Subject: Processors | September 19, 2016 - 10:35 AM | Sebastian Peak
Tagged: Socket AM4, processor, FX, cpu, APU, amd, 1331 pins
Image credit: Bit-Tech via HWSW
AMD's newest socket will merge the APU and FX series CPUs into this new AM4 socket, unlike the previous generation which split the two between AM3+ and FM2+. This is great news for system builders, who now have the option of starting with an inexpensive CPU/APU, and upgrading to a more powerful FX processor later on - with the same motherboard.
The new socket will apparently require a new cooler design, which is contrary to early reports (yes, we got it wrong, too) that the AM4 socket would be compatible with existing AM3 cooler mounts (manufacturers could of course offer hardware kits for existing cooler designs). In any case, AMD's new socket takes more of the delicate copper pins you love to try not to bend!
Subject: Processors, Mobile | August 31, 2016 - 07:30 AM | Sebastian Peak
Tagged: SoC, Snapdragon 821, snapdragon, SD821, qualcomm, processor, mobile, adreno
Qualcomm has officially launched the Snapdragon 821 SoC, an upgraded successor to the existing Snapdragon 820 found in such phones as the Samsung Galaxy S7.
"With Snapdragon 820 already powering many of the premier flagship Android smartphones today, Snapdragon 821 is now poised to become the processor of choice for leading smartphones and devices for this year’s holiday season. Qualcomm Technologies’ engineers have improved Snapdragon 821 in three key areas to ensure Snapdragon 821 maintains the level of industry leadership introduced by its predecessor."
Specifications were previously revealed when the Snapdragon 821 was announced in July, with a 10% increase on the CPU clocks (2.4 GHz, up from the previous 2.2 GHz max frequency). The Adreno 530 GPU clock increases 5%, to 650 MHz from 624 MHz. In addition to improved performance from CPU and GPU clock speed increases, the SD821 is said to offer lower power consumption (estimated at 5% compared to the SD820), and offers new functionality including improved auto-focus capability.
Enhanced overall user experience:
The Snapdragon 821 has been specifically tuned to support a more responsive user experience when compared with the 820, including:
- Shorter boot times: Snapdragon 821 powered devices can boot up to 10 percent faster.
- Faster application launch times: Snapdragon 821 can reduce app load times by up to 10 percent.
- Smoother, more responsive user interactions: UI optimizations and performance enhancements designed to allow users to enjoy smoother scrolling and more responsive browsing performance.
Improved performance and power consumption:
- CPU speeds increase: As we previously announced, the 821 features Qualcomm Kryo CPU speeds up to 2.4GHz, representing an up to 10 percent improvement in performance over Snapdragon 820.
- GPU speeds increase: The Qualcomm Adreno GPU received a 5 percent speed increase over Snapdragon 820.
- Power savings: The 821 is engineered to deliver an incremental 5 percent power savings when comparing standard use case models. This power savings can extend battery life and support OEMs interested in reducing battery size for slimmer phones.
New features and functionality:
- Snapdragon 821 introduces several new features and capabilities, offering OEMs new options to create more immersive and engaging user experiences, including support for:
- Snapdragon VR SDK (Software Development Kit): Offers developers a superior mobile VR toolset, provides compatibility with the Google Daydream platform, and access to Snapdragon 821’s powerful heterogeneous architecture. Snapdragon VR SDK supports a superior level of visual and audio quality and more immersive virtual reality and gaming experiences in a mobile environment.
- Dual PD (PDAF): Offers significantly faster image autofocus speeds under a wide variety of conditions when compared to single PDAF solutions.
- Extended Laser Auto-Focus Ranging: Extends the visible focusing range, improving laser focal accuracy over Snapdragon 820.
- Android Nougat OS: Snapdragon 821 (as well as the 820) will support the latest Android operating system when available, offering new features, expanded compatibility, and additional security compared to prior Android versions.
Qualcomm says the ASUS ZenFone 3 Deluxe is the first phone to use this new Snapdragon 821 SoC while other OEMs will be working on designs implementing the upgraded SoC.
Subject: Processors | January 24, 2016 - 12:19 PM | Sebastian Peak
Tagged: Tigerlake, rumor, report, processor, process node, Intel, Icelake, cpu, Cannonlake, 10 nm
A report from financial website The Motley Fool discusses Intel's plan to introduce three architectures at the 10 nm node, rather than the expected two. This comes after news that Kaby Lake will remain at the present 14 nm, interrupting Intel's 2-year manufacturing tech pace.
(Image credit: wccftech)
"Management has told investors that they are pushing to try to get back to a two-year cadence post-10-nanometer (presumably they mean a two-year transition from 10-nanometer to 7-nanometer), however, from what I have just learned from a source familiar with Intel's plans, the company is working on three, not two, architectures for the 10-nanometer node."
Intel's first 10 nm processor architecture will be known as Cannonlake, with Icelake expected to follow about a year afterward. With Tigerlake expected to be the third architecture build on 10 nm, and not coming until "the second half of 2019", we probably won't see 7 nm from Intel until the second half of 2020 at the earliest.
It appears that the days of two-year, two product process node changes are numbered for Intel, as the report continues:
"If all goes well for the company, then 7-nanometer could be a two-product node, implying a transition to the 5-nanometer technology node by the second half of 2022. However, the source that I spoke to expressed significant doubts that Intel will be able to return to a two-years-per-technology cycle."
(Image credit: The Motley Fool)
It will be interesting to see how players like TSMC, themselves "planning to start mass production of 7-nanometer in the first half of 2018", will fare moving forward as Intel's process development (apparently) slows.
Subject: Processors | November 13, 2015 - 06:40 PM | Sebastian Peak
Tagged: X99, processor, LGA2011-v3, Intel, i7-6950X, HEDT, Haswell-E, cpu, Broadwell-E
Intel's high-end desktop (HEDT) processor line will reportedly be moving from Haswell-E to Broadwell-E soon, and with the move Intel will offer their highest consumer core count to date, according to a post at XFastest which WCCFtech reported on yesterday.
Image credit: VR-Zone
While it had been thought that Broadwell-E would feature the same core counts as Haswell-E (as seen on the leaked slide above), according to the report the upcoming flagship Core i7-6950X will be a massive 10 core, 20 thread part built using Intel's 14 nm process. Broadwell-E is expected to provide an upgrade to those running on Intel's current enthusiast X99 platform before Skylake-E arrives with an all-new chipset.
WCCFtech offered this chart in their report, outlining the differences between the HEDT generations (and providing a glimpse of the future Skylake-E variant):
Intel HEDT generations compared (Credit: WCCFtech)
It isn't all that surprising that one of Intel's LGA2011-v3 processors would arrive on desktops with 10 cores as these are closely related to the Xeon server processors, and Haswell based Xeon CPUs are already available with up to 18 cores, though priced far beyond what even the extreme builder would probably find reasonable (not to mention being far less suited to a desktop build based on motherboard compatibility). The projected $999 price tag for the Extreme Edition part with 10 cores would mark not only the first time an Intel desktop processor reached the core-count milestone, but it would also mark the lowest price to attain one of the company's 10-core parts to date (Xeon or otherwise).
Subject: Processors | November 5, 2015 - 09:30 PM | Sebastian Peak
Tagged: SoC, report, processor, mobile apu, leak, FX-9830PP, cpu, Bristol Ridge, APU, amd
A new report points to an entry from the USB implementors forum, which shows an unreleased AMD Bristol Ridge SoC.
(AMD via VideoCardz.com)
Bristol Ridge itself is not news, as the report at Computer Base observes (translation):
"A leaked roadmap had previously noted that Bristol Ridge is in the coming year soldered on motherboards for notebooks and desktop computers in special BGA package FP4."
(USB.org via Computer Base)
But there is something different about this chip as the report point out the model name FX-9830P pictured in the USB.org screen grab is consistent with the naming scheme for notebook parts, with the highest current model being FX-8800P (Carrizo), a 35W 4-thread Excavator part with 512 stream processors from the R7 GPU core.
(BenchLife via Computer Base)
No details are available other than information from a leaked roadmap (above), which points to Bristol Ridge as an FP4 BGA part for mobile, with a desktop variant for socket FM3 that would replace Kaveri/Godavari (and possibly still an Excavator part). New cores are coming in 2016, and we'll have to wait and see for additional details (or until more information inevitably leaks out).
Update, 11/06/15: WCCFtech expounds on the leak:
“Bristol Ridge isn’t just limited to mobility platforms but will also be featured on AM4 desktop platform as Bristol Ridge will be the APU generation available on desktops in 2016 while Zen would be integrated on the performance focused FX processors.”
WCCFtech’s report also included a link to this SiSoftware database entry for an engineering sample of a dual-core Stoney Ridge processor, a low-power mobile part with a 2.7 GHz clock speed. Stoney Ridge will reportedly succeed Carrizo-L for low-power platforms.
The report also provided this chart to reference the new products:
Subject: Processors | October 23, 2015 - 02:21 PM | Sebastian Peak
Tagged: Xeon D, SoC, rumor, report, processor, Pentium D, Intel, cpu
Intel's Xeon D SoC lineup will soon expand to include 12-core and 16-core options, after the platform launched earlier this year with the option of 4 or 8 cores for the 14 nm chips.
The report yesterday from CPU World offers new details on the refreshed lineup which includes both Xeon D and Pentium D SoCs:
"According to our sources, Intel have made some changes to the lineup, which is now comprised of 13 Xeon D and Pentium D SKUs. Even more interesting is that Intel managed to double the maximum number of cores, and consequentially combined cache size, of Xeon D design, and the nearing Xeon D launch may include a few 12-core and 16-core models with 18 MB and 24 MB cache."
The move is not unexpected as Intel initially hinted at an expanded offering by the end of the year (emphasis added):
"...the Intel Xeon processor D-1500 product family is the first offering of a line of processors that will address a broad range of low-power, high-density infrastructure needs. Currently available with 4 or 8 cores and 128 GB of addressable memory..."
Current Xeon D Processors
The new flagship Xeon D model will be the D-1577, a 16-core processor with between 18 and 24 MB of L3 cache (exact specifications are not yet known). These SoCs feature integrated platform controller hub (PCH), I/O, and dual 10 Gigabit Ethernet, and the initial offerings had up to a 45W TDP. It would seem likely that a model with double the core count would either necessitate a higher TDP or simply target a lower clock speed. We should know more before too long.
For futher information on Xeon D, please check out our previous coverage:
- New Intel Xeon D Broadwell Processors Aimed at Low Power, High Density Servers @ PC Perspective.
- Xeon D Podcast Discussion at 0:40:35 (YouTube or downloadable audio).
Subject: Processors | October 19, 2015 - 11:28 AM | Sebastian Peak
Tagged: Zen, SoC, processor, imac, APU, apple, amd
Rumor: Apple to Use AMD SoC for Next-Gen iMac News about AMD has been largely depressing of late, with the introduction of the R9 Fury/Fury X and Nano graphics cards a bright spot in the otherwise tumultuous year that was recently capped by a $65 million APU write down. But one area where AMD has managed to earn a big win has been the console market, where their APUs power the latest machines from Microsoft and Sony. The combination of CPU and a powerful GPU on a single chip is ideal for those small form-factor designs, and likewise it would be ideal for a slim all-in-one PC. But an iMac?
Image credit: Apple
A report from WCCFtech today points to the upcoming Zen architecture from AMD as a likely power source for a potential custom SoC:
"A Semi-custom SOC x86 for the iMac would have to include a high performance x86 component, namely Zen, in addition to a graphics engine to drive the visual experience of the device. Such a design would be very similar to the current semi-custom Playstation 4 and XBOX ONE Accelerated Processing Units, combining x86 CPU cores with a highly capable integrated graphics solution."
Those who don't follow Apple probably don't know the company switched over almost exclusively to AMD graphics a short time ago, with NVIDIA solutions phased out of all discrete GPU models. Whether politically motivated or simply the result of AMD providing what Apple wanted from a hardware/driver standpoint I can't say, but it's still a big win for AMD considering Apple's position as one of the largest computer manufacturers - even though its market share is very low in the highly fragmented PC market overall. And while Apple has exclusively used Intel processors in its systems since transitioning away from IBM's PowerPC beginning in 2006, the idea of an AMD custom APU makes a lot of sense for the company, especially for their size and heat constrained iMac designs.
Image credit: WCCFtech
Whether or not you'd ever consider buying an iMac - or any other computer from Apple, for that matter - it's still important for the PC industry as a whole that AMD continues to find success and provide competition for Intel. Consumers can only benefit from the potential for improved performance and reduced cost if competition heats up between Intel and AMD, something we really haven't seen on the CPU front in a few years now. With CEO Lisa Su stating that AMD "had secured two new semi-custom design wins" In their recent earnings call it could very well be that we will see Zen in future iMacs, or in other PC all-in-one solutions for that matter.
Regardless, it will be exciting to see some good competition from AMD, even if we will have to wait quite a while for it. Zen isn't ready yet and we have no indication that any such product would be introduced until later next year. It will be interesting to see what Intel might do to compete given their resources. 2016 could be interesting.
Subject: Processors | October 12, 2015 - 12:24 PM | Sebastian Peak
Tagged: servers, qualcomm, processor, enterprise, cpu, arm, 24-core
Another player emerges in the CPU landscape: Qualcomm is introducing its first socketed processor for the enterprise market.
Image credit: PC World
A 24-core design based on 64-bit ARM architecture has reached the prototype phase, in a large LGA package resembling an Intel Xeon CPU.
From the report published by PC World:
"Qualcomm demonstrated a pre-production chip in San Francisco on Thursday. It's a purpose-built system-on-chip, different from its Snapdragon processor, that integrates PCIe, storage and other features. The initial version has 24 cores, though the final part will have more, said Anand Chandrasekher, Qualcomm senior vice president."
Image credit: PC World
Qualcomm built servers as proof-of-concept with this new processor, "running a version of Linux, with the KVM hypervisor, streaming HD video to a PC. The chip was running the LAMP stack - Linux, the Apache Web server, MySQL, and PHP - and OpenStack cloud software," according to PC World. The functionality of this design demonstrate the chip's potential to power highly energy-efficient servers, making an obvious statement about the potential cost savings for large data companies such as Google and Facebook.
Subject: Motherboards | May 4, 2015 - 02:49 PM | Sebastian Peak
Tagged: processor, msi, motherboard, Godavari, FM2+, cpu, APU, amd
MSI has revealed a new FM2+ motherboard lineup with support for upcoming AMD Godavari processors, further indicating the launch of these new CPUs will be very soon though no official announcement has yet been made by AMD.
As reported back in January when the lineup allegedly leaked the new Godavari SKUs feature higher clocks on both processor and, more significantly, in GPU cores in upcoming APUs like the rumored 8850K. MSI states that "these new models are available in ATX, micro-ATX, and mini-ATX form factors and are backwards compatible with FM2 processors (Kaveri, Richland, Trinity, 6000 and 5000 series)", so it makes sense to consider these new models for future compatibility if shopping for an FM2 motherboard today. It remains to be seen if vendors will offer support for Godavari through BIOS updates, though it does at least seem likely.
For those interested here is the list of new MSI AMD FM2+/FM2 motherboard models:
- A68HM-E33 V2
- A88XM-E45 V2
- A78M-E35 V2
- A88XM-P33 V2
- A78M-E45 V2
- A88X-G41 PC Mate V2
- A88XM-E35 V2
- A88XI AC V2
The familiar Military Class 4 and OC Genie 4 branding is visible across the lineup, and the new models also feature "a rich blend of features and technologies, such as onboard LAN, PCI Express 3.0 x16, SATA 6Gb/s, USB 3.0 and multiple display support".
Subject: Motherboards | April 30, 2015 - 10:32 PM | Sebastian Peak
Tagged: gigabyte, Intel, Broadwell, h97, z97, bios, cpu, processor
GIGABYTE has announced support for the upcoming LGA 1150 variants of Intel's 5th-generation Core (Broadwell) processors for all existing 9-series motherboards via BIOS update.
The full press release appears below:
City of Industry, California, April 30th, 2015 – GIGABYTE TECHNOLOGY Co. Ltd., a leading manufacturer of motherboards and graphics cards is proud to announce their entire line-up of Z97 and H97 motherboards now support the soon-to-launch 5th Generation Intel® Core™ processors.
GIGABYTE engineers have tested and validated all GIGABYTE 9 series motherboards including Z97 and H97 chipset-based motherboards to ensure optimal performance for 5th Generation Intel® Core™ processors. Users wanting to take advantage of all the features of 5th Gen Intel® Core™ processors have to offer at launch, simply need to download the latest UEFI BIOS from the GIGABYTE website.
To get the latest UEFI BIOS for your motherboard, please visit the GIGABYTE website: http://www.gigabyte.us