Well, today is a day that everyone was expecting but not the most exciting day of the month. Today, Intel officially releases the spate of 7-series chipsets for their 3rd generation Core microarchitecture processors (read—Ivy Bridge), despite the actual release of the processors being another three weeks away. This means that today we can actually look at, test, or purchase the range of motherboards that natively support Ivy Bridge. However, we can’t officially publish all the benchmarks for these products using Ivy Bridge until that date three weeks away (to be honest, we are still testing!). So today we are going to have a good in depth look into the Z77 chipset itself, and the review products we have received to let you know what we think looks good. All these boards today will be fully reviewed, warts and all, with Ivy Bridge, as close to official release as possible.

The boards today are from ASRock, ASUS, Gigabyte, MSI, ECS and Biostar. All these boards will natively support Sandy Bridge processors, and be fully upgradeable to Ivy Bridge silicon when the processors are released.

The Z77 Chipset

The important things to note about the Z77 chipset will be its differences to all things Sandy Bridge/Cougar Point, typically in relation to the Z68 platform. Rather than have a split between a chipset with video outputs and a chip without video outputs, all motherboards in the Z77 (and H77) will natively support video outputs (if the motherboard manufacturer wishes to use them). There will also not be a chipset issue as there was back this time last year with Cougar Point—so none of this B2/B3 nonsense that confused consumers.

In comparison to the previous chipsets, what we can see is simple from a table:

Chipset Comparison
Z77 Z75 H77 Z68 P67 H67
CPU Support IVB
LGA-1155
IVB
LGA-1155
IVB
LGA-1155
SNB/IVB
LGA-1155
SNB/IVB
LGA-1155
SNB/IVB
LGA-1155
CPU Overclocking Yes Yes No Yes Yes No
CPU PCIe Config 1 x16 or
2 x8 or
1 x8 + 2 x4
PCIe 3.0
1 x16 or
2 x8 PCIe 3.0
1 x16 PCIe 3.0 1 x16 or
2 x8 or
1 x8 + 2 x4
PCIe 3.0
1 x16 or
2 x8 PCIe 3.0
1 x16 PCIe 3.0
Processor Graphics Support Yes Yes Yes Yes No Yes
Intel SRT (SSD caching) Yes No Yes Yes No No
RAID Support Yes Yes Yes Yes Yes Yes
USB 2.0 Ports (3.0) 14 (4) 14 (4) 14 (4) 14 14 14
SATA Total (Max Number of 6Gbps Ports) 6 (2) 6 (2) 6 (2) 6 (2) 6 (2) 6 (2)
PCIe Lanes 8 (5GT/s) 8 (5GT/s) 8 (5GT/s) 8 (5GT/s) 8 (5GT/s) 8 (5GT/s)

Segregation is quite apparent for the consumer—a Z means you can overclock an appropriate CPU, and a ‘77’ means that you can take advantage of Intel’s SSD smart caching.

The chipset diagram above shows the layout of the Intel DZ77GA-70K motherboard, showing sixteen PCIe lanes from the processor. The astute will note that only one PCIe lane is coming from the PCH to the PCI Express Switch, which powers the PCIe to PCI bridge (and thus PCI and IEEE1394a) and the PCIe 2.0 x1 ports. This would mean that users of the DZ77GA-70K may experience bandwidth limitations when PCI and PCIe x1 devices are used.

PCIe 3.0

We still have 16 PCIe lanes from the CPU, but with the new chipset these are fully and officially rated at PCIe 3.0 speeds if you have the GPUs to take advantage of this feature. This becomes more apparent in multi-GPU setups, where the 16 lanes are split between the slots. Typically, this will be in the form of x16 for single card, x8/x8 for dual GPU, and x8/x4/x4 at tri-GPU. Having an x4 PCIe 3.0 is equivalent to an x8 PCIe 2.0, but only if you have a card that can take advantage of PCIe 3.0.

Due to this feature with the CPUs, the chipsets will have to adhere to PCIe 3.0 compliance, to deal with the transfers and lane layout design. A novel addition that we will see on many of the high-end boards is a series of onboard chips to increase the number of available lanes. These are known as PCIe 3.0 PLX PXE chips, which increase the number of lanes on the motherboard from 16 to 32—all rated PCIe 3.0. This also raises the cost of the motherboard, perhaps as much as $10-$15, so it is worth thinking long and hard if you really need that tri-GPU setup.

Native USB 3.0

The other long awaited addition found on Panther Point is the native implementation of USB 3.0 that comes directly from the chipset. The chipset will only provide two USB 3.0 headers, giving four ports total, either in the form of rear panel additions or an onboard header (this is at the discretion of the motherboard manufacturer). For many low-end boards, this eliminates the cost of a controller from the product. For high end SKUs that typically have 4-6+ USB 3.0 ports, while it does reduce the number of controllers by two, some PCB real estate will still be utilized by USB 3.0 controllers.

Memory Improvements

The Panther Point chipset comes with a few additional features that may be of benefit to some users. Partially derived from the processors themselves, the chipset now supports DDR3L thanks to its power gated DDR3 interface. This is a primary benefit for the lower end processor and chipset products (that is, all things mobile), but we will see if this moves its way into the mainstream or HTPC versions of Panther Point.

For the high-end power user, the chipset is now geared to handle memory that is more powerful. Again, thanks to the improvement on the new processors, these combined systems should be able to handle (with ease) DDR3-2800 memory. The memory dividers work similar to the gear ratios in Sandy Bridge-E, with users able to call a larger array of memory dividers than before with up to 200 MHz increments. This is of great benefit to the integrated graphics on the new generation processors, which should benefit from the purchase of a higher end memory kit to provide enough bandwidth.

We are still going to play with dual channel memory for the time being on consumer platforms. As this processor change is only a tick (process node decrease), we will have to wait for a tock or two in order for the memory subsystem to change to a larger number of channels. As seen on X58, tri-channel memory/6 slots was fairly cumbersome on motherboards, however on Sandy Bridge-E the quad channel memory (should Intel want to move in this direction) would still allow four slots on the board for an increase in memory bandwidth. However for now, dual channel it is.

If you happen to purchase ASUS for Ivy Bridge, there is also a little treat in store, as they have reworked the memory sub-system. Their new method stunned Intel engineers, but should provide distinct memory speed advantages. Simply put, instead of memory banks being read consecutively, the memory is read in parallel. We are awaiting more detail regarding how this feature works.

Power Consumption and Power Delivery

It has been well documented over the past few months that the top end model of the new processors should have a TDP of 77W. This is just shy of 50 watts less than the top models seen in Sandy Bridge-E, but more importantly, down from 95 watts as shown by the 2600K/2700K processors of Sandy Bridge. This does force a small change with the power delivery on Panther Point/Z77 products.

With less TDP to cater for, the motherboard manufacturers can spend less on the power delivery to get it to work. So there is a chance that the days of '24 phase power’ are long gone, and we will be dealing with less phases. Fewer motherboards will have dual 8-pin 12V connectors, and unless you go high end, may only require one 4-pin 12V connector to get the job done. Obviously if you apply an overclock, having access to more current (and thus more power) is of major benefit, but for the majority of system builders who will run systems at stock, this could represent savings in the construction being passed on to the consumer.

However, this does lend itself to potential issues when used in conjunction with Sandy Bridge processors—having a power delivery system less robust than Z68 could perhaps hinder Sandy Bridge overclocks.

Backwards Compatibility with Sandy Bridge Processors

To confirm what has been said in news articles around the world, the Intel 7-series chipsets will be backwards compatible with the Sandy Bridge (Intel 2nd Generation Core Microarchitecture) processors from the point of sale. All motherboard vendors should have this functionality built into their BIOSes. The beauty lies not in backwards compatibility but in releasing chipsets to take advantage of the new features—this is something AMD has done well with in the past.

In addition, a significant number of Intel 6-series chipsets (P67, Z68) should be forwards compatible with the Ivy Bridge processors, pending a BIOS update. Thus, current Sandy Bridge processor owners wishing to upgrade should make sure they have an appropriate BIOS before installing a new processor in their 6-series motherboard.

LucidLogix Virtu MVP Technology
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  • DanNeely - Monday, April 09, 2012 - link

    This is similar to what happened with the USB1->2 transition. The newer controller is significantly bigger (read more expensive) and very few people have more than one or two devices using it per computer. I suspect the 8x (Haswell) chipset will be mixed as well; simply because the total number of ports on the chipset is so much higher than it was a decade ago (vs older boards were all but the lowest end models added more USB from 3rd party controllers). Reply
  • ASUSTechMKT - Monday, April 09, 2012 - link

    mSATA currently has very little penetration on the market and cost wise it is much lower to purchase a larger cache SSD for the same or lower cost. We would prefer to focus on bringing implementations that offer immediate value to users.

    As for the Intel nics all our launch boards across the board for ATX ( Standard and above all feature Intel lan ) we have been leading in this regard for a couple of generations.

    In regards to USB 3 we offer more than the standard on many boards but keep in mind many users only have 1 USB3 device.
    Reply
  • jimnicoloff - Sunday, April 08, 2012 - link

    Maybe I missed something from an earlier post, but could someone please tell me why these don't have light peak? Are they waiting to go optical and it is not ready yet? Having my USB3 controlled by Intel instead of another chip is not enough to make me want to upgrade my Z68 board... Reply
  • repoman27 - Sunday, April 08, 2012 - link

    Thunderbolt controllers are relatively expensive ($20-30) and their value is fairly limited on a system using a full size ATX motherboard that has multiple PCIe slots. Including two digital display outputs, an x4 and a couple x1 PCIe slots on a motherboard provides essentially all the same functionality as Thunderbolt but at a way lower cost. Reply
  • ASUSTechMKT - Monday, April 09, 2012 - link

    Almost all of our boards feature a special TB header which allows for you to easily equip our boards with a Thunderbolt add on card which we will release at the end of the month. Expect an approximate cost of $40 dollars, this card will connect to the TB header and install in a X4 slot providing you with Thunderbolt should you want it. A great option for those who want it and for those who do not they do not pay for it. Reply
  • DanNeely - Tuesday, April 10, 2012 - link

    Sounds like a reasonable choice for something that's still rather expensive and a very niche product.

    Am I correct in thinking that the mobo header is to bring in the DisplayPort out channel without impacting bandwidth available for devices?
    Reply
  • jimwatkins - Sunday, April 08, 2012 - link

    I've made it this far on my venerable OC Q6600, but I can't wait any longer. I do wish they weren't so stingy on the 6 core as I could use it, but I just can't justify the price differential (w 3 kids that is.) Reply
  • androticus - Sunday, April 08, 2012 - link

    USB 3.0 descriptions and depictions are contradictory. The platform summary table says there are 4. The Intel diagram shows up to 4 on front and back (and the diagram is itself very confusing, because there are 4 USB 3.0 ports indicated on the chipset, and then they show 2 going to hubs, and 2 going directly to the jacks.) The text of the article says there can only be 2 USB 3.0 ports.

    What is the correct answer?
    Reply
  • mariush - Sunday, April 08, 2012 - link

    I think there's 2 real ports (full bandwidth ports) and the Intel solution uses 2 additional chips that act like "hubs", splitting each real port into 4 separate ports.

    Basically the bandwidth of each real port gets split if there are several devices connected to the same hub.

    Hub as far as I know means that what the hub receives sends to all four ports (and then the devices at the end of each port ignore the data if it's not for them).
    This would be different than a switch, which has the brains to send the data packages only to the proper port.
    Reply
  • plamengv - Sunday, April 08, 2012 - link

    DZ77GA-70K makes DX79SI looks like a bad joke (which it is really).

    LGA 2011 turns into an epic fail and DZ77GA-70K is the proof. I have 1366 system and I have zero will to get LGA 2011 system thanks to the crappy tech decisions somebody made there. Six cores is the top? Again? An old 32nm process? Really? Chipset with nothing new inside but troubles? Since 1366 something strange is going on and Intel fails to see it. The end user can get better manufacturing tech for the video card than for the CPU. First it was 45nm CPU with 40nm GPU and now 28nm GPU and 32nm CPU and Intel call that high end? Really?

    Everything that DX79SI should have been you can find inside DZ77GA-70K.

    1. DZ77GA-70K has high quality TI 1394 firewire controller, while DX79SI has cheap VIA one that no any audio pro would ever want to deal with.
    2. DZ77GA-70K has next best after Intel SATA controller by Marvell to get 2 more SATA 6.0 and eSATA vs zero extra SATA and hard to believe no any eSATA on DX79SI.
    3. Intel USB 3.0 vs crappy Renesas.

    DZ77GA-70K has everything to impress, including the two Intel LANs vs the Realtek that everyone else is using.

    DZ77GA-70K fails in only one thing - it had to be LGA 2011, not 1155 that will be just 4 cores like forever and has zero future.

    Wake up INTEL!
    Reply

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