Tag: Kaveri

Kaveri makes this Acer Aspire E5 sing

Acer E5-551_1AMD has been making a big noise about its Kaveri chip range of Mobile APUs and we got a look at what it could do to Acer E5-551 15.6 laptop.

AMD A-Series APU family, codenamed Kaveri, is starting to pop up in systems from Acer, Asus, Dell, HP, Lenovo, Samsung, and Toshiba. According to AMD, the new mobile APUs mark the debut of Heterogeneous System Architecture (HSA) features and Graphics Core Next (GCN) Architecture for mobile. Acer’s Aspire E5 is first to arrive in the UK and will be sold through Debenhams so this makes it interesting from a user or a channel perspective.

The AMD A8 Kaveri chip is now powering the new Acer E5-551 laptop is designed for multi-tasking from gaming and light photo-editing to running multiples instances of software and streaming music. The E5-551 features a DVD reader and writer for long plane flights where you need a better movie. It is also well placed for the school market as it can practically anything a school kid could throw at it.

The machine is priced for about £409 which makes it a good budget model for smaller companies who are providing portables for those who have to do work, rather than just look at tablets. Normally there is not much between computers in this range. Most have WXGA screens based on TN technology and conventional hard drives and plastic bodies.

 Acer E5-551_9The Spec

Processor: AMD Quad-Core A8-7100

Mainboard: AMD A76M

Memory: 8192 MB, DDR3L, 1600 MHz, dual-channel, 2 memory banks, both filled

Graphics adapter :AMD Radeon R6 (Kaveri), Core: 533 MHz, DDR3L, shared memory, bus: 64 Bit

Display: 15.6 inch 16:9, 1366×768 pixel, AU Optronics AUO47EC, TN LED

Connections2 USB 2.0, 1 USB 3.0, 1 VGA, 1 HDMI, 1 Kensington Lock, Audio Connections: 1 combo audio in/out, 3.5 mm jack, Card Reader: SD/SDHC/SDXC,

Networking: Realtek RTL8168/8111 Gigabit-LAN (10/100/1000MBit), Atheros Communications AR9565 Wireless Network Adapter (b g n ), 4.0 Bluetooth

Optical drive: Matshita DVD-RAM UJ8E2Q

Operating System: Microsoft Windows 8.1 64 Bit

Weight: 2.5 kg

Battery: 56 Wh Lithium-Ion

 Acer E5-551_10Design

The Aspire A5 design is, bluntly, a bit of a snooze and not its strongest feature. Certainly, it is thinner than many laptops in this range but it is not that thin. It is lighter and easy to carry than others we have had. Certainly in comparison to the bricks that are available in this price range it is certainly not bad. Besides, for £409 design is something that happens to other people’s computer.

The plastic case also seems to pick up every type of grease that a hand can generate and make the machine slimy.

 The chip

The important part of this computer is an AMD Quad-Core A8-7100 which is a quad core with eight GPU cores to carry out the AMD Radeon R7 series graphics. The idea of the Heterogeneous System Architecture (HSA) is that it allows the CPU and GPU to work together by quickly dividing and directing the right tasks toward the appropriate cores to improve performance and efficiency. The chip managed to make running software a breeze and it even passed our Firefox running trillions of opens tabs trick without any problems.

 The Graphics

The graphics on the Kaveri platform is far better than Intel’s equivalent HD graphics cores integrated into the Haswell chips. This makes Kaveri armed laptop owners able to play reasonably demanding games and videos. Playing Civ 5 was not only possible it was a quality game on Acer E5-551, something that I have only seen on our other home laptop, which has a dedicated card, when there was nothing else running. HD films came out very well, limited only by the screen which for a budget machine was still not too bad.

Connectivity

The machine has an HDMI socket, Ethernet connection, two USB 2.0 sockets, a USB 3.0 connection and a VGA out.  Not bad not great.

Communication

The Atheros AR9565 Wi-Fi module supports the IEEE 901.11 b, g and n standards,  Bluetooth, version 4.0. The signal connections were fairly standard and nothing to right home about

Battery

The 56 Wh Lithium-Ion managed 4.5 half hours before needing a recharge, which was not too bad given the thrashing we were giving it.  Again, this is due to the lower power draw of the AMD A8 chip.

Noise and heat

There was no noise coming from the machine at all. This was unheard of in any laptop in this price range, particularly one with an ordinary hard drive. One could almost believe it is fanless. The heat levels were also not to bad.  The laptop did get warm, but not hot and was comfortable to put on your lap.

Keyboard

The flat, roughened keys were not bad and were capable of fast touch typing.

Touchpad

The ClickPad which is a large, single-surface which you press when you want to ‘click’ was reasonable in comparison to the alternatives we have used.  Generally, if you are not going to have a touch screen on a laptop you are always going to be better with a mouse. When such use was impossible though once you got used to it was fine. Most of the touchpad surface can be pressed, which is interpreted as a left click except for in the lower right of the Clickpad.

 Hard-drive

The hard drive is 1TB which is more than enough for any portable music or movie collection.  It is not an SSD but we never heard it in operation.

Summery

The Acer E5-551 would be a normal budget laptop where it not for the Kaveri chip making it into something special. It enabled speed, enhanced graphics, extended battery life, and quiet operation something which we have not seen from Intel equivalents in the market.  It is still a budget machine, limited by the lack of a quality screen, but for that price it it is jolly useful.

The Eyes have it

four-stars

 

 

 

Good value for money.

 

PC slump may actually benefit AMD in long run

AMD, SunnyvaleIt is often said that a crisis is merely an opportunity in disguise. It is often said but it’s rarely true. However, the steep drop in PC shipments could in fact be good news for AMD.

Ten years ago AMD taught Intel a costly lesson in the high end, forcing Intel to regain its footing and invest heavily in R&D and manufacturing. As a result Intel squeezed AMD out of the high-end consumer CPU market, relegating it to the mid range and low end.

AMD wasted its opportunity, but eventually it picked up ATI a couple of years after its CPU design peaked. Things looked bright for a moment, just before they went terribly wrong. AMD suffered from poor execution and its high end chips just weren’t good enough to keep up with Intel. The K8 glory days are long gone and AMD is now a different company, it is fabless, but it also has plenty of IP, competitive graphics and very interesting APU and x86 SoC designs.

So how could the weak PC market benefit AMD, especially now that mobile chips are the new black, and AMD hasn’t got any?

Long upgrade cycles are one indicator that the era of “good enough” computing is already here. The average PC is more than four years old, few people need costly high end processors and attention is shifting to low end and mid range silicon. This is what AMD is becoming good at. Its new Jaguar based APUs are brilliant and they are superior to Intel’s current generation of Atoms. Richland based APUs aren’t as competitive, but they offer relatively good value for money and they are making inroads in the ULV market as well. The bad news is that AMD is still suffering from execution problems. Kaveri was supposed to replace Richland later this year, but it has been pushed back to early 2014, along with desktop Jaguar-based Kabini parts. AMD’s propensity for delays makes any forecast extremely difficult.

With very little need for Intel’s high-end x86 chips in the consumer market, gamers and professionals aren’t enough. This is an obvious opportunity for AMD and CEO Rory Read seems to get it. That might explain why AMD is focusing its efforts elsewhere. APUs are just part of the story, they were the logical next step in CPU evolution. AMD’s next big thing is custom chip design. The Xbox One and PS4 are based on Jaguar, with AMD graphics in tow. Now for some geeky figures.

Most people associate Jaguar with cheap and small APUs, but custom console SoCs are neither. Built using TSMC’s 28nm process, the SoC used in the Xbox One actually features eight Jaguar CPU cores, coupled with powerful graphics and plenty of SRAM embedded on the die. They pack around 5 billion transistors, while Intel’s mid-range Haswells are said to feature between 1.4 billion and 1.2 billion, depending on the SKU.

AMD hasn’t forgotten how to do huge, immensely complex chips – it’s just not doing big x86 cores anymore. Its high-end GPUs also have upwards of 4 billion transistors. What’s more, AMD can apply the same custom approach to server parts and it’s also working on ARM based server chips as well. This flexible, modular approach sounds very interesting indeed, but it’s still too early to say whether AMD will put it to good use in server chips, so to speak,  whether it will manage to find enough customers for custom parts, as the orders have to be relatively big to justify the expense of developing and producing such chips.

As far as AMD’s graphics business goes, it is doing rather well at the moment. Time and again AMD has proven that it can go toe to toe with Nvidia and win a few rounds. We’ve been looking at a virtual stalemate for the past five years. This year AMD managed to increase its GPU market share, despite the fact that Nvidia won nearly all Haswell notebook design wins. The trouble for Nvidia is that notebook graphics are a dying market. In the consumer space AMD is doing well, while Nvidia still maintains a big lead in high-margin professional graphics. The recent console wins should also help AMD’s consumer GPU business, as developers should find it easier to optimise their games for AMD’s architecture on three different platforms.

The big question is mobile. A couple of months ago Nvidia announced that it would license its Kepler GPU and future GPU IP to third-party ARM SoC builders. AMD has not made the same commitment, but some AMD graphics tech is already used in mobile chips, in the form of Qualcomm’s Adreno graphics. The ARM SoC business will continue to grow and we are bound to see more consolidation. Nvidia has a small presence in the ARM SoC market and if it is willing to license its technology to its own competitors, AMD could and should enter the market as well. It is worth noting that Adreno is running out of steam, as it is based on old AMD/ATI tech. We’re not sure it would make financial sense for Qualcomm to continue development in-house, it might reach out to AMD instead. There is very little overlap between Qualcomm and AMD at the moment, and such a marriage of convenience would make perfect sense. If that happens, AMD could end up with a huge market share in ARM SoC graphics, trumping Nvidia, ARM and Imagination.

AMD is still in a world of trouble, but looking ahead it might actually be in a better position to weather the storm than Intel, at least in the consumer space. High end chips and server parts are still Intel’s turf, although AMD could score some custom server wins in the future. Intel is pushing mobile now and it has a good chance of penetrating the market a couple of years from now, but in reality if AMD starts licensing GPU IP to the likes of Qualcomm, it could make heaps of cash in mobile, with a lot less investment and risk than Intel.

AMD updates roadmap, reveals new delays

AMD, SunnyvaleAMD has a new roadmap which sheds more light on upcoming Volcanic Islands GPUs, as well as Kaveri and Kabini based product releases, and delays.

New GPUs are coming soon. AMD will hold a launch event in roughly a month and it is widely expected to launch the new Hawaii card at the event, which will be held – in Hawaii. AMD has already announced that Kaveri products will hit the channel in mid-February 2014. They will be joined by new Kabini SKUs later on, reports Digitimes.

The new Kabini chips will enter mass production in February and they will be announced in March. It appears that this batch will be focused on desktops and big notebooks, as most of them will be quad cores with a 25W TDP. The first desktop Kabini parts were supposed to launch in the second half of 2013, but now it appears they have been pushed back to March. Last week we reported that Kabini is struggling with limited availability and the delay explains it, at least on the desktop front.

Kabini’s successor, Beema, has also been delayed. It was supposed to launch in March 2014, but now it seems it will launch in the second half of 2014 or maybe even in early 2015, which is very bad news indeed.

According to the roadmap, AMD’s FM1 and AM3 sockets will be phased out by the end of the year. In 2014 AM3+ will account for 30 percent of AMD’s desktop processor shipments, while FM2/FM2+ will account for the remaining 70 percent. Kabini will use ST3 and FS1B sockets.

Looking ahead to 2015, AMD should release Carrizo APUs based on the new Excavator architecture and Nolan should replace Beema in the low end. However, delays are possible and when it comes to AMD they are the norm, not an exception.

AMD Kaveri to hit channel in February

AMD, SunnyvaleAMD’s next-gen APU, codenamed Kaveri, won’t be coming to market this year. Although AMD plans to launch and ship the chip toward the end of the year, it won’t appear in the channel until February 2014.

Earlier this week tech site VR Zone  reported that Kaveri would be delayed, which was no surprise as few people expected it to show up this year. AMD’s roadmap indicates that the chip is indeed launching this year, but in its response AMD has now officially confirmed that availability is expected in early 2014.

Kaveri is AMD’s fourth generation mid-range APU. It will pack up to four Steamroller CPU cores and it will be the first AMD APU to feature GCN graphics. The previous two generations were 32nm parts based on Piledriver CPU cores and WLIW4-based GPUs, hence the 28nm Kaveri with a brand new CPU and GPU cobmo looks like a huge upgrade.

Mobile Kaveri chips should start shipping later in 2014, AMD said.

It should be noted that the new chips will require FM2+ compatible motherboards and the first boards were launched by Asus a few weeks ago. Although they are backwards compatible with FM2 parts, they don’t appear to be a worthwhile investment at this point. There is still plenty of time to stock up on FM2+ boards before Kaveri shows up.