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MSI WS WRX80 review | 74 facts and highlights

100points

MSI WS WRX80

MSI WS WRX80

Why is MSI WS WRX80 better than the average?

• RAM speed?
  3200MHzvs2761.1MHz
• Fan headers?
  6vs4.86
• Memory slots?
  8vs3.83
• PCIe 4.0 x16 slots?
  7vs0.76
• Maximum memory amount?
  2000GBvs82.97GB
• SATA 3 connectors?
  8vs5.46
• Memory channels?
  8vs1.99
• Signal-to-Noise ratio (DAC)?
  120dBvs109.78dB

Which are the most popular comparisons?

MSI WS WRX80

vs

Asus ROG Crosshair X670E Hero

MSI WS WRX80

vs

Asus ROG Maximus Z790 Extreme

MSI WS WRX80

vs

Asus Prime X670E-Pro WiFi

MSI WS WRX80

vs

Asus ROG Maximus Z790 Hero

MSI WS WRX80

vs

Asus Prime H610M-E D4

MSI WS WRX80

vs

Asus ROG Maximus Z690 Extreme

MSI WS WRX80

vs

Asus ROG Maximus Z690 Hero EVA Edition

MSI WS WRX80

vs

MSI Pro Z790-P

MSI WS WRX80

vs

ASRock B650E Steel Legend WiFi

MSI WS WRX80

vs

Asus Prime X670-P

Price comparison

User reviews

Memory

maximum memory amount

2000GB

The maximum amount of memory (RAM) supported.

RAM speed

3200MHz

It can support faster memory, which will give quicker system performance.

overclocked RAM speed

4400MHz

The motherboard supports overclocking the RAM to a higher speed. By increasing the speed at which the memory runs, you can boost the performance of your computer.

memory slots

More memory slots (also known as DIMM slots) allow you to add more RAM to your computer. It is also useful when upgrading, as you can add RAM to an empty slot instead of replacing an existing memory module.

DDR memory version

DDR (Double Data Rate) memory is the most common type of RAM. Newer versions of DDR memory support higher maximum speeds and are more energy-efficient.

memory channels

More memory channels increases the speed of data transfer between the memory and the CPU.

Supports ECC memory

✔MSI WS WRX80

Error-correcting code memory can detect and correct data corruption. It is used when is it essential to avoid corruption, such as scientific computing or when running a server.

Ports

USB 3.2 Gen 2 ports (USB-A)

USB 3.2 Gen 2 supports speeds of up to 10Gbps. It was formerly known as USB 3.1 Gen 2. These ports use the older USB-A connector.

USB 3.2 Gen 1 ports (USB-A)

USB 3.2 Gen 1 supports speeds of up to 5Gbps. It was formerly known as USB 3.1 Gen 1 and USB 3.0. These ports use the older USB-A connector.

USB 3.2 Gen 2 ports (USB-C)

Unknown. Help us by suggesting a value.

USB 3.2 Gen 2 supports speeds of up to 10Gbps. It was formerly known as USB 3.1 Gen 2. These ports use the USB-C connector.

USB 3.2 Gen 1 ports (USB-C)

Unknown. Help us by suggesting a value.

USB 3.2 Gen 1 supports speeds of up to 5Gbps. It was formerly known as USB 3.1 Gen 1 and USB 3.0. These ports use the USB-C connector.

USB 2.0 ports

More USB 2.0 ports allow you to connect more devices to your computer that support USB 2.0.

USB 3.2 Gen 2×2 ports

USB 3.2 Gen 2×2 was introduced in 2019. It supports speeds of up to 20Gbps and uses the USB-C connector.

USB 4 40Gbps ports

Unknown. Help us by suggesting a value.

This version of USB 4 supports very high speeds of up to 40Gbps. Unlike USB 3.2, USB 4 can dynamically allocate bandwidth to video and data. These ports use the USB-C connector.

USB 4 20Gbps ports

Unknown. Help us by suggesting a value.

This version of USB 4 supports speeds of up to 20Gbps. Unlike USB 3.2, USB 4 can dynamically allocate bandwidth to video and data. These ports use the USB-C connector.

Thunderbolt 4 ports

Unknown. Help us by suggesting a value.

The number of USB ports that are compatible with Thunderbolt 4. These ports support speeds of up to 40Gbps, including a minimum of PCIe 32Gbps. This guarantees that it can support two external 4K displays (or one external 8K display).

Connectors

USB 3.2 Gen 1 ports (through expansion)

The number of USB 3.2 Gen 1 ports that can be added by using the USB headers (connectors) on the motherboard.

USB 3.2 Gen 2 ports (through expansion)

The number of USB 3.2 Gen 2 ports that can be added by using the USB headers (connectors) on the motherboard.

USB 2.0 ports (through expansion)

The number of USB 2.0 ports that can be added by using the USB headers (connectors) on the motherboard.

SATA 3 connectors

SATA is an interface used to connect mass storage devices such as hard drives and Blu-ray drives. SATA 3 has a native transfer rate of 6 Gbit/s, which is twice as fast as SATA 2, the previous revision. This is particularly useful if you use an SSD as it can perform at higher speeds.

fan headers

Fan headers are connection points on the motherboard that cooling fans can be connected to. Fans can also be connected straight to the power supply, but when connected to the motherboard you gain much finer control over them through software.

USB 3.0 ports (through expansion)

The motherboard has USB 3.0 headers, which are pin connections that you can connect additional USB ports to.

M.2 sockets

M.2 is an interface used to connect different types of devices, mainly mass storage devices like M.2 SSDs. It is a revision of mSATA and can support much higher data transfer rates.

Has TPM connector

✔MSI WS WRX80

Trusted Platform Module (TPM) is a component that significantly increases security. One example is that it allows encryption keys to be created in a secure environment, minimizing the risk of a hacker gaining access.

U.2 sockets

U.2 is an interface used to connect different types of devices, mainly mass storage devices. It has the same performance as M.2, but U.2 SSDs come in the form of regular 2.5″ SATA drives and could therefore support much higher capacities than mSATA drives.

Expansion slots

PCIe 3.0 x16 slots

Unknown. Help us by suggesting a value.

PCIe slots allow you to connect various components to the motherboard, such as graphics cards and sound cards. The number after the ‘x’ represents the number of lanes, with more lanes supporting higher data transfer rates. PCI Express 3.0 has a bit rate of 8 GT/s, delivering 985 MB/s per lane.

PCIe 4.0 x16 slots

PCIe slots allow you to connect various components to the motherboard, such as graphics cards and SSDs. The number of data-transmission lanes (specified by the number after the ‘x’) determines the data transfer rate. PCIe 4.0 provides a 16 GT/s bit rate that doubles the bandwidth provided by PCIe 3.0.

PCIe x1 slots

Using PCIe slots, you can connect different components to your motherboard, such as graphics cards and RAID cards. The number after the ‘x’ represents the number of data-transmission lanes. More lanes result in faster data transfer rates. A PCIe x1 slot has one lane and can move data at one bit per cycle.

PCI slots

PCI slots allow you to connect peripherals to the motherboard, most commonly graphics cards but also others such as sound cards and network cards. PCI has been superseded by PCI Express which offers faster data transfer rates, but many cards today still use PCI.

PCIe 2.0 x16 slots

PCIe slots allow you to connect graphics cards, SSDs, and other components to the motherboard. The number after the ‘x’ represents the number of lanes, with more lanes supporting higher data transfer rates. PCI Express 2.0 has a transfer rate of 5 GT/s, providing 500 MB/s per lane.

PCIe x4 slots

PCIe slots enable you to connect various components to your motherboard, for example, graphics cards, RAID cards, SSDs. The number of data-transmission lanes (specified by the number following ‘x’) determines the data transfer rate. A PCIe x4 slot has 4 lanes, with a speed of 4 bits per cycle.

PCIe x8 slots

PCIe slots allow you to connect components such as graphics cards and sound cards to the motherboard. The number after the ‘x’ represents the number of data-transmission lanes. More lanes result in faster data transfer rates. A PCIe x8 slot has 8 lanes and can move data at 8 bit per cycle.

Audio

Signal-to-Noise ratio (DAC)

When a digital signal is converted to an analog one (for example when playing audio through speakers or headphones), a certain amount of noise is carried in the signal. A higher SNR means that there is less noise and the audio quality is better.

audio channels

Each channel is a separate stream of audio information. More channels can provide a more realistic experience, such as providing surround sound.

Has S/PDIF Out port

✔MSI WS WRX80

S/PDIF is an interface used to transmit digital audio with high fidelity.

audio connectors

More connectors means that more audio devices such as speakers or microphones can be connected.

Storage

Supports RAID 1

✔MSI WS WRX80

RAID is a storage technology that combines multiple disks into one unit. RAID 1 mirrors the data across the drives. This gives you greater data security as if one drive fails, the data will still be accessible from another.

Supports RAID 10 (1+0)

✔MSI WS WRX80

RAID is a storage technology that combines multiple disks into one unit. RAID 10 (1+0) stripes and mirrors the data across the drives. It gives increased capacity and performance compared to a single disk. It also provides greater data security as if one drive fails, the data will still be accessible from another.

Supports RAID 5

✔MSI WS WRX80

RAID is a storage technology that combines multiple disks into one unit. RAID 5 stripes the data across the drives, giving increased performance compared to a single disk. It also provides greater data security as if one drive fails, the data will still be accessible from another due to the use of parity.

Supports RAID 0

✔MSI WS WRX80

RAID is a storage technology that combines multiple disks into one unit. RAID 0 stripes the data across the drives, giving increased performance and capacity compared to a single drive. The drawback is that if one drive fails, you lose the data on all drives.

Supports RAID 0+1

✖MSI WS WRX80

RAID is a storage technology that combines multiple disks into one unit. RAID 0+1 stripes and mirrors the data across the drives. This gives increased capacity and performance compared to a single disk. It also provides greater data security in case one drive fails, as the data will still be accessible from another.

Price comparison

Which are the best motherboards?

Asus ROG Maximus Z790 Extreme review

96points

Asus ROG Maximus Z790 Extreme

Asus ROG Maximus Z790 Extreme

Why is Asus ROG Maximus Z790 Extreme better than the average?

• RAM speed?
  5600MHzvs2761.1MHz
• Overclocked RAM speed?
  7200MHzvs4338.87MHz
• Fan headers?
  6vs4.86
• Maximum memory amount?
  128GBvs82.97GB
• SATA 3 connectors?
  6vs5.46
• Signal-to-Noise ratio (DAC)?
  120dBvs109.78dB
• M.2 sockets?
  5vs1.89
• RJ45 ports?
  2vs1. 12

Which are the most popular comparisons?

Asus ROG Maximus Z790 Extreme

vs

Asus ROG Maximus Z790 Hero

Asus ROG Maximus Z790 Extreme

vs

Gigabyte Aorus Z790 Master

Asus ROG Maximus Z790 Extreme

vs

Asus ROG Maximus Z690 Extreme

Asus ROG Maximus Z790 Extreme

vs

MSI MEG Z790 Ace

Asus ROG Maximus Z790 Extreme

vs

Asus ROG Strix Z790-E Gaming WiFi

Asus ROG Maximus Z790 Extreme

vs

MSI MPG Z790 Edge WiFi

Asus ROG Maximus Z790 Extreme

vs

MSI MAG Z790 Tomahawk WiFi

Asus ROG Maximus Z790 Extreme

vs

Asus ROG Crosshair X670E Extreme

Asus ROG Maximus Z790 Extreme

vs

Gigabyte Aorus X670E Xtreme

Asus ROG Maximus Z790 Extreme

vs

Asus TUF Gaming Z790-Plus WiFi D4

Price comparison

Cheap alternatives for Asus ROG Maximus Z790 Extreme

User reviews

Memory

maximum memory amount

The maximum amount of memory (RAM) supported.

RAM speed

5600MHz

It can support faster memory, which will give quicker system performance.

overclocked RAM speed

7200MHz

The motherboard supports overclocking the RAM to a higher speed. By increasing the speed at which the memory runs, you can boost the performance of your computer.

memory slots

More memory slots (also known as DIMM slots) allow you to add more RAM to your computer. It is also useful when upgrading, as you can add RAM to an empty slot instead of replacing an existing memory module.

DDR memory version

DDR (Double Data Rate) memory is the most common type of RAM. Newer versions of DDR memory support higher maximum speeds and are more energy-efficient.

memory channels

More memory channels increases the speed of data transfer between the memory and the CPU.

Supports ECC memory

✖Asus ROG Maximus Z790 Extreme

Error-correcting code memory can detect and correct data corruption. It is used when is it essential to avoid corruption, such as scientific computing or when running a server.

Ports

USB 3.2 Gen 2 ports (USB-A)

USB 3.2 Gen 2 supports speeds of up to 10Gbps. It was formerly known as USB 3.1 Gen 2. These ports use the older USB-A connector.

USB 3.2 Gen 1 ports (USB-A)

Unknown. Help us by suggesting a value.

USB 3.2 Gen 1 supports speeds of up to 5Gbps. It was formerly known as USB 3.1 Gen 1 and USB 3.0. These ports use the older USB-A connector.

USB 3.2 Gen 2 ports (USB-C)

USB 3.2 Gen 2 supports speeds of up to 10Gbps. It was formerly known as USB 3.1 Gen 2. These ports use the USB-C connector.

USB 3.2 Gen 1 ports (USB-C)

Unknown. Help us by suggesting a value.

USB 3.2 Gen 1 supports speeds of up to 5Gbps. It was formerly known as USB 3.1 Gen 1 and USB 3.0. These ports use the USB-C connector.

USB 2.0 ports

More USB 2.0 ports allow you to connect more devices to your computer that support USB 2.0.

USB 3.2 Gen 2×2 ports

USB 3.2 Gen 2×2 was introduced in 2019. It supports speeds of up to 20Gbps and uses the USB-C connector.

USB 4 40Gbps ports

Unknown. Help us by suggesting a value.

This version of USB 4 supports very high speeds of up to 40Gbps. Unlike USB 3.2, USB 4 can dynamically allocate bandwidth to video and data. These ports use the USB-C connector.

USB 4 20Gbps ports

Unknown. Help us by suggesting a value.

This version of USB 4 supports speeds of up to 20Gbps. Unlike USB 3.2, USB 4 can dynamically allocate bandwidth to video and data. These ports use the USB-C connector.

Thunderbolt 4 ports

The number of USB ports that are compatible with Thunderbolt 4. These ports support speeds of up to 40Gbps, including a minimum of PCIe 32Gbps. This guarantees that it can support two external 4K displays (or one external 8K display).

Connectors

USB 3.2 Gen 1 ports (through expansion)

The number of USB 3.2 Gen 1 ports that can be added by using the USB headers (connectors) on the motherboard.

USB 3.2 Gen 2 ports (through expansion)

Unknown. Help us by suggesting a value.

The number of USB 3.2 Gen 2 ports that can be added by using the USB headers (connectors) on the motherboard.

USB 2.0 ports (through expansion)

The number of USB 2.0 ports that can be added by using the USB headers (connectors) on the motherboard.

SATA 3 connectors

SATA is an interface used to connect mass storage devices such as hard drives and Blu-ray drives. SATA 3 has a native transfer rate of 6 Gbit/s, which is twice as fast as SATA 2, the previous revision. This is particularly useful if you use an SSD as it can perform at higher speeds.

fan headers

Fan headers are connection points on the motherboard that cooling fans can be connected to. Fans can also be connected straight to the power supply, but when connected to the motherboard you gain much finer control over them through software.

USB 3.0 ports (through expansion)

Unknown. Help us by suggesting a value.

The motherboard has USB 3.0 headers, which are pin connections that you can connect additional USB ports to.

M.2 sockets

M.2 is an interface used to connect different types of devices, mainly mass storage devices like M.2 SSDs. It is a revision of mSATA and can support much higher data transfer rates.

Has TPM connector

✖Asus ROG Maximus Z790 Extreme

Trusted Platform Module (TPM) is a component that significantly increases security. One example is that it allows encryption keys to be created in a secure environment, minimizing the risk of a hacker gaining access.

U.2 sockets

U.2 is an interface used to connect different types of devices, mainly mass storage devices. It has the same performance as M.2, but U.2 SSDs come in the form of regular 2.5″ SATA drives and could therefore support much higher capacities than mSATA drives.

Expansion slots

PCIe 3.0 x16 slots

PCIe slots allow you to connect various components to the motherboard, such as graphics cards and sound cards. The number after the ‘x’ represents the number of lanes, with more lanes supporting higher data transfer rates. PCI Express 3.0 has a bit rate of 8 GT/s, delivering 985 MB/s per lane.

PCIe 4.0 x16 slots

PCIe slots allow you to connect various components to the motherboard, such as graphics cards and SSDs. The number of data-transmission lanes (specified by the number after the ‘x’) determines the data transfer rate. PCIe 4.0 provides a 16 GT/s bit rate that doubles the bandwidth provided by PCIe 3.0.

PCIe x1 slots

Using PCIe slots, you can connect different components to your motherboard, such as graphics cards and RAID cards. The number after the ‘x’ represents the number of data-transmission lanes. More lanes result in faster data transfer rates. A PCIe x1 slot has one lane and can move data at one bit per cycle.

PCI slots

PCI slots allow you to connect peripherals to the motherboard, most commonly graphics cards but also others such as sound cards and network cards. PCI has been superseded by PCI Express which offers faster data transfer rates, but many cards today still use PCI.

PCIe 2.0 x16 slots

PCIe slots allow you to connect graphics cards, SSDs, and other components to the motherboard. The number after the ‘x’ represents the number of lanes, with more lanes supporting higher data transfer rates. PCI Express 2.0 has a transfer rate of 5 GT/s, providing 500 MB/s per lane.

PCIe x4 slots

PCIe slots enable you to connect various components to your motherboard, for example, graphics cards, RAID cards, SSDs. The number of data-transmission lanes (specified by the number following ‘x’) determines the data transfer rate. A PCIe x4 slot has 4 lanes, with a speed of 4 bits per cycle.

PCIe x8 slots

PCIe slots allow you to connect components such as graphics cards and sound cards to the motherboard. The number after the ‘x’ represents the number of data-transmission lanes. More lanes result in faster data transfer rates. A PCIe x8 slot has 8 lanes and can move data at 8 bit per cycle.

Audio

Signal-to-Noise ratio (DAC)

When a digital signal is converted to an analog one (for example when playing audio through speakers or headphones), a certain amount of noise is carried in the signal. A higher SNR means that there is less noise and the audio quality is better.

audio channels

Each channel is a separate stream of audio information. More channels can provide a more realistic experience, such as providing surround sound.

Has S/PDIF Out port

✔Asus ROG Maximus Z790 Extreme

S/PDIF is an interface used to transmit digital audio with high fidelity.

audio connectors

More connectors means that more audio devices such as speakers or microphones can be connected.

Storage

Supports RAID 1

✔Asus ROG Maximus Z790 Extreme

RAID is a storage technology that combines multiple disks into one unit. RAID 1 mirrors the data across the drives. This gives you greater data security as if one drive fails, the data will still be accessible from another.

Supports RAID 10 (1+0)

✔Asus ROG Maximus Z790 Extreme

RAID is a storage technology that combines multiple disks into one unit. RAID 10 (1+0) stripes and mirrors the data across the drives. It gives increased capacity and performance compared to a single disk. It also provides greater data security as if one drive fails, the data will still be accessible from another.

Supports RAID 5

✔Asus ROG Maximus Z790 Extreme

RAID is a storage technology that combines multiple disks into one unit. RAID 5 stripes the data across the drives, giving increased performance compared to a single disk. It also provides greater data security as if one drive fails, the data will still be accessible from another due to the use of parity.

Supports RAID 0

✔Asus ROG Maximus Z790 Extreme

RAID is a storage technology that combines multiple disks into one unit. RAID 0 stripes the data across the drives, giving increased performance and capacity compared to a single drive. The drawback is that if one drive fails, you lose the data on all drives.

Supports RAID 0+1

✖Asus ROG Maximus Z790 Extreme

RAID is a storage technology that combines multiple disks into one unit. RAID 0+1 stripes and mirrors the data across the drives. This gives increased capacity and performance compared to a single disk. It also provides greater data security in case one drive fails, as the data will still be accessible from another.

Price comparison

Which are the best motherboards?

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ComputerPress uses

Testing SY-5ED5/M motherboard (ETEQ6628 chipset)

Recently, motherboard manufacturers have begun to pay close attention to the production of Socket-7 motherboards with AGP. This direction is really promising, because Pentium II-based systems are still expensive (this situation will last at least until April, when Pentium II without L2 cache is released), and it is really interesting to use AGP to install a 3D accelerator, as it will significantly increase system performance in games. Moreover, in the near future, good processors from AMD, Cyrix and IDT, designed for Socket 7 and supporting additional instruction sets for optimizing 3D graphics, should appear. Intel intends to release a similar product much later.

All these arguments cannot be ignored by chipset manufacturers who do not want to lose this promising part of the market left by Intel’s monopolist. Recently, VIA Apollo VP-3, VIA Apollo MVP-3, ALI Aladdin V and SiS 5591 have been announced and launched. These chipsets are designed for Socket 7 and AGP. Here, now we have a sample board with AGP, made on the ETEQ6628 chipset.

This board turned out to be SOYO SY-5ED5/M . As you know, SOYO is distinguished by the production of high-quality products comparable in this characteristic to ASUS. Nevertheless, we were immediately alerted by the low popularity of ETEQ chipsets. The last known ETEQ products that remain in our memory are chipsets for 486 platforms. Moreover, not a word is said about these pentium chipsets on the ETEQ website. All information about the ETEQ6628 could only be found on the SOYO website.

However, statements like SDRAM Burst 3-1-1-1 regarding ETEQ6628 do not inspire confidence. All of the above arguments made us want to test the existing motherboard «with a special predilection». You can read about the results below. Let’s start with the specification of the tested board.

SY-5ed5/M

Processors Intel Pentium Processor (75-233 MHZ) Cyrix 6×86 (PR 120-200+) And 6×86 MX AMD K5 (PR 100-166) and K6 (166-266 MHZ) Chipset ETEQ 6628 PCI Bus Chipset Supported processors frequencies 9000 External frequency 50, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55, 55 , 66 and 75 MHz Multiplication coefficients 1.5 — 4.5 Expansion slots 1x 32BIT AGP 9000 9000 9000 9000 1x 32BIT SLAVE PCI 9000 2X 2X0006 2x PCI Bus Mastering ATA E-e-e-e-e-e-USB port PS/2 Mouse Port IRDA Port BIOS 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 SCR supports loading with E-E-EDE, SCSI, CD-ROM, FDD 1 Mbit Flash Rom Coard 19CM X 30. 5CM, ATX Form Factor 9000 000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 PC 97 Ultra DMA33 autodetect CPU voltage (2.1/2.8/2.9/3.2/3.3/3.5 Volts)

You probably already noticed the title of this material. Instead of the traditional «Comparison … and ETEQ6628» it says about testing a specific motherboard. And it’s not easy. The fact is that the test results obtained after measurements immediately reminded us of the numbers that we have already seen when testing VIA Apollo VP-3 . This fact, together with the fact that the appearance of chipset chipset ETEQ6628 and VIA VP-3 turned out to be identical, made us think that ETEQ6628 is nothing more than a relabeled VIA VP-3. And after VIA IDE Bus Master Drivers and BIOS (!!!) from MyComp AI5VG were installed on our motherboard with this chipset, there was no doubt left. So:

ETEQ6628 — relabeled VIA Apollo VP-3

Thus, you can read about this chipset in the article about VIA Apollo VP-3. We will present the results of tests of this board together with our «standard» based on the Intel 430TX chipset — ASUS TX97. As part of the tested systems, the same components were used — DIMM SDRAM 32Mb Hyundai, Virge DX 4Mb EDO video card, Quantum Fireball ST 2.1Gb hard drive and Intel Pentium 200MHz MMX processors, as well as AMD K6 / PR2-200, for which SOYO SY is optimized -5ED5/M. The boards were compared in terms of operating speed with a PCI video card, since the use of AGP with a second motherboard would undoubtedly make it a winner.

Test results

The following were used as performance tests: ZD Winbench 97, running in Windows 95 with a resolution of 1024x768x24bit and installed Bus Master drivers from chipset manufacturers; Quake running in DOS without sound at a resolution of 320×200.

When installed on Intel Pentium 200 MMX processor boards, the following results were obtained:0203

CPUMark16 424 428 CPUMark32 412 417 Business Disk Winmark 1230 1170 HighEnd Disk Winmark 4330 3940 Business Graphics Winmark 39.4 41.1 0207

41.3 40.9

When installing on the processor AMD K6/PR2-200, the following results were obtained:

	ASUS TX97	SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYO SOYOS
CPUMark16	383	422
CPUMark32	527	511
Business Disk Winmark	1110	1190
HighEnd Disk Winmark	4440	4430
Business Graphics Winmark	42	41,6
HighEnd Graphics Winmark	28	27. 9
Quake, FPS	34,2	34, 3

As you can see, the integrated speed in real applications for both chipsets is approximately the same, but the Intel product is somewhat superior to its competitor. Another thing is that the point of using boards like SOYO SY-5ED5/M is to switch to AGP-graphics, when using which the system performance increases significantly.

At the same time, it should be noted that SOYO SY-5ED5/M works a little slower than the analogous board MyComp TMC AI5VG tested by us. The superiority in the speed of disk operations is most likely due to the fact that by the time these tests were performed, VIA had released new Bus Mastering drivers. However, the execution of the board itself from SOYO is much better, so if you really choose, then it is. FIC PA-2012 has now appeared on the same chipset, which we haven’t seen yet, so we can’t say anything about it.

As for the slower work with memory, in order to establish this fact in practice, the exchange rates were measured. With the Pentium processor, it turned out to be the following (tire frequency 66 MHz):

0232

	ASUS TX97	Soyo SY-5ed5/M
Kesh L1, MB/S	1346	1342/1342
L2 cache (read/write), Mb/s	227/90	226/53
Memory (reading/recording), MB/S	154/86	143/51

with processor K6:

	ASUS TX97 SOOS
Kash L1 (reading/recording), MB/S	733/756	732/754
Kesh L2 (reading/recording), MB/S	253/128	253/128
Memory (read/write), Mb/s	154/70	153/61

It has long been known that the VIA Apollo VP-3 is not doing well with the memory write speed. These tests confirm this fact. However, you can console yourself with the fact that this lag in real work is not noticeable much.

Overclocking

SY-5ED5/M allows you to use the documented frequency of 75 MHz, at which it works stably and without problems. 83 MHz on the bus on this board cannot be set. In principle, for the VIA Apollo VP-3 chipset, the maximum documented external frequency is 66 MHz, which is caused by the use of AGP on this board. So if anyone is interested in «cool overclocking», wait better for VIA Apollo MVP-3, where both 83 MHz and 100 MHz are documented on the bus.

Stability and compatibility

As for the stability and compatibility of the SOYO SY-5ED5/M board, no glitches were noticed during testing. All the main office software running on the computer ran successfully without errors. The main set of devices — a drive and a CD ROM — were easily installed and worked without problems. The sound card based on the ESS 1868 chip was also easy to install. In principle, it would be strange if such a reputable company as SOYO allowed itself to launch an untested product on the market.