Exclusive PC Advisor tests show that PCs equipped with Intel's new Core 2 Duo processors, code-named Conroe, set new high marks for desktop performance – they're the fastest we've seen by far. With this chip line, due to be formally launched on 27 July, Intel decisively reclaims the power desktop crown from competitor AMD.
Surprise surprise… they're fastest ever
In our WorldBench 5 processing-speed test suite, Intel's Core 2 Duo reference system outscored a matching system equipped with AMD's high-end Athlon 64 FX-62 chip by 17 percent. We also tested shipping PCs based on several chips in the Core 2 Duo family, including a water-cooled, overclocked ABS machine that posted a mark of 181 on our WorldBench 5 test – the highest WorldBench score we've ever seen. Look out for full reviews in the September 06 issue of PC Advisor, on sale from Thursday 20 July.
All of our Core 2 Duo configurations performed impressively, and the higher-end models in particular should allow power users to handle demanding multimedia work on their PCs more quickly and to perform multiple computing tasks at once more efficiently. Gaming, too, will receive an impressive boost from systems equipped with the new chips.
Though its new products are good news for users, things are different for some Intel employees, as the company announced the layoff of 1,000 management employees today.
The Core 2 Duo line
The Core 2 Duo processor line ranges from the 1.86GHz E6300 chip with 2MB of cache to the 2.93GHz Core 2 Extreme X6800 chip with 4MB of cache; all have a 1,066MHz system bus. (Intel leaves the 'Duo' designation off of its X6800 CPU.)
Though Core 2 Duo chips use the same Socket 775 interface as current Pentium 4 and Pentium D chips, they require new chipsets, so you'll have to get a new motherboard – you can't just pop a Core 2 Duo chip into your existing Intel-based PC and reap the tremendous performance gains. The Core 2 Duo reference systems we tested used a motherboard with Intel's 975X Express chip set (boards using the P965 Express chip set will also be available). nVidia and ATI have their own Core 2 Duo boards as well.
The new processors and systems will be on sale from various vendors beginning 27 July, with some configurations of Core 2 Duo machines checking in at surprisingly reasonable prices.
Power to spare
Our motherboard Core 2 Duo test setup consisted of an Intel 975X Express board, 2GB of DDR2-667 memory, a pair of Sata hard drives configured in a striped array, and an nVidia GeForce 7800GT-based graphics card. We swapped first a 2.93GHz Core 2 Extreme X6800 chip and then a 2.67GHz Core 2 E6700 chip into that setup to generate scores we could compare directly to an otherwise identically configured system featuring AMD's new DDR2-capable AM2 platform and its top-of-the-line FX-62 processor.
Both of the Intel setups bested the AMD-based system on every test in our WorldBench 5 suite as well as on every one of our gaming tests. The improvement on WorldBench 5's multitasking tests, which involve running a web browsing session in Mozilla while encoding a file with Windows Media Encoder, was particularly dramatic. You'll also see notable gains in Photoshop and similar graphics applications.
More test details
The Core 2 Extreme X6800 reference system logged a score of 160 on WorldBench 5, 17 percent higher than the 137 turned in by the corresponding system using AMD's Athlon 64 FX-62. And the PC using the less expensive E6700 chip managed a score of 153 on WorldBench – still 12 percent better than the FX-62 PC's mark.
In addition to our lab-built systems, we tested several vendor-supplied PCs. For example, Dell's XPS 700, a high-end system based on the 2.67GHz Duo E6700 processor, came with 2GB of RAM, an nVidia GeForce 7950 GX2 Dual-GPU graphics board with 1GB of SDRAM, and two 320GB Sata hard drives in a Raid 0 array. That system (whose price includes a 24in wide-screen monitor) also earned a score of 153 on WorldBench 5, well ahead of the 142 posted by the previous top scorer, a 2.6GHz AMD Athlon 64 FX-60-based Xi system.
But even those notable scores paled in comparison to the performance of the overclocked system that ABS sent us. The water-cooled ABS Ultimate X9 – which shipped with 2GB of RAM, a pair of Radeon X1900 Crossfire graphics boards, two superfast Western Digital 150GB Sata drives configured in a striped Raid array, and a Core 2 Extreme X6800 chip overclocked from 2.93GHz to run at 3.5GHz – turned in a WorldBench 5 score of 181. Obviously, this system is not a likely choice for typical buyers, but its score is by far the highest we've seen from a shipping system. And it may indicate how much headroom Intel's Core microarchitecture possesses.
It's unlikely that ABS could have wrung such impressive overclocking performance out of its Core 2 Extreme system if Intel hadn't put a lot of effort into reducing power consumption in the Core microarchitecture.
Intel's previous generation of Pentium Extreme Edition chips drew up to 135W of power. The Core 2 Extreme X6800 draws only 75W, according to Intel's thermal-design specification; and the more mainstream Core 2 Duo parts bump that number down to 65W. As a result, ABS had the headroom to dramatically overclock its system. Moreover, the design should enable system vendors to build high-performance PCs in smaller, quieter cases.
Intel developed its Core microarchitecture from the ground up, focusing on multiple CPU cores, high performance, and low power consumption – there's a lot of technology packed onto its 65nm die. Using lessons learned in building its successful Pentium M mobile CPUs, Intel first improved its mobile line and released the Core Duo CPUs. Then the company set out to strengthen the performance of its desktop chips, while dramatically reducing their power consumption. For example, when your PC is sitting idle or running just a few simple applications, the Core 2 Duo can clock down or shut off parts of its logic to conserve power.
Much of Core 2 Duo's performance advantage over its Pentium predecessors comes from an additional execution unit on each CPU core. (Core 2 Duo chips have four such units per CPU core versus the Pentium D's three per core.) The additional unit per core, plus some clever coding that lets the chip fuse common groups of instructions into single instructions, allows Core 2 Duo chips to outperform Pentium D chips that run at higher clock speeds
A staggering 4MB of L2 cache keeps the higher-end Core 2 Duo chips supplied with the data they need in order to run at full speed, and Intel has carefully tuned their prefetching algorithms, which preemptively cache the appropriate data before the CPU needs it.
While most dual-core chips, including AMD's Athlon 64 line and Intel's Pentium D CPUs, dedicate a certain amount of cache to each CPU core, the Core 2 Duo provides shared access to its entire 4MB of cache. And the chip can distribute that cache between its cores as needed. If one core is churning away at a particularly complex task, it can use most of the L2 cache, while the other core runs a simple task that demands less cache memory.
Intel has produced a winner with its Core Duo 2 design; and for the first time in years, the company holds a clear performance advantage over its longtime rival, AMD. But while the short-term performance picture may look bleak for AMD, don't count the company out.
AMD plans to introduce aggressive price cuts this month and, later this year, it will launch 4x4, an enthusiast platform that enables systems to use a pair of high-end dual-core chips. Although applications and games capable of taking full advantage of multiple CPU cores are rare as yet, we expect the performance – and price – of 4x4 systems to be quite high.
Looking further into the future, AMD will open up its HyperTransport bus, allowing other companies to design specialised coprocessors and accelerators and drop them onto the same superfast bus that AMD uses to shuttle data between the CPU, RAM, and other key components in a system. Such coprocessors could be built into a CPU package for multisocket systems or designed as add-in boards for a new slot type dubbed HTX.
This initiative, which AMD is calling Torrenza, will debut on the server side, where multisocket systems are already common and where specialized processors could accelerate Java code or database operations. Desktop and gaming applications are farther away; but if demand is high enough, Torrenza-based physics or graphics coprocessors could appear in the next few years.
Ultimately, however, while 4x4 and Torrenza are interesting technologies, neither is likely to have a large mainstream impact. AMD's true answer to Core 2 Duo will arrive in 2007, when it is scheduled to launch its next-generation CPU architecture, dubbed 'K8L'. K8L and single-chip quad-core processors will be compatible with 4x4 motherboards, according to AMD.
In the meantime, no matter what their budget, demanding PC users have a high-performance option in the Core 2 Duo line, which should keep their processor-intensive applications humming along.