View allAll Photos Tagged Mainboard
Intel PRO 100 Intelligent Server Adapter with Intel i960.
This is a rare Network-Card with a dedicated I/O-Processor - a part of the I2O System.
Intelligent Input/Output (I2O) is a defunct computer input/output (I/O) specification. I2O emerged from Intel in the mid 1990s with the publication of the I2O specification in 1996 by the Intelligent I/O Special Interest Group. I2O was originally designed to make use of the Intel i960 microprocessor as the I/O offload engine, bringing channel I/O to the PC.
For more info about I2O look at: en.wikipedia.org/wiki/I2O
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
Diamond Viper V550 with Nvidia Riva TNT.
PCI Interface, 16MB SDRAM, first generation of Nvidia chips.
Relase Date: 1998
The RIVA TNT, codenamed NV4, is a 2D, video, and 3D graphics accelerator chip for PCs that was manufactured by Nvidia. The TNT was designed as a follow up to the RIVA 128 and a response to 3Dfx's introduction of the Voodoo2. It added a second pixel pipeline, practically doubling rendering speed, and used considerably faster memory. Unlike the Voodoo2 (but like the slower Matrox G200) it also added support for a 32-bit (truecolor) pixel format, 24-bit Z-buffer in 3D mode, an 8-bit stencil buffer and support for 1024×1024 pixels textures. Improved texture filtering techniques, partially assisted by newly added trilinear filtering, dramatically improved image quality compared to the TNT's predecessor. It also added support for up to 16 MiB of SDR SDRAM. TNT was a single chip solution.
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
PTI-227B I/O-ISA Card with Winbond W83757F.
This is "classic" ISA-PC super-I/O Card (2x seriell/1x parallel Port).
Remember the good-old days...
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
Exsys EX-41012 dual-parallel port card. Small card with 2 parallel-ports for printer and parallel-port misc devices. Based on Moschip MCS9815 controller.
The MCS9815 is a dual printer port controller with PCI Bus Interface. MCS9815 fully supports the existing Centronics printer interface as well as PS/2, EPP, and ECP modes.
Support: Fast Data Rates up to 1.5 MBps (Parallel Port), 16-Byte FIFO (Parallel Port), Re-Map function for Legacy Ports. 128-pin “Lead Free” QFP Package.
Relase Date: 2000
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
Intel PRO 100 Intelligent Server Adapter with Intel i960.
This is a rare Network-Card with a dedicated I/O-Processor - a part of the I2O System.
Intelligent Input/Output (I2O) is a defunct computer input/output (I/O) specification. I2O emerged from Intel in the mid 1990s with the publication of the I2O specification in 1996 by the Intelligent I/O Special Interest Group. I2O was originally designed to make use of the Intel i960 microprocessor as the I/O offload engine, bringing channel I/O to the PC.
For more info about I2O look at: en.wikipedia.org/wiki/I2O
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
Rapid Prototyping for Production and Performance: Gadgeteer workshop at the Junction 2 in Cambridge 4/8/11
To test out the amazing work Tom Bartindale acheived during his current internship with Stuart Taylor building Gadgeteer modules to link the Gadgeteer prototyping platform with DMX and MIDI Tom, Stuart, and Nic organised a one day hands-on workshop involving hardware engineers, programmers, musicians, DJs, and event production folk at The Junction. It was amazing. We were using the new GHI FEZ Spider Mainboard due to ship at the end of September, plus sonar range finders, the GHI USB Client DP Module for power, Tom's new DMX/MIDI modules, LEDs, cameras, joysticks, RGB sensors, a wee touch screen display, xbee, and, of course, buttons!
I think Tom's planning to write the event up as a tech report or blog post. In the meantime if you want to get a feel for what it is like to control huge expensive complex theatre lighting systems with tiny Gadgeteer modules try the Bible: 1 Samuel 17:40-50!
(PS Sorry the photos are so blurred - it was dark)
MBs:
* SlimStation SX 286
* 286HT Single Chip System Board
*G2 286 Main Board
* PTM-1632C 16MHz 80286 Mainboard
* 286 users manual
*The Scat Turbo 286 Single Chip Microcomputer
* NESX Motherboard
*AC-1100–12 12Mhz Turbo Mainboard
* 286 Single Chip
* B-1412/1410Mainboard
* Turbo Mainboard 4.77 / 10 MHz
* Neat-12M, 16M, 20MMBNEAT-138
Shows the bottom shell of the case. Main circuit board is flipped over showing the under side (along with the RESET BUTTON).
3rd Party Firmware Overview:
Intel PRO 100 Intelligent Server Adapter with Intel i960.
This is a rare Network-Card with a dedicated I/O-Processor - a part of the I2O System.
Intelligent Input/Output (I2O) is a defunct computer input/output (I/O) specification. I2O emerged from Intel in the mid 1990s with the publication of the I2O specification in 1996 by the Intelligent I/O Special Interest Group. I2O was originally designed to make use of the Intel i960 microprocessor as the I/O offload engine, bringing channel I/O to the PC.
For more info about I2O look at: en.wikipedia.org/wiki/I2O
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
3D crossview picture with the 2 cameras vertical.
This macro closeup picture is the result of a falling waterdrop and a few objects together with waterfigures. The waterfigures are a result from an special type wave on a speaker, the correct amplitude and frequency and form of the wave. This form is a digital signal into the flash of my hardware controller. Cameras are prefect synchronized in spite of that they are different types. See the setup.
www.flickr.com/photos/fotoopa_hs/4260310208/sizes/o/
Macro capture of waterfigures in 3D crossview.
The projectile touch a falling waterdrop and fly through the drop and make a splash. On the bottom, multiple figures rise upwards to the projectile.
Technical data:
D300 + D200 Nikon DSLR camera.
Camera space 100mm vertical.
Macro lenses 2 x Nikor AF105/2.8D micro.
Frame real live size : 80 x 120mm
F29 diafragma, manual bulb shutter mode.
4 Flashes SB-80-DX TTL controlled by the central hardware controller.
1 DE1 FPGA cyclone II mainboard at 50MHz clock.
Digital waveforms into a flash at high speed PWM, digital powercontrol, frequentie control and type waveform.
2 laser detector systems.
How to see 3D photos:
Rapid Prototyping for Production and Performance: Gadgeteer workshop at the Junction 2 in Cambridge 4/8/11
To test out the amazing work Tom Bartindale acheived during his current internship with Stuart Taylor building Gadgeteer modules to link the Gadgeteer prototyping platform with DMX and MIDI Tom, Stuart, and Nic organised a one day hands-on workshop involving hardware engineers, programmers, musicians, DJs, and event production folk at The Junction. It was amazing. We were using the new GHI FEZ Spider Mainboard due to ship at the end of September, plus sonar range finders, the GHI USB Client DP Module for power, Tom's new DMX/MIDI modules, LEDs, cameras, joysticks, RGB sensors, a wee touch screen display, xbee, and, of course, buttons!
I think Tom's planning to write the event up as a tech report or blog post. In the meantime if you want to get a feel for what it is like to control huge expensive complex theatre lighting systems with tiny Gadgeteer modules try the Bible: 1 Samuel 17:40-50!
(PS Sorry the photos are so blurred - it was dark)
Rapid Prototyping for Production and Performance: Gadgeteer workshop at the Junction 2 in Cambridge 4/8/11
To test out the amazing work Tom Bartindale acheived during his current internship with Stuart Taylor building Gadgeteer modules to link the Gadgeteer prototyping platform with DMX and MIDI Tom, Stuart, and Nic organised a one day hands-on workshop involving hardware engineers, programmers, musicians, DJs, and event production folk at The Junction. It was amazing. We were using the new GHI FEZ Spider Mainboard due to ship at the end of September, plus sonar range finders, the GHI USB Client DP Module for power, Tom's new DMX/MIDI modules, LEDs, cameras, joysticks, RGB sensors, a wee touch screen display, xbee, and, of course, buttons!
I think Tom's planning to write the event up as a tech report or blog post. In the meantime if you want to get a feel for what it is like to control huge expensive complex theatre lighting systems with tiny Gadgeteer modules try the Bible: 1 Samuel 17:40-50!
(PS Sorry the photos are so blurred - it was dark)
Diamond Viper V550 with Nvidia Riva TNT.
PCI Interface, 16MB SDRAM, first generation of Nvidia chips.
Relase Date: 1998
The RIVA TNT, codenamed NV4, is a 2D, video, and 3D graphics accelerator chip for PCs that was manufactured by Nvidia. The TNT was designed as a follow up to the RIVA 128 and a response to 3Dfx's introduction of the Voodoo2. It added a second pixel pipeline, practically doubling rendering speed, and used considerably faster memory. Unlike the Voodoo2 (but like the slower Matrox G200) it also added support for a 32-bit (truecolor) pixel format, 24-bit Z-buffer in 3D mode, an 8-bit stencil buffer and support for 1024×1024 pixels textures. Improved texture filtering techniques, partially assisted by newly added trilinear filtering, dramatically improved image quality compared to the TNT's predecessor. It also added support for up to 16 MiB of SDR SDRAM. TNT was a single chip solution.
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
ADAPTEC AHA-1542B 16BIT ISA SCSI CONTROLLER
Very old complex ISA SCSI-Adaptercard
Relase Date: 1990
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
3D crossview picture with the 2 cameras vertical.
This macro closeup picture is the result of a falling waterdrop and a few objects together with waterfigures. The waterfigures are a result from an special type wave on a speaker, the correct amplitude and frequency and form of the wave. This form is a digital signal into the flash of my hardware controller. Cameras are prefect synchronized in spite of that they are different types. See the setup.
www.flickr.com/photos/fotoopa_hs/4260310208/sizes/o/
Macro capture of waterfigures in 3D crossview.
The projectile touch a falling waterdrop and fly through the drop and make a splash. On the bottom, multiple figures rise upwards to the projectile.
Technical data:
D300 + D200 Nikon DSLR camera.
Camera space 100mm vertical.
Macro lenses 2 x Nikor AF105/2.8D micro.
Frame real live size : 80 x 120mm
F29 diafragma, manual bulb shutter mode.
4 Flashes SB-80-DX TTL controlled by the central hardware controller.
1 DE1 FPGA cyclone II mainboard at 50MHz clock.
Digital waveforms into a flash at high speed PWM, digital powercontrol, frequentie control and type waveform.
2 laser detector systems.
How to see 3D photos:
Rapid Prototyping for Production and Performance: Gadgeteer workshop at the Junction 2 in Cambridge 4/8/11
To test out the amazing work Tom Bartindale acheived during his current internship with Stuart Taylor building Gadgeteer modules to link the Gadgeteer prototyping platform with DMX and MIDI Tom, Stuart, and Nic organised a one day hands-on workshop involving hardware engineers, programmers, musicians, DJs, and event production folk at The Junction. It was amazing. We were using the new GHI FEZ Spider Mainboard due to ship at the end of September, plus sonar range finders, the GHI USB Client DP Module for power, Tom's new DMX/MIDI modules, LEDs, cameras, joysticks, RGB sensors, a wee touch screen display, xbee, and, of course, buttons!
I think Tom's planning to write the event up as a tech report or blog post. In the meantime if you want to get a feel for what it is like to control huge expensive complex theatre lighting systems with tiny Gadgeteer modules try the Bible: 1 Samuel 17:40-50!
(PS Sorry the photos are so blurred - it was dark)
This is the die of a M27C512 EPROM by ST, ripped off an old PC mainboard.
There are better quality pictures of dies out there but I wanted to push my lens to the limit and see what it's capable of.
This was taken with a Tamron SP Di 90mm macro lens and three extension rings (65mm total).
As you can see the sharpness degrades quickly towards the corners and the chromatic aberrations are horrible :)
But I got this one used for cheap and I'm quite happy with it.
The magnification is so strong that I had to set the self timer to 10 seconds because 2 seconds was not enough to allow the tripod to stabilize after I pushed the shutter button...
2009. I finally made space for a small communication base. Still cramped as also zoned for storage, like nearly all other parts of the premises. The PC in use is genuine Intel 350 server (in gen. 315 case - don't think Intel have made a PC case - or mainboard? - in years) with Rambus double channel RDRAM. I built the system about 2 years ago and have used it intemittently. Took me a few days to collect and clean out the cumulated garbage.
This system pairs with an identical PC / server in the next room that for the moment is being used to stream local TV. Rambus transmits okay over web and TV when you consider the tech is circa 2000 (outdated). The twin-set share floor space with a later model ASUS P5 mainly used for recreation (power digital sound play and record).
Although I'm dedicated cathode, may put an LCD screen to the ASUS so to save space. Cathodes take up space. The com / reception base above is sadly the only area that allows real elbow room. (The laptop is borrowed out for the mo).
I shift a portable web modem amongst the systems rather than use network hardline. For the moment this is the most convenient option. The network is still awaiting a 64bit system which is stored 150km away. Once in place, the complete array will cap off about two years work. More learning curve value than super bitstream tech2009 but still competitive as the array are set to run clean and simple, mean and lean. They are reliable and stable. The Intel systems in particular have proven themselves with as yet no downtime at all over their running lives. But all the gear runs well considering the models are near antiques. Touch wood.
Diamond Viper V550 with Nvidia Riva TNT.
PCI Interface, 16MB SDRAM, first generation of Nvidia chips.
Relase Date: 1998
The RIVA TNT, codenamed NV4, is a 2D, video, and 3D graphics accelerator chip for PCs that was manufactured by Nvidia. The TNT was designed as a follow up to the RIVA 128 and a response to 3Dfx's introduction of the Voodoo2. It added a second pixel pipeline, practically doubling rendering speed, and used considerably faster memory. Unlike the Voodoo2 (but like the slower Matrox G200) it also added support for a 32-bit (truecolor) pixel format, 24-bit Z-buffer in 3D mode, an 8-bit stencil buffer and support for 1024×1024 pixels textures. Improved texture filtering techniques, partially assisted by newly added trilinear filtering, dramatically improved image quality compared to the TNT's predecessor. It also added support for up to 16 MiB of SDR SDRAM. TNT was a single chip solution.
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
Rapid Prototyping for Production and Performance: Gadgeteer workshop at the Junction 2 in Cambridge 4/8/11
To test out the amazing work Tom Bartindale acheived during his current internship with Stuart Taylor building Gadgeteer modules to link the Gadgeteer prototyping platform with DMX and MIDI Tom, Stuart, and Nic organised a one day hands-on workshop involving hardware engineers, programmers, musicians, DJs, and event production folk at The Junction. It was amazing. We were using the new GHI FEZ Spider Mainboard due to ship at the end of September, plus sonar range finders, the GHI USB Client DP Module for power, Tom's new DMX/MIDI modules, LEDs, cameras, joysticks, RGB sensors, a wee touch screen display, xbee, and, of course, buttons!
I think Tom's planning to write the event up as a tech report or blog post. In the meantime if you want to get a feel for what it is like to control huge expensive complex theatre lighting systems with tiny Gadgeteer modules try the Bible: 1 Samuel 17:40-50!
(PS Sorry the photos are so blurred - it was dark)
PC – Problem: CMOS checksum error??????????????
Das ist mir gestern beim PC-Start passiert.
(einen Tag vorher lief der Blechdepp noch ganz normal).
Beim hochfahren ging es einfach nicht weiter.
Windows wurde nicht geöffnet, stattdessen kam nur der Bios-Bildschirm mit
oben genannter Meldung mit verschiedenen Möglichkeiten dieses Problem zu beheben.
Nach einigen Versuchen gelang es mir Windows zu starten. Mist!
Die Uhrzeit und das Datum waren hinüber und zeigten Irrwitzige Daten an.
23:45Uhr obwohl es erst 17Uhr war.
Das Jahr wurde mit 2004 angegeben. Was tun?
Als erstes versuchte ich es mit einer Systemwiederherstellung die im Endeffekt auch nichts brachte. Also wieder alles von vorne! Leise hatte ich einen Verdacht.............
Also schnell mal im Internet nachlesen was das sein könnte?
Siehe da, mein Verdacht wurde bestätigt!
Es war die Batterie des CMOS Speicher im Mainbord (siehe Foto).
Dabei handelt es sich um eine Lithium Batterie: CR-2032-3Volt.
Leider hatte ich gerade nur eine CR-2035 der selben Spannung auf Lager. Selbige ist ca. 1.5mm dünner als das Original, passte nicht zu 100% und wackelte etwas.
Wurscht.....einfach mal ausprobieren!
Jetzt klappte alles wieder. Musste nur noch die Zeiten einstellen und die Original Batterie im Internet bestellen.
3 Stück kosten gerade mal 2.19 Euro und werden am Samstag geliefert. Da der PC immer noch offen ist habe ich noch genügend Zeit innen alles zu entstauben. Neue Batterie rein – zusammenbauen und das war´s dann. Hoffe ich!
Ciao Rudi
Exsys EX-41012 dual-parallel port card. Small card with 2 parallel-ports for printer and parallel-port misc devices. Based on Moschip MCS9815 controller.
The MCS9815 is a dual printer port controller with PCI Bus Interface. MCS9815 fully supports the existing Centronics printer interface as well as PS/2, EPP, and ECP modes.
Support: Fast Data Rates up to 1.5 MBps (Parallel Port), 16-Byte FIFO (Parallel Port), Re-Map function for Legacy Ports. 128-pin “Lead Free” QFP Package.
Relase Date: 2000
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
Intel PRO/1000 GT Desktop Adapter
Intel 82541PI Gigabit Controller
Peripheral Component Interconnect (PCI) 2.3 32-bit 33/66 MHz
Relase Date: 2004
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
3D crossview picture with the 2 cameras vertical.
This macro closeup picture is the result of a falling waterdrop and a few objects together with waterfigures. The waterfigures are a result from an special type wave on a speaker, the correct amplitude and frequency and form of the wave. This form is a digital signal into the flash of my hardware controller. Cameras are prefect synchronized in spite of that they are different types. See the setup.
www.flickr.com/photos/fotoopa_hs/4260310208/sizes/o/
Macro capture of waterfigures in 3D crossview.
The projectile touch a falling waterdrop and fly through the drop and make a splash. On the bottom, multiple figures rise upwards to the projectile.
Technical data:
D300 + D200 Nikon DSLR camera.
Camera space 100mm vertical.
Macro lenses 2 x Nikor AF105/2.8D micro.
Frame real live size : 80 x 120mm
F29 diafragma, manual bulb shutter mode.
4 Flashes SB-80-DX TTL controlled by the central hardware controller.
1 DE1 FPGA cyclone II mainboard at 50MHz clock.
Digital waveforms into a flash at high speed PWM, digital powercontrol, frequentie control and type waveform.
2 laser detector systems.
How to see 3D photos:
Exsys EX-41012 dual-parallel port card. Small card with 2 parallel-ports for printer and parallel-port misc devices. Based on Moschip MCS9815 controller.
The MCS9815 is a dual printer port controller with PCI Bus Interface. MCS9815 fully supports the existing Centronics printer interface as well as PS/2, EPP, and ECP modes.
Support: Fast Data Rates up to 1.5 MBps (Parallel Port), 16-Byte FIFO (Parallel Port), Re-Map function for Legacy Ports. 128-pin “Lead Free” QFP Package.
Relase Date: 2000
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards
Picked up a used F31fd for really cheap. It had a smashed up front chassis, and yellowed LCD display. Shoots fine, doesn't seem to have any dust on the sensor. Harvested the lens and CCD unit, mainboard and put it in my old broken F31fd's chassis.
I understand why people loved the older FinePix line now. The colors are terrific.
365.greatproj.com/2011/05/125365-silicon-valley/
I swapped out the drive on my MacBook Pro for some extra capacity and speed to give some new life to this old machine. It's been great and still performs, but every geek likes to upgrade where he can. While I had the machine opened up I decided to break out my 100mm macro lens and do some shots of the internal parts. I did some focus stacking on a shot as well, being reminded of how narrow the focus is on that lens due to the focal length compression. I liked this particular shot though because it made me think of it like a tilt-shift landscape scene even though it is just the natural shallow depth-of-field even at f/10 at this angle. Can you see it?
I accidently broke the case of some old notebooks, so I just inspected it in detail. This is a macro shot of the lower side of the mainboard. Pretty huge ICs for today's time.
Matrox MGA-2164W (Millennium II) Graphic Card.
Core: 2164W (Mistral) 62/66MHz 64bit
Memory: 4/8MB(16MB max) WRAM Bus: 62/66MHz 64bit AGP1x / PCI
Made: NEC 0,35 µm
This is the PCI 8MB - 62MHz Version.
Relase Date: 1997
For more pictures of vintage PC-Cards and Mainboards look at Vintage Computer PC Cards and Mainboards