Monday, November 12th 2007

Intel Launches 16 45nm Penryn Based Processors

Built using an entirely new transistor formula that alleviates the wasteful electricity leaks that threaten the pace of future computer innovation, Intel Corporation today unveiled 16 server and high-end PC processors. In addition to increasing computer performance and saving energy use, these processors also eliminate eco-unfriendly lead and, in 2008, halogen materials.

Called the biggest transistor advancements in 40 years by Intel Co-Founder Gordon Moore, the processors are the first to use Intel's Hafnium-based high-k metal gate (Hi-k) formula for the hundreds of millions of transistors inside these processors. These Intel Core 2 Extreme and Xeon processors are also the first to be manufactured on the company's 45-nanometer (nm) manufacturing process, further boosting performance and lowering power consumption.

Combining these two advancements with new processor features enables Intel to continue delivering faster and more energy-efficient processors that are better for the environment. The breakthroughs clear the path for Intel to design products that are 25 percent smaller than previous versions and, thus, more cost-effective, as well as the ability next year to pursue new ultra mobile and consumer electronics "system on chip" opportunities.

"The intellects, physics and designs that went into solving one of the industry's most daunting challenges are awe-inspiring and I congratulate the Intel teams for this breakthrough achievement," said Paul Otellini, Intel president and CEO. "Best yet, this feat, coupled with our industry-leading architectures, means faster and sleeker computers, longer battery life and better energy efficiency. Our objective is to bring consumers a new class of computers delivering a full Internet experience in ever-smaller, more portable form factors."

The new 45nm (a nanometer is 1 billionth of a meter) processors boast nearly twice the transistor density of previous chips built on the company's 65nm technology - that is up to 820 million transistors for quad-core processors, each using Intel's new formula.

New High-End Desktop Processor
The Intel Core 2 Extreme QX9650 quad core processor, the world's first 45nm Hi-k desktop processor, delivers more of the adrenaline that hardcore gamers and media enthusiasts demand. Enhancements such as a larger L2 cache and support for new Intel SSE4 media instructions help bring desktop performance to "extreme" new levels.

"One of our goals was to optimize Crysis in order to deliver the ultimate quality, bringing mind-blowing game play to the latest hardware," said Dr. Douglas Binks, R&D manager, Crytek. "With the new 45nm Hi-k Intel Core 2 Extreme processors, we use multi-core technology to enable physics, particle effects and audio on separate cores, helping Crysis to create an astounding gaming experience."

Family of 45nm Server Processors; World-Record Speed
New to the Intel line-up of server processors are 15 server dual-core and quad-core 45nm Hi-k Intel Xeon processors. The 12 new quad-core chips boast clock speeds ranging from 2GHz up to 3.20GHz, with front side bus speeds (FSB) up to 1600MHz, and cache sizes of 12MB. The three new dual-core chips feature clock speeds of up to 3.40GHz, an FSB of up to 1600MHz, and cache sizes of 6MB.

The 45nm Hi-k Intel Xeon processors are compatible with server platforms using the Intel 5000 chipset family. In addition, Intel is launching three platform solutions to support 45nm processors, including:
  • The Intel 5400 chipset-based platform (previously codenamed "Stoakley") that is optimized for high-bandwidth applications such as high-performance computing (HPC).
  • The Intel 5100 Memory Controller Hub chipset and Intel ICH-9R I/O controller (previously codenamed "Cranberry Lake"). These are cost-optimized solutions that support either one or two processors and also provide reduced power consumption using native DDR2 memory.
  • The Intel 3200 chipset-based platform (previously codenamed "Garlow") that is specifically designed for single-processor entry servers.
The 45nm Hi-k Quad-Core Intel Xeon processor 5400 series sets a number of world records on key industry-standard benchmarks. A HP Proliant DL380 G5 Server sets a new TPC-C mark with a score of 273,666 tpmC and an SAP-SD record with a score of 2449 SD-Users. A Dell PowerEdge 2950 server running BEA JRockit JVM delivered a record-breaking SPECjbb2005 result of 303130 BOPS. Dell also sets a new virtualization performance record on VMmark benchmark running VMWare ESX Server with a score of 8.47 at 6 tiles. Using a PRIMERGY RX300 S4 Server, Fujitsu-Siemens set a new SPECint_rate2006 record with a score of 138.

Additionally, the 5400 series chipset-based platform with 1600 MHz Front Side Bus sets new world records on key high-performance computing and bandwidth-intensive benchmarks including the SPECfp_rate2006 benchmark that measures floating point throughput performance. World records were also achieved in key HPC benchmarks, including Fluent, LS-Dyna, SPECOMP2001 and Abaqus. For detailed system and testing information on these and other performance benchmarks, visit www.intel.com/performance/server/xeon/summary.htm.

Intel's 45nm Hi-k Xeon processors also extend performance-per-watt leadership by delivering an improvement of 38 percent1 over its previous-generation Quad-Core Xeon 5300 Series processors.

The move from 65nm to 45nm involves more than just a shrink of current chip designs. The processors include such additional features as new Intel Streaming SIMD Extensions 4 (SSE4), which are 47 new instructions that speed up workloads including video encoding for high-definition and photo manipulation, as well as key HPC and enterprise applications. Software vendors supporting the new SSE4 instruction set include Adobe, Microsoft and Symantec.

Additional processor performance enhancing architectural features include:
  • Enhanced Intel Virtualization Technology -- Virtual machine transition (entry/exit) times are improved by an average of 25 to 75 percent through hardware with no changes to software required.
  • Fast Division of Numbers - A fast divider roughly doubles the speed over previous generations for computations used in nearly all applications through a technique called Radix 16. The ability to divide instructions and commands faster increases a computer's performance.
  • Unique Super Shuffle Engine -- By implementing a wider 128-bit shuffle unit, performance significantly improves for SSE-related instructions that have shuffle-like operations. This feature will increase performance for content creation, imaging, video and high-performance computing.
Pricing of the 45nm Hi-k Intel Xeon processors depends on the model, speeds, features and amount ordered, and ranges from $177 to $1,279 in quantities of 1,000. The 45nm Hi-k Intel Core 2 Extreme QX9650 quad core processor is priced at $999 in quantities of 1,000. Depending on the model, these processors are available today or within 45 days. Further information is available at www.intel.com/pressroom/kits/45nm.
Source: Intel
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15 Comments on Intel Launches 16 45nm Penryn Based Processors

#2
hat
Enthusiast
Looks good for Intel, bad for AMD.
Posted on Reply
#4
Deleted member 3
Random Murderertoo bad they oc for crap.
Like you have any experience with that, I doubt you base that statement on anything.
These are cost-optimized solutions that support either one or two processors and also provide reduced power consumption using native DDR2 memory.
This is what got my attention, haven't heard of this before.
Posted on Reply
#5
Random Murderer
The Anti-Midas
DanTheBanjomanLike you have any experience with that, I doubt you base that statement on anything.
check this out.
Posted on Reply
#6
Deleted member 3
Random Murderercheck this out.
Your link is about Yorkfield ES's on current desktop chipsets. The news is about Stoakley, ie Harpertown on Seaburg chipsets (which is a new chipset). Even though the CPU's are comparable, the chipsets are not. Seeing the current Woodcrests/clovertowns the lower end parts overclock pretty far even though there is no support for it from the BIOS. So concluding that they "OC for crap" isn't exactly correct.
Posted on Reply
#7
tkpenalty
Random Murderercheck this out.

Moderator edit: watch your words!
Yes, but you do realize, the CPUs do indeed hit fast speeds in comparison to the older Conroes/Allendales. Its not the CPU that sucks at overclocking, its just that the motherboards can't really do much. Anyway, 470FSB is nothing to be wailing about, honestly, a majority of P35 boards these days hit those speeds with ease. Those CPUs are due to be released by the time we have northbridge solutions that can cope with the clockpeed and bandwidth requirements anyway!
Posted on Reply
#8
Random Murderer
The Anti-Midas
tkpenaltyYes, but you do realize, the CPUs do indeed hit fast speeds in comparison to the older Conroes/Allendales. Its not the CPU that sucks at overclocking, its just that the motherboards can't really do much. Anyway, 470FSB is nothing to be wailing about, honestly, a majority of P35 boards these days hit those speeds with ease. Those CPUs are due to be released by the time we have northbridge solutions that can cope with the clockpeed and bandwidth requirements anyway!
right, but a quad takes much more voltage through the mch to to achieve the same oc of a dual core, due to the fact that a quad utilizes twice the bandwidth.
Posted on Reply
#9
Deleted member 3
Random Murdererright, but a quad takes much more voltage through the mch to to achieve the same oc of a dual core, due to the fact that a quad utilizes twice the bandwidth.
Power comes from the VRM's, not from the MCH. However it is true that quads are a bigger load for the northbridge than dual or singles. However this has nothing to do with what you said about them being crap overclockers, they are no different from other quads. And like tk said it's more of a chipset issue, which might or might not apply to Seaburg.
Posted on Reply
#10
WarEagleAU
Bird of Prey
I guess we will find out when the procs are released. Early specs hint at great potential but its true, quads are harder to gain a higher oc than say dual or single procs.
Posted on Reply
#11
Random Murderer
The Anti-Midas
DanTheBanjomanPower comes from the VRM's, not from the MCH.
i know that, i was saying you need to raise the voltage of your chipset.
DanTheBanjomanHowever it is true that quads are a bigger load for the northbridge than dual or singles. However this has nothing to do with what you said about them being crap overclockers, they are no different from other quads. And like tk said it's more of a chipset issue, which might or might not apply to Seaburg.
my point is this: the guys on xs and [H] have had these chips for a while now and have tried overclocking them on many, many different boards with various chipsets and they have all had a lot of trouble getting a respectable overclock out of them.
Posted on Reply
#12
Deleted member 3
Random Murderermy point is this: the guys on xs and [H] have had these chips for a while now and have tried overclocking them on many, many different boards with various chipsets and they have all had a lot of trouble getting a respectable overclock out of them.
Yes, the s775 counterparts, and not on Seaburg, which this news is about.
Posted on Reply
#13
Random Murderer
The Anti-Midas
DanTheBanjomanYes, the s775 counterparts, and not on Seaburg, which this news is about.
malwareNew High-End Desktop Processor
The Intel Core 2 Extreme QX9650 quad core processor, the world's first 45nm Hi-k desktop processor, delivers more of the adrenaline that hardcore gamers and media enthusiasts demand. Enhancements such as a larger L2 cache and support for new Intel SSE4 media instructions help bring desktop performance to "extreme" new levels.
:toast:
Posted on Reply
#14
hat
Enthusiast
Oh come on. I've seen Q6600's here go up to 4.1gig and past as an absolute maxium OC, they scoff then you give them 3.6 for every day clocks. I doubt these will be much different, if not better.

@Dan--What's Seaburg?
Posted on Reply
#15
kwchang007
Random Murdereri know that, i was saying you need to raise the voltage of your chipset.

my point is this: the guys on xs and [H] have had these chips for a while now and have tried overclocking them on many, many different boards with various chipsets and they have all had a lot of trouble getting a respectable overclock out of them.
Probably because bioses are still being ironed out. Look at Tom's hardware's review (yeah yeah they used unlocked multiplier) but one of the boards refused to boot with a 45 nm....that says something about the bios.
Posted on Reply
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