General Gaming Article

General Gaming Article


Popular AdBlock Plus Extension to Allow "Non-Invasive" Ads by Default

Posted: 12 Dec 2011 03:04 PM PST

abpOdds are that more than a few of you are running a little browser extension called AdBlock Plus. This software was originally developed to combat the obnoxious ads of yesteryear, but its developer says things have changed, and he now wants to use AdBlock to reward sites that run "non-invasive" ads. As a result, the default set up of AdBlock Plus will soon block fewer ads.

AdBlock made its name by killing every single ad dead, but that can make it tough to monetize a website. The whitelist of good ads will not contain anything that uses sounds, animation, or redirects to get the user's attention. The site must also obey the Do Not Track flag. AdBlock's developer has been working with some websites to get their ads in-line with the policy. 

The new whitelist will be opt-out instead of opt-in because the developer feels that to truly change advertising behavior on the web, most users have to be running it. The updated version of AdBlock will be out in the near future. If you use AdBlock, will you keep the new default settings?

Dish Network May Partner With T-Mobile if AT&T Deal Fails

Posted: 12 Dec 2011 02:46 PM PST

dishAs AT&T fights valiantly to save its $39 billion acquisition of T-Mobile USA, at least one company is waiting in the wings for it to fail. America's second largest satellite TV provider, Dish Network may enter into a partnership with T-Mobile to form a more robust carrier. It just so happens that Dish has gobs of the one thing that T-Mobile is lacking: wireless spectrum.

Dish CEO Joseph Clayton said in an interview that it doesn't want to just sell off the spectrum it acquired earlier this year from the bankruptcy sale of DBSD and Terrestar Networks. Dish would prefer to use that asset to build a next generation wireless network, and T-Mobile could be an ideal partner for that. If the merger is successful, Dish has also floated the option of buying divested assets from the combined entity to roll its own network. 

As AT&T wrangles with the DOJ and FCC over the details of the bill, it's looking less and less likely that it will go through. It's been up in the air how the faltering T-Mobile would survive on its own without a 4G network. Could Dish Network be its savior? 

Break Out the Encyclopedia Britannica: Wikipedia May Go Dark to Protest SOPA

Posted: 12 Dec 2011 02:31 PM PST

wikiWikipedia is not alone among Internet companies in its steadfast opposition to the Stop Online Piracy Act (SOPA). Although being one of the most visited sites on the planet, and the sole reason many degree programs were completed, gives it some additional clout. Founder Jimmy Wales is mulling a plan to blank out Wikidedia in protest of SOPA in the near future.

There was a similar protest a few weeks ago with sites like Tumblr self-censoring in order to get users to call their congressional representatives. For Wikipedia to do the same would surely send shockwaves across the intertubes. Wales solicited advice from the Wikipedia community on the idea, and the responses were overwhelmingly positive. The Italian Wikipeda was successful in stopping a similar measure in that country with a blackout.

Many fear that SOPA's Machiavellian copyright regulations would be disastrous for the Internet. Supporters claim that measures like domain seizures and the elimination of safe harbor are necessary to protect the entertainment industry and rights-holders. Would you support a short-term Wikipedia blackout to protest SOPA?

Tech Preview 2012: The PC's Bright Future

Posted: 12 Dec 2011 01:31 PM PST

The Future Is Bright

Forget everything you've heard about the PC being dead

The onslaught of smartphones, tablets, and sundry cloud-based devices might give us ways to be "connected" in more places at more times, but they don't lessen the wonders to behold in a full-fledged PC. Not by a long shot.

In fact, despite all the dire prognostications about the PC, our personal computers are poised to get a major boost in performance, thanks to all the new technologies and components coming to fruition next year. We're going to give you the complete rundown on what to expect—can someone say fastest CPU ever?—so you can start plotting your next build now.

Oh, we'll still see plenty of tablets, to be sure, and we'll tell you how those happening slabs will change, but we're also going to see a major push by Intel to make stylish, super-portable, super-affordable laptop PCs an even more compelling option.

Yes, there's a lot to look forward to in 2012. And you can start peeping at what lies ahead right here!

Intel Sandy Bridge-E

Welcome to the future of performance computing

True performance enthusiasts have had a very difficult choice this past year. Go for maximum core and thread count using an older core microarchitecture, or cheap out and get almost the same (or better) performance in most apps and games using the mainstream Sandy Bridge chip.

That, in a nutshell, has been the enthusiasts' dilemma ever since Intel introduced the Sandy Bridge chip in January 2011. Well those days are behind us now that Intel has finally, finally released its Sandy Bridge-E (for Enthusiast) chip. With one simple chip—the new 3.3GHz Core i7-3960X—Intel has neatly folded up all those worries and put them into a nice little blue box stamped with the Intel logo.

A TRUE ENTHUSIASTS' CPU

Boiled down to the simplest of terms, if the quad-core 3.4GHz Core i7-2600K (or its new sibling the 3.5GHz Core i7-2700K) was the best chip out there, the Core i7-3960X is now the bestest. That's because the Core i7-3960X is simply a Core i7-2600K with two additional cores.

Actually, that's not really accurate. As an enthusiast chip, there are no graphics cores in the Core i7-3960X. And while the Core i7-2600K is limited to just 16 PCIe 2.0 lanes, the Core i7-3960X sports 40. Even better, those 40 lanes of PCIe support are PCIe 3.0 compliant. Out the gate, however, Intel (or its lawyers, anyway) is reluctant to label them as PCIe 3.0 until it actually has enough PCIe 3.0 cards to test.


Intel's Sandy Bridge-E blends the best of both worlds: it has the core and thread count of a Core i7-990X Gulftown proc and the core performance of a Core i7-2600K Sandy Bridge.

As to the cores, you already know about them. They're Sandy Bridge cores and include AVX and AES-NI instruction-set goodness. Turbo Boost 2.0 on these models will take the top-end 3.3GHz Core i7-3960X to 3.9GHz. The cores are built using Intel's 32nm process and, well, there are two more of them turned on.

Besides the added cores, enthusiasts will also be thrilled by the memory support: To keep those cores fed, Intel is using a new quad-channel memory controller. The memory controller seems significantly faster than previous iterations, too. While the tri-channel memory controller in the original LGA1366 didn't blow our socks off (over a dual-channel configuration), the quad-channel controller in the Core i7-3960X has us stunned. In our tests, we found that it offered nearly 100 percent more memory bandwidth than the Core i7-990X's triple-channel configuration.

PSSST, IT'S REALLY EIGHT CORES INSIDE

Intel isn't making the Core i7-3960X just to satiate the appetites of speed freaks. The chip is mostly intended to be sold as a Xeon workstation CPU. So it shouldn't surprise you that the Core i7-3960X is actually an eight-core chip. Yup, that's right; looking at the block map of the chip, you can see that the new CPU has two sections blocked out where cores seven and eight go. Why leave them off? Intel officially says the decision was based on its desire to balance clock speeds, thermals, and power needs. We suspect that it's really because Intel doesn't need those two extra cores at this point. Not to telegraph too much, but AMD hasn't posed much performance competition yet. By leaving cores off now, Intel can always introduce octo-core chips later if it needs to be more competitive. There could also truly be a thermal concern, as unsubstantiated rumors (are there any other kind?) initially told of Intel's new chip pushing an unheard‑of 180‑watt thermal rating.

Yeah, we know what you're thinking already, because we asked the same thing ourselves: Can you unlock those two other cores? Negative, Ghostrider. Intel has laser-cut those cores off in the die, so unless someone has the smallest‑possible soldering gun, we'd bet a box of adamantium claws that it's impossible.

MEET THE NEW PLATFORM


Don't rub your eyes: There really are eight cores on that monstrous 32nm die. And no, you can't unlock the bottom two, except in your wildest dreams.

As is Intel's modus operandi, the company has a new socket. While the switch from LGA1156 to LGA1155 certainly pissed off customers, the LGA1366 crowd can hardly complain. LGA1366 launched with the original Core i7-965 Extreme Edition way back in 2008. For Intel to even support a socket that long is almost unheard of. So, with Core i7-3960X, Intel is introducing its new LGA2011.

Why the extra pins? The additional pins in the socket are to support the quad-channel memory and the relocation of the PCIe lanes from the core-logic chipset to the CPU core (à la Sandy Bridge and Lynnfield). For the most part, enthusiasts will be tickled pink with the beastly new socket, the quad-channel memory, and PCIe 3.0. What they won't be happy with is the SATA 6Gb/s situation. The new X79 chipset features a Serial Attached SCSI controller that can support up to 10 drives in SATA 6Gb/s, but at the 11th hour, the feature was switched off due to compatibility concerns. Instead, we're left with an X79 peripheral controller hub that's pretty much a weak-sauce retread of the P67 and Z68's PCH: two SATA 6Gb/s and four SATA 3Gb/s ports. You can certainly argue that you don't need more than two SATA 6Gb/s ports since they're only useful for SSD drives, but we think it stinks, especially as we had been teased by thoughts of motherboards bursting with SATA 6Gb/s. We expect initial boards to be limited in SATA 6Gb/s ports due to the last-minute switch, but in a few months, board vendors will tack on additional ports using third-party controllers. If anything, the SATA 6Gb/s features on boards and how they're implemented will separate the men from the boys in mobo land.

MEET THE SANDY BRIDGE-E FAMILY

For the LGA2011 platform, Intel is introducing three new chips: The top-end Core 7-3960X at $990—yup, that's $9 cheaper than the existing Core i7-990X chip (gee thanks, Intel!) that this Extreme chip is meant to replace. Intel is also introducing two other chips. The mid-tier 3.2GHz Core i7-3930K will sell for $555. Besides the lower stock clock, the chip will shed some of the L3 cache, for a total of 12MB. For the budget enthusiast, Intel has plans to release a quad-core, Hyper-Threaded Sandy Bridge-E with 10MB of L3 cache early next year. Prices of the Core i7-3820 haven't been released, but we're pretty sure it'll slot in at about $300. The part is "partially unlocked," meaning it will have limited overclocking features, and is likely intended as a way to get entry-level enthusiasts in the X79 game.

The good news for enthusiasts is that Intel has no plans to step away from offering blistering‑fast chips with cutting-edge technology, despite all the focus on tablets and smartphones these days. Hallelujah.

Top Chips Compared

  Intel Core i7-2600K Intel Core i7-990X Intel Core i7-3960X AMD Phenom II X6 1100T AMD FX-8150
Clock 3.4GHz 3.46GHz 3.3GHz 3.3GHz 3.6GHz
Turbo Clock (Max) 3.8GHz 3.7GHz 3.9GHz 3.7GHz 3.9GHz (4.2GHz)
TDP 95 watts 130 watts 130 watts 125 watts 125 watts
Cores / Threads 4 /8 6 / 12 6 / 12 6 8
Volume Pricing $317 $999 $990 $205 $245
Process 32nm 32nm 32nm 45nm 32nm
Total L2 Cache 1MB 1.5MB 1.5MB 3MB 8MB
Total L3 Cache 8MB 12MB 15MB 6MB 8MB
Die Size 216mm2 240mm2 435mm2 346mm2 315mm2
Transistor Count 995 million 1.17 billion 2.27 billion 904 million 2 billion
Socket LGA1155 LGA1366 LGA2011 Socket AM3 Socket AM3+
Memory Controller  Dual Channel DDR3/1333 Tri-Channel DDR3/1066 Quad-Channel DDR3/1600 Dual Channel DDR3/1333 Dual Channel DDR3/1866

AMD Bulldozer

AMD Finally Catches Up, Sort of

AMD's newest CPU is perhaps the worst-kept secret in the industry. It seems like years ago that the company telegraphed the microarchitecture and garnered much attention. That's no surprise, as the chip code-named Bulldozer is considered AMD's first true CPU redesign since the original Athlon 64. Truth be told, there's also a lot hanging on the new chip, as many are wondering if AMD still has the mojo to go toe-to-toe with Intel's processors.

JUST WHAT IS A CORE?

The last year has seen a blurring of the lines regarding the definition of a core. Is it strictly x86? Do you count the integrated graphics portions? Adding to that Jack Daniel's blurred-and-slurred line is AMD's new Bulldozer. Officially named FX (in a throwback to the glory days of the Athlon 64 FX-51), the chip makes you wonder if what you thought was a core is still a core.

FX isn't made up of cores, but rather modules. Each module is built using two monolithic "cores." Each core has its own set of integer schedulers, pipelines, and L1 data cache. AMD says that compared to Intel's Hyper-Threading, which splits up the resources of a single core into two virtual cores, FX's design won't get as bogged down when it has to deal with multithreaded workloads. On an Intel chip with Hyper-Threading, the core really only has resources for one core, and multithreaded loads must take turns running if the code calls on the same portion of the chip. That's not the case with FX.


The FX is the first consumer eight-core CPU, and may even work in some AM3 boards with the proper BIOS.

But AMD didn't completely duplicate all the resources of a dual core in its module—a single floating-point unit services both of the cores in integer workloads. Why just integer workloads? AMD says it believes that's where most of the performance is to be made today.

AMD also says the modular design lends itself to higher performance when, say, a single-threaded workload is thrown at a single module. That's because the cores are so interconnected that if only one core is working, some of the second core's resources can be put toward that single-threaded workload.

AMD will launch four FX chips (two eight-core, one six-core, and a quad-core) ranging from $115 to $245. The company's top-end part is the FX-8150, which is made up of four dual-core modules on a single die. One potential performance issue AMD has already admitted could crop up on Windows 7 and older OSes is the scheduler inefficiencies. The scheduler should know to throw four threads at four different modules, instead of four cores on two modules for the highest performance. Unfortunately, Windows 7 and anything older isn't capable of determining how to load an FX for the utmost performance returns, AMD says. That may not happen until Windows 8 is released. Intel faced similar teething pains when Hyper-Threading was first released.

NEW MAX TURBO AND NEW INSTRUCTIONS

AMD first introduced Turbo modes with its hexa-core Thuban chips, aka Phenom II X6. With FX, the company has refined its Turbo even more with a new Max Turbo mode that, well, maxes out the overclock. On workloads that hit all cores, each one can be overclocked by 300MHz, to 3.9GHz. On lightly threaded workloads, half of the cores can go to sleep while the other half can clock up to 4.2GHz.

Elsewhere in the chip, AMD has brought the new CPU to instruction parity with Intel. The FX processors will have AES instructions to support acceleration of encryption and decryption workloads, and Advanced Vector Extensions (AVX), which Intel introduced with its Sandy Bridge lineup, is now also present. The old instruction-set wars still run hot, though, as the FX will support the Fused Multiply Add 4, or FMA4, instruction set. Intel, unfortunately, is only supporting FMA3 in its upcoming Ivy Bridge CPUs and has apparently canceled plans to support FMA4. This little standoff could cause problems with developers as to which instruction set they support and how they support it. Who is at fault? Most observers say both companies are playing games. Our standard guidance is to not sweat over new instruction sets, because by the time software support is there, the first chips to support it are usually so old that it's just easier to upgrade instead.

NEW CHIPS, SAME OLD SOCKET

There's one thing AMD gets right year after year—the same old socket. While Intel has shuffled through five sockets, AMD has pretty much stuck with just one. The only change has been to the electrical underpinnings in the AM3+ spec, which could render some AM3 boards incompatible. Still, it's expected that the AM3+ FX chips will drop into most late-model AM3 boards without incident (check with your motherboard vendor first, of course) and even better, the mounts for the coolers have remained the same, so you can reuse your exotic cooler.

In a nod to enthusiasts, AMD says all FX chips will be fully unlocked, giving overclockers an all-access backstage pass to faster speeds. With Intel's chips, only the K versions and Extreme Editions are fully unlocked. AMD has made overclocking a bragging point, too, and helped fund a team of overclockers to push an FX to 8.429GHz using liquid helium.

So where does Bulldozer stand? On paper, it looks like AMD has finally caught up—to some of Intel's Sandy Bridge chips, anyway. But what does it look like in benchmarks? For the answer to that, you'll have to read on.

Trinity and Beyond

AMD continues down the APU path

AMD's E-350, aka Zacate, was the sleeper hit of the year and completely sold out several times. The company's second Fusion part, Llano, is also forecast to sell well, with some reports saying the chip will equal 40 percent of AMD's total sales.

The message? While AMD has been unable to outdo Intel in the performance category for some time, its APU approach to the mainstream seems to be gaining traction. Next year, AMD will introduce a new CPU‑cum‑GPU, code-named Trinity, which it hopes will continue that trend.

The top-end Trinity will use a derivative of the FX core modules to create an eight-core chip with a new DirectX 11 GPU. Like FX, the chip will be fabbed on a 32nm process by Global Foundries. What's unfortunate is that AMD may pull an Intel and switch to a new socket called FM2, and it's not clear whether Trinity will be compatible with existing FM1 motherboards.

Despite the excitement over Trinity, AMD won't be giving up on the high end. The company has a very ambitious plan to increase the performance of FX chips over the next few years. In 2012, the company expects to release Piledriver. The year after that we'll see Steamroller, and the year after that Excavator.

Each iteration is expected to bring at least a 10–15 percent performance increase, the company says. AMD won't say what the microarchitecture changes are exactly, but that most of the performance should come from clock-speed bumps and other changes under the hood.


Let's Talk Sockets

A to-scale comparison of LGA2011, LGA1155, and AM3+


LGA2011
Yes, Intel's new LGA2011 is really that huge and even has two arms to lock it down. It has to be big, given all the memory channels and PCIe lanes it must support.

LGA1155
Surprisingly, Intel will stick with the LGA1155 socket through at least the new Ivy Bridge chipset next year instead of pushing it overboard.

AM3+
AMD's new AM3+ socket really just adds beefed-up voltage guidelines for board makers, so many late-model AM3 boards may work with the FX CPU.

Ivy Bridge Cometh

Bringing a 22nm process, 3d transistors, and more

Intel has a reputation as the master of the process, and that likely won't change early next year when the company introduces its new Ivy Bridge chip. The most significant aspect of Ivy Bridge is the move to a new 22nm process using 3D transistors. These transistors literally use three dimensions, and if Intel's bet pays off, could offer very significant power reductions and higher performance dividends on CPUs. Ivy Bridge itself is only considered a "tick," Intel speak for small step forward. That's describing the x86 side of the chip, which won't offer huge changes. On the GPU side, Intel says it will introduce a major step forward in graphics performance and add DirectX 11 and support for OpenCL. Ivy Bridge chips will also offer the ability for OEMs to dial thermal performance up or down (it's not known if end users can change this yet).

Ivy Bridge will also bring new FMA3 instructions, a new digital random number generator to enhance security, and improved power management. Also on tap is support for PCIe 3.0.

The really good news is that Ivy Bridge will be backward compatible with current LGA1155 motherboards. PCIe 3.0 won't be supported in all slots on all boards  (although some vendors say they're ready to go with PCIe 3.0) and will require a BIOS update to run. Paired with Ivy Bridge will be the new Panther Point, or 7-series, chipset that will finally bring native USB 3.0 to Intel CPUs.

Benchmarkapalooza

For our testing, we built four machines to test the various chips and tried to balance them as closely as possible. Each test station had a stock-clocked GeForce GTX 580, the same public Nvidia drivers, 64-bit Windows 7 Professional, and matching WD Raptor drives. Why not SSDs? We've seen occasional SSD performance variance among chipsets, leading us to believe that an HDD is the more reliable option for comparison. (We have, however, tested several of our benchmarks with current-gen SSDs to ensure they weren't being bottlenecked by disk I/O). One area where our configs diverged was in RAM, due to the channel differences. The dual-channel and quad-channel systems featured 8GB of DDR3/1600, while the tri-channel had 6GB of DDR3/1600. The difference is very unlikely to impact our benchmarks, as none cross the 6GB boundary.

For the Phenom II and FX-8150, we used an Asus Crosshair V Formula motherboard. With the FX-8150, we used a specific UEFI developed by Asus for testing, while a public UEFI was used with the Phenom II X6. The Core i7-2700K was tested with a Gigabyte GA-Z68X-UD3H-B3 board, the Core i7-990X with an Intel DX58SO2 Smackover 2 board, and the Core i7-3960X blew away everyone from the socket of a new Asus P9X79 Deluxe board.

And that's really the upshot of all this. In the Intel three-way showdown, we figured the Core 7-3960X would give us only a slight boost over the Core i7-990X. Instead, the newer hexa-core demolished its older sibling in just about every test. The 3960X really shined in multithreaded tests, with encoding taking 20 percent less time. Using Sony Vegas 10, we saw the 3960X kick out a 27 percent faster encode. 3D rendering saw increases from 13 to 27 percent. And that pesky Core i7-2600K, which occasionally beats the pricier 990X? The 3960X put it in its place in most of our tests or ran dead even with it. In actual per-core performance, Sandy Bridge and Sandy Bridge-E were about the same, but the extra cache, additional memory bandwidth, and four more threads make the 3960X not just a winner, but a decisive champ today. The Core i7-3960X is simply the fastest CPU we've ever tested and puts red meat back on the menu for PC enthusiasts.

That doesn't negate the value of the 2600K and new 2700K, though. Systems using those chips are far cheaper to build, offer more than enough performance, and have a solid upgrade path. So how do you pick? Generally, we're sticking to our recommendation that if you do 3D rendering, video editing, or other workstation tasks for a living, the 3960X is a must-have CPU. If you also find yourself encoding a lot of media, those extra cores are well worth it. However, if you primarily game and don't get paid by the hour to render video or perform other processing-intensive tasks that need the cores, the 2600K/2700K is still a killer value—for now. That's likely to change when Intel releases its quad-core version of the Sandy Bridge-E. If the part is price competitive, it might simply make more sense to build on that chip, which has a better upgrade path for an enthusiast.

And what about AMD? To be fair, we don't think the FX-8150 should be compared to the new 3960X or the 990X, as those chips cost four times as much. But what about the 2600K? Even there, the FX-8150 has a tough time and can get beaten pretty badly by Intel's second-fiddle Sandy Bridge. AMD actually thinks the eight-core FX-8150 is a better match with Intel's Core i5-2500/2500K parts (a 2600K with less cache and no Hyper-Threading). How meaningful that is really depends on how you view the glass. In one way, it's great that AMD finally has a part that is at least competitive with some of Intel's higher-tier Sandy Bridge CPUs. But seen differently, how good is it that after all this time and a major redesign, the best AMD can do with an octo-core CPU is compete with a cheaper Intel quad-core chip? We know that for people who only pay attention to core counts (like they did megahertz), the sound of eight cores is really appealing. But with GPU and CPU cores starting to blur, does it really matter how many "cores" you have? Just as we once had to keep in mind that a 2.13GHz Athlon XP could kick the crap out of a Pentium 4 clocked 1GHz faster, perhaps we have to stop looking at CPUs in terms of cores but instead look at, well, the model number.

It's not all downer news for AMD, though. We saw several signs of great performance with the new chip. Up against the Phenom II X6, the FX-8150 offers a serious boost in performance in several encoding tests. In fact, in many encoding tests where the Phenom II X6 is road kill, the FX-8150 offers, umm, Sandy Bridge-like performance. In fact, in our MainConcept test where we only do one-pass rendering, the FX-8150 mangles the vaunted 2600K. In other tests, such as POV Ray, Bibble, and HandBrake, the FX-8150 pulls pretty damn close, too.

As sad as some AMD fans will be that Bulldozer doesn't flatten Sandy Bridge, it's probably as close as AMD has been in some years.

Benchmarks
3.6 FX-8150 3.3 Phenom II X6 1100T 3.3 Core i7-3960X 3.4 Core i7-2600K 3.46 Core i7-990X
PCMark7 Score 2,838 2,828 3,662 3,450 3,332
PCMark7 Lightweight 2,222 2,311 2,681 2,612 2,496
PCMark7 Productivity 1,957 1,943 2,410 2,269 2,227
Cinebench 10 Single Core 4,080 4,128 6,363 6,011 5,176
Cinebench 10 Multi Core 20,277 18,735 35,638 23,315 28,019
Cinebench 11.5 5.97 5.87 11.35 6.84 9.13
POV Ray 4.7 (sec) 213.08 227.25 143.1 218.93 163
Bibble (sec) 136 176 103 137 116
Fritz Chess Benchmark 11,704 11,504 13,823 13,065 13,122
Intel Burn Test (Gflops) 63.1 29 152 89.7 72
Sony Vegas Pro 10 (sec) 3,193 4,382 1,900 2,752 2,429
ProShow Producer (sec) 1,171 1,610 856 1,043 1,037
MainConcept (sec) 902 1,492 551 1,120 663
CyberLink Espresso 6.5 CPU (sec) 429 420 293 379 316
CyberLink Espresso 6.5 Discrete GPU (sec) 412 414 287 329 333
CyberLink Espresso 6.5 QuickSync (sec) N/A N/A N/A 311 N/A
7-Zip 12 Threads (MIPS) 20,400 18,149 30,156 19,046 30,178
7-Zip Max Thread Load (MIPS) 20,773 17,952 30,156 19,288 30,178
wPrime 4-thread 469 373.8 301.5 349 318.1
wPrime 6-thread 357.07 256.6 202.3 293.1 215.3
wPrime 8-thread 293.7 260.5 184.5 248.3 200.8
wPrime 12-thread 328 277.2 148.5 271.2 165.5
HandBrake (sec) 345 383 234 336 283
Sandra (GB/s) 17.7 12.93 39.9 17.6 20.7
Valve Particle Test (fps) 108 119 299 179 243
Dirt 2 (fps) 120 70 187 189 188.4
Far Cry 2 (fps) 111.2 107.1 253 202.3 207.1
Unigine 2.5 (fps) 53.9 54.2 54.4 54.2 53.8
3DMark2011 Score 6,138 5,958 6,732 6,469 6,412
3DMark2011 GPU 6,167 6,118 6,154 6,186 6,045
3DMark2011 Physics 6,426 5,606 13,019 8,184 9,037
3DMark2011 Combined 5,569 5,412 6,602 6,671 6,547

Motherboards

Expect Big Changes in the Year Ahead

We wind down 2011 with the curtain falling on Intel's X58 chipset and LGA1366 socket. Many folks will lament the end of LGA1366, but the socket is now three years old. That's pretty good for Intel, which seems to measure its socket lifetimes in dog-to-human ratios. So, a 3-year-old socket for Intel is like a 9-year-old socket for AMD.

Replacing LGA1366 is Intel's new LGA2011 socket and the accompanying X79 chipset. A beast of a socket, LGA2011 supports enough pin-outs for four channels of RAM as well as the PCIe 3.0 connections that are now in the CPU core (see our write‑up on Sandy Bridge-E for the full skinny on PCIe 3.0). Storage fiends are sure to be disappointed with X79 motherboards. The X79 chipset was originally to ship with a bountiful 10 SATA 6Gb/s connections—yes, 10!—but in the end, all we get is the same peripheral controller hub layout as the P67 and Z68—two SATA 6Gb/s ports plus four SATA 3Gb/s ports. Board vendors are making up for the deficit by adding third-party controllers for SATA 6Gb/s drives.


Coming to your enthusiast system soon: Asus's new P9X79 Deluxe board using Intel's X79 chipset.

On the LGA1155 side, the good news is that your motherboard will survive the transition to Intel's Ivy Bridge chip. The bad news is that you may want to upgrade anyway. That's because early next year, Intel is expected to introduce its Panther Point chipset. Coupled with a new Ivy Bridge CPU, Panther Point will add an improved peripheral controller hub to improve performance and compatibility with some SSDs.  On the "what took so frakking long?" front, Panther Point will also finally offer native USB 3.0 on some ports. USB 3.0 functionality should also improve when Microsofts Windows 8 ships with a native USB 3.0 stack.

On the AMD side of the aisle, there isn't much news, except that the company will introduce a new FM2 socket with its Trinity APU. Trinity essentially updates the existing Llano chip with newer cores and an updated GPU. What's not known is if FM2 CPUs will be compatible with existing FM1 motherboards.

I/O

An Interface War is Brewing

PCIE 4.0

There's a lesson that everyone in the city of Los Angeles wishes its builders had taken to heart: You don't wait for congestion before you lay down new infrastructure—you do it before the roads are clogged with cars.

That's the mantra the PCI-SIG has followed, and the organization isn't stopping. Before PCIe 3.0 motherboards and cards have even hit the road, the PCI-SIG is working on PCIe 4.0. The problem will be in finding clever ways to scale the popular interface without making it a cost burden. With the move from PCIe 2.0 to PCIe 3.0, the PCI-SIG was able to double the effective speed by reducing overhead in the protocol. So, while PCIe 2.0 transfers data at five gigatransfers per second (GT/s), PCIe 3.0's transfer rate is 8GT/s, yet it doubled the bandwidth per lane from 500MB/s to 1,000MB/s.

Unfortunately, it's unlikely that PCIe 4.0 will see such a dramatic gain. The PCI-SIG hopes to keep the interface on copper instead of moving to optical, which is cost prohibitive today. PCI SIG is considering a pay-as-you-go model, where only high-end applications need implement the highest bandwidth. Don't fret that your PCIe 3.0 board will be replaced immediately. The PCIe 4.0 spec won't be finalized until 2012, and we'd expect it to take until 2013 or later for it to materialize on desktops.

The PCI-SIG is also continuing to move forward with a new external cable for PCI-SIG. The new cable could feature from one to four lanes, each capable of transfer from 2.5GT/s to 8GT/s. That would let a cable potentially transfer 4GB/s of data. At that speed, an external PCIe cable could give even Thunderbolt a run for its money.

THUNDERBOLT

And it's Thunderbolt that the PCI-SIG and others have their eyes on, too, as that spec continues to ease forward. Earlier this year at Computex, it was thought that the new X79 chipset would include native Thunderbolt support but it won't (although board vendors are free to add it). Intel, meanwhile, plans on releasing two new T-bolt controllers next year: Eagle Ridge and Light Ridge. The company will also release a controller called Port Ridge that will likely go into devices at the end of a Thunderbolt chain.

We're not sure if Thunderbolt is headed for victory or failure, but we do know that several motherboard vendors intend to integrate Thunderbolt controllers into next year's crop of boards as an extra feature.

USB 3.0

The USB Implementers Forum (USB-IF) is also active. The organization hasn't laid out any concrete plans to compete with Thunderbolt and it doesn't like to spar verbally with competing standards, but officials assure us that USB 3.0 and its future iterations can take on any competing standard in performance, and its ubiquity gives it the power to truly dominate.

That ubiquity could become even greater if the organization is successful at convincing notebook makers and other electronic device manufactures to support a universal, USB-based charging system. The idea is to use standard power bricks and Micro USB plugs to charge everything from digital cameras to external hard drives, laptops, and monitors.

Consumers could then recycle power bricks instead of throwing them into the landfill. The USB-IF says it can deliver from 2.5 watts to charge a phone up to 100 watts to power a monitor or laptop. The topology would allow you to power your laptop or phone from a monitor.

In performance, USB officials say the spec has plenty of speed left. Today's USB 3.0 operates at 5Gb/s and the protocol can easily surpass 25Gb/s. Again, we don't know who will win this battle, but we know that the PCI-SIG and USB-IF don't intend to simply roll over and let Thunderbolt take over.

Storage

HDDs Speed Up, SSDs Hit Ceilings

HARD DRIVES

With solid-state drives already pushing the limits of 6Gb/s SATA, and the price per gigabyte of SSDs dropping rapidly, how will mechanical drive vendors make traditional storage more appealing—aside from its still-killer price/capacity ratio? According to Seagate's Joni Clark, we can expect to see more hybrid drives toward the end of 2011 and into 2012, starting with Seagate's second-gen Momentus XT, with a 750GB capacity and 8GB of NAND cache. DIY hybrids, like the ones offered by Intel and OCZ, will continue as well, while other disk makers could introduce on-disk hybrids to compete with Seagate's.

On the desktop side, expect 1TB/platter drives to become standard in 2012, enabling one-platter 1TB drives and four-platter 4TB drives early in 2012, with a few 5TB drives here and there. From there, drive sizes will stay the same for a while until the tech for higher areal density improves and drive makers focus on speed. Seagate already announced that it's dropping 5,400rpm and "green" drives from its lineup and focusing exclusively on 7,200rpm drives. Our sources indicate that desktop hybrid drives—perhaps 1TB drives with 16GB of NAND for caching—could arrive in 2012, as well.

SSDS

It took years to hit the 3Gb/s SATA throughput limit, but SSDs are already close to saturating the 6Gb/s spec, which has barely reached mainstream adoption. So where do they go from here? Expect drives with second-gen SandForce controllers to continue shipping through 2012, joined by other 6Gb/s controllers. Samsung has already launched its 6Gb/s controller, and Indilinx (bought by OCZ in 2011) has released the Everest 6Gb/s SATA controller, which for now is mostly powering Ultrabook-style devices. Look for SSD vendors and controller companies to continue to refine 6Gb/s performance, especially in metrics like random reads and writes and sustained writes.

Speaking of Ultrabooks: Intel's vision for ultraportable computing requires SSDs, and lots of 'em, in new form factors. mSATA and the just-announced SATA µSSDs, as well as 7mm 2.5-inch drives, will become common, if not as common as 9.5mm 2.5-inch drives.

PCIe SSDs, like OCZ's RevoDrive series, will continue to be a small part of the market, and will offer one way to bypass the 6Gb/s SATA bandwidth limit, but will eventually be supplanted by SATA Express.

SATA Express and SATA µSSD

In August 2011, the Serial ATA International Organization (SATA-IO) announced two new SATA specifications for tablet devices and desktops, respectively. SATA µSSD provides a connectorless SATA specification for tablets and ultraportables. Rather than use the familiar SATA connectors, a SATA µSSD is soldered directly to the motherboard and uses a ball‑grid array package to pass SATA commands to the SSD. This connectorless spec will allow smaller, faster SSDs to be used in tinier devices.


Concept drawings for SATA Express suggest that some connectors could accept either PCIe or SATA.

SATA Express, on the other hand, is designed to overcome the bandwidth limitations of 6Gb/s SATA without replacing 6Gb/s SATA with another spec. SATA Express uses the PCIe interface but with SATA software commands. The specification is still being worked on, but concepts we've seen show both PCIe/SATA combo connectors and dedicated SATA connectors that use the PCIe form factor and pin-outs. SATA Express will allow 8Gb/s and 16GB/s connections.

Both SATA Express and SATA µSSD are scheduled to appear in the second half of 2012, but since neither specification is due to be finished until the end of 2011, there's a chance neither will appear in 2012 at all.


Ultrabooks

The Everyman's Macbook Air

According to Intel, 40 percent of all consumer laptops sold next year will be Ultrabooks. In fact, the company has staked $300 million on it. That's the figure behind Intel's Capital Ultrabook Fund, which goes to companies that develop hardware and software technologies to enhance the Ultrabook experience.

So what is an Ultrabook? By Intel's own definition, it's a notebook that's no more than 21mm (or .83 inches) thick; that features at least five hours of battery life, but preferably as much as eight hours (as measured by MobileMark 2007); that can resume power from hibernation in seven seconds or less using Intel's Rapid Start technology; and that exposes hardware features for Intel's Anti-Theft and Identity Protection technology in the BIOS/firmware.


Acer's 13.3-inch Aspire S3 is a half-inch thick, weighs less than three pounds, features a Core i5 CPU, a 320GB HDD, and a 20GB SSD, and costs $900.

The cornerstone of the Ultrabook experience, however, is an Intel CULV processor. The category will launch at the end of 2011 with second-gen Sandy Bridge CPUs, but it's expected to really take off when Ivy Bridge CPUs are released in 2012. Intel believes that the combined power efficiency and performance capabilities of its low-voltage procs with integrated graphics—when packaged in a sleek, highly portable form factor—will make Ultrabooks a compelling alternative to tablets.

Of course, another very important factor to the Ultrabook equation is price. After all, no one is going to pass over a $200 (thanks, Amazon!)–$500 tablet in favor of a $1,300 thin-and-light, no matter how capable or energy efficient it might be. That's why Intel is strongly encouraging its OEM partners to price their Ultrabooks below $1,000. At that price point, Intel believes, consumers can be swayed by value.

Price, however, is not a requirement for the Ultrabook designation. And indeed, at least a couple of the early models slated for 2011 release appear to be priced at over a grand. Lenovo's U300s, for example, is expected to retail at $1,200 for the base model (1.6GHz Core i5-2467M and 128GB SSD) and $1,600 for the step up (1.6GHz Core i7-2657M and 256GB SSD). Pricing for Toshiba's upcoming Z830 Ultrabook has yet to be announced. But with Acer's Aspire S3 debuting at $900, we might see price pressure come to bear on future models.

As Intel sees it, a ramp up in production, the development of new, focused technologies (à la that $300 million fund), and the performance enhancements of Ivy Bridge could make Ultrabooks the must-have mainstream device of 2012.

Tablets

We Need More Power!

In the span of nine months, 2011's tablet SoC of choice, the Nvidia 1GHz dual-core Tegra 2, has gone from blazing to blasé. Expect 2012 to be the year of the quad-core tablet. As early as February of this year, both Nvidia and Texas Instruments had announced the early stages of their quad-core mobile chip development.

Nvidia's Project Kal-El uses Variable Symmetric Multiprocessing (vSMP) and promises tantalizing benefits, such as lower power consumption, higher performance per watt, faster website load times, console-quality gaming, faster multitasking, etc. It packs four ARM Cortex 9 CPUs, a fifth companion core for low-power operation, and a 12-core GPU onto one chip. CoreMark benchmark results showing roughly double the performance from a Tegra 2 to Kal-El were run with 1GHz cores in the Kal-El. We expect those cores to clock in at 1.5GHz when the Kal-El hits production smartphones and tablets.


Nvidia's quad-core Project Kal-El SoC adds a fifth "companion" CPU to handle low-power and background tasks, such as email syncs and social media updates.

TI's quad-core OMAP 5 touts similar benefits and will comprise two ARM Cortex-A15 cores (up to 2GHz) and two slower ARM Cortex-M4 cores.

Typical 10-inch Android tablet display resolutions of 1280x800 will no doubt ramp up next year. Fusion Garage CEO Chandra Rathakrishnan thinks the resolutions may double the present number of total pixels, and Ted Theocheung, VP of the PC division at Synaptics, believes tablets will gravitate to full 1080p resolution (1920x1080) as early as 2012 or as late as 2013.

However, too much added resolution increases the price of the display, power consumption, and processor load. Dr. Raymond Soneira of DisplayMate Technologies says, "A good technical and marketing compromise for tablet resolution is 200ppi. For the 10.1-inch Android tablets, 1792x1120 works out to 209ppi."

Soneira adds that the first tablets with OLED displays should debut in 2012, although at high-end prices. Meanwhile, high-performance in-plane switching (IPS) LCDs like those in the iPad 2 and Kindle Fire will become the norm as manufacturers forsake the inferior STN LCDs seen on the Motorola Xoom and Acer Iconia.

Theocheung brings further good tidings, saying that tablets will become thinner. "The removal of a discrete touch sensor will help reduce the thickness," he says, "allowing the overall stack-up of the traditional touch sensor module to shrink down to as thin as 0.55mm." Theocheung's work with Microsoft also foretells of new multitouch breakthroughs in Windows 8 that will allow slate computers to perform full-time finger tracking of up to 10 fingers, whereas most current models top out at five.

"The whole spectrum of hardware innovation that you see in the PC space will be carried over to the tablet world," Rathakrishnan predicts.

Graphics

Will GPUs Inside CPUS Take Over the Entry Level?

Prices on graphics cards have seen massive cuts in the past few months. While that's great for gamers looking to upgrade, it's also a sign that new GPUs are on the horizon. When are we likely to see next-generation GPUs and graphics cards?

PROCESS PERILS

That's a tough question for several reasons. One of the key manufacturers of GPU chips, TSMC, is prepping its next-generation 28nm manufacturing process, which is likely online now. Demand has been extremely high, though, forcing the company to hike prices, and thus pushing back shipments of 28nm GPUs.

That said, AMD demonstrated its 28nm next-generation GPU at its Fusion 2011 event in Taiwan in October. And a leaked mobile GPU roadmap indicates that AMD products will ship in early 2012 for mobile applications. The AMD 7000-series desktop graphics cards will also likely make an early 2012 appearance.

RAMBUS RETURNS?

What's interesting about AMD's new architecture is a greater emphasis on compute capabilities. While the 6000 series was no slouch on the compute front, that GPU design wasn't as tuned for compute as Nvidia's Fermi architecture. AMD's goal is to share the same memory space as the CPU, making it easier for software developers to write apps that utilize the GPU—although the 7000 series may not quite hit that target. The other interesting tidbit leaked recently is that AMD might be using RAMBUS XDR2 memory, running at up to 8,000MHz effective throughput.

There is some confusion about the process technology. One leak showed early 7000-series GPUs being built on the existing 40nm technology. This isn't unprecedented; the Radeon HD 6970 was originally targeted for 28nm, but ended up shipping on 40nm. Whatever process technology is used, the lowest-end card to show up on any roadmap is a Radeon HD 7950. More on that in a moment.

Nvidia is also busy as a bee, prepping its next-generation graphics cards based on its Kepler architecture. It's looking like the first samples of Kepler GPUs are on track for a late 2011 delivery to Nvidia. That means a late winter or early spring 2012 ship date for retail cards, at best. Like AMD's new GPUs, Kepler will be built on 28nm. Nvidia's been fairly quiet about Kepler, unlike its openness regarding Fermi, so little is actually known about features. Kepler is likely to be a significant enhancement to Fermi, but not a complete architecture redesign.

So it's likely we'll see midrange and high-end graphics cards in the first quarter of 2012. Meanwhile, entry level graphics are going through a quiet revolution.

THE FATE OF ENTRY LEVEL

Part of that is AMD's push for Fusion. We've already seen the first Fusion APUs from AMD, and while the traditional x86 CPU performance is somewhat anemic, the GPU is clearly stronger than any previous integrated GPU. Offering up to 400 Radeon GPU cores, the GPU inside the higher-end 3800 series APUs gives a tantalizing glimpse into the future of PC graphics.

For its part, Intel made gains with the Intel HD Graphics on Sandy Bridge, particularly on the video side. When Ivy Bridge debuts in early 2012, expect the CPU itself to be an incremental improvement, but graphics to be significantly improved, offering full DirectX 11 support, double the compute horsepower, and greater bandwidth. Ivy Bridge will likely be "good enough" for entry level gamers.

High-end gamers, of course, will still want to add a discrete graphics card, but mainstream users may not need additional GPU horsepower. Intel has hinted that Ivy Bridge's GPU will run OpenCL and DirectCompute applications entirely on the GPU cores, which would be a significant departure for an Intel GPU.

PREP YOUR WALLETS

So, yes, if you're looking to upgrade, prices are very attractive for current-generation cards, but it might pay to hold off until new midrange and high-end graphics cards from both AMD and Nvidia partners arrive, certainly by spring of 2012. After all, every time we think that GPUs have gotten fast enough, games like Deus Ex: Human Revolution and The Witcher 2 come along that crush current-card performance.

Looking Forward

The PC of 2013

Now you know what the PC is likely to look like in 2012, but what kind of rig will enthusiasts be rocking in 2013? To figure it out, we gaze into our crystal ball. We suspect LGA2011 motherboards will remain the platform of choice. By then, Intel should have introduced Ivy Bridge-E. We suspect that the thermal savings from the switch to 22nm will help Intel get the eight-core version of Ivy Bridge within reasonable thermal limits.

By 2013, DDR4 will still be in gestation, so we don't think our machines will yet sport the next-gen memory. We do, however, suspect that RAM prices will have come down drastically. So, while a fully loaded Sandy Bridge-E machine might pack 32GB of RAM—eight 4GB modules—(for just $200), a 2013 Ivy Bridge-E rig might pack 64GB—eight 8GB modules—at proportionate pricing.

By 2013, PCIe 3.0 GPUs will have long been available, but we won't even hazard a guess as to which brand—AMD or Nvidia—will be on top. SSD's will have grown, but will be bottlenecked by SATA 6Gb/s, still. By then, it's possible prices will have dropped so you can get a 480GB SSD for $250, though. HDD space will remain static at roughly 5TB, which it will hit in 2012.

Gordon Supercomputer is World's First with All-Flash Storage

Posted: 12 Dec 2011 01:00 PM PST

When we first heard about San Diego's Gordon supercomputer, we envisioned a spunky thirty-something with a near endless database of PC knowledge and a custom program designed for epic rants. But then we remembered that's our own Gordon Mah Ung. Surprisingly, no one has named a supercomputer after intrepid Deputy Editor (yet), but San Diego did name one after Flash Gordon, an appropriate namesake since it's the world's first supercomputer to rely entirely on flash memory for storage chores.

"Think of Gordon as the world's largest thumb drive, but with the capability to ingest about 220 movies per second from Netflix, or consume the entire catalog of about 100,000 Netflix movies – while still having room for another 200,000 titles. That's a lot of popcorn," San Diego's Supercomputer Center (SDSC) explains. "On a more scientific note, Gordon will have the ability to hold 100,000 entire human genomes in its flash memory system."

The secret sauce is obviously in Gordon's flash storage system, which SDSC claims is capable of handling massive databases while providing up to 100 times faster speeds when compared to hard drive disk systems. Gordon's storage capacity currently sits at 4 petabytes, which makes up the bulk of the $20 million, five-year grant from the National Science Foundation.

Imge Credit: Alan Decker for SDSC

Gordon was recently ranked as among the top 50 fastest supercomputers in the world in terms of speed or doing pure math, SDSC says. When it launches on New Year's day, it will have 16,384 compute cores and a theoretical peak perforamnce of 340 teraflops per second, Wired reports.

Netflix Investors Giddy with Verizon Buyout Rumor

Posted: 12 Dec 2011 11:59 AM PST

Netflix shareholders haven't been thrilled with Netflix's direction the past few months. After announcing a spin-off of its DVD-by-mail rental business and higher prices for streaming and DVD services combined, subscribers raged until Netflix reversed course on severing its DVD arm, but the company didn't relent on recent price hikes. It's been paying a price in subscriber losses ever since. Enter unhappy investors, though talk of Verizon taking over the streaming service has them smiling once again.

Shares of Netflix stock jumped by as much as 6 percent today after a report surfaced from DealReporter suggesting Verizon is thinking about buying the streaming and DVD rental service, CNet says.

We already know Verizon is interested in streaming media, and in addition to launching its own service, the wireless communications company also looked at buying Hulu, CNet reports. Verizon appears motivated in becoming a player in the streaming sector one way or another, but what isn't known is how motivated Netflix would be to sell, even after all that's happened recently.

Chrome Web App of the Week: Bastion

Posted: 12 Dec 2011 11:40 AM PST

bastionAs any gamer with access to Xbox Live will tell you, Supergiant Games' sleeper hit Bastion is worth both your time and your money. After winning the hearts of console gamers the world over, as well as a boatload of awards, the title is available to Chrome browser users, thanks to the magic of Google's Native Client, which allows developers to port x86 games natively into Chrome. As awesome as it is, we couldn't help but make Bastion our Chrome Web App of the Week.

Free to try and $14.99 to buy, Bastion offers a browser-based gaming experience that stands head and shoulders about anything else currently available in the Chrome Web Store. A role-playing action game set in a calamity-filled future, Bastion pits players against a wide variety of foes spread across over 40 beautifully hand-painted environments. While the baddies may far outnumber you, you'll be able to even up the odds through the use of a number of upgradeable weapons.  

Where Bastion for Xbox Live was at times, mercilessly difficult, Supergiant Games saw fit to go easy on players for their Chrome-based release of the title and have added a 'No-Sweat Mode' to the game that allows players to die horribly and continue as many times as they need to in order to finish the game to it's awesome, well designed end.

Without a doubt, Bastion is one of the best titles on offer for Chrome users, and will set the bar for what browser-based gaming can be for some time to come.  

Be sure to check back with us every Monday for another edition of Maximum PC's Chrome Web App of the Week. 

 

Researchers Create World's First Programmable Quantum Photonic Chip

Posted: 12 Dec 2011 11:39 AM PST

You know that game that mimes play, where they mimic your every action, pretending to be a mirror? Well, if we're ever going to get down and dirty with some true quantum computing, scientists are probably going to have to teach photons to pull mime impressions en mass. A complex process called quantum entanglement makes it so any changes that happen to one particle happens to others as well; harnessing that power is the theoretical key to quantum computing. Now, researchers from the University of Bristol have created the world's first fully programmable photon-entangling silica chip, which could be a major step towards true quantum processing.

The 70mm by 3mm chip uses several tiny channel guides and eight electrodes (as illustrated in the picture above) to move, manipulate, measure and entangle photons (i.e., particles of light). The electrodes can be configured to various settings, which produces different quantum states. It's basically a computer chip that pushes light rather than traditional data.

According to PhysOrg.com, experiments for each of those separate quantum states "would each ordinarily be carried out on an optical bench the size of a large dining table." Creating a single device that is capable of running those multiple experiments –and squeezing it onto a small chip that could easily be fit into a standard desktop PC – is quite the accomplishment, indeed. Just ask Peter Shadbolt, the lead author of the study and a member of the University of Bristol Team that created the programmable quantum chip.

"It isn't ideal if your quantum computer can only perform a single specific task", he told PhysOrg.com. "We would prefer to have a reconfigurable device which can perform a broad variety of tasks, much like our desktop PCs today—this reconfigurable ability is what we have now demonstrated. This device is approximately ten times more complex than previous experiments using this technology. It's exciting because we can perform many different experiments in a very straightforward way, using a single reconfigurable chip."

AMD Plans Ultrabook Competitor, Don't Call Them 'Ultrathins'

Posted: 12 Dec 2011 11:34 AM PST

Reports are popping up all over the Web saying AMD is working on an Ultrabook concept of its own, an ultra-thin and light form factor just like Intel's, but obviously built around AMD's own platforms. It was even reported AMD had picked out a name for its new form factor -- 'Ultrathins' -- but don't go calling them that, AMD apparently has something else in mind.

News of AMD's so-called Ultrathins first broke on The Australian's website (paywall, unfortunately), where it was reported AMD might unveil its first super slim notebooks based on Fusion APUs as early as January 2012. That's true, or at least AMD has yet to deny the report, but the name of the form factor isn't correct.

"AMD doesn't have any plans for 'Ultrathin' as a label," Australia's PC Authority reports. "We have had it confirmed by an AMD spokesperson that when AMD's Country Manager, Brian Slattery, used the term ultra-thin he was referring to form factor."

Whatever it ends being called, it will be AMD's answer to Intel's Ultrabook initiative, and perhaps more importantly for Windows fans, a low-cost alternative to Apple's MacBook Air. Intel's hardware partners have had a tough time staying under $1,000 for new Ultrabook models (though not without exceptions), but that should prove a piece of cake for AMD, which aggressively competes at the entry- and mid-level markets.

Iamge Credit: AMD

Plextor Unveils High Speed M3 Series SSDs with Five Year Warranty

Posted: 12 Dec 2011 11:10 AM PST

Anyone who's been around PCs for a length of time remembers when Plextor had a reputation for building top-shelf optical drives. For the most part, they were fast performing and reliable, and of course more expensive than your average bargain-bin burner. Plextor still sells optical drives, but like everyone else, the company also dabbles in solid state drives. The company's newest SSD product is the M3 Series with "True Speed" technology and a comparatively lengthy 5-year warranty.

Plextor's M3 Series drives are built around the latest generation Marvell 88SS9174 controller chip and a SATA 6Gbps interface. There are two capacities to choose from:

  • 128GB: Up to 510MB/s sequential read, 210MB/s sequential write, 70,000 4KB IOPS random read, 50,000 4KB IOPS random write
  • 256GB: Up to 510MB/s sequential read, 360MB/s sequential write, 70,000 4KB IOPS random read, 65,000 4KB IOPS random write

Plextor claims its True Speed technology allows its M3 Series drives to maintain peak performance over extended periods of time.  Combined with 24nm toggle NAND flash memory from Toshiba and "thorough factory testing an conditioning," Plextor is confident enough in its drives to back them with a 5-year warranty.

The M3 drives will ship later this month with no decision yet made on price.

Image Credit: Plextor

MMO News

MMO News


8Realms Press Preview

Posted: 12 Dec 2011 06:27 PM PST

Most people who think of online game publisher Jagex think of the classic MMORPG RuneScape. Others may think of War of Legends, Jagex's first browser-based strategy game, developed by Ultizen. In a colorful corner of the web, Jagex has also been developing its own twist on the MMORTS: 8Realms. MMOHut were among the few to get early access to this newcomer to the market.

8realms_hi_gary

8Realms began our rule with a challenge: overturning a barbarian invasion of your village. We're greeted by Gary, a dusty looking villager with a bright yellow 'Here to Help' sign pinned to his chest. That's reassuring. After putting out the fires – what appears to be a one-time task – we begin expanding our little territory in earnest.

Like many other strategy games, resource management and production is key. Some of our first tasks (instructed by Gary and a helpful "task board" that points the way on our development) are straightforward: build a farm, a logging camp, a quarry, and get resources rolling in. On certain "first time" achievements, we're also rewarded with a special scroll, often with a comical animation, that teaches us a little more about the game's mechanics.

8realms_fantastic_harvest

We're also directed to begin research, once we've built a Library. Like classic strategy games, the thinkers of our society are waiting to research new technology for us. Some of these technologies unlock new buildings or military unit types; others increase our production, town happiness, and more.

Looking at the Library pane, we'd noticed that research is divided into ages. Indeed, each little empire may evolve, Civilization style, from the rudimentary technology of "Ancient" civilization, all the way into the speculative technology of the "Future" civilization. An hourglass in the top-middle of the screen keeps track of our civilization's progress through each stage. Once full, we can choose from among seven wonders to build around our capital.

8realms_research_agriculture

What is noticeable about each civilization change isn't just new technologies. The game's user interface shifts to reflect the civilization's new knowledge, from changing the appearance of the buildings in the village to shifting the user interface to match the period. Even the map, we noticed, changed from the rudimentary and simple map of the Ancient World, to a grid-based map, simply from our first civilization upgrade.

Shifting up through the stages, however, we also found the challenge level began to increase. By the time we shifted into the Classical era, Gary was gone and our only guide to what to do next was in our task list. However, we ran into a few snags along the way: our gold coffers ran dry (with no clear indication of what was costing us money, or how to tip the scale back in our favor), we ran out of construction slots while our tasks asked us to build more; and we discovered some things on our own, such as how to go settle a new piece of land.

8realms_classical_age

Still, for a strategy game in closed beta, 8Realms already shows a lot of polish. It combines a unique, playful environment with the classic elements of a browser-based strategy game. There's little to complain about besides a lack of guidance, which we're positive will come around as the game emerges further from development. With an interesting twist of realm choice, trading, and resource capturing, 8Realms is a title definitely worth keeping an eye on.

Drakensang Online announces new expansion

Posted: 12 Dec 2011 03:34 PM PST

Bigpoint has announced that Drakensang Online, which has almost reached the two million registered user mark, will get a major update just before Christmas.

The update, called the Norlande expansion, will add new quests, levels, monsters, champions, items, and equipment to the game, letting players explore over a dozen new levels worth of content. Players will also discover a new class, the Rangers. These archers will utilize a new skill system that improves skill use and gameplay.

Bigpoint also hints that they will also be doubling the number of skills for each c lass and adding high-level Skill Trees in the next few months as part of their update plan.

Bigpoint also publishes Seafight and Lord of Ultima.

drakensang_nordlande005

Drakensang Gameplay Screenshot

Source:

Since its open beta launch in August this year, Drakensang Online has already garnered nearly 2 million registered users.

New major content releasing just before Christmas, (with images attached):

  • The NORLANDE expansion update is bringing several new quests, more than a dozen new levels, numerous monsters and champions, new bosses, and new character items and equipment to the game.
  • New Third Class – Rangers! Rangers are very agile archers, but also pack a punch. The Rangers will be accompanied by a whole new skill system that makes skills easier and better to use, and significantly improves gameplay.

·         In the coming months, we'll be doubling the number of skills in each class – also, higher level players will have access to Skill Trees that will be implemented. This will really allow players to individualize and customize their characters and player styles.

The Lord of the Rings Online releases Update 5

Posted: 12 Dec 2011 12:55 PM PST

The last update of 2011 has arrived for adventurers in The Lord of the Rings Online.

Update 5 introduces a new addition to the Epic Storyline. Players must seek out Prince Théodred to help defend Rohan against the armies of Saruman. The game also has introduced the Instance Finder, which lets players find groups for instances and skirmishes, including rewards for participating in randomly-selected instances.

Finally, a group of five new instances in Isengard make their debut: Dargnákh Unleashed, Fangorn’s Edge, Pits of Isengard, The Foundry, and the Tower of Orthanc.

The Lord of the Rings Online is published by Turbine, which also publishes Dungeons and Dragons Online.

The Lord of the Rings Online: Update 5 Screenshots

Source:

Update 5: Armies of Isengard

Face the Terrible Armies of Orthanc and Defend the Kingdom of Rohan in the Final Update of 2011!

New With Update 5:

The Prince of Rohan

The Epic Story continues! Aid Prince Théodred as he endeavors to keep the forces of Saruman from entering his homeland, the Kingdom of Rohan. Report to Théodred's camp and help prepare his troops for the trials to come against the armies of Isengard.  The Ford of Isen, the gateway to Rohan, must be held at any cost!

Instance Finder

Now you can quickly jump into new Rise of Isengard instance content with old friends or meet new ones through the LOTRO Instance Finder! You will also earn additional rewards as you complete randomly-selected instances and skirmishes through the Instance Finder.

The Rise of Isengard Instance Pack

Begin the assault on Saruman's stronghold through five new instances culminating in a confrontation with Saruman himself!

·         "Dargnákh Unleashed"

Enlist as part of a covert mission to sabotage the inner workings of the Isengard war machine.  Cause widespread destruction by turning a wild troll against its would-be masters and uncover clues about Saruman's nefarious plan taking shape within the shadows of Orthanc!

·         "Fangorn's Edge"

Scout out and disrupt one of Saurman's lumber operations on the outskirts of Fangorn forest.  Eliminate Uruk foresters and guards and contend with their violent overseer but beware for when Fangorn forest is involved not everything is as it seems!

·         "Pits of Isengard"

Descend into a forgotten laboratory in the caverns beneath Orthanc where twisted experiments still roam.  Face terrible abominations, discarded as Saruman endeavored to perfect the monstrous Uruks.  Make haste as you delve deeper into the pits and discover the truth about Saruman's plans!

·         "The Foundry"

Powerful and mysterious weapons have been appearing in the hands of soldiers under Saurman's command.  Infiltrate the Foundry, the sprawling subterranean heart of Saurman's war effort, and disrupt the supply of the dangerous weapons to deal a fateful blow to Isengard!

·         "The Tower of Orthanc"

Saruman of Many Colours has been laboring for far too long within Isengard, unimpeded and unseen.  What terrible plan has he set in motion?  Swing wide the gates of Orthanc and enter the dangerous and shadowy tower to confront the powerful traitor himself.  Gather together your eleven most powerful allies and steel your resolve for, should you fail, all hope may be lost!

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