMD Opteron 260 HE

AMD Denmark (2005)

  • AMD Opteron 190
  • AMD Opteron 185
  • AMD Opteron 180
  • AMD Opteron 175
  • AMD Opteron 170
  • AMD Opteron 165

AMD Athens (2004)

  • AMD Opteron 856
  • AMD Opteron 854
  • AMD Opteron 852
  • AMD Opteron 850
  • AMD Opteron 850 HE
  • AMD Opteron 848
  • AMD Opteron 848 HE
  • AMD Opteron 846
  • AMD Opteron 846 HE
  • AMD Opteron 844
  • AMD Opteron 842

AMD Troy (2004)

  • AMD Opteron 256
  • AMD Opteron 254
  • AMD Opteron 252
  • AMD Opteron 250
  • AMD Opteron 250 HE
  • AMD Opteron 248
  • AMD Opteron 248 HE
  • AMD Opteron 246
  • AMD Opteron 246 HE
  • AMD Opteron 244
  • AMD Opteron 242

AMD Venus (2004)

  • AMD Opteron 156
  • AMD Opteron 154
  • AMD Opteron 152
  • AMD Opteron 150
  • AMD Opteron 148
  • AMD Opteron 148 HE
  • AMD Opteron 146
  • AMD Opteron 144
  • AMD Opteron 142

AMD Sledgehammer (2003)

  • AMD Opteron 850
  • AMD Opteron 848
  • AMD Opteron 846
  • AMD Opteron 846 HE
  • AMD Opteron 844
  • AMD Opteron 842
  • AMD Opteron 840
  • AMD Opteron 840 EE
  • AMD Opteron 250
  • AMD Opteron 248
  • AMD Opteron 246
  • AMD Opteron 246 HE
  • AMD Opteron 244
  • AMD Opteron 242
  • AMD Opteron 240
  • AMD Opteron 240 EE
  • AMD Opteron 150
  • AMD Opteron 148
  • AMD Opteron 146
  • AMD Opteron 146 HE
  • AMD Opteron 144
  • AMD Opteron 142
  • AMD Opteron 140
  • AMD Opteron 140 EE

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Vulnerable AMD K10 And K8 Desktop CPUs

AMD Llano (2011)

  • AMD A8-3870K
  • AMD A8-3850
  • AMD A8-3820
  • AMD A8-3800
  • AMD A6-3670K
  • AMD A6-3650
  • AMD A6-3620
  • AMD A6-3600
  • AMD A4-3420
  • AMD A4-3400
  • AMD A4-3330
  • AMD E2-3200
  • AMD Athlon II X4 651K
  • AMD Athlon II X4 651
  • AMD Athlon II X4 641
  • AMD Athlon II X4 638
  • AMD Athlon II X4 631
  • AMD Athlon II X2 221
  • AMD Sempron X2 198

AMD Propus (2011)

  • AMD Phenom II X4 850
  • AMD Phenom II X4 840
  • AMD Athlon II X4 650
  • AMD Athlon II X4 645
  • AMD Athlon II X4 640
  • AMD Athlon II X4 635
  • AMD Athlon II X4 630
  • AMD Athlon II X4 620
  • AMD Athlon II X4 620e
  • AMD Athlon II X4 615e
  • AMD Athlon II X4 610e
  • AMD Athlon II X4 605e
  • AMD Athlon II X4 600e

AMD Regor (2011)

  • AMD Phenom II X2 521
  • AMD Phenom II X2 511
  • AMD Athlon II X2 B30
  • AMD Athlon II X2 280
  • AMD Athlon II X2 B28
  • AMD Athlon II X2 270
  • AMD Athlon II X2 270u
  • AMD Athlon II X2 265
  • AMD Athlon II X2 260
  • AMD Athlon II X2 260u
  • AMD Athlon II X2 B26
  • AMD Athlon II X2 255
  • AMD Athlon II X2 250e
  • AMD Athlon II X2 250
  • AMD Athlon II X2 250u
  • AMD Athlon II X2 245e
  • AMD Athlon II X2 245
  • AMD Athlon II X2 240e
  • AMD Athlon II X2 240
  • AMD Athlon II X2 B24
  • AMD Athlon II X2 235e
  • AMD Athlon II X2 220
  • AMD Athlon II X2 B22
  • AMD Athlon II X2 215
  • AMD Athlon II X2 210e
  • AMD Sempron 190
  • AMD Sempron 180

AMD Zosma (2010)

  • AMD Phenom II X4 970 Black Edition
  • AMD Phenom II X4 960T Black Edition
  • AMD Phenom II X4 960T
  • AMD Phenom II X4 840T
  • AMD Phenom II X4 650T
  • AMD Athlon II X4 640

AMD Thuban (2010)

  • AMD Phenom II X6 1100T Black Edition
  • AMD Phenom II X6 1090T Black Edition
  • AMD Phenom II X6 1075T Black Edition
  • AMD Phenom II X6 1075T
  • AMD Phenom II X6 1065T
  • AMD Phenom II X6 1055T
  • AMD Phenom II X6 1045T
  • AMD Phenom II X6 1035T

AMD Sargas (2009)

  • AMD Athlon II 170u
  • AMD Athlon II 160u
  • AMD Sempron 150
  • AMD Sempron 145
  • AMD Sempron 140
  • AMD Sempron 130

AMD Deneb (2009)

  • AMD Phenom II 42 TWKR
  • AMD Phenom II X4 980 Black Edition
  • AMD Phenom II X4 975 Black Edition
  • AMD Phenom II X4 970 Black Edition
  • AMD Phenom II X4 965 Black Edition
  • AMD Phenom II X4 B99
  • AMD Phenom II X4 955 Black Edition
  • AMD Phenom II X4 955
  • AMD Phenom II X4 B97
  • AMD Phenom II X4 945
  • AMD Phenom II X4 940 Black Edition
  • AMD Phenom II X4 B95
  • AMD Phenom II X4 925
  • AMD Phenom II X4 920
  • AMD Phenom II X4 B93
  • AMD Phenom II X4 910e
  • AMD Phenom II X4 910
  • AMD Phenom II X4 905e
  • AMD Phenom II X4 900e
  • AMD Phenom II X4 830
  • AMD Phenom II X4 820
  • AMD Phenom II X4 810
  • AMD Phenom II X4 805

AMD Heka (2009)

  • AMD Phenom II X3 B77
  • AMD Phenom II X3 740 Black Edition
  • AMD Phenom II X3 B75
  • AMD Phenom II X3 720 Black Edition
  • AMD Phenom II X3 B73
  • AMD Phenom II X3 720
  • AMD Phenom II X3 715 Black Edition
  • AMD Phenom II X3 710
  • AMD Phenom II X3 705e
  • AMD Phenom II X3 700e

AMD Callisto (2009)

  • AMD Phenom II X2 570 Black Edition
  • AMD Phenom II X2 B60
  • AMD Phenom II X2 565 Black Edition
  • AMD Phenom II X2 B59
  • AMD Phenom II X2 560 Black Edition
  • AMD Phenom II X2 555 Black Edition
  • AMD Phenom II X2 B57
  • AMD Phenom II X2 550 Black Edition
  • AMD Phenom II X2 550
  • AMD Phenom II X2 B55
  • AMD Phenom II X2 545
  • AMD Phenom II X2 B53

AMD Rana (2009)

  • AMD Athlon II X3 460
  • AMD Athlon II X3 455
  • AMD Athlon II X3 450
  • AMD Athlon II X3 445
  • AMD Athlon II X3 440
  • AMD Athlon II X3 435
  • AMD Athlon II X3 425e
  • AMD Athlon II X3 425
  • AMD Athlon II X3 420e
  • AMD Athlon II X3 415e
  • AMD Athlon II X3 405e
  • AMD Athlon II X3 400e

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AMD Agena (2008)

  • AMD Phenom X4 9950 Black Edition
  • AMD Phenom X4 9850 Black Edition
  • AMD Phenom X4 9850B
  • AMD Phenom X4 9850
  • AMD Phenom X4 9750B
  • AMD Phenom X4 9750
  • AMD Phenom X4 9650
  • AMD Phenom X4 9600B
  • AMD Phenom X4 9600
  • AMD Phenom X4 9550
  • AMD Phenom X4 9500
  • AMD Phenom X4 9450
  • AMD Phenom X4 9350
  • AMD Phenom X4 9150e
  • AMD Phenom X4 9100e

AMD Toliman (2008)

  • AMD Phenom X3 8850
  • AMD Phenom X3 8750 Black Edition
  • AMD Phenom X3 8750
  • AMD Phenom X3 8750B
  • AMD Phenom X3 8650
  • AMD Phenom X3 8600B
  • AMD Phenom X3 8600
  • AMD Phenom X3 8550
  • AMD Phenom X3 8450e
  • AMD Phenom X3 8450
  • AMD Phenom X3 8400
  • AMD Phenom X3 8250e

AMD Kuma (2008)

  • AMD Athlon X2 7850 Black Edition
  • AMD Athlon X2 7750 Black Edition
  • AMD Athlon X2 7550
  • AMD Athlon X2 7450
  • AMD Athlon X2 6500 Black Edition

AMD Brisbane (2007)

  • AMD Athlon X2 5600B
  • AMD Athlon X2 5400B
  • AMD Athlon X2 5200B
  • AMD Athlon X2 5000B
  • AMD Athlon X2 5050e
  • AMD Athlon X2 4850B
  • AMD Athlon X2 4850e
  • AMD Athlon X2 4450B
  • AMD Athlon X2 4450e
  • AMD Athlon X2 4050e
  • AMD Athlon X2 3250e
  • AMD Athlon X2 BE-2400
  • AMD Athlon X2 BE-2350
  • AMD Athlon X2 BE-2300
  • AMD Athlon 64 X2 6000+
  • AMD Athlon 64 X2 5800+
  • AMD Athlon 64 X2 5600+
  • AMD Athlon 64 X2 5400+ Black Edition
  • AMD Athlon 64 X2 5400+
  • AMD Athlon 64 X2 5200+
  • AMD Athlon 64 X2 5000+ Black Edition
  • AMD Athlon 64 X2 5000+
  • AMD Athlon 64 X2 4800+
  • AMD Athlon 64 X2 4600+
  • AMD Athlon 64 X2 4400+
  • AMD Athlon 64 X2 4200+
  • AMD Athlon 64 X2 4000+
  • AMD Athlon 64 X2 3600+
  • AMD Sempron X2 2300
  • AMD Sempron X2 2200
  • AMD Sempron X2 2100

AMD Lima (2007)

  • AMD Athlon 64 3800+
  • AMD Athlon 64 3500+
  • AMD Athlon 64 3100+
  • AMD Athlon 64 2850e
  • AMD Athlon 64 2600+
  • AMD Athlon 64 2650e
  • AMD Athlon 64 2000+
  • AMD Athlon LE-1660
  • AMD Athlon LE-1640
  • AMD Athlon LE-1640B

AMD Sparta (2006)

  • AMD Sempron LE-1300
  • AMD Sempron LE-1250
  • AMD Sempron LE-1200
  • AMD Sempron LE-1150
  • AMD Sempron LE-1100

AMD Windsor (2006)

  • AMD Athlon 64 FX-74
  • AMD Athlon 64 FX-72
  • AMD Athlon 64 FX-70
  • AMD Athlon 64 FX-62
  • AMD Athlon 64 X2 6400+ Black Edition
  • AMD Athlon 64 X2 6000+
  • AMD Athlon 64 X2 5600+
  • AMD Athlon 64 X2 5400+
  • AMD Athlon 64 X2 5200+
  • AMD Athlon 64 X2 5000+
  • AMD Athlon 64 X2 4800+
  • AMD Athlon 64 X2 4600+
  • AMD Athlon 64 X2 4400+
  • AMD Athlon 64 X2 4200+
  • AMD Athlon 64 X2 4000+
  • AMD Athlon 64 X2 3800+
  • AMD Athlon 64 X2 3600+

AMD Manila (2006)

  • AMD Sempron 3800+
  • AMD Sempron 3600+
  • AMD Sempron 3500+
  • AMD Sempron 3400+
  • AMD Sempron 3200+
  • AMD Sempron 3000+
  • AMD Sempron 2800+

AMD Orleans (2006)

  • AMD Athlon 64 4000+
  • AMD Athlon 64 3800+
  • AMD Athlon 64 3500+
  • AMD Athlon 64 3200+
  • AMD Athlon 64 3000+
  • AMD Athlon 64 LE-1640
  • AMD Athlon 64 LE-1620
  • AMD Athlon 64 LE-1600

AMD Toledo (2005)

  • AMD Athlon 64 FX-60
  • AMD Athlon 64 X2 4800+
  • AMD Athlon 64 X2 4600+
  • AMD Athlon 64 X2 4400+
  • AMD Athlon 64 X2 4200+
  • AMD Athlon 64 X2 4000+
  • AMD Athlon 64 X2 3800+
  • AMD Athlon 64 X2 3700+

AMD Palermo (2005)

  • AMD Sempron 3500+
  • AMD Sempron 3400+
  • AMD Sempron 3300+
  • AMD Sempron 3200+
  • AMD Sempron 3100+
  • AMD Sempron 3000+
  • AMD Sempron 2800+
  • AMD Sempron 2600+
  • AMD Sempron 2500+

AMD Manchester (2005)

  • AMD Athlon 64 X2 4600+
  • AMD Athlon 64 X2 4200+
  • AMD Athlon 64 X2 3800+
  • AMD Athlon 64 X2 3600+
  • AMD Athlon 64 X2 3500+
  • AMD Athlon 64 X2 3200+

AMD San Diego (2005)

  • AMD Athlon 64 FX-57
  • AMD Athlon 64 FX-55
  • AMD Athlon 64 4000+
  • AMD Athlon 64 3700+
  • AMD Athlon 64 3500+

AMD Venice (2005)

  • AMD Athlon 64 3800+
  • AMD Athlon 64 3500+
  • AMD Athlon 64 3400+
  • AMD Athlon 64 3200+
  • AMD Athlon 64 3000+
  • AMD Athlon 64 1500+

AMD Winchester (2004)

  • AMD Athlon 64 3500+
  • AMD Athlon 64 3200+
  • AMD Athlon 64 3000+

AMD Paris (2004)

  • AMD Sempron 3100+
  • AMD Sempron 3000+

AMD Clawhammer (2004)

  • AMD Athlon 64 FX-55
  • AMD Athlon 64 FX-53
  • AMD Athlon 64 4000+
  • AMD Athlon 64 3800+
  • AMD Athlon 64 3700+
  • AMD Athlon 64 3600+
  • AMD Athlon 64 3500+
  • AMD Athlon 64 3400+
  • AMD Athlon 64 3200+
  • AMD Athlon 64 3000+
  • AMD Athlon 64 2800+

AMD Newcastle (2003)

  • AMD Athlon 64 3800+
  • AMD Athlon 64 3500+
  • AMD Athlon 64 3400+
  • AMD Athlon 64 3300+
  • AMD Athlon 64 3200+
  • AMD Athlon 64 3000+
  • AMD Athlon 64 2800+

AMD Sledgehammer (2003)

  • AMD Athlon 64 FX-53
  • AMD Athlon 64 FX-51

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Vulnerable AMD K10 And K8 Mobile CPUs

AMD Llano (2011)

  • AMD A8-3550MX
  • AMD A8-3530MX
  • AMD A8-3520M
  • AMD A8-3510MX
  • AMD A8-3500M
  • AMD A6-3430MX
  • AMD A6-3420M
  • AMD A6-3410MX
  • AMD A6-3400M
  • AMD A4-3330MX
  • AMD A4-3320M
  • AMD A4-3310MX
  • AMD A4-3305M
  • AMD A4-3300M
  • AMD E2-3000M

AMD Champlain (2010)

  • AMD Phenom II X940 Black Edition
  • AMD Phenom II X920 Black Edition
  • AMD Phenom II N970
  • AMD Phenom II P960
  • AMD Phenom II N950
  • AMD Phenom II P940
  • AMD Phenom II N930
  • AMD Phenom II P920
  • AMD Phenom II N870
  • AMD Phenom II P860
  • AMD Phenom II N850
  • AMD Phenom II P840
  • AMD Phenom II N830
  • AMD Phenom II P820
  • AMD Phenom II N660
  • AMD Phenom II P650
  • AMD Phenom II N640
  • AMD Phenom II N620
  • AMD Phenom II X640 Black Edition
  • AMD Phenom II X620 Black Edition
  • AMD Athlon II N370
  • AMD Athlon II P360
  • AMD Athlon II N350
  • AMD Athlon II P340
  • AMD Athlon II N330
  • AMD Athlon II P320
  • AMD Athlon II Neo K145
  • AMD Athlon II Neo K125
  • AMD Turion II Neo K685
  • AMD Turion II Neo K665
  • AMD Turion II Neo K645
  • AMD Turion II Neo K625
  • AMD Turion II N570
  • AMD Turion II P560
  • AMD Turion II N550
  • AMD Turion II P540
  • AMD Turion II N530
  • AMD Turion II P520
  • AMD V160
  • AMD V140
  • AMD V120
  • AMD V105

AMD Geneva (2010)

  • AMD Turion II Neo N54L
  • AMD Turion II K685
  • AMD Turion II K665
  • AMD Turion II K645
  • AMD Turion II K625

AMD Caspian (2009)

  • AMD Turion II Ultra M660
  • AMD Turion II Ultra M640
  • AMD Turion II Ultra M620
  • AMD Turion II Ultra M600
  • AMD Turion II M560
  • AMD Turion II M540
  • AMD Turion II M520
  • AMD Turion II M500
  • AMD Athlon II M360
  • AMD Athlon II M340
  • AMD Athlon II M320
  • AMD Athlon II M300
  • AMD Sempron M140
  • AMD Sempron M120
  • AMD Sempron M100

AMD Conesus (2009)

  • AMD Athlon Neo X2 L510
  • AMD Athlon Neo X2 L335
  • AMD Athlon Neo X2 L325

AMD Sherman (2009)

  • AMD Athlon Neo TF-20

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AMD Huron (2009)

  • AMD Athlon Neo MV-40
  • AMD Sempron 210U
  • AMD Sempron 200U

AMD Sable (2008)

  • AMD Sempron SI-42
  • AMD Sempron SI-40

AMD Sherman (2007)

  • AMD Mobile Sempron 4000+
  • AMD Mobile Sempron 3800+
  • AMD Mobile Sempron 3700+
  • AMD Mobile Sempron 3600+
  • AMD Sempron 2100+ fanless

AMD Keene (2006)

  • AMD Mobile Sempron 3600+
  • AMD Mobile Sempron 3500+
  • AMD Mobile Sempron 3400+
  • AMD Mobile Sempron 3200+

AMD Newark (2005)

  • AMD Mobile Athlon 64 4000+
  • AMD Mobile Athlon 64 3700+
  • AMD Mobile Athlon 64 3400+
  • AMD Mobile Athlon 64 3200+
  • AMD Mobile Athlon 64 3000+

AMD Albany (2005)

  • AMD Mobile Sempron 3600+
  • AMD Mobile Sempron 3400+
  • AMD Mobile Sempron 3300+
  • AMD Mobile Sempron 3100+
  • AMD Mobile Sempron 3000+

AMD Roma (2005)

  • AMD Mobile Sempron 3400+
  • AMD Mobile Sempron 3300+
  • AMD Mobile Sempron 3100+
  • AMD Mobile Sempron 3000+
  • AMD Mobile Sempron 2800+

AMD Oakville (2004)

  • AMD Mobile Athlon 64 3000+
  • AMD Mobile Athlon 64 2800+
  • AMD Mobile Athlon 64 2700+

AMD Georgetown (2004)

  • AMD Mobile Sempron 3300+
  • AMD Mobile Sempron 3100+
  • AMD Mobile Sempron 3000+
  • AMD Mobile Sempron 2800+
  • AMD Mobile Sempron 2600+

AMD Sonora (2004)

  • AMD Mobile Sempron 3100+
  • AMD Mobile Sempron 3000+
  • AMD Mobile Sempron 2800+
  • AMD Mobile Sempron 2600+

AMD Dublin (2004)

  • AMD Mobile Sempron 3000+
  • AMD Mobile Sempron 2800+
  • AMD Mobile Sempron 2600+

AMD Odessa (2004)

  • AMD Mobile Athlon 64 3000+
  • AMD Mobile Athlon 64 2800+
  • AMD Mobile Athlon 64 2700+

AMD Clawhammer (2004)

  • AMD Mobile Athlon 64 3700+
  • AMD Mobile Athlon 64 3400+
  • AMD Mobile Athlon 64 3200+
  • AMD Mobile Athlon 64 3000+
  • AMD Mobile Athlon 64 2800+
  • AMD Mobile Athlon 64 2700+

 

Meltdown + Spectre Reading Suggestions

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AMD CES 2018 Updates – Ryzen APU, Ryzen PRO, Vega Mobile & More!

Las Vegas – 2018 CES – January 7, 2018 AMD (NASDAQ: AMD) today detailed its forthcoming roll-out plan for its new and next generation of high-performance computing and graphics products during the AMD CES 2018 technology update event in Las Vegas.

Alongside announcing the first desktop Ryzen processors with built-in Radeon Vega Graphics, AMD also detailed the full line-up of Ryzen Mobile APUs including the new Ryzen PRO and Ryzen 3 models, and provided a first look at the performance of its upcoming 12nm Ryzen 2 desktop CPU expected to launch in April 2018.

In graphics, AMD announced the expansion of the AMD Vega family with Radeon Vega Mobile and that its first 7nm product is planned to be a Radeon Vega GPU specifically built for machine learning applications.

 

AMD CES 2018 Technology Updates

AMD CTO and SVP Mark Papermaster shared updates on AMD’s process technology roadmaps for both x86 processors and graphics architectures.

  • x86 Processors
    • The “Zen” core, currently shipping in Ryzen desktop and mobile processors, is in production at both 14nm and 12nm, with 12nm samples now shipping.
    • The “Zen 2” design is complete and will improve on the award-winning “Zen” design in multiple dimensions.
  • Graphics Processors
    • Expanding the “Vega” product family in 2018 with the Radeon Vega Mobile GPU for ultrathin notebooks.
    • The first 7nm AMD product, a “Vega” based GPU built specifically for machine learning applications.
    • A production-level machine learning software environment with AMD’s MIOpen libraries supporting common machine learning frameworks like TensorFlow and Caffe on the ROCm Open eCosystem platform. The industry’s first fully open heterogeneous software environment, which is making it easier to program using AMD GPUs for high performance compute and deep learning environments.

 

AMD CES 2018 Client Compute Updates

AMD SVP and General Manager, Computing and Graphics Business Group, Jim Anderson detailed upcoming AMD client compute processors including:

  • The Ryzen desktop processor with Radeon graphics
    • Desktop Ryzen APUs combine the latest “Zen” core and AMD Radeon graphics engine based on the advanced “Vega” architecture, bringing:
      • The highest performance graphics engine in a desktop processor[i]
      • Advanced quad core performance with up to 8 processing threads
      • 1080p HD+ gaming performance without a discrete graphics card
      • Beautiful display features with Radeon FreeSync technology[ii]
      • Full benefit of Radeon software driver features including Radeon Chill, Enhanced Sync and Radeon ReLive
    • Planned to be available starting February 12, 2018.

Ryzen Desktop Processors with Radeon Vega Graphics

Model CPU Cores Threads Max Boost Clock (GHz) Graphics Compute Units[iii] Max GPU Clock (MHz) L2/L3 Cache (MB) cTDP (Watts)
Ryzen 5 2400G with Radeon RX Vega Graphics 4 8 3.9 11 1250 6 45-65W
Ryzen 3 2200G with Radeon Vega Graphics 4 4 3.7 8 1100 6 45-65W
  • 2nd generation Ryzen desktop CPU
    • AMD’s first 12nm based processor with Precision Boost 2 technology.
    • Scheduled for introduction April 2018.
  • Ryzen PRO Mobile Processors with Radeon Vega Graphics
    • Targeted for commercial, enterprise, and public sector implementation, Ryzen PRO mobile processors are designed to power sleek and powerful enterprise notebooks featuring the world’s fastest processor for commercial ultrathin notebooks[iv], state-of-the-art silicon-level security, and reliable solutions with enterprise-class support and product stack top-to-bottom DASH manageability.
      • Up to 22% more competitive productivity performance[v]
      • Up to 125% more competitive graphics performance than Intel i7-8550U and 150% more competitive graphics performance than Intel i7-7500U[vi]
      • Targeting Up to 13.5 hours of battery life[vii]
      • SenseMI[viii] features including Precision Boost 2 technology and Mobile Extended Frequency Range (mXFR)[ix]
    • Ryzen PRO mobile solutions are expected to launch in Q2 2018.

Ryzen PRO mobile processors with Radeon Vega Graphics

Model CPU Cores Threads Max Clock (GHz) Graphics Compute Units[iii] Max GPU Clock (MHz) L2/L3 Cache (MB) cTDP (Watts)
Ryzen 7 PRO 2700U with Radeon Vega Graphics 4 8 3.8 10 1300 6 15W Nominal
Ryzen 5 PRO 2500U with Radeon Vega Graphics 4 8 3.6 8 1100 6 15W Nominal
Ryzen 3 PRO 2300U with Radeon Vega Graphics 4 4 3.4 6 1100 6 15W Nominal
  • Ryzen Mobile Processor with Radeon Vega Graphics
    • AMD expanded the Ryzen Mobile Processor family, featuring the world’s fastest processor for ultrathin notebooks line up, with the introduction of the Ryzen 3 mobile processor.

Ryzen Mobile processors with Radeon Vega Graphics

Model CPU Cores Threads Max Clock (GHz) Graphics Compute Units[iii] Max GPU Clock (MHz) L2/L3 Cache (MB) cTDP (Watts)
Ryzen 7 2700U with Radeon Vega Graphics 4 8 3.8 10 1300 6 15W Nominal
Ryzen 5 2500U with Radeon Vega Graphics 4 8 3.6 8 1100 6 15W Nominal
Ryzen 3 2300U with Radeon Vega Graphics 4 4 3.4 6 1100 6 15W Nominal
Ryzen 3 2200U with Radeon Vega Graphics 2 4 3.4 3 1000 5 15W Nominal

 

AMD CES 2018 Graphics & Gaming Updates

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AMD discussed its first mobile discrete graphics solution based on the “Vega” architecture. This razor-thin Radeon Vega Mobile GPU is designed to enable new, powerful gaming notebooks in 2018 with extraordinary performance and incredible efficiency.

AMD also announced that Radeon Software will add support for HDMI 2.1 Variable Refresh Rate (VRR) technology on Radeon RX products in an upcoming driver release. This support will come as an addition to the Radeon FreeSync technology umbrella, as displays with HDMI 2.1 VRR support reach market.

Ubisoft announced that Far Cry 5 will support Radeon RX Vega-specific features like Rapid Packed Math as well as Radeon FreeSync 2 technology. Radeon RX Vega owners will be able to enjoy Far Cry 5 at exceptional fidelity, with stunning frame rates and beautiful image quality.

 

AMD CES 2018 Footnotes

[i] Testing by AMD Performance labs as of 12/08/2017 for the Ryzen 5 2400G, and 09/04/2015 for the Core i7-5775c on the following systems. PC manufacturers may vary configurations yielding different results. Results may vary based on driver versions used.

System Configs: All systems equipped with Samsung 850 PRO 512GB SSD, Windows 10 RS2 operating system. Socket AM4 System: Ryzen 52400G processor, 16B (2 x 8GB) DDR4-2667 RAM, Graphics Driver 1710181048-17.40-171018a-319170E 23.20.768.0 :: 12/08/2017. Socket LGA1150 System: Core i7-5775c processor, 8GB (2x4GB) DDR3-1867 MHz RAM, graphics driver 10.18.15.4256:: 09/04/2015. 3DMark 11 Performance benchmark used to represent graphics power. The following processors achieved the following scores in 3DMark 11 ‘performance’ benchmark v1.0.132.0: The Ryzen 5 2400G: 5042. Also in v1.0.132.0, .The Core i7-5775c, the Intel desktop processor with the highest Intel desktop graphics performance, achieved 3094. RZG-01

[ii] FreeSync 2 does not require HDR capable monitors; driver can set monitor in native mode when FreeSync 2 supported HDR content is detected. Low-latency HDR only attainable when using a FreeSync 2 API enabled game or video player and content that uses at least 2x the perceivable brightness and color range of sRGB, and using a FreeSync 2 qualified monitor. Based on AMD internal testing as of November 2016. GD-105.

[iii] AMD Radeon and FirePro GPUs based on the Graphics Core Next architecture consist of multiple discrete execution engines known as a Compute Unit (“CU”). Each CU contains 64 shaders (“Stream Processors”) working together. GD-78

[iv] “Processor for ultrathin notebooks” defined as 15W nominal processor TDP. Based on testing of the AMD Ryzen 7 PRO 2700U, AMD Ryzen 5 PRO 2500U, and Core i7-8550U mobile processors as of 10/6/2017 Performance based on Cinebench R15 nT and 3DMark® TimeSpy in order of AMD Ryzen 7 PRO 2700U and Intel 8550U. Cinebench R15 nT results: 660.5, 498.2; 3DMark TimeSpy results: 978, 350. 50:50 CPU:GPU weighted relative performance with i7 baseline: Intel i7-8650U = (498.2/498.2*.5) + (350/350*.5) = 100%; AMD Ryzen 7 PRO 2700U = (660.5/498.2*.5) + (978/350*.5) = 206%.AMD Ryzen 7 PRO 2700U Processor: HP 83C6, AMD Ryzen 7 PRO 2700U Processor with Radeon Vega 10 Graphics, 8GB Dual Channel (2x4GB) DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.19.655.0, 12-Sep-2017. i7-8550U: KBL Woody_KL, i7-8550U with Intel UHD Graphics 620, 8GB Dual Channel (2x4GB) DDR4-2400 RAM, MTFDDAV256TBN – M.2 Sata, Windows 10 Pro RS2, Graphics driver 22.20.16.4771, 12-Aug-2017. Different configurations and drivers may yield different results. RPM-6

[v] Testing by AMD Performance labs. PCMark 10 Extended is used to simulate productivity performance; the AMD Ryzen 7 PRO 2700U scored 3102, while the Intel i7-8550U scored 2533 for a benchmark score comparison of 3102/2533 = 1.22X or 22% faster. AMD Ryzen 7 PRO 2700U: HP 83C6, AMD Ryzen 7 PRO 2700U with Radeon Vega 10 Processor Graphics, 8GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.19.655.2, 06-Sep-2017. Core i7-8550U: Acer Spin 5, Core i7-8550U with Intel UHD Graphics 620, 8GB DDR4-2400 RAM, MTFDDAV256TBN – M.2 Sata SSD, Windows 10 Pro RS2, Graphics driver 22.20.16.4771, 12-Aug-2017. Different configurations and drivers may yield different results. RPM-2

[vi] Testing by AMD Performance labs. 3DMark 11 Performance is used to simulate system performance; the AMD Ryzen 7 PRO 2700U scored 4357, while the Intel i7-8550U scored 1937 for a benchmark score comparison of 4357/1937 = 2.25X or 125% faster and the Intel i7-7500U scored 1743 for benchmark score comparison of 4357/1743 = 2.50X or 150% faster. AMD Ryzen 7 PRO 2700U: HP Envy x360 @25W, AMD Ryzen 7 PRO 2700U Processor with Radeon Vega 10 Graphics, 8GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.19.655.2, 06-Sep-2017. Intel Core i7-8550U: Acer Swift 3, Intel Core i7-8550U with Intel UHD Graphics 620 @15W, 16GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.20.16.4771, 12-Aug-2017. Intel Core i7-7500U: HP Envy x360, Intel Core i7-7500U with Intel HD Graphics 620 @15W, 8GB DDR4-2400 RAM, Samsung 850 PRO 512GB SATA SSD, Windows 10 Pro RS2, Graphics driver 22.20.16.4691 , 01-Jun-2017. Different configurations and drivers may yield different results. RPM-1

[vii] Based on AMD testing as of 10/11/2017. Battery life targets for the AMD Ryzen PRO Processor with Radeon Graphics assume a fully power-optimized software/hardware solution stack, and the following system configuration: AMD Reference Platform, AMD Ryzen 7 PRO 2700U, 2x4GB DDR4-2400, graphics driver 17.30.1025, Windows 10 x64 (1703). Assuming a 50 Wh battery capacity, MobileMark 14 battery life for the Ryzen 7 PRO 2700U playback is estimated at 13.5 hours. Different configurations and drivers may yield different results. RPM-5

[viii] AMD SenseMI technology is built into all Ryzen processors, but specific features and their enablement may vary by product and platform. mXFR enablement must meet AMD requirements. Not enabled on all notebook designs. Check with manufacturer to confirm “amplified mXFR performance” support.

[ix] mXFR enablement must meet AMD requirements. Not enabled on all notebook designs. Check with manufacturer to confirm “amplified mXFR performance” support.

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Asynclat (Asynchronous Latency) – The Tech ARP BIOS Guide

Asynclat

Common Options : 0 to 15 ns

 

Quick Review of Asynclat

Asynclat is an AMD processor-specific BIOS feature. It controls the amount of asynchronous latency, which depends on the time it takes for data to travel from the processor to the furthest DIMM on the motherboard and back. For your reference, AMD has a few conservative suggestions on setting the Asynclat BIOS feature.

Memory Type

Number Of
DIMM Slots

Memory Clock

200 MHz

166 MHz

133 MHz

100 MHz

Registered

8

8 ns

8 ns

9 ns

9 ns

Unbuffered

4

8 ns

8 ns

8 ns

8 ns

3 or 4

7 ns

7 ns

7 ns

7 ns

1 or 2

6 ns

6 ns

6 ns

6 ns

Do note that in this case, the distance of the furthest DIMM slot is considered analogous to the number of DIMM slots. The greater number of DIMM slots available on the motherboard, the further the final slot is from the memory controller.

Also, these values are rough and conservative recommendations that assume that the furthest DIMM slot is occupied by a module. If your motherboard has four slots and you choose to populate only the first two slots, you could use a shorter asynchronous latency.

Generally, it is recommended that you stick with the asynchronous latency recommended by AMD (see table above) or your memory module’s manufacturer. You can, of course, adjust the amount of asynchronous latency according to the situation. For example, if you are overclocking the memory modules, or if you populate the first two slots of the four available DIMM slots; you can get away with a lower asynchronous latency.

 

Details of Asynclat

Asynclat is an AMD processor-specific BIOS feature. It controls the amount of asynchronous latency, which depends on the time it takes for data to travel from the processor to the furthest DIMM on the motherboard and back.

The asynchronous latency is designed to account for variances in the trace length to the furthest DIMM on the motherboard, as well as the type of DIMM, number of chips in that DIMM and the memory bus frequency. For your reference, AMD has a few conservative suggestions on setting the Asynclat BIOS feature.

Memory Type

Number Of
DIMM Slots

Memory Clock

200 MHz

166 MHz

133 MHz

100 MHz

Registered

8

8 ns

8 ns

9 ns

9 ns

Unbuffered

4

8 ns

8 ns

8 ns

8 ns

3 or 4

7 ns

7 ns

7 ns

7 ns

1 or 2

6 ns

6 ns

6 ns

6 ns

Do note that in this case, the distance of the furthest DIMM slot is considered analogous to the number of DIMM slots. The greater number of DIMM slots available on the motherboard, the further the final slot is from the memory controller.

Also, these values are rough and conservative recommendations that assume that the furthest DIMM slot is occupied by a module. If your motherboard has four slots and you choose to populate only the first two slots, you could use a shorter asynchronous latency.

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Naturally, the shorter the latency, the better the performance. However, if the latency is too short, it will not allow enough time for data to be returned from the furthest DIMM on the motherboard. This results in data corruption and system instability.

The optimal asynchronous latency varies from system to system. It depends on the motherboard design, where you install your DIMMs, the type of DIMM used and the memory bus speed selected. The only way to find the optimal asychronous latency is trial and error, by starting with a high value and working your way down.

Generally, it is recommended that you stick with the asynchronous latency recommended by AMD (see table above) or your memory module’s manufacturer. You can, of course, adjust the amount of asynchronous latency according to the situation. For example, if you are overclocking the memory modules, or if you populate the first two slots of the four available DIMM slots; you can get away with a lower asynchronous latency.

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Everything On The Intel CPU With Radeon Graphics! Rev. 2.0

Intel just dropped a bombshell with the announcement that they will be introducing the 8th Gen Intel CPU with Radeon graphics! This article will cover everything we can find on the upcoming 8th Gen Intel CPU with Radeon graphics, and will be updated as and when we get new information.

Updated @ 2017-11-09 : Added new information on the Chip Design, Power Saving and Performance aspects of the 8th Gen Intel CPU with Radeon graphics.

Originally posted @ 2017-11-07


 

The New Intel CPU With Radeon Graphics

The combination of an Intel CPU with Radeon graphics has long been mooted as a great way to tackle NVIDIA’s dominance of the mobile PC gaming market. Now it has finally become a reality. Here is a summary of what we know so far:

Chip Design

  • This is a multi-chip module (MCM) that combines an 8th Generation Intel Core-H mobile processor, with a customised Radeon GPU and HBM2 memory.
  • It is a mobile solution designed to deliver better gaming performance in thin and light laptops, or even smaller mobile devices (tablets?).
  • This will be the first product in the world to feature both HBM2 memory, and the Embedded Multi-Die Interconnect Bridge (EMIB).
  • As the video below shows, Intel is using the EMIB interconnect for high-bandwidth data transfers between the Radeon GPU and the HBM2 memory.
  • The distance between the CPU and the GPU is necessary to improve thermal dissipation.
  • Due to the distance between the CPU and GPU, they cannot possibly use EMIB, which can only be used for chips in close proximity. They are most likely using a regular PCI Express interconnect.

Space Saving

  • The EMIB interconnect is not only fast, it is embedded within the substrate, helping to further reduce the thickness of the package.
  • The use of stacked HBM2 memory, instead of separate GDDR5 memory chips, saves a lot of space and greatly reduces power consumption.
  • By combining the CPU, GPU and HBM2 memory on a multi-chip module, Intel claims it will save 1,900 mm² of board space.

Power Saving

  • This multi-chip module has “a unique power sharing framework” between the Intel CPU and the AMD Radeon GPU.
  • The power sharing framework is a combination of the EMIB interconnect, as well as special drivers and interfaces to the GPU.
  • The ratio of power shared between the CPU and GPU can be dynamically adjusted according to workload and usage models.
  • The power sharing framework will also help to manage temperature, power delivery and performance states in real time.
  • Intel HD Graphics will be used for less strenuous graphics functions, including video acceleration. This allows the Radeon GPU and HBM2 memory to be powered down to save power.

Performance

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  • The Intel Core-H CPU used will be the 35W or 45W Kaby Lake Refresh processor, with the HD Graphics core intact.
  • Neither AMD nor Intel mentioned what Radeon GPU will be used, but their press releases emphasised that this solution is targeted at “enthusiasts” who want to play “AAA titles“.
  • This means it is most likely an AMD Vega GPU with more than 10 Compute Units, delivering better performance than the AMD Vega core in the new AMD Ryzen Mobile APUs.

Availability

  • Intel will introduce the 8th Gen Intel CPU with Radeon graphics in Q1, 2018.

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Intel Dynamic Acceleration – The Tech ARP BIOS Guide

Intel Dynamic Acceleration

Common Options : Enabled, Disabled

 

Quick Review of Intel Dynamic Acceleration

The Intel Dynamic Acceleration BIOS feature is specific to the Intel Core 2 Duo mobile processor, introduced from the 4th-generation Intel Centrino Duo (Santa Rosa) mobile platform onwards. It is similar to the Intel Core i7 processor’s Turbo Mode feature.

When enabled, the processor will automatically ramp up the clock speed of one processing cores (while shutting off the other core) to improve its single-threaded performance while reducing its thermal output and power consumption.

When disabled, the processor will not overclock any processing core when single-threaded applications are running. Both its processing cores will run at the same clock speed.

If you are not already overclocking the Intel Core 2 Duo mobile processor, it is highly recommended that you enable this BIOS option to improve its performance with single-threaded applications. It will also reduce its power consumption and thermal output while running such applications.

However, you should disable this BIOS option if you are already overclocking the processor. Enabling it will very likely cause the processor to run one of the two cores at an excessively high clock speed and lock up the processor whenever a single-threaded application is running.

 

Details of Intel Dynamic Acceleration

The Intel Dynamic Acceleration BIOS feature is specific to the Intel Core 2 Duo mobile processor, introduced from the 4th-generation Intel Centrino Duo (Santa Rosa) mobile platform onwards. It is similar to the Intel Core i7 processor’s Turbo Mode feature. However, there are some fundamental differences in the way they work.

These Intel Core 2 Duo mobile processors can dynamically overclock one of their two processing cores to improve performance with single-threaded applications that would not be able to benefit from the second processing core. The second processing core is shut off completely to maintain or reduce the processor’s thermal output and power consumption.

This feature only kicks in when a single-threaded application is running. When multi-threaded applications are running, the processor will switch to its normal mode, with both processing cores running at their usual clock speeds.

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The Intel Dynamic Acceleration technology is different from the Intel Turbo Mode technology in that it shuts off the inactive core completely to reduce power consumption and thermal output. However, that prevents it from switching between the two cores to even out the thermal load. Thus, the first core would always be the active (and overclocked) core when single-threaded applications are running.

This BIOS feature is used to enable or disable the Intel Core 2 Duo mobile processor’s Dynamic Acceleration feature. It is usually enabled by default.

When enabled, the processor will automatically ramp up the clock speed of one processing cores (while shutting off the other core) to improve its single-threaded performance while reducing its thermal output and power consumption.

When disabled, the processor will not overclock any processing core when single-threaded applications are running. Both its processing cores will run at the same clock speed.

If you are not already overclocking the Intel Core 2 Duo mobile processor, it is highly recommended that you enable this BIOS option to improve its performance with single-threaded applications. It will also reduce its power consumption and thermal output while running such applications.

However, you should disable this BIOS option if you are already overclocking the processor. Enabling it will very likely cause the processor to run one of the two cores at an excessively high clock speed and lock up the processor whenever a single-threaded application is running.

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AMD Ryzen Mobile APUs – Everything You Need To Know!

AMD has officially announced the Ryzen Mobile APUs!. Formerly codenamed Raven Ridge, they combine the AMD Zen CPU cores with AMD Vega graphics to deliver new heights in CPU and graphics performance for ultra-thin notebooks. Let’s dive into the details of the new AMD Ryzen Mobile with Radeon Vega Graphics APUs!

 

AMD Ryzen Mobile “Raven Ridge” APUs

The AMD Ryzen Mobile is not just a mobile processor, it is a mobile APU (Accelerated Processing Unit). Basically, it is a combination of a traditional processor, with a GPU, using a System-on-Chip design.

The new Ryzen Mobile APU combines the new AMD Zen cores used in desktop Ryzen processors with AMD Vega cores used in the new AMD Radeon RX Vega graphics cards.

Mobile APUs are not new. Even Intel mobile processors come with integrated graphics. But AMD is still the only manufacturer to integrate “premium CPU cores” with “premium graphics cores”.

The new CPU and GPU cores used in the new Ryzen Mobile APUs allow them to deliver 3X better CPU performance, and 2.3X better GPU performance over that of equivalent 7th Gen AMD APUs. Performance isn’t everything though. The Ryzen Mobile APUs also promise to use 58% less power!

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The AMD Ryzen Mobile Specifications

AMD has announced two Ryzen Mobile models – the AMD Ryzen 7 2700U and the AMD Ryzen 5 2500U. Here are their specifications.

SpecificationsAMD Ryzen 7 2700UAMD Ryzen 5 2500U
CPU Cores4 Cores4 Cores
Simultaneous Threads8 Threads8 Threads
L1 Cache64 KB instruction cache
32 KB data cache
64 KB instruction cache
32 KB data cache
L2 Cache512 KB x 4512 KB x 4
L3 Cache4 MB shared4 MB shared
Base Clock Speed2.2 GHz2.0 GHz
Boost Clock Speed3.8 GHz3.6 GHz
GPU Cores10 Radeon Vega CUs8 Radeon Vega CUs
GPU ClockUp to 1.3 GHzUp to 1.1 GHz
Memory SupportUp to DDR4-2400 (Dual Channel)Up to DDR4-2400 (Dual Channel)
TDP15 W Nominal
12-25 W (Configurable)
15 W Nominal
12-25 W (Configurable)

Next Page > Precision Boost 2, Mobile XFR, Synergistic Power Rail Sharing

 

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Precision Boost 2

The AMD Ryzen Mobile APU introduces a new Precision Boost 2 algorithm that is part of the new AMD SenseMI technology. Instead of switching between a simple 2-core and all-core boost option, it is designed to dynamically seek the maximum possible clock speed according to the current CPU temperature, current and load.

It is also now able to change frequencies in very fine granularity of just 25 MHz. This allows for a smoother boost curve, and better boost clocks for different kinds of loads on-the-fly.

 

Mobile XFR (mXFR)

Mobile XFR (eXtended Frequency Range) is the automatic overclocking feature that boosts the processor voltage and clock speed beyond the Precision Boost clock speed. It leverages the temperature awareness of Precision Boost 2 to determine how much faster it can overclock.

Like the desktop XFR feature, it is highly dependent on the processor temperature, so a good cooling solution is necessary. Notebooks must have coolers that meet AMD’s performance criteria if they want to offer mXFR.

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Synergistic Power Rail Sharing

The new AMD Ryzen Mobile APUs have a unified VDD power rail with digital low-dropout (LDO) regulators. This synergistic power rail sharing allows the maximum current requirements to be reduced by 36%.

They also have multiple digital LDO regions for the CPU cores, graphics core and subregions. This allows those regions to be completely turned off when they are idle, greatly saving power.

The shared voltage regulators not only reduce the total current draw, it allows the Ryzen Mobile APU to gain a higher peak CPU and GPU current to boost performance.

Next Page > Per-Core Control, Enhanced Gate States, Power Gating & Faster Gate Exit

 

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Per-Core Frequency & Voltage

Thanks to its fine-grained integrated voltage regulation, the AMD Ryzen Mobile APUs can dynamically adjust the frequency and voltage for each core. As each processing thread has different compute requirements, this allows the Ryzen Mobile to push power to the cores that require more performance on-the-fly.

This capability is not restricted to the CPU cores. The AMD Ryzen Mobile APUs can trade power and current between the CPU and GPU as well!

 

Enhanced Gate States

The AMD Ryzen Mobile APUs feature enhanced gate states. The CPU cores can enter CC6 power gating individually, and the L3 cache power can be lowered when all four cores are in CC6 mode. The enhanced gate states also allow the Ryzen Mobile to power down up to 95% of the Radeon Vega graphics core.

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Dual Region Power Gating

The SoC elements of the AMD Ryzen Mobile APU are organised into two types of region. The Type A Region can remain gated during display refresh, while the Type B Region can become briefly active. This allows Type B regions to save more power during common battery life scenarios.

 

Faster Gate Exit

AMD designed the Ryzen Mobile APU to deliver 47% to 87% faster gate exits over the previous generation.

Next Page > How Fast Are The Ryzen Mobile & Radeon Vega Graphics?

 

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How Fast Is The Ryzen Mobile CPU?

AMD shared the following performance results of the Ryzen Mobile CPU.

In this comparison, the AMD Ryzen 7 2700U is 8% faster than the Intel Core i7-8550U, and 10% faster than the Core i7-7500U in the single-core test.

When all four cores were enabled, the Ryzen 7 2700U was 44% faster than the Intel Core i7-8550U, and 2.2X faster than the Core i7-7500U!

Here are some additional benchmark results of the new AMD Ryzen 7 2700U and Ryzen 5 2500U APUs against the Intel Core i7-8550U and the previous-generation AMD FX-9800P APU.

 

Desktop-Class Performance

With the greatly-increased performance of the new Ryzen 7 2700U APU, AMD points out that it is slightly (7%) faster than the Intel Core i5-7600K – a quad-core desktop processor with 6X higher TDP!

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How Fast Is Radeon Vega Graphics?

With just ten or eight Compute Units, the Radeon Vega GPU embedded into the Ryzen Mobile has nowhere near the performance of the Radeon RX Vega 64 or Vega 56 desktop graphics cards. However, they are still much faster than the mobile GPUs that both AMD and Intel have ever introduced in a mobile processor.

In the 3DMark Time Spy DirectX 12 test, the Ryzen 7 2700U with its 10 Compute Units was able to slightly beat the NVIDIA GeForce GTX 950M discrete graphics. That makes it about 2.5X faster than Intel HD Graphics.

What this means is the Radeon Vega Graphics in the AMD Ryzen 7 2700U is fast enough to deliver playable frame rates at 1080p resolution for most games.

Next Page > Battery Life, Thinner Profile, Performance Summary & Conclusion

 

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