The new edition of Windows Optimizer was officially launched on September 5, and the updated version is not unusual. The new version is "Standard Edition", and the new free strategy is the long-awaited message of our loyal users of the optimization software. Software is free, and you have to pay attention to the new version of the features and the previous difference. After I first tried, how much got some feeling, at least, the hardware detection has been further strengthened. The former master of optimization in hardware detection is very trusted by users, and even often heard that a novice user to use it as a test tool.
Windows Optimization Master in the system optimization in my mind has always been authoritative, although not a specialized hardware testing software, but the Windows optimization Master in this area of the ability of the right person is only a few two or three. This free "standard version" of the hardware detection function once again strengthened, should rush out of Asia, to the world. Take a few of the industry's more famous hardware detection tools and optimization Master to make a comparison to see who is more powerful.
First, the Optimization Master Challenge Everest
The author's Core 2 processor has been using Everest to monitor CPU temperatures, and the free Standard Edition of Windows Optimizer has added a separate monitoring of cores for multi-core processors with similar core™ 2 processors. Once tested, it was found that the optimization master and Everest CPU surface temperature monitoring are consistent, are all 49 degrees Celsius. But the CPU core own temperature has the big discrepancy, therefore the author's interest has come, actually who is correct?
Everest detection is as follows:
Everest test Results
You can see that the CPU temperature is 49 ℃, the core 1 temperature is 32 ℃, and the Core 2 temperature is 34 ℃.
The results of the Windows Tuning Master test are as follows:
Windows Optimization Master test results
You can see that the CPU temperature is consistent with the Everest 49 ℃, but the core 1 temperature is 47 ℃ and the Core 2 temperature is 48 ℃.
The author has always believed in the professionalism of Everest, so immediately through email and Windows Optimization Master's customer service contact, Windows Optimization Master's customer service soon to tell me that they are correct, and pointed out Everest is what the benchmark temperature set wrong. In the past, I still doubt the distrust of domestic software. Which is the right one? Still not sure.
When I was confused, I accidentally found Intel's own Intel thermal analysis Tool, and I found the core Temp, the most authoritative for multi-core processor temperature detection.
Test results unexpectedly, Everest detection error!
The Intel Thermal Analysis tool test results are as follows:
Intel Thermal analysis Tool test results
Core temp test results are shown below:
Core Temp Test Results
Because the temperature of the CPU core has been changing at a small scale, excluding errors at different times, you can see core 1 and 2 temperatures, and Intel's official tools and core temp are in line with the Windows Optimizer master.
Second, Windows Optimization Master Challenge cpu-z
The author of the Core 2 E4300 has been using the CPU-Z test has been shown is the Conroe kernel (Code Name), Windows Optimization Master free standard version of the processor information in the CPU kernel code is Allendale. Who is wrong with who, to being or not to be, occasionally not by confused.
The two images are as follows (red lines are labeled as values to be valued):
Cpu-z test Results
Windows Optimization Master test results
The author in the confusion, not by the official website of Intel Check, the results found E4300 as a two-level cache only 2 M Core 2 processor, the kernel code such as the Master of optimization testing, is indeed Allendale, rather than cpu-z pointed Conroe. It seems that blind worship sometimes embarrassing, optimizing the master's System Information detection is good.
Attached: Conroeallendale core distinction, from Intel official saying:
The Allendale is the core type of dual core processor of the desktop platform that Intel and Conroe publish simultaneously, its name originates from the small city "Allendale" in the southern part of the United States. The Allendale Core was officially released on July 27, 2006, still based on the new core (core™) microarchitecture, which currently employs the Central 2 Duo e6x00 series of 1066MHz FSB and is about to be released with 800MHz FSB Core 2 Duo E4x00 series. The two-level caching mechanism for the Allendale core is the same as the Conroe core, but the shared two-level cache is reduced to 2MB. Allendale Core still uses 65nm manufacturing process, the core voltage is about 1.3V, the encapsulation method uses PLGA, the interface type is still the traditional socket 775, and still support hardware anti-virus technology EDB, Energy-saving power technology EiST and 64-bit technology EM64T and virtualization technology Intel VT. In addition to the shared two cache is cut to 2MB and two cache is 8 64Byte instead of Conroe core 16 64Byte, Allendale Core and Conroe core almost exactly the same, can be said to be the Conroe core of the simplified version. Of course, due to the difference in level two cache, the Allendale core performance will be less than the Conroe core in the same frequency.
Summary: Strong hardware detection capability
Through the above comparison, Windows optimization master strong hardware detection capability has been demonstrated, excellent domestic software development, will eventually surpass the foreign counterparts, become a powerful dream of another cornerstone, supporting domestic software!
Software name |
Master of Windows Optimization Software version |
V7.78 Build 7.1119 Professional Edition |
Software size |
4088 KB |
Software classification |
System optimization |
Software language |
Chinese Simplified |
Application Platform |
Windows 98/me/2000/xp/2003/vista |
Software author |
Total Soft Network |
Update description
First, improve the system information detection
1, to increase the core of multi-core processor temperature monitoring respectively.
Note: This is only valid for multi-core processors that support core temperature monitoring separately. The CPU currently supports this technology is as follows:
Intel Series: Core solo series, Core Duo series, Core2 Duo series, Pentium E series, Conroe based on Celeron architecture, dual-core Yonah based on Xeon architecture, Xeon3000, 3200 series.
AMD Series: Athlon64 series, Athlon64 X2 series, Athlon64 FX series, Turion64 series, Turion64 X2 series, K8 architecture Sempron series, single core SH-C0 series after opterons version, Dual-core Opteron series.
2, added to the Winbond W83627EHF/DHG detection chip Second Circuit CPU fan detection.
3. Increase the way to get CPU temperature via ACPI.
4, adjust the port reading mode, to avoid and speedfan in some cases of conflict.
5, the motherboard pin redefinition.
A, ASUSTeK p4t-e motherboard as99127f pin redefinition
B, gigabyte 8IEMLP motherboard W83627HF pin redefinition
C, gigabyte 965P-S3 motherboard IT8718 pin redefinition
6, increase the support of AMD SB700 SMBus bus.
7, increase the support of abit Uguru sensor.
8, improved the hard disk information detection.
Second, comprehensively improved the system performance test module.
1, the overall improvement of the CPU and memory evaluation algorithm. Provide accurate CPU and memory performance assessment tools.
2, added the hard disk performance evaluation for user reference.
3, increased the woptiπ for user reference.
Third, increase the File System Optimization Setup Wizard.
Four, improve the system personality settings.
1, OEM information set up a number of well-known manufacturers to add information.
2, most projects do not need to restart to achieve the setting effect.
Five, the overall improvement of the Background Service Optimization wizard.
Six, improved the garbage file clean up.
Seven, improved the Windows Optimization Master's own driver.
Eight, some other minor adjustments and improvements.