More Details from Lisa Su
The executives at AMD like to break their own NDAs. Then again, they are the ones typically setting these NDA dates, so it isn’t a big deal. It is no secret that Kaveri has been in the pipeline for some time. We knew a lot of the basic details of the product, but there were certainly things that were missing. Lisu Su went up onstage and shared a few new details with us.
Kaveri will be made up of 4 “Steamroller” cores, which are enhanced versions of the previous Bulldozer/Trinity/Vishera families of products. Nearly everything in the processor is doubled. It now has dual decode, more cache, larger TLBs, and a host of other smaller features that all add up to greater single thread performance and better multi-threaded handling and performance. Integer performance will be improved, and the FPU/MMX/SSE unit now features 2 x 128 bit FMAC units which can “fuse” and support AVX 256.
However, there was no mention of the fabled 6 core Kaveri. At this time, it is unlikely that particular product will be launched anytime soon.
Battle of the IGPs
Our long journey with Frame Rating, a new capture-based analysis tool to measure graphics performance of PCs and GPUs, began almost two years ago as a way to properly evaluate the real-world experiences for gamers. What started as a project attempting to learn about multi-GPU complications has really become a new standard in graphics evaluation and I truly believe it will play a crucial role going forward in GPU and game testing.
Today we use these Frame Rating methods and tools, which are elaborately detailed in our Frame Rating Dissected article, and apply them to a completely new market: notebooks. Even though Frame Rating was meant for high performance discrete desktop GPUs, the theory and science behind the entire process is completely applicable to notebook graphics and even on the integrated graphics solutions on Haswell processors and Richland APUs. It also is able to measure performance of discrete/integrated graphics combos from NVIDIA and AMD in a unique way that has already found some interesting results.
Battle of the IGPs
Even though neither side wants us to call it this, we are testing integrated graphics today. With the release of Intel’s Haswell processor (the Core i7/i5/i3 4000) the company has upgraded the graphics noticeably on several of their mobile and desktop products. In my first review of the Core i7-4770K, a desktop LGA1150 part, the integrated graphics now known as the HD 4600 were only slightly faster than the graphics of the previous generation Ivy Bridge and Sandy Bridge. Even though we had all the technical details of the HD 5000 and Iris / Iris Pro graphics options, no desktop parts actually utilize them so we had to wait for some more hardware to show up.
When Apple held a press conference and announced new MacBook Air machines that used Intel’s Haswell architecture, I knew I could count on Ken to go and pick one up for himself. Of course, before I let him start using it for his own purposes, I made him sit through a few agonizing days of benchmarking and testing in both Windows and Mac OS X environments. Ken has already posted a review of the MacBook Air 11-in model ‘from a Windows perspective’ and in that we teased that we had done quite a bit more evaluation of the graphics performance to be shown later. Now is later.
So the first combatant in our integrated graphics showdown with Frame Rating is the 11-in MacBook Air. A small, but powerful Ultrabook that sports more than 11 hours of battery life (in OS X at least) but also includes the new HD 5000 integrated graphics options. Along with that battery life though is the GT3 variation of the new Intel processor graphics that doubles the number of compute units as compared to the GT2. The GT2 is the architecture behind the HD 4600 graphics that sits with nearly all of the desktop processors, and many of the notebook versions, so I am very curious how this comparison is going to stand.
Subject: Processors | June 5, 2013 - 04:25 PM | Jeremy Hellstrom
Tagged: VLIW4, trinity, Richland, piledriver, fm2, APU, amd, a10, 6800K, 6700
Richland is here, in the form of the A10-6800K with a 4.1GHz base clock and 4.4GHz Turbo clock, support for DDR3-2133 and an improved GPU called the 8670D with 384 shaders and a 844MHz clock speed ... all for $142! Computationally you can compare it to a Core i3 or a slower Core i5 but graphically this CPU is head and shoulders above the competition as you can see in X-Bit Labs' testing. You really need to keep the price in mind, as it may not provide as much power as a Core-i5 it costs about half as much which can mean a lot to someone on a tight budget, especially when they can skip purchasing a discrete GPU altogether.
Make sure to check out Josh's reivew where he contrasts the last few generations of AMD chips.
"AMD decided to refresh their Socket FM2 platform and release a new generation of hybrid processors for it based on Richland design. This is exactly the one that earned the “Elite Performance APU Platform” title in the mobile segment."
Here are some more Processor articles from around the web:
- AMD Elite A-Series A10-6800K APU (Socket FM2) @ techPowerUp
- AMD A10-6800K & A10-6700 APU Review @ Neoseeker
- AMD A10-6800K and A10-6700 Richland APU Reviews @ Legit Reviews
- AMD A10-6800K & A10-6700 Richland APU Review @ OCC
- AMD A10-6800K / A10-6700 @ Hardware.info
- AMD A10-6800K and 6700 A-Series "Richland" Processor Review @ HiTech Legion
- AMD A10-6800K APU Richland Processor @ Benchmark Reviews
- AMD Richland APU - Release Day Coverage @ Overclockers.com
- AMD Richland Desktop Review; A10-6800K & A10-6700 Benchmarked @ Hardware Canucks
- AMD A10-6800K and A4-4000 Richland APU @ TechSpot
- Intel Core i7-4770K @ Legion Hardware
- Choosing a Gaming CPU at 1440p: Adding in Haswell @ AnandTech
- Intel Core i7-4770K CPU Review. Intel Haswell for Desktops: Ruin of Our Hopes? @ X-bit Labs
Trinity... but Better!
Richland. We have been hearing this name for a solid nine months. Originally Richland was going to be a low end Trinity model that was budget oriented (or at least that was the context we heard it in). Turns out Richland is something quite different, though the product group does extend all the way from the budget products up to mainstream prices. We have seen both AMD and Intel make speed bin updates throughout the years with their products, but that seems like it is becoming a thing of the past. Instead, AMD is refreshing their Trinity product in a pretty significant matter. It is not simply a matter of binning these chips up a notch.
Trinity was released last Fall and it was a solid product in terms of overall performance and capabilities. It was well worth the price that AMD charged, especially when compared to Intel processors that would often be significantly slower in terms of graphics. The “Piledriver” architecture powers both Trinity and Richland, and it is an improved version of the original “Bulldozer” architecture. Piledriver included some small IPC gains, but the biggest advantage given was in terms of power. It is a much more power efficient architecture that can be clocked higher than the original Bulldozer parts. Trinity turned out to be a power sipping part for both mobile and desktop. In ways, it helped to really keep AMD afloat.
It turns out there were still some surprises in store from Trinity, and they have only been exposed by the latest Richland parts. AMD is hoping to keep in front of Intel in terms of graphics performance and compatibility, even in the face of the latest Haswell parts. While AMD has not ported over GCN to the Trinity/Richland lineup, the VLIW4 unit present in the current parts is still very competitive. What is perhaps more important, the software support for both 3D applications and GPGPU is outstanding.
Subject: Processors | March 12, 2013 - 02:52 PM | Jeremy Hellstrom
Tagged: VLIW4, trinity, Richland, piledriver, notebook, mobile, hd 8000, APU, amd, A10-5750
The differences between Richland and Trinity are not earth shattering but there are certainly some refinements implemented by AMD in the A10-5750. One very noticeable one is support for DDR3-1866 as well as better power management for both the CPU and GPU; with new temperature balancing algorithms and measurement the ability to balance the load properly has increased from Trinity. Many AMD users will be more interested in the GPU portion of the die than the CPU, as that is where AMD actually has as lead on Intel and this particular chip contains the HD8650G, with clocks of 720MHz boost and 533MHz base and increase from the previous generation of 35 and 37MHz respectively. You can read more about the other three models that will be released over at The Tech Report.
"AMD has formally introduced the first members of its Richland APU family. We have the goods on the chips and Richland's new power management tech, which combines temperature-based inputs with bottleneck-aware clock boosting."
Here are some more Processor articles from around the web:
- AMD Richland APU Preview: Trinity Gets a Facelift @ Hardware Canucks
- 2013 AMD Mobile APU (Richland) @ Bjorn3D
- Westmere-EP to Sandy Bridge-EP: The Scientist Potential Upgrade @ AnandTech
- AMD Phenom II X4 955, Phenom II X4 960T, Phenom II X6 1075T and Intel Pentium G2120, Core i3-3220, Core i5-3330 @ ixbt.com
- AMD FX-8350 @ iXBT Labs
- The new Opteron 6300: Finally Tested! @ AnandTech
- Intel Core i5-3570K vs. i7-3770K Ivy Bridge @ techPowerUp
AMD Exposes Richland
When we first heard about “Richland” last year, there was a little bit of excitement from people. Not many were sure what to expect other than a faster “Trinity” based CPU with a couple extra goodies. Today we finally get to see what Richland is. While interesting, it is not necessarily exciting. While an improvement, it will not take AMD over the top in the mobile market. What it actually brings to the table is better competition and a software suite that could help to convince buyers to choose AMD instead of a competing Intel part.
From a design standpoint, it is nearly identical to the previous Trinity. That being said, a modern processor is not exactly simple. A lot of software optimizations can be applied to these products to increase performance and efficiency. It seems that AMD has done exactly that. We had heard rumors that the graphics portion was in fact changed, but it looks like it has stayed the same. Process improvements have been made, but that is about the extent of actual hardware changes to the design.
The new Richland APUs are branded the A-5000 series of products. The top end is the A10-5750M with HD-8650 integrated graphics. This is still the VLIW-4 based graphics unit seen in the previous Trinity products, but enough changes have been made with software that I can enable Dual Graphics with the new Solar System based GPUs (GCN). The speeds of these products have received a nice boost. As compared to the previous top end A10-4600, the 5750 takes the base speed from 2.3 GHz to 2.5 GHz. Boost goes from 3.2 GHz up to 3.5 GHz. The graphics portion takes the base clock from 496 MHz up to 533 MHz, while turbo mode improves over the 4600 from 685 MHz to 720 MHz. These are not staggering figures, but it all still fits within the 35 watt TDP of the previous product.
One other important improvement is the ability to utilize DDR-3 1866 memory. Throughout the past year we have seen memory densities increase fairly dramatically without impacting power consumption. This goes for speed as well. While we would expect to see lower power DIMMs be used in the thin and light categories, expect to see faster DDR-3 1866 in the larger notebooks that will soon be heading our way.
Define an Enthusiast CPU...
FM2 poses an interesting quandary for motherboard manufacturers. AMD provides a very robust and full featured chip for use with their processors (A85X) that would lend itself well to midrange and enthusiast class motherboards. Unfortunately, AMD does not provide a similarly high end CPU as compared to the competition at price ranges that would make sense for a motherboard that would cost between $140 and $250 on the FM2 platform.
So these manufacturers are constrained on price to offer fully featured motherboards that take advantage of all aspects of the A85X FCH (Fusion Controller Hub). Until AMD can deliver a more competitive CPU on the FM2 platform, motherboard manufacturers will be forced to design offerings that can really go no higher than $129 (the current price of the fastest A10 processor from AMD). This is not necessarily a bad thing though, as it has forced these manufacturers to really rethink their designs and to focus their energies on getting the greatest bang-for-the-buck. AMD is selling a decent number of these processors, but the market is constrained as compared to the Intel offerings utilizing the 1155 BGA infrastructure.
Gigabyte has taken this particular bull by the horns and have applied a very unique (so far) technology to the board. This is on top of all the other marketing and engineering terms that we are quite familiar with. The company itself is one of the top three manufacturers of motherboards in the world, and they typically trail Asus in terms of shipments but are still ahead of MSI. As with any motherboard manufacturer, the quality of Gigabyte products has seen peaks and valleys through the years. From what I have seen for the past few years though, Gigabyte is doing very well in terms of overall quality and value.
Subject: Motherboards | February 3, 2013 - 05:09 AM | Tim Verry
Tagged: trinity, mini-itx, htpc, asrock, APU, amd, A85X
Taiwanese motherboard manufacturer ASRock has shown off a new mini-ITX motherboard aimed at home theater PC (HTPC) users called the FM2A85X-ITX. The new motherboard uses AMD’s A85X chipset and supports the company’s latest Trinity accelerated processing units (APUs).
The FM2A85X-ITX motherboard features an AMD FM2 socket surrounded by two DDR3 DIMM slots (max of 32GB 1866MHz RAM), a PCI-E 2.0 x16 slot, and seven SATA 6Gbps ports. A six phase VRM, two USB 3.0 headers, 8 channel audio chip, and RAID 0/1/10 support round out the package.
External IO on the mini-ITX motherboard includes:
- 1 x PS/2
- 4 x USB 2.0
- 2 x USB 3.0
- 1 x eSATA 6Gbps
- 1 x Gigabit Ethernet
- 1 x Optical S/PDIF
- 5 x Analog audio jacks
- 1 x DVI
- 1 x HDMI
- 1 x VGA
According to Tech Power Up, the new motherboard will cost around $110 USD. Thanks to the form factor, APU support, and multitude of storage connectivity options, the board would make for an excellent addition to a HTPC build!
Read about other mini-ITX motherboard options at PC Perspective!
Subject: Editorial, General Tech, Systems, Shows and Expos | January 8, 2013 - 02:06 PM | Scott Michaud
Tagged: Xi3, valve, trinity, Steam Box, ces 2013, CES, amd
Going from a failed Kickstarter to Valve’s premier console? Sounds like a good anecdote to tell.
Valve has finally discussed the Steam Box in more concrete details. Get ready for some analysis; there are a bunch of hidden stories to be told. We will tell them.
Update for clarity: As discussed in IRC technically this was an Xi3 announcement that Valve will have at their booth but not an official Valve announcement. That said, Valve will have it at their booth and Valve funded Xi3.
Another Update for new information: Turns out this is not the Valve-official device. Ben Krasnow, Valve hardware engineer, made a statement that the official Steam Box is not planned to be announced in 2013. What we will see this year is 3rd Party implementations, and that should be it. News story to follow.
Image by Engadget
As everyone is reporting, Valve hired out Xi3 Corporation to develop the Steam Box under the codename Piston. Xi3Corporation was founded in 2010 and revealed their first product at CES two years ago. In late September, Xi3 launched an unsuccessful Kickstarter to fund their latest designs: The X7A and the X3A.
The X7A Modular Computer is the most interesting as it seems to be what the Piston is based on. Regardless of the Kickstarter’s failure, Valve still reached out to Xi3 Corporation chequebook in hand. According to the Kickstarter page, the X7A has the following features:
64-Bit Quad-Core x86 processor up to 3.2 GHz with 384 graphics shader cores.
- My personal best guess is the AMD A10-4600M Trinity APU.
- 8GB of DDR3 RAM
- 1 TB of “Superfast” Solid State Memory
- Four USB 3.0
- Four USB 2.0
- Four eSATAp
- Gigabit E
- 40Watt under load
“Under $1000” although that includes 1TB of SSD storage.
- Also Valve could take a loss, because Steam has no problem with attach rate.
The key piece of information is the 40Watt declaration. According to Engadget who went hands-on with the Valve Piston, it too is rated for 40Watt under load. This means that it is quite likely for the core specifications of the Kickstarter to be very similar to the specifications of the Piston.
Benchmarks for the 7660G have the device running Far Cry 3 on low settings at around 34 FPS as well as Black Ops 2 running on Medium at 42 FPS. That said, with a specific hardware platform to target developers will be able to better optimize.
During the SpikeTV VGAs, Gabe Newell stated in an interview with Kotaku that third parties would also make “Steam Boxes”. They are expected to be available at some point in 2013.
PC Perspective's CES 2013 coverage is sponsored by AMD.
Follow all of our coverage of the show at http://pcper.com/ces!
Subject: Motherboards | November 9, 2012 - 03:21 PM | Jeremy Hellstrom
Tagged: asus, a85, F2A85-V Pro, trinity
The ASUS F2A85V Pro is a high end AMD board with a quite reasonable price for the features present on the board. The two PCIe-16x slots can handle Crossfire with both cards running at 8x and the spacing between the slots means that even a three slot GPU will fit with no problems. There are 7 SATA 6 Gbps ports which support a variety of RAID settings, as well as four USB 3.0 ports and a single eSATA port but it is the graphics outputs which really shine, HDMI, DisplayPort, VGA and DVI outputs are all available for your Trinity processor. Take a look at those features, the new Network iControl software to manage your connections and the UEFI BIOS at Bjorn3D.
"ASUS has released their the F2A85V-Pro for the socket FM2. The board retails at around $140, but is packed with features."
Here are some more Motherboard articles from around the web:
- Sapphire Pure Platinum A85XT @ Hardware.info
- Three AMD A85X Socket FM2 motherboards @ Hardware.info
- Sapphire Pure Black 990FX Review @ OCC
- apphire Pure Platinum A85XT (A85X) Motherboard Review @ eTeknix
- ASRock FM2A85X Extreme6 (A85X) Motherboard Review @ eTeknix.
- BIOS Option Of The Week - FPU OPCODE Compatible Mode @ TechaRP
- Gigabyte Z77X-UP7 @ Kitguru
- ASRock Z77 Extreme 4 Review @ OCC
- EVGA Z75 SLI Motherboard Review @ HCW
- GIGABTYE Z77X-UP7 Motherboard @ Bjorn3D
- ASUS Maximus V Extreme @ Bjorn3D
- ASRock Z77 OC Formula Review @ OCC
- MSI Z77 MPOWER LGA1155 Motherboard @ Benchmark Reviews
- MSI Z77 MPOWER @ Tweaktown
- ASRock Z77 Extreme4-M Motherboard @ Hardware Secrets
- Asus P8Z77-V Premium Review: Flagship Mainboard from Asus @ X-bit Labs
- Biostar Hi-Fi Z77X @ Hardware.info
- Gigabyte H77N-WiFi Review – First Look at Ivy Bridge with mITX @ AnandTech
- GIGABYTE Z77X-UP7 @ [H]ard|OCP
- GIGABYTE Z77X-UP7 @ Tweaktown
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