Intel Z77 Panther Point Chipset and Motherboard Preview – ASRock, ASUS, Gigabyte, MSI, ECS and Biostar
by Ian Cutress on April 8, 2012 12:00 AM EST- Posted in
- Motherboards
- Intel
- Biostar
- MSI
- Gigabyte
- ASRock
- Asus
- Ivy Bridge
- ECS
- Z77
ASRock Z77 Extreme4—Visual Inspection
ASRock are still insistent with bringing the black gold philosophy to its range, as seen here with the Z77 Extreme4 and later with the Z77 Extreme6. The main point you may immediately notice is the size and depth of the heatsinks covering up the power delivery—they are smaller than previous iterations of ASRock boards, and no longer connected via a heatpipe. This is indicative of quite a few boards we are looking at today, due to the low power requirements of the new processors and as a result, the lack of heat produced at stock voltage.
The socket area is relatively clean, especially to the south where we have no large intruding heatsink. The VRM heatsinks however do brush right up against the Intel specifications for the socket area, so you ultimately have only two directions (to the PCIe and towards the memory) in which to play around with big air coolers. The socket area is adorned with five fan headers—three along the top edge of the board and two chassis headers near the top PCIe x1 slot. The other header on board is along the bottom next to the two-digit debug.
The board is actually not a full ATX sized board—from left to right, it measures only 21.8 cm, rather than the standard ATX size of 24.4 cm. As a result this means ASRock do not have to deal with the far right holes in the motherboard for case mounting, and hence why the SATA ports in the bottom right are neatly tucked away. In this corner, we have the six SATA ports from the PCH (two SATA 6 Gbps, four SATA 3 Gbps) and another two from an ASMedia ASM1061 controller (SATA3_A1 is shared with an eSATA port, however). The internal USB 3.0 header is located nearer the 24-pin ATX power connector, perhaps indicating that is for both front case use and rear case use, taking up the space where the first PCIe x1 is.
The chipset heatsink is rather small, compared to Z68 and X79 boards, and is not connected via heatpipe to any other heatsink nearby. On the south side of the board are the standard array of audio and USB headers, along with a fan header and power/reset buttons. It is good also to see the two digit debug on the board as well.
The PCIe layout is indicative of what we will see on many Z77 boards this year, which do not use any form of PCIe lane expansion, such as a PLX chip. In this case, we have an x1, an x16 (x8 on dual card), a gap, a PCI, an x8, another PCI, and another x1. This is some smart thinking, as even with a dual GPU setup there is space for two single width PCIe x1 cards and a PCI card (which contrary to what some people think are still used in reasonable numbers).
Despite the stock image from ASRock looking a little bent on the back panel, we have a typical Z77 arrangement for IO. From left to right, a combination PS/2 port, two USB 3.0 ports (blue), a D-Sub output, a DVI-D output, HDMI, a clear CMOS button, two USB 2.0 ports (black), an eSATA port (red), gigabit Ethernet, two more USB 3.0 ports (blue), and a standard array of audio jacks featuring an optical SPDIF output.
Board Features
| ASRock Z77 Extreme4 | |
| Size | ATX |
| CPU Interface | LGA-1155 |
| Chipset | Intel Z77 |
| Power Delivery | 8 + 4 Phase |
| Memory Slots |
Four DDR3 DIMM slots supporting up to 32 GB Up to Dual Channel, 1066-2800 MHz |
| Video Outputs | HDMI 1.4a, DVI-D, D-Sub |
| Onboard LAN | Broadcom BCM57781 |
| Onboard Audio | Realtek ALC898 |
| Expansion Slots |
2 x PCIe x16 Gen3 2 x PCIe x1 Gen2 2 x PCI |
| Onboard SATA/RAID |
2 x SATA 6 Gbps (PCH), Support for RAID 0, 1, 5, 10 2 x SATA 6 Gbps (ASMedia ASM1061) 4 x SATA 3 Gbps (PCH), Support for RAID 0, 1, 5, 10 |
| USB |
Two USB 3.0 at rear (PCH) Two USB 3.0 at rear (ASMedia 1042) One USB 3.0 header (PCH) |
| Onboard |
4 x SATA 6 Gbps 4 x SATA 3 Gbps 1 x IR Header 1 x CIR Header 1 x COM Header 1 x SPDIF Header Power/Reset Buttons Two Digit Debug LED 6 x Fan Headers Front panel audio connector 3 x USB 2.0 headers (support 6 USB 2.0 ports) 1 x USB 3.0 header (supports 2 USB 3.0 ports) |
| Power Connectors |
1 x 24-pin ATX connector 1 x 8-pin 12V connector |
| Fan Headers |
2 x CPU Fan Header (one 4-pin, one 3-pin) 3 x CHA Fan Headers (one 4-pin, two 3-pin) 1 x PWR Fan Headers (3-pin) |
| IO Panel |
1 x Combo PS/2 Port 1 x HDMI 1.4a 1 x DVI-D 1 x D-Sub 1 x Optical SPDIF 2 x USB 2.0 4 x USB 3.0 1 x eSATA 6 Gbps 1 x Gigabit Ethernet 1 x Clear CMOS Audio Outputs |
| Warranty Period | 3 years from date of purchase |
| Product Page | Link |
Rather than dump a Realtek NIC/Audio combination on this board, ASRock have gone for a Broadcom NIC. This means either they have struck a deal, or it works a lot better for their ASRock LAN software. ASRock are one of few motherboard manufacturers to state they support HDMI 1.4a on their website specifications as well. As one of the cheaper boards of this roundup, the Z77 Extreme4 actually comes away pretty well in terms of features.
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MrSpadge - Sunday, April 8, 2012 - link
"multiples of 15 Hz (15, 30, 35, 60, 75)" on page 2Ryan Smith - Sunday, April 8, 2012 - link
Got it. Thanks.MrSpadge - Sunday, April 8, 2012 - link
How does it work together with nVidias adaptive VSync, which debuted with the GTX680? And which, IMO, looked quite promising (lowering average power consumption a lot while gaming).Ryan Smith - Sunday, April 8, 2012 - link
You wouldn't use MVP with Adaptive V-Sync. It only makes sense to use MVP by itself.Thaine - Thursday, August 16, 2012 - link
"Predicting which frames (or rendering tasks) will never be shown and taking them out of the pipeline so the GPU can work on what is needed"Along the lines of power consumption (and the ever-important side effect, heat), I would be very interested in seeing an article on MVP vs power consumption/heat on a power-hungry dGPU (ala GTX 480).
primonatron - Sunday, April 8, 2012 - link
Not sure why most of these boards bother including the non-Intel USB 3.0 controllers any more.Not many people have several USB 3.0 devices, so they could be saving costs. Or instead bringing back some of the things the article mention were taken away - like DVI on an ASUS board.
GreenEnergy - Sunday, April 8, 2012 - link
I think board makers are getting desperate for ways to add value.Less and less components to change and diversify with.
And its not getting better in the future. Haswell on LGA1150 basicly removes the entire VRM part on the motherboard. No more 32 phases or whatever.
A 50$ board performs identical to a 200$ board if you dont overclock. Actually the 50$ board might be more reliable (less components to fail) and more power efficient.
Xale - Sunday, April 8, 2012 - link
50 dollar boards are probably going to at least boot faster. The driver load and POST times with many 3rd party controllers, SATA especially, is atrocious. Seen some boards that take nearly 3x longer if the external controllers aren't disabled.Metaluna - Sunday, April 8, 2012 - link
Mostly marketing I would guess. Intel only supports 4 3.0 ports, so if you add another chip you now have a checklist item to justify the premium price of your motherboard and possibly differentiate it from lower-end versions in the same product line.Second, ASUS owns ASMedia, who makes a lot of the (mediocre, IMHO) USB 3 and Bluetooth controllers on their boards, so there's probably an incentive to use them in their own products to help prop up their production volumes.
Third, a lot of the third party controllers have special modes to support things like high-current charging for iPads or charging when the computer is turned off. Does anyone know if it's possible to add these features to Intel-based ports? If not, that would be an incentive to include a secondary chip.
GreenEnergy - Sunday, April 8, 2012 - link
I saw the DH77DF im looking at myself got high current recharge. So that doesnt seem to be related to the controller at all.