Difference between revisions of "Socket 7 Builds"

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Pentium MMX processors are supported by later Socket 7 motherboards with '''split rail voltage'''. Not every motherboard will accept such a CPU.
 
Pentium MMX processors are supported by later Socket 7 motherboards with '''split rail voltage'''. Not every motherboard will accept such a CPU.
  
Overall Pentium MMX 233 can be considered the best choice of ''authentic'' CPU for a socket 7 system. When overclocked to 262MHz or further, it provides exceptional performance no other Socket 7 CPU can match. However, Super7 CPUs like K6-2 and K6-III still outperform Pentium MMX, but they were designed for different class of hardware and though comparison of the two is not fair.
+
Overall Pentium MMX 233 can be considered the best choice of ''authentic'' CPU for a socket 7 system. When overclocked to 262MHz or further, it provides exceptional performance no other Socket 7 CPU can match. However, Super7 CPUs like K6-2 and K6-III still outperform Pentium MMX.
  
Pentium MMX CPUs are harder to find than Classic Pentiums, but they are still quite cheap.
+
Pentium MMX CPUs are harder to find than classic Pentiums, but they are still quite cheap.
  
 
==== Overclocking ====
 
==== Overclocking ====
Line 68: Line 68:
  
 
== Choosing a chip set ==
 
== Choosing a chip set ==
 +
 +
Intel released several chipsets for Socket 7. Compared to the earlier Pentium chipsets these were more reliable and feature packed.
 +
The first chipset released by Intel for socket 7 was the 430FX in 1995, codename Triton I. It introduced a new Southbridge chip called PCI IDE ISA Xcelerator - PIIX that included the functionality of several common I/O interfaces, including a PCI to ISA bridge and an integrated Dual Channel IDE controller.
 +
The 430FX chipset caches up to 64 MB DRAM and supports PCI 2.0. For later Pentiums 430FX based boards usually require a separate voltage regulator plugged.
 +
 +
In 1996 the Triton II chipset 430HX followed. It was targeted for professional users, supported tighter memory timings, SMP and is able to cache up to 512 MB. This usually requires a Tag-RAM upgrade.
 +
It features an updated PIIX3 southbridge, that has PCI 2.1, USB 1.0, Busmaster DMA support for IDE transfers and independend IDE drive timings. Due to the lack of USB devices at this time board manufacturer often left the USB connector unsoldered.
 +
The Consumer version of the Triton II chipset was introduced at the same time and called 430VX. While it also used the PIIX3 southbridge, it did not support SMP and could only cache up to 64 MB. The main difference is the support for SDRAM.
 +
 +
Finally in 1997 Intel released its last chipset for the socket 7 platform, the 430TX. The chipset was consumer oriented and supported FPM/EDO/SDRAM while still keeping the cacheable area at max. 64 MB. The southbridge got replaced by PIIX4 that added ACPI and UDMA/33.
 +
 +
Overall all Intel chipsets are easy to setup and supported directly by Windows98 up to Windows XP. Later chipsets offer better performance on average due to increased internal buffers.
 +
If more than 64 MB should be equipped the 430HX chipset sticks out as the only option where the RAM is covered by the L2 cache.
 +
The speed gain from using SDRAM compared to EDO is in the range of a few percent, same goes for the upgrade from 256 kB pipelined burst cache to 512 kB by using a COAST module.
 +
As Intel left the Socket 7 platform with Pentium 233 MMX all chipsets support a FSB of 66 MHz maximum. Board manufacturers often offered higher multipliers for CPUs that allow to use faster CPUs like a AMD K6 on these chipsets. Of course higher power consumption of faster CPUs should be considered, since a lot of boards with Intel chipsets use simple linear voltage regulators.
 +
 +
  
 
== Choosing a motherboard ==
 
== Choosing a motherboard ==
 
[[File:Asus P55T2P4.JPG|200px|thumb||ASUS P55T2P4(430HX)]]
 
[[File:Asus P55T2P4.JPG|200px|thumb||ASUS P55T2P4(430HX)]]
  
== Chosing RAM ==
+
== Choosing RAM ==
  
 
== Choosing 2D and 3D graphics cards ==
 
== Choosing 2D and 3D graphics cards ==
  
== Chosing a monitor ==
+
== Choosing a monitor ==
  
 
== Choosing sound devices ==
 
== Choosing sound devices ==
Line 82: Line 99:
 
== Choosing storage devices ==
 
== Choosing storage devices ==
  
== Chosing a network card ==  
+
== Choosing a network card ==  
  
 
== Choosing PSU and case ==
 
== Choosing PSU and case ==
  
 
== What to play on a Socket 7 Build? ==
 
== What to play on a Socket 7 Build? ==

Revision as of 15:05, 20 February 2013

Socket 7 Motherboard

Socket 7 platform offers late DOS and early Windows games compatibility. Almost anything from 1990 to 1998 can be played at reasonable framerate and with enough comfort.

Choosing a CPU

List of supported CPUs

  • Intel Pentium (75-200MHz)
  • Intel Pentium MMX (166-233MHz)
  • AMD K5
  • AMD K6 (sometimes K6-2 and K6-III)
  • Cyrix 6x86
  • idt WinChip, WinChip2

As you can see from the list above, there were plenty of CPUs for Socket 7 platform. However, the CPU of choice is usually either classic Pentium or Pentium MMX. They are better supported by chip set manufacturers (all most common chip sets were also produced by intel) and have good performance. AMD and Cyrix CPUs performance is subject of lots of arguments. WinChip processors were originally designed for low-cost market and though don't perform as well as Pentiums. They have more simple architecture and are closer to 486 and 5x86 rather than Pentium.

Pentium Classic

Classic Pentium CPUs have a wide variety of speeds, from 75 to 200 MHz. They are supported by literally any Socket 7 chip set and proved to be fine performers. Pentium Classic is a good choice for Socket 7 Build, especially for beginners. They are easy to find and cost next to nothing.

Benchmark information will follow shortly.

Pentium MMX

Pentium 233 MMX

Pentium MMX CPUs arrived in 166, 200, 233MHz versions (66MHz x2.5, x3.0, x3.5).

Comparing to Pentium Classic, they have different core (P55C) with lesser 0.28 µm process. L1 cache was doubled (32KB vs 16KB). A new set of instructions called MultiMedia eXtensions was introduced, although the software to use them started to appear only by the time Pentium MMX processors were severely outdated.

Pentium MMX processors are supported by later Socket 7 motherboards with split rail voltage. Not every motherboard will accept such a CPU.

Overall Pentium MMX 233 can be considered the best choice of authentic CPU for a socket 7 system. When overclocked to 262MHz or further, it provides exceptional performance no other Socket 7 CPU can match. However, Super7 CPUs like K6-2 and K6-III still outperform Pentium MMX.

Pentium MMX CPUs are harder to find than classic Pentiums, but they are still quite cheap.

Overclocking

Disclaimer: Author does not take any responsibility for any damage caused by you in the course of overclocking.

Pentium MMX are known to work fine over clock. For that purpose 233MHz version should be used, as most 166 and 200MHz versions have locked multipliers. On a solid motherboard most Pentium MMX can work fine on bus speeds 60, 66, 75 or even 83 MHz (see table). However, RAM and PCI bus might not cope with 83 MHz FSB.

FSB and Multipliers
FSB x2.5 x3.0 x3.5
60MHz 150MHz 180MHz 210MHz
66MHz 166MHz 200MHz 233MHz
75MHz 188MHz 225MHz 262MHz
83MHz 207MHz 250MHz 291MHz

Benchmark information will follow shortly.

Cyrix 6x86

AMD K5

AMD K6

AMD K6-200

AMD K6-2 and K6-III

Choosing a chip set

Intel released several chipsets for Socket 7. Compared to the earlier Pentium chipsets these were more reliable and feature packed. The first chipset released by Intel for socket 7 was the 430FX in 1995, codename Triton I. It introduced a new Southbridge chip called PCI IDE ISA Xcelerator - PIIX that included the functionality of several common I/O interfaces, including a PCI to ISA bridge and an integrated Dual Channel IDE controller. The 430FX chipset caches up to 64 MB DRAM and supports PCI 2.0. For later Pentiums 430FX based boards usually require a separate voltage regulator plugged.

In 1996 the Triton II chipset 430HX followed. It was targeted for professional users, supported tighter memory timings, SMP and is able to cache up to 512 MB. This usually requires a Tag-RAM upgrade. It features an updated PIIX3 southbridge, that has PCI 2.1, USB 1.0, Busmaster DMA support for IDE transfers and independend IDE drive timings. Due to the lack of USB devices at this time board manufacturer often left the USB connector unsoldered. The Consumer version of the Triton II chipset was introduced at the same time and called 430VX. While it also used the PIIX3 southbridge, it did not support SMP and could only cache up to 64 MB. The main difference is the support for SDRAM.

Finally in 1997 Intel released its last chipset for the socket 7 platform, the 430TX. The chipset was consumer oriented and supported FPM/EDO/SDRAM while still keeping the cacheable area at max. 64 MB. The southbridge got replaced by PIIX4 that added ACPI and UDMA/33.

Overall all Intel chipsets are easy to setup and supported directly by Windows98 up to Windows XP. Later chipsets offer better performance on average due to increased internal buffers. If more than 64 MB should be equipped the 430HX chipset sticks out as the only option where the RAM is covered by the L2 cache. The speed gain from using SDRAM compared to EDO is in the range of a few percent, same goes for the upgrade from 256 kB pipelined burst cache to 512 kB by using a COAST module. As Intel left the Socket 7 platform with Pentium 233 MMX all chipsets support a FSB of 66 MHz maximum. Board manufacturers often offered higher multipliers for CPUs that allow to use faster CPUs like a AMD K6 on these chipsets. Of course higher power consumption of faster CPUs should be considered, since a lot of boards with Intel chipsets use simple linear voltage regulators.


Choosing a motherboard

ASUS P55T2P4(430HX)

Choosing RAM

Choosing 2D and 3D graphics cards

Choosing a monitor

Choosing sound devices

Choosing storage devices

Choosing a network card

Choosing PSU and case

What to play on a Socket 7 Build?