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CPU ID screen shot of "Yorkfield" at 2.33 GHz  (Source: DailyTech)

Intel "Yorkfield" ScienceMark 2 L2 cache performance  (Source: DailyTech)
DailyTech managed to snag a quad-core "Yorkfield" for a few quick benchmarks

Benchmarks of Intel’s Penryn based dual-core Wolfdale have appeared a couple times in the past month. The early benchmarks tested engineering sample processors and showed Wolfdale, on average, performing 5 percent faster, clock for clock then Conroe. However, benchmarks of the quad-core Yorkfield are virtually non-existent to the public.

Intel’s Yorkfield is not a native quad-core design. As with Kentsfield, Yorkfield features two dual-core dies fused together. The design results in each pair of cores having access to its own pool of shared L2 cache. Since Penryn has more cache, each pair of cores has access to 6MB of L2 for a total of 12MB – up from the 4MB per pair and 8MB total of Kentsfield.

In addition to the increased cache size, Penryn features a faster 24-way associative L2 cache, which cuts off a few clock cycles. Kentsfield has an 16-way associative L2 cache.

Penryn
also features new SSE4 instructions catered towards multimedia tasks. SSE4 introduces 47 new instructions to improve performance of video accelerators, graphics building blocks and streaming load. Intel claims a 2x performance gain in video acceleration tasks. There are 14 new instructions for video accelerator performance enhancement. Intel improves compiler auto-vectorization performance with 32 new instructions.

Intel expects SSE4 optimizations to deliver performance improvements in video authoring, imaging, graphics, video search, off-chip accelerators, gaming and physics applications. Early benchmarks with an SSE4 optimized version of DivX 6.6 Alpha yielded a 116 percent performance improvement due to SSE4 optimizations.

Also new to Penryn is the Super Shuffle Engine. Intel’s Super Shuffle Engine allows for shuffling unpacking, packing, align concatenated sources, wide shifts, insertion and extraction, and setup for horizontal arithmetic functions. Intel claims a “2x faster SSE shuffle instruction execution,” according to earlier briefing documents.

Although Yorkfield uses a 45nm fab process and consumes less power, Intel plans to stick to its existing 95 Watt and 130 Watt thermal design power ratings.

DailyTech previously presented quick and dirty benchmarks of AMD’s 1.6 GHz Barcelona processor last June. Today, DailyTech has a few quick and dirty benchmarks of Intel’s quad-core Yorkfield Core 2 processor, in an LGA775 package.

The testing configuration is as follows:
  • Intel Core 2 Extreme QX6700 @ 2.33 GHz, 1333 MHz front-side bus
  • Intel Yorkfield 2.33 GHz, 1333 MHz front-side bus
  • Intel P35 Express based motherboard
  • 2x1GB DDR3-1333 memory
  • AMD ATI Radeon HD 2600 XT
Since Intel does not have a 2.33 GHz Kentsfield processor, a Core 2 Extreme QX6700 is used. The Core 2 Extreme QX6700 has an unlocked multiplier, which allowed us to clock it at 2.33 GHz with a 1333 MHz front-side bus.

 SiSoft Sandra XII CPU-Arithmetic
MIPS

Kentsfield
2.33 GHz
Yorkfield
2.33 GHz
ALU
43003
43299
FPU
29981
34693

 SiSoft Sandra XII CPU Multimedia
MIPS

Kentsfield
2.33 GHz
Yorkfield
2.33 GHz
ALU
257295
256216
FPU
140055
140301

 SiSoft Sandra XII Memory Bandwidth
MB/s

Kentsfield
2.33 GHz
Yorkfield
2.33 GHz
ALU
6639
7124
FPU
6639
7121

Synthetic benchmarks do not really reveal too much of a performance difference between Kentsfield and Yorkfield. However, SiSoft Sandra XII does not contain SSE4 optimizations yet.

Unlike AMD, Intel relies on an off-chip memory controller. Although AMD achieves low latencies with its integrated memory controller, Intel manages the same feat with a northbridge-installed controller. Intel managed to offset the latencies associated with off-die memory controllers with increased L2 cache. Yorkfield’s additional L2 cache and speedier 24-way associative L2 cache yields an approximate memory bandwidth boost of 7 percent.

 Cinebench 10 Performance
CB-CPU

Kentsfield
2.33 GHz
Yorkfield
2.33 GHz
Single
2400
2582
Multithread
8518
9206

 DivX 6.6
Time

Kentsfield
2.33 GHz
Yorkfield
2.33 GHz
Seconds
12.90
11.80

Cinebench 10 yields an approximate 8 percent boost in single and multithreaded rendering. Encoding a video file into DivX also yields a similar 8 percent performance boost.

Overall, with our limited time with Yorkfield, performance of the quad-core processor is roughly 8 percent faster clock for clock than Kentsfield. However, this is expected as Yorkfield is essentially a 45nm die shrink of Kentsfield with a few tweaks here and there.

Expect Intel to begin shipping Yorkfield in mass quantities in Q1 2008. Quad-core Xeon X5400 Harpertown processors, which are somewhat similar to Yorkfield, will ship in November.


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RE: Not bad
By JumpingJack on 8/24/2007 1:24:20 AM , Rating: 3
Wes -- it is not clock for clock that matters exclusively, what matters is both clock for clock and clock itself.

Yorksfield will scale up to higher frequency, and it is a huge question mark if AMD can make up the IPC, exceed the IPC and get a clock that will offer a performance exceeding part.... if not, then Intel sets the price and AMD is no better off than they were with K8.

It is a big question mark, which will have it's answer within the next few months... the suspense is amazing.


"Let's face it, we're not changing the world. We're building a product that helps people buy more crap - and watch porn." -- Seagate CEO Bill Watkins

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