We've already had some hands-on time with Bloomfield, Intel's high-end Nehalem part (officially named Core i7). But we know that not everyone's going to make the jump on board this new platform when it's released later this year. Bloomfield pricing hasn't been announced yet, but we expect it to be in the high-end enthusiast range -- ie. only affordable for price un-conscious buyers.
For mainstream system builders, Intel's solution will be Lynnfield, a socket 1160 CPU that'll have its own motherboard configuration. Lynnfield processors will be incompatible with X58 motherboards sporting socket 1366 -- though Intel assured us that they won't phase out the Bloomfield platform once Lynnfield is released in Q1 of next year (unlike what happened with AMD's socket 940 platform). Another difference: Lynnfield's motherboard will run two-channel DDR 3 memory, as opposed to the highly-touted tri-channel setup in Bloomfield.
We were lucky enough to snap up a few spy shots of an early Lynnfield motherboard, shown below:
Can you spot the differences between a Lynnfield and Bloomfield motherboard? Take a closer look after the jump.
Intel is currently busy renovating its Classmate notebook by adding a few cool features. The diminutive notebook will receive more than a trivial facelift as the revamped version will feature a touch-screen and tablet functionality. That is not all, the notebook will now feature an Intel Atom – it currently employs a Celeron M with a primeval clock speed of 900 MHz. The Classmate PC is primarily designed for students, especially in emerging countries. The Classmate PCs that run on different Linux versions or Windows XP Professional are produced and marketed by OEMs and not Intel.
ViewSonic’s VX2240w is unwatchable at its factory default setting—the screen’s brightness is cranked beyond the point of acceptable image quality. Fortunately, we were able to tweak the display’s settings to produce an image that was at least similar in quality to the Gateway HD2201’s. While the VX2240 matched the HD2201 tit for tat in its ability to produce lighter shades of gray on a solid white background, the former exhibited better color saturation in the lighter shade levels.
We control the horizontal; we control the vertical after the jump.
How the world turns. Mention overclocking ten years ago at IDF and a Pinkerton would escort you off the show floor to a room where three Intel engineers would beat you with old Pentium Pro motherboards. Today, Intel is actually actively promoting overclocking, but big blue is calling it Turbo Mode.
Turbo Mode is just one of the several groundbreaking features in Nehalem, but it’s also certainly one of the most head-turning. But how exactly does it work and how do you control it? Walk with us as we decode Intel’s Turbo Mode, show you how you’ll set it up in the BIOS (with first photos), and tell you what you should expect from your next heatsink.
Want to take a look at the Nehalem BIOS? Of course you do.
DreamWorks Animation and Intel announced at IDF that, beginning next year, films under the DreamWorks banner will all be in next-gen 3D. Last month, the studio had announced that it was going to replace its AMD hardware with Intel’s future chips with multi-processing cores. Now it has been confirmed that Intel’s upcoming Larrabee (codename) graphics chip will form the crux of the partnership. The two partners even unveiled a 3-D movie image brand called InTru 3D. The technology is also targeted at the video games industry and the internet. AMD has also been touting its Cinema 2.0 tech that it claims will pulverize the wall between movies and games.
We don't like taking on the role of enforcer, nor do we like bullying those ill equipped to defend themselves. But sometimes, for the greater good of all involved, as PC users we feel obligated to step in and lay the smack down when our Mac brethren come asking for it. In a way, we feel like Billy Madison did when he told a bunch of first graders "Now you're all in big, big trouble" before proceeding to pummel them in dodgeball.
We want to like this monitor, but too many issues stand in the way.
In DisplayMate, Gateway’s HD2201 consistently reproduced dark grayscale values, pushing out more dark shades of gray against a black background than we typically find from monitors of its class. The same can’t be said of the HD2201’s merely average ability to reproduce light shades of gray against white.
What's standing in this monitor's way? Find out after the cut.
Intel adds a few processors and drops a few prices this month in it’s CPU line up. There doesn’t appear to be any shakeups from Intel’s expected plans.
Intel's Core 2 Extreme Quad Core line remains unchanged, but in the standard line, the Q9650 joins the line up at the top, while the Q9550 drops 40% from $530 to the Q9450 previous level of $316. The Q9400 is also new, and enters at the same price as the Q9300 and Q6700 (a 65nm process CPU) at $266.
The only other prices changes were in the Xeon line, with the new X3370 coming out and the X3360 dropping 40% to $316.
All prices are in 1000 tray units.
We will certainly see more changes when Intel ships Bloomfield sometime in Q4.
Planar’s PL2210MW display is a classic representation of your average 22-inch display—a 6-bit TN panel that bears the mediocre image quality of that class. In DisplayMate, the 1680x1050 display’s grayscale range was acceptable, although it fell apart at the light end in both the grayscale test and when the screen was tasked with producing very light colors against a white background.
Full review after the jump! Or the bump. Possibly the bjump.
Tom’s Hardware reports that Intel will demonstrate Hynix’s just announced 16GB 2-rank DDR3 DIMM at this year’s IDF. This comes on the heels of Elpida Memory’s 16GB FB-DIMM in DDR2 flavor that I covered a few weeks ago.
Hynix’s new DDR3 DIMM uses MetaRAM’s DDR3 MetaSDRAM technology letting manufacturers pack four times the amount of mainstream DRAM onto these sticks and still be a drop in solution, using the standard DIMM power and thermal envelope.
Intel will also demonstrate a server with 160GB using Hynix DDR3 R-DIMMs and Meta SDRAM technology in the Advanced Technology Zone.
DDR3 MetaRAM is similar to the previous generation of DDR2 technology that enables significantly more memory in a server. An added benefit of the DDR3 MetaRAM technology is that enables larger memory capacity without negatively impacting the operating frequency of the DDR3 memory channel. It is the only technology that has been demonstrated to run 24GB of DDR3 SDRAM in a channel at 1066 million transactions per-second (MT/s). Using 3 of 16GB DIMM, users can achieve 48GB per channel running at 1066 MT/s, while other competing solutions max out at 16GB per channel at 1066MT/s.
I thought we’d never have machines using Vista’s (Ultimate and Business) 128GB RAM limit in it’s lifetime, but perhaps there is hope! If you have deep pockets you could fill the average 4 slots in an enthusiasts machine with 64GB of RAM. It most likely would be overkill. Wouldn’t it be interesting to see what the performance stats would look like?