Thursday, 24 November 2011

ECS PF88 Extreme Hybrid Mainboard

ECS PF88 Extreme Hybrid Mainboard










EVGA sneak peak of Dual LGA-1366 motherboard for CES 2010


EVGA sneak peak of Dual LGA-1366 motherboard for CES 2010


From what appears to be a New Years Eve gift to hardware enthusiasts EVGA posted a snapshot of what appears to be a Dual Socketed 1366 motherboard. This is a departure from EVGA being a manufacturer of only single processor motherboards for consumers.

This is their first DP [Dual processor] board and we look forward to seeing this board at CES. From what we can gather this board will have 12 DIMM slots and Two Processor sockets and a Digital PWM similar to their popular overclocking Classified board. It will also have an Intel Tylersburg 5520 and two NF200's which may indicate the possibility for 4 full width PCI-E 2.0 X16 graphics card slots. If anything, we don't necessarily expect this board to be a server board, but we do expect this board to break a lot of records with being a Dual processor board and most likely enabling users to actually overclock them. This just wouldn't be an EVGA board if it didn't enable overclocking.



In the Twitter post EVGA wrote, "The Future... Stay Tuned CES 2010!"

Update 1/1/2010
We just got news of a new feature that this board will be supporting...

In addition to supporting dual processors and 12 DIMMs of memory, this board will also support EVGA's proprietary handheld overclocking device, the EVBot. This device allows you to overclock the board on the fly without ever entering the BIOS.



We'll definitely stay tuned and look forward to providing our readers with more pictures and details about this new board.
















Multiprocessor Motherboards


Multiprocessor Motherboards

Some motherboards allow more than one processor to be attached. Having two processors allows your computer to more effectively work on more than one task at once. Multiprocessor motherboards are more expensive than regular motherboards, and you also must buy two processors. However, despite the cost, a multiprocessor system can deliver great performance. Figure 3-30 shows a motherboard with two processors installed.
 A Dual Processor Motherboard (AMD Athelon MP)

Figure 3-30: A Dual Processor Motherboard (AMD Athelon MP)











Dual Processor Motherboard for Gaming PC Building


Dual Processor Motherboard for Gaming PC Building

Despite the fact that computers have been on the scene for a longtime, they are still a bit expensive to purchase.




Purchasing a dual processor motherboard PC for gaming can be quite expensive especially at such a time when commodity prices have continued to skyrocket.

The only option you have is to build your own dual processor-motherboard gaming PC. It is the only way you can get the real value for your money.

Maybe you think that building your own gaming PC is the hardest task you can ever indulge in. 

The reality is that this is pretty simple if only you have the basic knowledge of how the PC works and what is required.



Basically, when you want to build your own dual processor-motherboard for gaming PC, you need to purchase the computer components separately.


The real task is putting together all these components. If you successfully put these components together, you will definitely end up with a fast and cost effective.

Besides, your homemade Dual processor-motherboard PC for gaming will also guarantee you a lot of fun.

Additionally, building your own PC presents you with a number of other benefits including, better performance, valuable experience.

For instance, if you shop around carefully for the best components of your dual processor-motherboard gaming computer, you can find obtain them at an affordable price. Hence, you will have a cheap but high quality gaming computer.




The greatest challenge you will have to encounter when building a Dual processor-motherboard gaming PC is finding the best quality computer components.

There are several components you must have if at all your PC building is be successful. 

They include, dual processor/ CPU, hard drive, motherboard, Gaming case, computer memory, gaming keyboard, power supply, gaming mouse, DVD burner and a computer monitor.

Make sure that you purchase these components from a recognized store or manufacturer so that you can be assured of good quality.



SMP ASUS CUV4X-DLS motherboard (VIA Apollo Pro 133A)





Specification

CUV4X-DLS (47Kb)
  • Processors
    • two Socket 370 connectors for Intel Pentium III, 500-1000 MHz and higher
    • FSB 100/133 MHz support
  • Chipset
    • VIA Apollo Pro 133A: 694XDP + VT82C686B
  • RAM
    • 4 168-pin unbuffered DIMMs with support up to 8 memory banks
    • 4.0 GBytes max memory size
    • ECC(1-bit Error Code Correct) support
    • VC SDRAM, HSDRAM support
  • Expansion slots
    • 1 AGP 4x / AGP Pro slot
    • 5 PCI slots, Bus Master and 3.3V/5V interface PCI bus support
  • On-Board IDE
    • 2 IDE channels on the VIA(R) VT82C686B chip, support for all modes up to Ultra DMA 100
  • Sound
    • Sound Blaster / Direct Sound AC97 Audio optionally in the VT82C686B chip
  • Integrated I/O ports
    • 1 port for FDD (360K, 720K, 1.2M, 1.44M, 2.88M)
    • 2 serial ports
    • 1 parallel port with SPP/EPP/ECP support
    • 4 USB ports
    • 1 IrDA port (compatible without the second serial port)
  • SCSI
    • two-channel Ultra160 SCSI controller
    • LSI 53C1010-33 chip
    • 2 68-pin connectors, up to 30 devices totally
  • LAN
    • 10/100BaseTX netcard
    • Intel 82559 chip
  • Hardware Monitoring
    • temperature control of two processors and motherboard
    • 3 fans' speed control
    • 5 voltages control
    • connection of the case opening sensor
  • BIOS
    • Award 6.0 BIOS
    • Plug&Play, DMI, AMP, ACPI
    • JumperFree (tm) CPU frequency choice
    • AGP - AGPx4, AGP Fast Write settings
    • WOT, WOL, WOM
  • Dimensions:
    • ATX Form Factor, 26 cm x 30.5 cm
CUV4X-DLS Box
The board is shipped in a beautiful dark blue box. Apart from the board, a user's manual, and a CD with drivers the complete set includes the following cables:
  • 40-pin IDE, 34-pin FDD
  • 80-pin UDMA66/100
  • 68-pin UltraWide SCSI with three internal and one external connectors
  • 68-pin Ultra160 SCSI with a terminator, for 5 devices
Besides, there is a bracket with a cable for two additional USB ports and a bracket for the ATX case.
CPU terminator
A CPU terminator is mounted into the second socket.
Beside the drivers for the chipset, the netcard and the SCSI adapter the CD includes: AcrobatReader 4.0, ASUS HotKey, Intel LDCM 6.1, Trend PC-cillin OEM Ver 4.02, CyberLink PowerDVD 2.55 and PowerPlayer SE, ASUS PC Probe, VideoLive Mail 3.1.


Installation

The board is a bit bigger than a standard ATX size due to the jut with SCSI connectors. But it doesn't hinder installation in any standard case. The layout is rather compact due to two sockets, SCSI and network controller.
The monitoring of the board and processors' status is provided by the ASUS proprietary chip. It controls processors' temperatures via the sensors integrated on them, and motherboard' temp via a sensor mounted on it. There is no possibility for connection of one more thermistor. There are 4 connectors for fans but only three are controlled. You can enable a "fan off" mode when the system is in the "sleep" mode. A LED located in the below part of the board serves an indicator of voltage supply on the board.
There is nothing to prevent an installation of processors and coolers. You can even mount a couple of the Thermaltake Golden Orbs. 4 SDRAM DIMMs are located in a usual place. Even a usage of a long AGP video card does prevent their access.
IDE connectors are located in the center of the board. I think that the FDD port's position is the worst - its cable goes over IDE connectors and the memory.
Since SCSI connectors are located "in parallel" to the board, the connector's cable can go either up or down. In the second case it makes no good - you have to bent the cable strongly, especially for such high speeds as 160 MBytes/sec. The U160 cable included in the set is "wrong", and the UW one is "right".
The board includes only 5 PCI slots that's why the lowest slot can be used for the bracket for two additional USB ports.
The chipset is equipped with a small heatsink (without glue), but it didn't heat much during the tests. The clock generator chip rises much more anxiety. At low FSB (more than 140MHz) its temperature reached 50 degrees C!
Since the internal audio connectors are located right under the video card it may cause troubles for a variant with AC97 sound.
The board features its own speaker, that's why it's not necessary to use case's speaker.
The ATX power supply connector is located near the upper edge of the board and it can be difficult to reach in some cases. Besides the standard ATX power supply the board has an additional connector for 3.3 and 5 V in case of heavy-loaded configurations.
An integrated network controller can be disabled with a jumper on the board. The RJ45 controller is located above the USB ports. Although it is the ATX recommendation, not all cases have the corresponding bracket. For such cases ASUS offers its own one. There is a couple of LEDs near the connector. When on the net the green LED works as a link/act indicator. The second, an orange one, shows that the card is connected to the 100 Mbit network.
You can enable Intel Boot Agent support via BIOS SETUP, it will allow to boot the PC via the network with usage of PXE and RPL protocols. Despite the fact that the board supports WOL it doesn't work with the integrated network adapter. And in case of usage of the external netcard and WOL connector on the board everything awakes excellently.
The two-channel SCSI controller on the LSI 53C1010-33 chip allows connecting up to 30 devices. Two SCSI channels act as separate controllers, they even use separate interrupt lines. SCSI BIOS has a plenty of settings, including a choice of the booting order from SCSI devices, switching them on and scanning during booting, limitation of the max speed for each devices etc. Besides, it supports booting from the CD. BIOS SETUP contains also several settings concerning SCSI controller: SCSI BIOS enabling, terminators' enabling. Besides, there is a possibility to set a booting order from the controllers - an integrated or an external ones. The controller may be switched off with a jumper on the board. The only problem of the integrated SCSI controller is the lack of 50 pin (narrow) SCSI connector. It means that you have to use an adapter for connecting CD-ROM, CD-RW, scanner etc.
Interrupt lines on the CUV4X-DLS are distributed the following way: 
AGPPCI 1PCI 2PCI 3PCI 4PCI 5USBLANSCSI 1SCSI 2Audio
INT A
*
*
*
INT B
*
*
*
INT C
*
*
INT D
*
*
*


Overclocking

The CUV4X-DLS manufacturer has realized only a possibility to change FSB frequency (and a multiplier for unlocked processor). You can't rise the Vcore and Vio. There are 16 FSB speeds which can be chosen with the jumpers on the board. But the JumperFree technology offers much more possibilities which allows to choose all parameters in the BIOS. In this case for the CUV4X-DLS board the following frequencies can be chosen:
FSBPCIAGPFSB/PCIMEMCLK
66.9
33.45
66.90
2
-
66.9
100.4
68.0
34.01
68.02
2
-
68.0
102.0
75.0
37.50
75.00
2
-
75.0
112.5
80.0
40.00
80.00
2
-
80.0
120.0
83.3
41.65
83.30
2
-
83.3
125.0
85.0
28.34
56.68
3
56.7
85.0
113.3
90.0
30.00
60.00
3
60.0
90.0
120.0
95.0
31.67
63.34
3
63.3
95.0
126.7
100.2
33.41
66.82
3
66.8
100.2
133.6
103.0
34.33
68.66
3
68.7
103.0
137.3
105.0
35.00
70.00
3
70.0
105.0
140.0
110.0
36.66
73.32
3
73.3
110.0
146.7
112.0
37.34
74.68
3
74.7
112.0
149.3
115.0
38.33
76.66
3
76.7
115.0
153.3
116.0
38.66
77.32
3
77.3
116.0
154.7
118.0
39.33
78.66
3
78.7
118.0
157.3
120.0
40.00
80.00
3
80.0
120.0
160.0
124.0
31.00
62.00
4
93.0
124.0
-
126.0
31.50
63.00
4
94.5
126.0
-
130.0
32.50
65.00
4
97.5
130.0
-
133.0
33.25
66.50
4
99.8
133.0
-
135.0
33.75
67.50
4
101.3
135.0
-
138.0
34.50
69.00
4
103.5
138.0
-
140.0
35.00
70.00
4
105.0
140.0
-
142.0
35.50
71.00
4
106.5
142.0
-
144.0
36.00
72.00
4
108.0
144.0
-
146.0
36.50
73.00
4
109.5
146.0
-
148.0
37.00
74.00
4
111.0
148.0
-
150.0
37.50
75.00
4
112.5
150.0
-
155.0
38.75
77.50
4
116.3
155.0
-
160.0
40.00
80.00
4
120.0
160.0
-
166.0
41.50
83.00
4
124.5
166.0
-
We managed to get the system with two processors work at FSB 144 MHz. With the following raise of the frequency the system hung in the Quake3 20 minutes later. For ASUS it's undoubtedly weak result.
There were no claims for reliability. During the test the system has never booted, the Stress Tests were started up together with several video and netcards under Windows2000 Pro and Windows NT Server.