Everyone has long been accustomed to the release pattern of motherboards from ASUS, when one basic model produces several modifications - most often Deluxe and Premium are added to the “regular” one. In this case, the PCB of the boards, as a rule, is the same, and the only difference is in the completeness of its filling and the variety of configurations. Even when the board underwent some modifications, visually it remained very similar to the rest of the series. But the ASUS P5B motherboard does not fit into the usual scheme, because... It has very little in common with the ASUS P5B Deluxe-Wi-Fi, which we visited earlier.

As you can see, motherboards differ not only in the color of the PCB and the completeness of the slots filled with microcircuits. The differences are everywhere: in power schemes; in the set and number of expansion slots; in the arrangement of chips and connectors... But what can we count, with a biased approach they can generally be considered only as very distant relatives (only thanks to the use of identical chipsets as the basis). Therefore, we will not draw parallels, but will examine the ASUS P5B motherboard as an independent product, which has a budget textolite coloring and not the most affordable price.

Specification ASUS P5B

CPU	Socket LGA775 (compatible with Intel PCG 05B/05A/06B); Intel Pentium 4 (Prescott (2M)/Gallatin/CedarMill) with bus frequency 533/800/1066 MHz; - Dual-core Intel Pentium D/EE (Smithfield/Presler) with bus frequency 800/1066 MHz; - Intel Celeron-D (Prescott/CedarMill) with a bus frequency of 533 MHz; - Support for Intel Core 2 Duo with a bus frequency of 1066 MHz; Support for processors with Hyper-Threading technology;
	Intel P965 Northbridge with Intel Fast Memory Access Technology; - Southbridge Intel ICH8; Communication between bridges: DMI;
System memory	Four 240-pin slots for DDR2 SDRAM DIMM; - Maximum memory capacity 8 GB; - Memory type DDR2 533/667/800 is supported; - Dual-channel memory access is possible;
	One PCI-Express x16 slot;
Expansion options	Three 32-bit PCI Bus Master slots; - Three PCI-Express x1 slots; - Ten USB 2.0 ports (4 built-in + 6 additional);
	Built-in sound SoundMAX ADI AD1988A 8-channel;
	Realtek PCI-E Gigabit network controller (RTL8111B);
Overclocking options	Change the FSB frequency from 100 to 650 MHz in 1 MHz steps; Change the PCI-Express frequency from 90 to 150 MHz in 1 MHz steps; Changing the voltage on the processor and memory;
Disk subsystem	Four Serial ATA II (on Intel ICH8); Optional JMicron JMB363 controller supports: - One channel UltraDMA 133/100/66; 1 internal SATA II 1 external SATA II RAID 0, RAID 1 and JBOD
	8 Mbit Flash ROM; - AMI BIOS with support for PnP Features, DMI2.0, SM BIOS 2.3, WfM2.0, ACPI 2.0a, ASUS EZ Flash 2, ASUS CrashFree BIOS 3;
	External connectors: 1x LPT, 1x Coaxial S/PDIF, 1x Optical S/PDIF, 1x External SATA, 1x LAN, 4x USB2.0/1.1, 8-channel audio, 2x PS/2 for mouse and keyboard; Internal connectors: 1x FDD, 1x IDE, 5x SATA II, 3x USB 2.0 2 ports each, 1x S/PDIF, 1x COM, 1x ADH, 1x CPU fan, 2x Chassis fan, 1x Power fan, 1x Chassis intrusion, 1x Front panel audio, 1x CD audio in, 1x 24-pin ATX power, 1x 4-pin 12V power, 1x system panel.
Power management	Wake from PCI devices, modem, mouse, keyboard, network, timer and USB; - Main 24-pin EATX power connector; - Additional 4-pin ATX12V power connector;
Monitoring	Monitoring the temperature of the processor, motherboard, input voltages and processor core, rotation speed of four fans; - Q-Fan technology;
	ATX form factor, 218 mm x 305 mm (8.6" x 12");
Proprietary software	ASUS PC Probe II Anti-virus software (OEM version)

Package

The motherboard is packaged in a cardboard box, which, in addition to the board, contains IDE and SATA cables with power adapters, a plug for the rear panel of the case, a CD with drivers and additional software. All this will be discussed below.

Equipment

• Motherboard;
• CD with software and drivers;
• One ATA-133 cable, FDD cable;
• Four Serial ATA cables + two power adapters (two connectors each);
• User manual in English, brief installation instructions;
• Plug for the rear panel of the case;
• One ASUS Q-Connector Kit (USB, System panel; only in retail version);
• ASUS logo sticker.

Let us immediately draw your attention to the fact that, despite the presence of a COM port on the motherboard, the package does not include a bracket for outputting this port to the rear panel. To be fair, we note that COM ports are currently used very rarely, so we will not consider this as a big minus. By the way, the relative of the hero of today’s review, P5B Deluxe Wi-Fi, does not have the ability to output a COM port at all.

Also, despite the presence of six additional USB ports on the board, only two can be connected to the rear panel using the tools supplied in the kit. So to output a COM port and additional USB, you will have to purchase the corresponding accessories separately.

The conclusion can be drawn as follows: the equipment, considering the price on a 5-point scale, is 4. At least, an output strip for USB ports, which are constantly in short supply, would not be superfluous.

Now let's talk about the board design. In general, it can be considered quite convenient, but there are a couple of nuances that can create certain inconveniences and are worth paying attention to. So, everything in order.

There are a total of 4 cooler connectors on the board. The first connector, 4-pin CPU_FAN for the processor cooler, is located above the connectors for RAM modules not far from the processor socket, but not too close to it (as is done, for example, on the MSI P965 NEO board), so there are no problems with connecting the power cable should not arise. The PWR_FAN connector is located next to it.

There are also two additional 3-pin connectors CHA_FAN1 and CHA_FAN2 for case coolers. They are located in such a way that it is convenient to install one fan on the front panel of the case and one on the rear. There are 2 power connectors on the board: the main 24-pin EATXPWR and the additional 4-pin EATX12V. The motherboard will require a power supply that meets the ATX 12V 2.0 specification.

Three-phase power stabilizer - modest. It consists of 9 capacitors with a capacity of 680 μF. Chipset cooling is passive, without the use of fans. The north bridge of the Intel P965 has a fairly massive heatsink. Traditionally, a radiator is also installed on the south bridge, but smaller.

To the right of the northbridge there are four 240-pin DIMM connectors for DDR2 memory modules. In fact, they are divided into two groups of two connectors. The slots of the first group belong to one controller channel, the slots of the second – to another. It is possible to organize dual-channel memory access. To do this, install memory sticks in slots of the same color.

It is worth noting that the board supports DDR2 533/667/800 memory modules. The maximum total amount of RAM is 8 GB.

ASUS P5B is equipped with three standard PCI slots, three PCI Express x1 slots and one PCI Express x16 slot.

Note the top PCI Express x1 slot. As you can see, the north bridge cooling radiator is located next to it so that only a relatively small board can be installed in this connector. There is also a green LED indicator on the board that shows the status of the board.

Universal ports and storage support

In addition to the standard Intel ICH8 controller, which supports four SATA II ports, an additional JMicron JMB363 controller is used. It supports one additional internal SATA II port, one External SATA port located on the rear panel of the board, and one IDE port for connecting two compatible devices. Also, using the JMicron controller, you can organize RAID 0, RAID 1 and JBOD arrays.

So what do we have? As a result, 8 hard drives can be connected to the board: 6 Serial ATA II drives and two with Parallel ATA interface. Now let's move on to the USB ports. There are four USB 2.0 ports on the back of the board. In addition, it is possible to connect six more connectors using additional brackets. There is no support for the FireWire interface on the motherboard. If we take into account the cost of the board, the lack of an IEEE 1394 controller can be considered a slight minus.

Sound subsystem

Now about the sound system. The AD1988A chip is installed as a codec, which allows you to output sound with a sampling frequency of 192 kHz and has 10 DAC and 6 ADC chips. It supports eight-channel HD Audio, includes device detection, reassignable functions, and multi-stream audio technology that allows you to send different audio streams to different channels. The signal-to-noise ratio is 105 dB. Noise Filter noise reduction technology is also used. This feature recognizes repetitive and persistent noise in the incoming audio stream and then eliminates it during recording.

Let's look at the sound card ports. The P5B motherboard supports S/PDIF audio output, which makes it easy to connect your computer to a home theater system with the ability to connect to speakers via optical or coaxial cable. We also see 6 more sound card pins. Everything is traditional here, the subwoofer is connected to the orange port, the rear speakers are connected to the black port in a 4/6/8-channel configuration, and the side speakers are connected to the gray port in an 8-channel configuration. Pink is traditionally used to connect a microphone, blue is a line input, and green is for headphones in a 2/3-channel system, or for connecting front speakers in 4/6/8-channel sound systems.

Net

To support network connections, a Realtek RTL8111B (Gigabit Ethernet) network controller is provided, which is connected via the PCI Express bus and supports operating speeds of up to 1 Gbit/s.

Proprietary technologies

To ensure fast performance with minimal noise, technology AI Gear allows you to select a profile that adjusts the system bus processor frequencies and vCore voltage. This ensures a reduction in noise and energy consumption. AI Nap also aimed at minimizing noise and more economical energy consumption. With its help, you can instantly put your computer into power saving mode without turning off applications (“standby mode”). Technology Q-Fan 2 provides regulation of the rotation speed of the processor and case cooler.

Rear panel of the board

Let's take a look at the back panel. Obviously, the manufacturer does not offer us anything original. As we have already noted, there is no COM port, which is gradually finding less and less place in modern boards. The panel has a parallel port (LPT), 4 USB ports, an RJ-45 connector for network connections, one external Serial ATA port, sound card outputs and, of course, two PS/2 ports for a mouse and keyboard.

A Clear CMOS (CLRTC) jumper is installed next to the FDD connector, with which you can reset the RTC RAM data, returning the BIOS settings to standard.

	Content:
	Page 2 - Part II

Choosing a motherboard is always a very difficult matter. And choosing a budget motherboard is a hundred times more difficult. There are many factors to consider. The main one is the ability to connect all modern devices. The type of processors supported is also extremely important. In this regard, the Plus motherboard looks very attractive. Let's look at this product in more detail.

What is this fee?

Plus Xeon motherboard is a budget solution for weak computers. This board was released back in 2007 and has already become obsolete. A sign of an “old” product is the presence of a special IDE connector for a floppy disk, which no one has used for twenty years. Nevertheless, this motherboard is quite suitable for creating a computer with good multimedia capabilities. But this solution is not suitable for games. Only the earliest versions will be able to run.

Specifications

ASUS P5B Plus is made on the chip used - Intel P965. This means that it easily supports Core 2 Duo processors. But the newfangled Cores are not available to her. The highlight of this motherboard is its very high-quality sound chip. Typically, manufacturers supply boards with an inexpensive and not very high-quality chip from Realtek. A more advanced chipset from Analog Devices is also installed here, which features high-quality sound. The motherboard supports it in the 7.1 standard.

Let's move on to a deeper analysis of Plus. The characteristics of this board are as follows: supported processors - Duo family from Intel, some models from AMD, system bus frequency - 1066 MHz, memory type - DDR2, Ethernet data transfer speed - 1000 Mbit per second. Features are pretty standard for a 2007. Such parameters were common for inexpensive motherboards. Some of them are still relevant today.

Interfaces and connectors

Everything here is not as good as we would like. ASUS P5B Plus is equipped with four USB 2.0 connectors. There can be no talk of any “troika”. There are PCI Express expansion slots and other necessary connectors (including SATA and IDE). By the way, the presence of a rudimentary IDE is another indication that the motherboard is truly rare. But who knows? What if it still comes in handy? Let's say someone still has an old hard drive with the necessary information.

Other connectors include SPIDF (optical and coaxial), connectors for connecting individual components of a 7.1 standard speaker system, PS2 connectors for connecting a mouse and keyboard (another indication of the “antiquity” of the board) and other connectors (for example, LTP). This set is standard for motherboards. Moreover, even modern models have such “richness”. This means that this motherboard is still relevant. By the way, it has one intriguing feature: support for FireWire and eSATA technologies. Not every modern motherboard can boast of this. And therefore, this component is preferable even to many current options.

Choosing an inexpensive and productive platform, designed primarily for working with office applications, leads to the idea of ​​choosing a motherboard with an integrated graphics card. The main advantages of this solution are: saving money that would have been spent on purchasing an external video card, as well as lower overall system power consumption, providing only the required minimum video subsystem performance. Now there are a lot of interesting similar offers on the market. One of them, so to speak, fell into our hands - this is the ASUS P5B-VM SE motherboard from the P5B series released last year, on the G965 chipset. This year, Intel released new chipsets G31, G33, Q35 and G35 equipped with built-in graphics accelerators. If we compare the capabilities of the built-in graphics cores of the previous and new line of chipsets, they have not become much better. For example, only the G35 chipset received support for DirectX 10, Shader Model 4.0, OpenGL 2.0 and a core frequency of 667 MHz, while the G31/G33 chipsets have very similar video core characteristics and, accordingly, performance to the G965. The main advantages of the new chipsets are support for a 1333 MHz system bus and support for upcoming processors using 45 nm technology. But both of these advantages are still of little interest if an inexpensive working system is being assembled, and these are the ones that are most often needed when it comes to saving money. But, thanks to the release of new solutions, motherboards based on previous generation chipsets have become a little cheaper. In the meantime, there are still models on sale such as ASUS P5B-VM SE, which are not much inferior to the new models in terms of capabilities, but at the same time have a more attractive price.

ASUS P5B-VM SE motherboard specification:

Manufacturer
North Bridge
South Bridge
CPU socket
Supported processors	Intel Core 2 Quad / Core 2 Extreme / Core 2 Duo / Pentium Extreme / Pentium D / Pentium 4
System bus, MHz	1066 / 800 /533 MHz
Memory used	DDR2 800 / 667 / 533 MHz
Memory support	4 x 240-pin DIMMs, dual-channel architecture up to 8 GB
Expansion slots	1 x PCI-E x16 1 x PCI-E x1 2 x PCI 2.2
	Intel GMA X3000 High Definition Video Processing with a maximum resolution of 2048 x 1536 @ 75Hz Maximum usage up to 256MB RAM Supports DX 9, OpenGL 1.5, Pixel Shader 3.0
Disk subsystem	ICH8 Southbridge supports: 4 x Serial ATA 3.0 Gb/s Optional JMB368 controller supports: 1 x Ultra DMA 133/100/66/33
Sound subsystem	Realtek ALC883, 6-channel High-Definition Audio codec coaxial S/PDIF
LAN support	Attansic L1 PCI-E Gigabit LAN Network Controller
	24-pin ATX power connector 4-pin ATX12V power connector
Cooling	Aluminum radiator on north and south bridge
Fan connectors	1 x CPU 1 x case fan
External I/O ports	2 x PS/2 port for connecting keyboard and mouse 1 x LPT 1 x COM port 1 x VGA 4 x USB 2.0/1.1 ports 1 x LAN (RJ45) 6 channel audio output
Internal I/O ports	6 x USB 1 x FDD 4 x SATA 1 x IDE 1x S/PDIF output Front panel audio connectors System panel connector Chassis Intrusion
	8 Mb Flash ROM, AMI BIOS, PnP, DMI2.0, WfM2.0, SM BIOS 2.4, ACPI 2.0a, ASUS EZ Flash 2, ASUS CrashFree BIOS 3
Overclocking options	Frequency change: FSB, PCI-Express, memory. Change voltage on: memory.
Proprietary technologies	ASUS C.P.R. ASUS Q-Fan ASUS CrashFree BIOS 3 ASUS EZ Flash 2 ASUS MyLogo 2
Equipment (important)	1 x SATA cable 1 x SATA power adapter 1 x UltraDMA cable 1 x FDD cable Instructions and Guide 2 x CD with drivers and software
Form factor Dimensions, mm	MicroATX 9.6"x 8.4" 244 x 213
Products webpage	http://www. asus. com/ The latest BIOS version can be downloaded from the official page.
average price	View in price. ua. View in price. ru.

First, let's look at the architecture of the Intel G965 chipset. This chipset supports DDR2-800 memory and only a 1066 MHz system bus. The ICH8 series south bridges have 10 USB 2.0 ports and up to six Serial ATA ports. The graphics core function is performed by the Intel GMA X3000, which has a built-in RAMDAC frequency of 400 MHz and is capable of supporting a maximum resolution of 2048x1536 at 75 Hz vertical scan. The Intel G965 chipset supports Intel Clear Video Technology, which provides enhanced high-definition video playback capabilities, sharp images with improved interlace conversion, and advanced ProcAmp color management capabilities.

The ASUS P5B-VM SE motherboard is packaged in a black and blue cardboard box, which features support for the Windows Vista operating system, Intel processors with quad-core architecture and the presence of an integrated Intel GMA X3000 video accelerator.

On the back of the package there is a photograph of the ASUS P5B-VM SE motherboard and again emphasis is placed on support for quad-core processors and the presence of proprietary utilities:

ASUS CrashFree BIOS 3 - a utility that automatically repairs damaged BIOS. You can use it by using the included CD, as well as a flash drive or Floppy disk containing the updated BIOS version file. ASUS EZ Flash 2 is a utility that allows you to update the BIOS version directly from its settings menu, and eliminates the need to use DOS BIOS flashing utilities and a boot floppy disk. ASUS Q-Fan is a technology for automatically controlling the rotation speed of a processor fan. ASUS MyLogo 2 is a utility that converts graphic files into a 256-color image of the required format for the BIOS boot background.

Contents of the ASUS P5B-VM SE motherboard:

two CDs with software and drivers for Windows XP and Vista; user manual in English, brief installation instructions, FDD cable, UltraDMA 133/100/66 cable; Serial ATA cable; power adapter for SATA devices; company sticker; plug for the rear panel of the case.

The ASUS P5B-VM SE motherboard is soldered onto a microATX form factor PCB. The layout of the board is very good and has no serious criticisms. Since ASUS P5B-VM SE belongs to the budget class, reliable polymer capacitors were installed only in the processor power stabilization unit (VRM), and all other capacitors on the motherboard were with ordinary liquid electrolyte. To cool the northbridge, which serves as a video accelerator, it has a standard medium-sized aluminum radiator painted black.

A small aluminum radiator is installed on the south bridge, also painted black and marked with the company name “ASUS”. The Intel ICH8 South Bridge supports four SATA II ports, without the ability to form RAID arrays. To support the only IDE connector located on the bottom edge of the ASUS P5B-VM SE, an additional JMB368 controller supporting Ultra DMA 133/100/66/33 is installed. The BIOS reset jumper is located under the 24-pin power connector, on the right edge of the motherboard. The front panel connector is not color-coded, and the kit does not include the special Q-connector that is usual for ASUS motherboards, so when connecting, you will need to be guided by the diagram or instructions given next to it. The green LED indicator for the presence of standby power on the motherboard is soldered between the PCI connectors and the south bridge.

ASUS P5B-VM SE has two PCI slots, one PCIE x1, and one PCIE x16 video card slot. On the left side of the motherboard there is an HDA six-channel audio codec Realtek ALC883, and an Attansic L1 network controller that supports 10/100/1000 Mbit/s modes. The front panel audio connector is located at the bottom left side, and supports connection in both HDA and AC`97 formats.

In addition, there are four USB ports on the bottom edge of the motherboard and two more are soldered near the I/O panel. Here, near the I/O connectors, a mounting hole is made in the motherboard PCB for a WiFi module, which can be installed on a more functional modification of the board or you can try to purchase it separately.

The processor power stabilizer on the ASUS P5B-VM SE motherboard is three-channel.

The following ports are located on the rear panel: two PS/2 for keyboard and mouse, three switchable audio ports, four USB connectors, an RJ45 connector for network connections, parallel LPT, serial COM port and VGA video output.

The ASUS P5B-VM SE motherboard has two fan headers. One 4-pin for the CPU cooler is located on the right side of the processor socket, and the other 3-pin for the case fan is located above the RAM slots.

The ASUS P5B-VM SE motherboard uses AMI BIOS, with a fairly small set of settings required for overclocking.

Overclocking settings are located in the “Advanced” section.

In the “JumperFree Configurstion” section, you can set the “Overlocker profile”, which proportionally increases the system bus clock speed by 5%, 10%, 15%, 20% and 30%.

In the “custom” setting mode, you can change the FSB clock frequency from 100 MHz to 400 MHz using manual input and change the PCI Express bus frequency from 90 to 150 MHz in 1 MHz steps, and also select the power supply voltage for 1.8 V RAM power modules or 1.9 V.

In the “CPU Configuration” subsection you can activate the following Intel processor technologies:

In the “CPU ratio adjustment” item, you can activate the custom mode and fix the processor multiplier from 6x to max; “C1E Support” - allows the shutdown of processor blocks during system inactivity to reduce its power consumption; “Hardware Prefetcher” - enables hardware prefetching of data from memory, which should slightly increase performance; “Adjacent Cache Line Prefetch” - enables a mode that allows prefetching adjacent cache lines. If this option is disabled, only one 64-byte line of a 128-byte sector is prefetched. “Max CPUID Value Limit” - this option is required when using processors of the new Core 2 Duo architecture in conjunction with older operating systems such as Windows 95/98/Me. When activated (Enable), the “identification number” (CPUID) of the processor, which is standardly initialized by the operating system at boot, is lowered. This allows you to avoid including new processor instructions that are not “understood” by the operating systems, and thus avoid conflicts. “Vanderpool Technology” is a technology that allows two operating systems, main and guest, to simultaneously access hardware, running on a virtual machine. “CPU TM function” - permission to “throttle” the processor (skipping clock pulses, reducing the clock frequency and operating voltage) in case of overheating. “Execute Disable Bit” - enables support for the hardware-software buffer overflow protection mechanism, a mechanism used by many malware to cause damage or penetrate the system. “PECI” - the inclusion of Platform Environment Control Interface technology, which provides independent processing of temperature sensor readings and activates the function of automatic control of the rotation speed of the processor cooler and case fans.

The Chipset / North Bridge Configuration subsection includes the following settings:

“DRAM Frequency” - allows you to set a divider for DDR2-533/667/800 RAM, “Configure DRAM Timing by SPD” - activates the ability to change RAM timings (CL, RCD, RP, RAP); “Memory Hole” - enabling this parameter prevents ordinary programs from using the 15 megabyte memory area, which allows you to increase the speed of accessing I/O devices. “Initiate Graphic Adapter” - sets the order of initialization of the video accelerator. Possible settings: , , , , . “Internal Graphics Adapter” - enables the integrated video accelerator and sets the default frame buffer size for 2D applications. Possible settings: , , . If you are using a large desktop resolution, you should select a setting with a larger value. “PEG Force x1” - allows you to allocate only one data line for the PCI-E x16 slot. In the “Video Function Configuration” menu, you can enable the DVMT mode, which allows you to dynamically change the amount of memory used for the integrated graphics core. In addition, the amount of allocated RAM for the needs of the integrated video accelerator can be fixed at 128 MB or 256 MB.

In the Hardware Monitor window you can monitor:
- processor temperature;
- rotation speed of the processor cooler and case fan;
- processor core supply voltage;
- the voltage value of the main power lines is 3.3V, 5V, 12V.

In the “CPU Q-Fan Control” item, you can activate the proprietary technology for automatically controlling the fan speed of the Q-Fan processor cooler. To optimize the technology, it is advisable to set the minimum speed threshold of the connected fan in the “CPU Target Temperature” item as a percentage from 20% to 90% in 10% increments (apparently, here you need to take into account the fan parameters and, assuming that 12V is 100%, set its minimum operating voltage). In addition, in the “CPU Target Temperature” item you need to set the temperature to which the minimum speed will correspond.

Carrying out the standard procedure for testing the capabilities of the system bus, we were able to increase its frequency only to 325 MHz.

Testing

The following equipment was used to test the capabilities of motherboards.

CPU	Intel Core 2 Duo E6300 (LGA775, 1.86 GHz, L2 2 MB)
	Thermaltake Sonic Tower (CL-P0071) + Akasa AK-183-L2B 120 mm
RAM The ASUS P5B-VM SE motherboard shows a good level of performance. A large difference in results in the PCMark`05 graphics test was obtained due to the use of different versions of video card drivers. Testing the motherboard on an integrated Intel video accelerator GMA X3000 PCMark"05 Intel GMA X3000 CrystalMark SmartFPS. com 1.5( 800x600 (60Hz),NO AA/AF,) fps The results of the Intel GMA X3000 graphics core are quite weak for a 3D accelerator. With this level of performance, it is unlikely that it will be possible to play any modern game normally, but we hope that people choosing such platforms do not count on this much, because the integrated video accelerator is, first of all, just an adapter for output images on the monitor. conclusions The ASUS P5B-VM SE motherboard is a very good option both for an office computer and for a home system that is tasked with basically the same tasks, plus working with multimedia applications. Although, ASUS P5B-VM SE belongs to the old line of motherboards and does not have support for the latest Intel processors, but it demonstrates good performance. The advantage of ASUS P5B-VM SE is the relatively good integrated video accelerator Intel GMA X3000. Since the GMA X3500 and GMA X 3100 graphics cores of the new G35 and G33 chipsets have not yet demonstrated a noticeable performance gap, people who simply need a platform with built-in video should not make hasty conclusions and chase the “novelty”. It probably makes sense to save a little and buy this product while you still have the opportunity. The capabilities of the ASUS P5B-VM SE motherboard in terms of overclocking are not very outstanding, since the supply voltage of the memory modules cannot be raised above 1.9 V and there is absolutely no voltage regulation on the processor, but even then you can carry out “safe” overclocking and increase productivity by 20-30%. Advantages: high performance; integrated video accelerator Intel GMA X3000; affordable price. Flaws: lack of support for processors running on a 1333 MHz system bus and made using 45 nm technology; poor overclocking capabilities; one PCI-E x1 slot; lack of DVI output.

After the appearance of the new line of ASUS P5K motherboards based on the new Intel P35 Express chipset, it may be somewhat irrelevant to describe a board based on the “outdated” Intel P965 Express chipset. But in fact, the ASUS P5B series of motherboards remains a very interesting and sought-after product. The new chipset did not make a noticeable leap in performance; yes, it supports Intel processors with a 1333 MHz bus, but these processors are not yet on the market. The ASUS P5B line of boards will be in demand for at least half a year, because the price of the recently released series of boards is currently a little high. In this review, we will look at the low-end model of the line of motherboards based on the Intel P965 chipset ASUS P5B.

ASUS P5B motherboard specification:

Manufacturer
North Bridge
South Bridge
CPU socket
Supported processors	Intel Core 2 Quad / Intel Core 2 Extreme / Core 2 Duo / Pentium Extreme / Pentium D / Pentium 4 / Celeron D
System bus, MHz	1066 / 800 / 533 MHz
Memory used	DDR2 800 / 667 / 533 MHz
Memory support	4 x 240-pin DIMMs, dual-channel architecture up to 8 GB
Expansion slots	1 x PCI-E x16 3 x PCI-E x1 3 x PCI 2.2
Disk subsystem	ICH8 Southbridge supports: 4 x Serial ATA 3.0 Gb/s Optional JMicron JMB363 controller supports: 1 x Ultra DMA 133/100/66/33 1 x Serial ATAI/II 1 x External Serial ATA 3 Gb/s (SATA On-the-Go) SATA RAID 0, 1 and JBOD
Sound subsystem	SoundMAX ADI AD1988A 8-channel S/PDIF-Out ASUS Noise Filter
LAN support	Realtek PCI-E Gigabit Network Controller (RTL8111B)
	24-pin ATX power connector 4-pin ATX12V power connector
Cooling	Radiator on north and south bridge
Fan connectors	1 x CPU 3 x case fans
External I/O ports	1 x Parallel Printer Port 1 x PS/2 keyboard connection port 1 x PS/2 mouse connection port 1 x S/PDIF output (coaxial + optical) 1 x External SATA 4 x USB 2.0/1.1 ports 1 x LAN (RJ45) 8 channel audio output
Internal I/O ports	3 x USB support 6 USB ports 1 x COM 1 x Floppy disk 5 x SATA 1 x IDE 1x S/PDIF output Front panel audio connectors: 1 x Azalia Digital Header 1 x S/PDIF Out Header System panel connector Chassis Intrusion
	8 Mb Flash ROM, AMI BIOS, PnP, DMI2.0, WfM2.0, SM BIOS 2.3, ACPI 2.0a, ASUS EZ Flash 2, ASUS CrashFree BIOS 3
Overclocking options	Changing the FSB frequency, PCI-Express frequency, memory frequency, processor and memory voltage.
Proprietary technologies	ASUS C.P.R. AI NOS ASUS AI Gear ASUS AI Nap ASUS Q-Fan 2 ASUS O.C. Profile ASUS CrashFree BIOS 3 ASUS EZ Flash 2 ASUS MyLogo 2
Equipment (important)	4 x SATA cable 2 x SATA power adapter with two SATA connectors 1 x UltraDMA 133/100/66 cable 1 x FDD cable 1 x USB stick with two connectors 1 x ASUS Q-Connector (2xUSB, system panel) Instructions 1 x CD with drivers
Form factor Dimensions, mm	ATX 12"x 9.6" 305 x 244
Products webpage	The latest BIOS version can be downloaded from the official page. Drivers for the motherboard can be downloaded from the official website.

The motherboard is packaged in a cardboard box, which is marked with support for the Windows Vista operating system and quad-core Intel processors.

The back of the package shows a photo of the board with footnotes of its best qualities and lists the proprietary technologies supported by the product. In a little more detail, let’s look at the technologies highlighted by the manufacturer:

AI NOS(Non-delay Overclocking System) – instant overclocking system that intelligently detects system load and automatically increases its performance.

AI Gear– this technology allows you to select a profile according to which the frequency of the processor, system bus and vCore voltage will be adjusted, thereby reducing noise and energy consumption.

AI Nap– technology that reduces noise and energy consumption to a minimum. It puts the computer into power saving mode without turning off applications, and wakes up the system by simply pressing a button on the keyboard or mouse.

If you would like to familiarize yourself in more detail with the entire list and description of proprietary ASUS technologies that this motherboard supports, you can do this on the manufacturer’s website.

The ASUS P5B motherboard is very well equipped. Includes:

• motherboard;
• CD with software and drivers for Windows Vista;
• User manual in English, brief installation instructions,
• FDD cable,
• cable UltraDMA 133/100/66;
• 4 Serial ATA cables;
• two power adapters for SATA devices, with two connectors;
• company sticker;
• ASUS Q-Connector;
• plug for the rear panel of the case;
• bracket with two USB connectors.

Note that there is no bracket with a COM port.

The ASUS P5B motherboard is quite well laid out, but, of course, there are some small comments that we will definitely make. Firstly, only a small board can be installed in the topmost PCIE x1 slot, because the northbridge heatsink is located very close. Aluminum radiators are installed on the north and south bridges - it must be said that during long-term testing and overclocking they did not cope with their task very well.

The Floppy connector is rotated, and it will not always be convenient to connect to it in small cases, so we recommend connecting the cable before installing the board in the case. The Intel ICH8 Southbridge supports four SATA II ports, without the ability to form RAID arrays. These four SATA connectors are located on the right corner of the board. In addition to them, there are two more - one is located near the PCI connectors, and the other External SATA port is located on the rear panel. The operation and organization of two hard drives into RAID 0.1 and JBOD arrays can only be provided by the JMicron JMB363 controller. At the same time, we note that it is completely inconvenient to use an external External SATA port to form arrays. In addition, the controller provides the only IDE connector on the board, with the ability to connect two devices.

The motherboard has three PCI slots, three PCIE x1, and one for a PCIE x16 video card.

Other notable features of interfaces and controllers include:
- support for ten USB ports, four of which are located on the rear panel;
- one COM port;
- PCI-E Gigabit LAN controller (RTL8111B) with transfer speeds up to 1 Gbit/s;
- HDA eight-channel audio codec SoundMAX ADI AD1988A with S/PDIF output and Noise Filter noise reduction technology.

The power stabilizer is three-channel, assembled using reliable polymer capacitors 680 μF x 4V and N-channel field-effect transistors NIKO-SEM P0903BDG (25V, 9.5mOhm, 50A). Unfortunately, there are no additional cooling elements on the transistors.

The rear panel has the following ports: two PS/2 for mouse and keyboard, parallel (LPT), six switchable audio ports, 4 USB connectors, RJ45 connector for network connections, SATA On-the-Go, coaxial and optical S/PDIF. Note the absence of a COM port, which can sometimes be useful.

You can connect four fans to the board, one of which is a 4-pin processor fan, and the other three are three-pin. The processor cooler connector is a little distant from LGA775 and is located in the upper part, near the memory slots. The remaining three connectors are conveniently spaced throughout the board, which provides a good choice of places to connect case fans. Q-Fan Control technology allows you to automatically regulate the rotation speed of a processor cooler powered from the CPU Fan connector and two more case fans connected to CHA-FAN 1-2 connectors.

The ASUS P5B motherboard uses AMI BIOS, with a large selection of settings necessary for successful overclocking of the system.

Overclocking options:
- Changing the FSB clock frequency from 100 to 400 MHz in 1 MHz steps (manual input);
- Selecting the operating memory frequency (DDR2-533/667/800/889/1067) and changing memory timings (CL, RCD, RP, RAS, 1T/2T);
- Changing the PCI Express bus frequency from 90 to 150 MHz in 1 MHz steps;

Set the DDR2 memory supply voltage from 1.8 V to 2.45 V, in steps of 0.05 V, or enable the Auto adjustment mode;
- Changing the processor core supply voltage from 1.225 V to 1.7 V in steps of 0.0125 V;

Voltage change FSB Termination 1.2/1.3/1.4/1.45 V;

Change the north bridge supply voltage 1.25/1.4/1.55/1.7 V;
- Change the supply voltage of the south bridge core (SATA, PCIE) 1.5/1.6/1.7/1.8 V;
- Change the supply voltage ICH Chipset 1.057/1.215 V;
- Changing the processor multiplier from 6x to max.

In the Hardware Monitor window you can monitor:
- temperature of the motherboard and processor;
- rotation speed of the processor cooler and two other fans in the case;
- processor core supply voltage;
- the voltage value of the main power lines is 3.3V, 5V, 12V.

In addition, it is possible to enable the CPU Q-Fan and Chasis Q-Fan functions, which are responsible for controlling the rotation speed of the processor cooler and case fans, respectively.

Carrying out a standard procedure for testing the capabilities of the system bus, we were able to increase its frequency to 470 MHz, but we are sure that this is not the limit. Unfortunately, we only had DDR2-800 memory at our disposal; if we had something faster, the result would probably have been better.

Testing

The following equipment was used to test the capabilities of motherboards.

CPU There is no noticeable difference in performance between motherboards based on the new Intel P35 Express chip compared to motherboards based on the Intel P965 Express chip; all indicators are virtually the same. conclusions The ASUS P5B motherboard is a good basis for computer systems on modern Intel processors; the board shows excellent performance and has good overclocking capabilities. But, unfortunately, ASUS P5B has several disadvantages. The Intel ICH8 south bridge cannot organize RAID arrays, so if necessary, you will have to use the capabilities of the additional JMicron JMB363 controller, which supports only two connectors, one of which is located on the rear panel. Also a serious drawback, as it seemed to us, are the bridges that get very hot and the lack of a cooling system on the power stabilization unit. If the radiator of the south bridge was hot during testing, then the radiator of the north bridge was simply red-hot. Although the computer worked stably, there is still some concern for the safety of the chipset under prolonged loads on the system. Therefore, if you decide to do overlocking, then keep this in mind; perhaps it makes sense for you to choose a more expensive board with a better cooling system, or take care of improving the cooling yourself. The advantages include: high productivity; three connectors for connecting additional fans; a large number of settings in the BIOS required for overclocking; tested ability to operate at FSB frequency 470 MHz; external External SATA port; 8-channel High Definition Audio with coaxial and optical S/PDIF outputs. The disadvantages include: lack of a COM port on the rear panel and no additional panel included; poor capabilities for organizing RAID arrays; weak cooling system; lack of Firewire. We would like to express our gratitude to PF Service LLC (Dnepropetrovsk) for the motherboards provided for testing. Article read 103974 times Subscribe to our channels

Core 2 Duo processors have not been uncommon on the Russian market for a long time. At the same time, it has long been clear that these are the most balanced, ergonomic and productive solutions. Also, we can’t help but rejoice at the fairly wide range of motherboards for these CPUs. It should be noted that today a whole range of motherboards are produced for Core 2 Duo processors, based not only on traditional 965 and 975 chipsets, but also on more exotic ones, such as 865PE or 915. I note that it is not always possible to use non-traditional chipsets are a good base for a motherboard. In most cases, this leads to rather mediocre opportunities.

But it is unlikely that the demand for these solutions is so great. And boards based on P965 remain the most popular. It is worth noting that our resource has already reviewed boards based on this system logic. Moreover, these were very expensive and advanced solutions from Gigabyte, such modifications as the Gigabyte GA-965P-DS4 and Gigabyte GA-965P-DQ6. The main feature of these boards is the use of a very efficient and expensive cooling system made entirely of copper. At the same time, this design covers most of the board, which allows cooling not only such traditional elements as the north and south bridges, but also cooling equally important parts of the motherboard, such as mosfets. I note that the use of heat pipes in this design not only makes it more efficient, but also allows us to get rid of the inclusion of active elements such as fans in the working fluid. Thus, the cooling system on Gigabyte boards allows not only to quickly and efficiently cool their elements, but also to carry out this manipulation completely silently, which is very important nowadays, considering that sometimes the roar of coolers on processors and video cards seriously irritates the user. And obviously it won’t be superfluous if the roar of the fan on the chipset does not interfere with this hegemony of noise. Among other things, the Gigabyte GA-965P-DS4 and Gigabyte GA-965P-DQ6 modifications have a wide range of settings designed to overclock certain system components. The practical results of processor overclocking also allow us to view these solutions very positively. Let me remind you that both boards were able to easily cross the 400 MHz mark when raising the FSB frequency, and with a fairly significant margin.

We also tested the Gigabyte GA-965P-DS3 board on our resource, and the results were even better. And this despite the fact that this solution is a very simplified product. First of all, the cooling on this board is much more modest. Gigabyte does not use heat pipes in this model, which is not surprising considering that the DS3 is positioned one step lower than the DS4 and DQ6. Thus, having looked at the range of products from Gigabyte, I can confidently say that these are solid and high-quality products that will appeal to most users. Moreover, the use of a passive cooling system on the DS4 and DQ6 will also certainly find a response among buyers.

With this small digression about Gigabyte's products, I will begin today's review. The fact is that it is not only this company that offers a very serious range of solutions. After all, let’s not forget that Asus has long been a brand that has established itself as a manufacturer of high-quality and reliable products. Moreover, the release of one or another platform was always marked by the fact that we usually received this product from Asus. So, it would be surprising if such a big name were not noted for the release of boards based on the 965 chipset. Thus, Asus has a whole range of boards based on this set of system logic. The oldest of them is the model, traditionally with the richest configuration, which in addition to the standard set of accessories also includes Wi-Fi. This modification is traditionally referred to as Deluxe/Wi-Fi. A characteristic feature of this board is the availability of the widest range of settings and overclocking options. In addition, usually these solutions implement the largest number of Serial-ATA outputs, as well as several network chips. A little lower in the hierarchy of boards from Asus is a model with the “E” index. This product has a similar set of settings and capabilities, but still has a slight simplification in the board design. Also, the reduction in price also affected the configuration. Otherwise, the board is identical to the flagship modification. An even lower step is a board with no additional indexes at all, simply called “Asus P5B”. This is exactly what we will talk about today.

Packaging and equipment

The packaging of the Asus P5B has the traditional coloring typical of all products based on the P965. I would like to note that the dimensions are average, which indicates that the board's complete set is modest.

Indeed, the equipment is very meager compared to older versions. However, we have everything we need. Thus, the kit includes:

• User Guide;
• Quick Start Guide;
• Disk with software and software;
• 4?Serial-ATA cable;
• Ultra DMA 66/100/133 cable
• Floppy train;
• Two Serial-ATA power cables;
• USB 2.0;
• Connectors for the control panel;
• Plug for the housing.

I would like to note the presence of a very important detail for most users. Most motherboards released recently by Asus include connectors for the control panel. Thus, the process of connecting cords to this panel can be greatly simplified. Now you just need to connect all the cords to the connector and then connect the entire bunch to the panel.

Board inspection

The board itself also has a very simplified design compared to older modifications. As you can see, in this model Asus does not use any copper as a material for the manufacture of radiators or heat pipes. Overall, the board has a very standard design. A small aluminum radiator with the manufacturer's name is responsible for cooling the northbridge. It is worth noting that the dimensions of this cooling system are quite small, and even in the past, much more massive radiators were used on i955-based boards, such as the Asus P5WD2. In our case, a seriously simplified design is used. For example, the cooling of the south bridge is completely fictitious. This chip is cooled by a miniature aluminum radiator.

Changes also affected the power supply system. Compared to most expensive boards, the power supply system on the Asus P5B looks very modest. This also applies to the use of only three phases, as well as 9 capacitors with a capacity of 680 μF each. However, such an approach is very justified. Let's remember that the Gigabyte DQ6 uses a rather complex power system consisting of 12 phases! This structure allows you to withstand very serious loads placed on the power circuit. But let's not forget that the problem of overloading these circuits was especially relevant at the time of using processors based on the NetBurst architecture. Indeed, these CPUs had very high power consumption, which in critical loads could have a negative impact not only on the power supply, but also on the motherboard. With the release of Core 2 Duo processors, this problem became a thing of the past, along with high heat generation and low performance. Thus, when using such ergonomic CPUs, you are unlikely to need a board with such a complex and advanced power system. What Asus offers is quite enough for you, especially since, despite the very small number of phases, the power system itself is well made and uses very high-quality capacitors in its design. The processor is powered via a 4-pin connector. I note that at this point it is also worth talking about simplifying the design, because most boards in this class use an 8-pin output.

The board is equipped not only with traditional PCI-E 16x, but also with 3 PCI-E 1x and 3 PCI slots. Thus, it is worth noting a more conservative approach to this issue on the part of Asus. If in the case of Gigabyte we could see two PCI-E 16x slots at once (although one of them initially works as 4x), then today’s board has a more traditional approach, and, in my opinion, this approach is much more rational. Let me remind you that in most cases we cannot use all PCI slots due to the fact that the cooling system on the video card often covers the adjacent slot. Thus, we have to be content with two or even one PCI slot.

At the beginning of the description of the board, I already touched on the issue of cooling the north bridge, but this point is of very serious importance, so here I will go into a little more detail. The fact is that even before the launch of the system, such cooling raised very serious doubts in me, as it was unlikely that such a design would be able to cope with cooling the rather hot P965 chip. Recalling the experience of testing Gigabyte DS4 and DQ6, I ​​noted that even in the case of these boards, when an advanced design based on heat pipes was used to cool both bridges, and even with this, the radiators heated up quite seriously under load. What then can we expect on boards with such simplified cooling?

I note that we can also find similar conservatism on motherboards from Gigabyte, on the S3 and DS3 models. If you believe eyewitnesses who have personally used these solutions, we can conclude that the radiator copes with cooling the chip, but it is still very doubtful, since at the same time it is worth noting that it heats up very seriously. On the Asus P5B board the situation was similar. As soon as I started the board, the radiator instantly heated up. I will note one interesting point. The fact is that on this design when the board was operating there was a wire from a fan located on the processor cooler. And imagine my surprise when, after a couple of minutes of operating the system, I discovered that this cord began to become softer and gradually stick to the radiator. Thus, a little more and the rubber winding of the cord would simply melt from the high temperature of the radiator. This arrangement of affairs greatly alarmed me. It is unlikely that in case of such strong heating the board could function normally. In any case, I didn’t want to take any risks and placed a 92 mm fan near the radiator, after which there were no more problems with overheating. Moreover, even during a serious, prolonged load, the maximum structure became warm, before which it was impossible to even touch it.

Thus, I have some concerns that if the board is used in cheap cases with poor ventilation, there may be instability of the board or even failure of the chipset. Moreover, this warning applies not only to the Asus P5B, but also to all motherboards that have such weak cooling on the north bridge. So, if you have a solution to a similar problem, then I advise you to install a fan to blow the radiator or completely change the cooling on the northbridge.

I did not notice any problems with overheating of the south bridge.

The board is equipped with five Serial-ATA outputs. Moreover, four of them are painted red and placed in one group. The fifth is located higher and is painted black. It is worth noting that there is only one output with an Ultra DMA 66/100/133 interface. There is also a connector for Floppy in the same quantity.

The control panel, traditionally for Asus, is painted white, which does not interfere with orientation when connecting the corresponding cords from the case. Moreover, if you consider that the board comes with a convenient connector, which greatly simplifies this procedure.

The back panel is quite traditional. It includes both modern coaxial and optical SPDIF, as well as an aging LPT port. I note that, unfortunately, there is no COM port.

Board BIOS

As for the BIOS, here we have the code from Award, made with the appropriate features by the Asus software department. Thus, in most aspects the BIOS is similar to what we can find on boards in this price range. We are mostly interested in the possibilities of overclocking and tuning system performance. This is what we will talk about.

Overclocking options appear to us in the Configure System Frequency/Voltage section. Taking a look at this menu, you immediately get the feeling that something is missing. On the one hand, we clearly see a section about changing the frequencies of the memory, processor, changing the voltage on these elements, as well as on the FSB... But where is the voltage regulation on the north and south bridges? This is where the first disappointment awaited us.

Let me remind you that the main criterion when overclocking Core 2 Duo processors is to use a motherboard capable of maintaining an FSB of 400 MHz or more, depending on the processor, or more precisely on its multiplier. Thus, even 450 MHz FSB is unlikely to be enough for you to successfully overclock the E6300 model, and this despite the fact that not every motherboard can reach this level. For example, when testing Gigabyte's DS4, we were unable to achieve such results. It's hard to say what caused this. The board itself has little potential or flaws in the BIOS, but the fact remains that when overclocking the younger Core 2 Duo you need to have a very, very advanced motherboard.

Let's not forget that the main point affecting the board's potential is the voltage on the chipset. Thus, the higher this value, the larger the maximum FSB your processor will be able to run on. Unfortunately, in our case we are deprived of such an option, and we will have to be content with the standard voltage. However, let’s not get ahead of ourselves, because the board’s potential can be quite high even without manipulation to raise the voltage. But more on that a little later.

In the meantime, it is also worth noting the very weak capabilities for raising memory voltage. If on most boards this value is 2.5 V, then in our case it is much lower and equal to 2.1 V. I note that you are unlikely to be able to unlock the potential of expensive memory modules on this board. Let me remind you that some strips require a voltage of up to 2.4 V for optimal overclocking.

The option to change the voltage on the processor is also not pleasing to the eye. The fact is that for some reason the lower value is 1.4 V, and this despite the fact that most Core 2 Duo processors have a nominal voltage of 1.2-1.25 V. The maximum possible value on this board is 1. 7 V.

As for the FSB bus, here we have the ability to change the voltage in the range from 1.2 V to 1.45 V.

The ability to change memory timings is also very standard and does not bring anything new.

In general, it is worth noting that the BIOS capabilities on the Asus P5B are rather mediocre; this is especially surprising given the traditionally high quality of Asus products at this particular point.

But it would hardly be possible to draw any conclusions about the board without familiarizing yourself with the practical results. We'll talk about them now.

Overclocking and board features

To test the board, I used an open-type stand with the following configuration:

• Processor - Core 2 Duo E6300 (266×7, L2 cache is 2048 KB), Allendale;
• Cooling system - Scythe Mine;
• Motherboard - Asus P5B;
• Power supply – Thermaltake Tough Power 550 W;
• Video system - XFX GeForce 7900 GT EE (520/1500), Forceware 93.71;
• Memory – Corsair XMS2 6400 2 GB, 5-5-5-15;
• Hard drive – Hitachi 250 GB, Serial-ATA, 7200 rpm, 8 MB;
• Operating system - Windows XP, Service Pack 2;
• Thermal interface - KPT-8 (Khimtek)

It is worth noting that for testing we took a regular copy of the Core 2 Duo E6300 processor in a boxed package.

The processor characteristics are standard and familiar to most of our visitors:

Before the overclocking procedure, I performed the standard manipulation for testing. Namely, I updated the BIOS version. This is not difficult to do; to do this, you need to use the Asus Update utility, which comes on the disk along with the board. I would like to note that initially the board had BIOS version 0509 installed. As the utility reported, this firmware is currently the penultimate one. Of course, maybe the board could function perfectly without firmware, especially since the BIOS version is not at all old. But I did not contradict my traditions and updated to 0701. Only after that I started overclocking.

It’s worth saying that the relatively weak power supply and overclocking capabilities in the BIOS to some extent made me think that the board’s potential was very low. In any case, you shouldn’t expect records from a cheaper modification. Thinking so at first, I started overclocking from 330 MHz via FSB, before raising the voltage on the memory to 2.1 V and 1.4 V on the processor. As it turned out, the board operates stably at this frequency. In any case, this conclusion could be drawn after the download cycle of the S&M utility version 1.8.2b. A little bolder, I took the FSB step further, raising the frequency immediately to 370 MHz, but this did not make the system unstable. After that, I already began to understand that all the assumptions that I made before overclocking were not entirely justified, and the board is not as bad as it seems if you look at the BIOS capabilities. On the other hand, 370 MHz is a very modest result, which is given to most boards.

Thus, having complete faith in the capabilities of the board, I began to rapidly increase the FSB frequency... I started with 420 MHz. This bar was easily accepted by the board. Further 440 MHz, but again no problems arise! And this despite the fact that the voltage on the chipset was standard. Then I decided to seriously increase the step, so that later, if something happened, I could lower the frequency to find the optimal value. Indeed, I had serious doubts about the next frequency, but the doubts were in vain, and after a couple of minutes the system was working at an FSB of 480 MHz. What's next? It's not like the voltage on the chipset is initially too high. Such an assumption could well have a real basis, given the overheating of the radiator on this element. On the other hand, I completely rejected this assumption, understanding that Asus would never deliberately increase the voltage on the chipset on a board with a simplified design, as evidenced by the absence of a corresponding option in the BIOS.

Having conquered 480 MHz, it was necessary to cross the psychological threshold of 500 MHz. But this became possible on this board. I note that before this I raised the voltage on the processor a little more to 1.45 V, so that determining the maximum for the board would not be confused by the ceiling of the processor potential. Next, I set the frequency to 513 MHz, with this FSB the processor operated at a frequency of 3600 MHz! But passing POST can hardly be called normal functioning, given that the system was no longer able to load the OS. Thus, I was forced to reduce the FSB frequency to 507 MHz. At this frequency a cycle was completed in the S&M utility.

Having already rejoiced at the success, I was preparing to take a screenshot, when suddenly the system froze... To be honest, this quite surprised me, considering that at that time there was no download as such, and the cycle in S&M was completed. I rebooted the system to repeat the stability test, but this time I could not even boot the OS, because during this process the system froze again. I was forced to reduce the FSB frequency.

To begin with, the value was set to 500 MHz. This time the OS loaded without problems, but while “walking” through the Internet, I was again faced with freezing. Surprisingly, it seems that the S&M utility cannot adequately determine system stability when using Core 2 Duo processors. I then lowered the frequency to 490 MHz and ran a boot cycle using Burn P6 and Super Pi, but there were no problems until the very end. When the test was completed, I again went to the vastness of the endless network, and again the computer froze. At that moment, I already began to lean towards possible viruses or other hostile creatures on the hard drive I was using. But this could not have happened, since the formatting was done quite recently, and the search for viruses did not give any results. However, as it turned out, this was still a wrong assumption, because once I lowered the FSB further to 480 MHz, this problem no longer occurred, and the system was completely stable, regardless of the application used.

The processor frequency was 3360 MHz, which is still a fairly serious result, although not a record.

The memory operated at a frequency of 960 MHz with timings of 5-5-5-15.

Having talked about overclocking, I would like to touch on the topic of the board's features. They, as you probably understood, are negative in this case.

The first of these features did not surprise me at all. On the contrary, it to some extent confirmed the rule based on the entire statistics of boards from Asus. Having had the Asus P5WD2 board at my disposal for a very long period of time, I got used to the fact that this product turns the board off and on instead of rebooting. I was not surprised by this when I discovered this problem on the Asus P5B. However, this minus is very unnoticeable, and you quickly get used to it, and soon you completely forget. I note that this phenomenon has traditionally been corrected on older boards with the Deluxe or Premium index through the release of new BIOS versions. But on cheaper versions of boards this problem was usually not solved. In any case, this concerned the Asus P5WD2 board. Of course, I do not rule out that this problem will be fixed on the Asus P5B in the future, but I am confident that this is unlikely. At least this is confirmed by the second feature of the board.

As it became clear after the first entry into the monitoring section of the BIOS, the board seriously overestimates the temperature readings on the processor. Moreover, the overestimation occurs by approximately 15-20 °C. As it turned out, the same problem existed on the Deluxe version of the board, but in BIOS version 0507 this problem was fixed. In our case, even when using firmware version 0701, it is not possible to get rid of erroneous temperature monitoring.

Results

In the end, it’s only worth saying that once again you can see how Asus artificially forces users to purchase more expensive modifications, simply by not providing simplified versions with a sophisticated BIOS. On the one hand, this is a very right move, because otherwise the profitability of purchasing Deluxe versions is very small, on the other hand, it is necessary to somehow distinguish these products in the hierarchy of motherboards not only due to more expensive equipment and design, but also increased functionality, which turns out to be an order of magnitude more serious than that of younger models.

Despite all these little things, the board leaves a pleasant impression. In addition to an excellent price, this product boasts very high overclocking performance and excellent stability. For example, motherboards from Gigabyte behaved completely unpredictably when using memory from Corsair, namely the XMS2 6400 model. On the Asus P5B, everything is absolutely fine.

Positive sides:

• Low price for a board based on the P965 chipset;
• High quality and sophisticated design;
• Very high acceleration rates;
• Good stability and compatibility with new memory modules;
• High availability.

Negative sides:

• Ineffective cooling on the chipset;
• Weak board BIOS capabilities;
• Mediocre food system;
• Incorrect temperature monitoring on the processor;
• Problem with system reboot.