The Haswell Review: Intel Core i7-4770K & i5-4670K Tested
by Anand Lal Shimpi on June 1, 2013 10:00 AM ESTThe Launch Lineup: Quad Cores For All
As was the case with the launch of Ivy Bridge last year, Intel is initially launching with their high-end quad core parts, and as the year passes on will progressively rollout dual cores, low voltage parts, and other lower-end parts. That means the bigger notebooks and naturally the performance desktops will arrive first, followed by the ultraportables, Ultrabooks and more affordable desktops. One change however is that Intel will be launching their first BGA (non-socketed) Haswell part right away, the Iris Pro equipped i7-4770R.
| Intel 4th Gen Core i7 Desktop Processors | ||||||
| Model | Core i7-4770K | Core i7-4770 | Core i7-4770S | Core i7-4770T | Core i7-4770R | Core i7-4765T |
| Cores/Threads | 4/8 | 4/8 | 4/8 | 4/8 | 4/8 | 4/8 |
| CPU Base Freq | 3.5 | 3.4 | 3.1 | 2.5 | 3.2 | 2.0 |
| Max Turbo | 3.9 (Unlocked) | 3.9 | 3.9 | 3.7 | 3.9 | 3.0 |
| Test TDP | 84W | 84W | 65W | 45W | 65W | 35W |
| HD Graphics | 4600 | 4600 | 4600 | 4600 | Iris Pro 5200 | 4600 |
| GPU Max Clock | 1250 | 1200 | 1200 | 1200 | 1300 | 1200 |
| L3 Cache | 8MB | 8MB | 8MB | 8MB | 6MB | 8MB |
| DDR3 Support | 1333/1600 | 1333/1600 | 1333/1600 | 1333/1600 | 1333/1600 | 1333/1600 |
| vPro/TXT/VT-d/SIPP | No | Yes | Yes | Yes | No | Yes |
| Package | LGA-1150 | LGA-1150 | LGA-1150 | LGA-1150 | BGA | LGA-1150 |
| Price | $339 | $303 | $303 | $303 | OEM | $303 |
Starting at the top of the product and performance stack, we have the desktop Core i7 parts. All of these CPUs feature Hyper-Threading Technology, so they’re the same quad-core with four virtual cores that we’ve seen since Bloomfield hit the scene. The fastest chip for most purposes remains the K-series 4770K, with its unlocked multiplier and slightly higher base clock speed. Base core clocks as well as maximum Turbo Boost clocks are basically dictated by the TDP, with the 4770S being less likely to maintain maximum turbo most likely, and the 4770T and 4765T giving up quite a bit more in clock speed in order to hit substantially lower power targets.
It’s worth pointing out that the highest “Test TDP” values are up slightly relative to the last generation Ivy Bridge equivalents—84W instead of 77W. Mobile TDPs are a different matter, and as we’ll discuss elsewhere they’re all 2W higher, but that is further offset by the improved idle power consumption Haswell brings.
Nearly all of these are GT2 graphics configurations (20 EUs), so they should be slightly faster than the last generation HD 4000 in graphics workloads. The one exception is the i7-4770R, which is also the only chip that comes in a BGA package. The reasoning here is simple if perhaps flawed: if you want the fastest iGPU configuration (GT3e with 40 EUs and embedded DRAM), you’re probably not going to have a discrete GPU and will most likely be purchasing an OEM desktop. Interestingly, the 4770R also drops the L3 cache down to 6MB, and it’s not clear whether this is due to it having no real benefit (i.e. the eDRAM functions as an even larger L4 cache), or if it’s to reduce power use slightly, or Intel may have a separate die for this particular configuration. Then again, maybe Intel is just busily creating a bit of extra market segmentation.
Not included in the above table are all the common features to the entire Core i7 line: AVX2 instructions, Quick Sync, AES-NI, PCIe 3.0, and Intel Virtualization Technology. As we’ve seen in the past, the K-series parts (and now the R-series as well) omit support for vPro, TXT, VT-d, and SIPP from the list. The 4770K is an enthusiast part with overclocking support, so that makes some sense, but the 4770R doesn’t really have the same qualification. Presumably it’s intended for the consumer market, as businesses are less likely to need the Iris Pro graphics.
| Intel 4th Gen Core i5 Desktop Processors | ||||||
| Model | Core i5-4670K | Core i5-4670 | Core i5-4670S | Core i5-4670T | Core i5-4570 | Core i5-4570S |
| Cores/Threads | 4/4 | 4/4 | 4/4 | 4/4 | 4/4 | 4/4 |
| CPU Base Freq | 3.4 | 3.4 | 3.1 | 2.3 | 3.2 | 2.9 |
| Max Turbo | 3.8 (Unlocked) | 3.8 | 3.8 | 3.3 | 3.6 | 3.6 |
| Test TDP | 84W | 84W | 65W | 45W | 84W | 65W |
| HD Graphics | 4600 | 4600 | 4600 | 4600 | 4600 | 4600 |
| GPU Max Clock | 1200 | 1200 | 1200 | 1200 | 1150 | 1150 |
| L3 Cache | 6MB | 6MB | 6MB | 6MB | 6MB | 6MB |
| DDR3 Support | 1333/1600 | 1333/1600 | 1333/1600 | 1333/1600 | 1333/1600 | 1333/1600 |
| vPro/TXT/VT-d/SIPP | No | Yes | Yes | Yes | Yes | Yes |
| Package | LGA-1150 | LGA-1150 | LGA-1150 | LGA-1150 | LGA-1150 | LGA-1150 |
| Price | $242 | $213 | $213 | $213 | $192 | $192 |
The Core i5 lineup basically rehashes the above story, only now without Hyper-Threading. For many users, Core i5 is the sweet spot of price and performance, delivering nearly all the performance of the i7 models at 2/3 the price. There aren’t any Iris or Iris Pro Core i5 desktop parts, at least not yet, and all of the above CPUs are using the GT2 graphics configuration. As above, the K-series part also lacks vPro/TXT/VT-d support but comes with an unlocked multiplier.
Obviously we’re still missing all of the Core i3 parts, which are likely to be dual-core once more, along with some dual-core i5 parts as well. These are probably going to come in another quarter, or at least a month or two out, as there’s no real need for Intel to launch their lower cost parts right now. Similarly, we don’t have any Celeron or Pentium Haswell derivatives launching yet, and judging by the Ivy Bridge rollout I suspect it may be a couple quarters before Intel pushes out ultra-budget Haswell chips. For now, the Ivy Bridge Celeron/Pentium parts are likely as low as Intel wants to go down the food chain for their “big core” architectures.
For those interested in the mobile side of things, we’ve broken out those parts into a separate Pipeline article.
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bji - Monday, June 3, 2013 - link
+10 false dichotomy. Look it up.kenjiwing - Saturday, June 1, 2013 - link
Any reviews comparing this gen to a 980x??Ryan Smith - Saturday, June 1, 2013 - link
It's available in Bench.http://www.anandtech.com/bench/Product/836?vs=142
owikh84 - Saturday, June 1, 2013 - link
4560K??? Not 4770K & 4670K?karasaj - Saturday, June 1, 2013 - link
4670K is the Haswell equivalent of a 3570K.hellcats - Saturday, June 1, 2013 - link
I read with some concern that the TSX instructions aren't going to be available on all SKUs. This is the main thing that I've been looking forward to on Haswell! Not providing the capability across the family is reminiscent of the 486SX/DX debacle. TSX could be huge for game physics as it would allow for far more consistent scaling. I know it is supposed to be backwards compatible, but what's the point of coding to it if it isn't always there?zanon - Saturday, June 1, 2013 - link
Agreed, TSX is one of the most interesting parts of Haswell so I'm sorry not to see it get more discussion. And as you say (and like with VT-d or other tech) I think Intel is being stupid and self-defeating by trying to make it an artificial differentiator. Unlike general basics of a chip such as clock rate, cache, hyperthreading or raw execution resources these sorts of features are only as valuable as the software that's coded for them, and nothing kills adoption amongst developers like "well maybe it'll be there but maybe not." If they can't depend on it, then it's not worth spending much extra time with and tremendously limits what it can be used for. That principal shows up over and over, it's why consoles can typically hold their own for so long. Even though on paper they get creamed, in reality developers are actually able to aim for 100% usage of all resources because there will never be any question about what is available.For features like this Intel should aim for as broad adoption as possible, or what's the point? They can differentiate just fine with pure performance, power, and physical properties. Disappointing as always.
penguin42 - Saturday, June 1, 2013 - link
Agreed! I'd also be interested in seeing performance comparisons with a transactionally optimised piece of code.Johnmcl7 - Saturday, June 1, 2013 - link
Definitely, I was a bit puzzled reading the review to find barely a mention of TSX when I thought it was meant to be one of the ground breaking new features on Haswell. Even if there was only a synthetic benchmark for now it would be extremely interesting to see if it works anything like as well as promised.John
bji - Sunday, June 2, 2013 - link
TSX is so esoteric in its applicability that I think you'd be very hard pressed to a) find a benchmark that could actually exercise it in a meaningful way and b) have any expectation that this benchmark would translate into any actual perceived performance gain in any application run by 99.999% of users.In other words - TSX is only going to help performance in some very rare and obscure types of software that "normal" users will never even come close to using, let alone caring about the performance of.
However I am intruiged by your speculation that TSX will be beneficial for physics simulation, which I guess could translate to perceivable performance increases for software that end users might actually use in the form of game physics. I found a paper that described techniques for using transactional memory to improve performance for physics simulation but it only found a 27% performance increase, which is not exactly earth shattering (I wouldn't call it "huge for game physics" personally).