星期一, 5月 23, 2011

Intel's high-performance ITX platform - ECS H67H2-I and the Core i3-2120





Before in the desktop PC consumer market, it was generally difficult to buy ITX MB products

The few ITX MB products on the market were expensive and suffered the limitations of notebook CPUs and DRAMs

In the past two years, there has been a clear expansion in the ITX market that reflects its increasing popularity with consumers

Starting with the previous generation P55/H55 chipset, a number of notebook brands invested in ITX product development and sales

in order to offer more ITX MB products and let consumers set up HTPCs more easily

while also allowing them to use the CPU and DDR3 specifications of desktops, thereby dropping the cost of an ITX system a lot



After Intel launched the new generation Sandy Bridge this year, we've heard on the web about a lot of motherboard companies that have plans for ITX products

In general, it seems they will use the H67 or H61 chipsets to reach price points comparable to Micro ATX specifications

ITX has given rise to new market trends,

and the new PC architecture will help boost ITX PC performance gains and allow Intel to significantly raise its visibility in the ITX market.



At this point, let's return to the star of the show, the H67H2-I launched by ECS that uses the high-end H67 chipset in the Sandy Bridge architecture

During the LGA 1156 era, ECS also launched the H55H-I with an H55 chipset, which shows the amount of attention this brand has paid to the ITX market.

To start, take a look at the H67H2-I overall and size specifications for the Mini ITX at 17 x 17cm





A comparison of the differences in the previous H55H-I generation

The H67H2-I has changed to a black PCB with gray DIMM / PCI-E slots that give a stronger contrast to the appearance

Another addition is the overall use of commonly seen solid capacitor materials that effectively increase the durability of the product





Included accessories

Manual, quick installation guide, IO bezel, SATA cable and driver software CD

Includes low profile bezel meeting more general specifications allowing users to install a wireless network antenna





Bottom of motherboard

LGA 1155 CPU socket, LOTES brand name

1 X PCI-E Gen2.0 X16

Realtek RTL8111E LAN chip

Realtek ALC892 audio chip and a codec supporting 8-channel audio and High Definition





Right section of motherboard

2 x DIMM DDR3, supporting 1066/1333, DDR3 maximum capacity of 16GB.

On side of board, a 24-PIN power input





Top of motherboard

2 x white SATA, H67 chip installed, SATA2 specifications

2 x gray SATA, H67 chip installed, SATA3 specifications



IO

D-SUB/DVI/HDMI

6 x USB 2.0 (red / black)

2 x USB 3.0 (blue)

1 x RJ-45 network holes

1 x Bluetooth module

1 x eSATA





CPU using four types of power input

Based on Sandy Bridge's low power consumption, the maximum should be 2500K/2600K

Sticker on top part indicates device meets Bluetooth specifications





Another feature of the H67H2-I is the built-in Mini PCI-E slot

Interface allows expansion with hardware meeting the same specifications such as mSATA SSD, TV cards or ordinary wireless network cards





The top part of the H67 chipset is covered by a black heat sink with a larger surface area for heat dissipation





BIOS screen

M.I.B III, ECS overclocking technology

This page provides adjustable voltage options. DDR3 1T/2T with the current CPU clock / DDR3 capacity / voltage status

CPU Voltage +20 to 320mV

IMC Voltage +10 to +630 mV

DIMM Voltage -800 to +630 mV

PCH Voltage 1.05/1.10V





ICC options page





Provides front side bus (FSB) options: actual tests show it is impossible to boost FSB

I hope that later BIOSes can display options here





DRAM timing information

Intel default GPU overclocking options

When overclocking, we recommend that graphics current be set to max

The clock is set for a default of 22 at the graphics core ratio limit

Each level represents a clock of 50MHz: in the figure, the setting is 27 or 27 x 50 => 1350MH





IGD Memory has three options, namely 32/64/128MB

For DVMT / FIXED Memory, there are three options: 128/256MB/Maximum





PC Health Status





In the past, most Mini ITX systems did not emphasize performance or overclocking, so the BIOS used a reduced instruction set

With the H67H2-I, the BIOS options are more abundant, but if an option can be added to switch between DDR3 1066/1333, it will be better



Test platform

CPU: Intel Core i3-2120

MB: ECS H67H2-I

DRAM: CORSAIR CMX8GX3M2A1600C9

VGA: Integrated Graphics

HDD: CORSAIR Force SSD 60GB

POWER: Antec HCG 400W

Cooler: Intel installed heat sink

OS: Windows7 Ultimate 64bit





The CPU is the Core i3 2120 that was just recently introduced in March

The product name is the Intel Core i3-2120 with a system clock of 3.3GHz

The actual two cores have Hyper-Threading technology with a capacity of up to four threads that is referred to as 2C/4T

32nm process, power 65W, L3 Cache with total of 3MB, as second entry-level LGA 1155 with dual core CPU





Lower left corner is Revision D2 version back column

Top right is the original heat sink, and for their dual cores CPUs, Intel always uses a non-copper based design





For the Sandy Bridge architecture, there are two Core i3 models on the market, namely the i3-2100 and the i3-2120

The main difference between the two models is the clock, which for the 2100 is 3.1GHz, and for the 2120, it's 3.3GHz

For consumers, we feel the i3-2100 provides better price to performance value



Information on hardware devices in the operating system

Atheros wireless network card installed





Performance tests

CPU 99.8 X 33 => 3293.4MHz

C1E Activated

DDR3 1064.4 CL7 7-7-20 1T



Hyper PI 32M X 4 => 17m 32.908s

CPUMARK 99 => 508





Nuclearus Multi Core => 11878

Fritz Chess Benchmark => 13.01/6243





CrystalMark 2004R3 => 190657





CINEBENCH R11.5

CPU => 3.16 pts

CPU (Single Core) => 1.31 pts





PCMark Vantage => 11922





Windows Experience Index - CPU 7.1





The CPU-Z cannot display the correct voltage, and BIOS must be used to find the correct voltage

The situation is the same with the H55H-I generation, which may be related to the design of the special PWM that results in some software errors regarding the voltage information

The i3-2120 clock goes up to 3.3GHz, providing a performance improvement of up to 10-20% with the new architecture

In many of the above tests, this platform has pretty good test data, and especially in the ITX area, the performance level is high



Temperature performance (room temperature about 18 degrees)

System Standby - 20-26





CPU full speed - 44-49

Intel Burn Test v2.4, Stress Level Maximum





Regarding the temperature of the i3 CPU, the 32nm process has always performed well, and the original thin heat sinks were used in the test

Did not exceed 50 degrees at full speed, but of course after installation in the chassis,

this will depend on differences in the environment or system thermal convection, raising the temperature by about 5 to 8 degrees



Power Consumption Test

System Standby - 25W





CPU full speed - 63W





Standby / full speed power consumption is 25W/63W, a significant reduction compared with the previously tested i3-540 and H55 at 52W/83W

This shows that all LGA1155 second-generation Core i-series platforms made with the same 32nm manufacturing process have lower power consumption and higher performance

For users who care about power consumption and temperature,

these two aspects make the performance advantages of the Sandy Bridge stand out even more



DDR3 bandwidth

DDR3 1064.4 CL7 7-7-20 1T

ADIA64 Memory Read - 13912 MB/s

Sandra Memory Bandwidth - 14146 MB/s

MaXXMEM Memory-Copy -15356 MB/s





Because the previous LGA 1156 architecture uses the built-in GPU, the DDR3 suffers bandwidth limitations

Starting with the new generation LGA 1155 i3, this problem has been fixed, and even if you use the built-in GPU,

you can begin to take advantage of high bandwidth DDR3 provided under the new architecture.

In the same way, the DDR3 1066 bandwidth of the previous and current two generations will have a greater than 50% improvement

If ECS can provide an option in BIOS to switch freely between 1066/1333, higher bandwidth performance should be possible



Intel HD Graphics HD2000 Benchmark Test

Default clock 1100MHz



3DMark Vantage => P1041





StreetFighter IV Benchmark

1280 X 720 => 26.53 FPS





DEVIL MAY CRY4

1280 X 720 => 25.25/21.77/28.80/17.80 fps





FINAL FANTASY XIV

1280 X 720 => 368





The specifications of the GPU in the i3-2120 are Intel's latest for the HD2000

Compared with the i5-2300 equipped

with the HD2000 that was previously tested by windwithme, there is a difference in 3D performance of about 10 to 15%

Compared with the 3D performance of the previous generation i3-540, this current generation has clearly made huge progress

Although 3D performance is not the main strength of ITX, the performance of the built-in GPU is high,

and for general 3D needs in the future, this will certainly be a big help.



HD2000 Overclocking



27 X 50 => 1350MHz

3DMark Vantage => P1314





StreetFighter IV Benchmark

1280 X 720 => 31.01 FPS





DEVIL MAY CRY4

1280 X 720 => 29.52/24.30/33.54/20.71 fps





FINAL FANTASY XIV

1280 X 720 => 434





Overclocked 3D performance can be improved by 17-26%, yet unfortunately, unlike several earlier i5 HD2000’s, overclocking in the 1700-1800MHz range is impossible.

But within a small overclocking range, performance gains are not insignificant, so for those web surfers who need performance, this is worth considering

However, if a huge increase in 3D performance is necessary, the better choice is to spend more for an additional graphics card



Of the many cases in which ITX motherboards can be installed,

sometimes design specifications call for installation of 2.5-inch HDDs in order to keep the space compact

If you need larger capacity, you can choose a 2.5-inch HDD for notebooks. If you need performance, SSD immediately comes to mind

Currently on the market there are two different directions in the choice of storage hardware

In those platforms equipped with CORSAIR FORCE SERIES F60, we hope to make the ITX platform achieve better transmission performance



When the ATTO DISK Benchmark exceeds 16k, performance is good,

and the maximum read speed is 281.9 MB/s, while the maximum write speed is 264.4 MB/s

When the EVEREST File Benchmark exceeds 1024k in these tests, performance begins to approach or exceed 250-275 MB/s





CrystalDiskMark 4K QD32 Read -97.57 MB/s Write - 60.34 MB/s

AS SSD Benchmark

Seq Read - 201.18 MB/s Write - 44.04 MB/s

4K-64Thrd Read - 100.32 MB/s Write - 47.20 MB/s





For the ECS H67H2-I using the latest H67 chipset, data transfer performance is quite good

The CORSAIR FORCE F60’s maximum specification is 285/275 MB/s, and maximum performance is almost certain to be achieved with some test software

The 4K performance is quite good, and for users’ small file performance needs, the selection of the SSD with faster 4K read speed is a vital factor





Video playback test

Startup of Inception, a Blu-ray movie on hand. All rights are reserved by the publisher of the above video.



Start menu

Software used -- PowerDVD 10

Resolution of 1920 x 1080

At this point, CPU usage is very low, about 0-2%





Video process

2-6% CPU usage





Playing video files directly

Video resolution of 1280 x 720

0-5% CPU utilization





Video resolution of 1440 x 1080

5-12% CPU utilization





The second generation Core i3 has excellent multimedia performance, and in video playback tests, CPU utilization seldom exceeds 15%

Under playback conditions for most video formats, CPU utilization in general is only 1-12%

With regard to the ITX architecture, performance is very high, and for use as a HTPC it is more than sufficient by several times

Although the performance of an HTPC needs at least smooth video playing, we are certain that consumers will never be dissatisfied with performance



Video conversion is a new technology of Sandy Bridge -- one of its main features

The following is a test of Intel's new Quick Sync Video technology

MediaEspresso test of the time required for video conversion by the built-in GPU

DVD file VTS_01_1.VOB, size capacity of 1023MB, 2500K converted into an MP4 file



Intel HD Graphics HD2000

Starting Intel Quick Sync Video (better quality)





10 minutes 39 seconds





For the Intel Quick Sync Video technology to speed up video conversion, a prerequisite is the need to run the built-in GPU HD2000/HD3000 before this feature can be used.

We have previously compared Intel Quick Sync Video with nVIDIA and CUDA, two video conversion technologies.

The speed comparison shows Quick Sync Video has the advantage, and for users with this application in mind, this should be a significant benefit.



ECS H67H2-I

Advantages

1. High-end Mini ITX specification H67 product with abundant accessories

2. All solid capacitors, eSATA, USB 3.0/eSATA and other components

3. Built-in Bluetooth capability, support for v2.1 + EDR technology, with a Mini PCI-E for extended use also provided

4. BIOS allows overclocking of the GPU so that 3D performance achieves a higher standard

5. With regard to the performance of the i3 CPU that is part of Sandy Bridge, temperature and power achieve good performance



Shortcomings

1. We recommend that a BIOS C1E option be created for users to freely choose performance modes

2. If an antenna that’s necessary for the wireless network can be added, it will be an improent vem







Performance ★ ★ ★ ★ ★ ★ ★ ★ ☆ ☆

Components ★ ★ ★ ★ ★ ★ ★ ★ ☆ ☆

Specifications ★ ★ ★ ★ ★ ★ ★ ★ ★ ☆

Appearance ★ ★ ★ ★ ★ ★ ★ ★ ☆ ☆

Price to performance ★ ★ ★ ★ ★ ★ ★ ★★ ☆



In the past two years, ECS has performed well in the area of small Mini ITX motherboards

The launch of the H55H-I in the earlier generation LGA 1156 architecture was very well positioned in the market in terms of price to performance

This time around, the H67H2-I added Bluetooth capabilities and a Mini PCI-E slot for wireless networks to the specifications,

making the HTPC platform an even better proposition.

The price is about NT$3,450, or about US$120

With the H67 chipset, the price makes the H67 a worthy entry-level solution, and therefore we have very high marks for the price to performance of this product.



Some time ago I shared my views on Mini ITX products based on the AMD Fusion architecture which were even a bit cheaper than this platform currently reviewed

However, the AMD architecture is equivalent to the Intel Atom CPU series in terms of performance, and we can only say that the assembled HTPC's performance meets basic needs

Intel’s new generation H67/H61 chipsets in the Mini ITX product line achieve quite satisfactory performance

Of course, Sandy Bridge ITX products should only be considered by consumers with a certain budget range

In this review of the ECS H67H2-I, I’ve found many areas where performance has been above the standard,

I hope this article can be of use to ITX enthusiasts as a reference before you buy :)

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