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#cray1 — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #cray1, aggregated by home.social.

  1. The ES-1 was #EvansAndSutherland's abortive attempt to enter the #supercomputer market. It was aimed at technical and scientific users who would normally buy a machine like a #Cray1 but did not need that level of power or throughput for graphics-heavy workloads. About to be released just as the market was drying up in the post-#ColdWar military wind-down, only a handful were built and only two sold.

  2. @aka_pugs 🧵100🎂Seymour Cray

    ‘Cray-1 Introduction’ Seymour Cray, LANL (1976) video

    #seymourcray #video #cray1
    youtu.be/vtOA1vuoDgQ

  3. @aka_pugs 🧵100🎂Seymour Cray

    ‘Cray-1 Introduction’ Seymour Cray, LANL (1976) video

    #seymourcray #video #cray1
    youtu.be/vtOA1vuoDgQ

  4. @aka_pugs 🧵100🎂Seymour Cray

    ‘Cray-1 Introduction’ Seymour Cray, LANL (1976) video

    #seymourcray #video #cray1
    youtu.be/vtOA1vuoDgQ

  5. @aka_pugs 🧵100🎂Seymour Cray

    ‘Cray-1 Introduction’ Seymour Cray, LANL (1976) video

    #seymourcray #video #cray1
    youtu.be/vtOA1vuoDgQ

  6. @aka_pugs 🧵100🎂Seymour Cray

    ‘Cray-1 Introduction’ Seymour Cray, LANL (1976) video

    #seymourcray #video #cray1
    youtu.be/vtOA1vuoDgQ

  7. Roy Longbottom Pits 1976's #Cray-1 #Supercomputer Against the #RaspberryPi
    In 1978, the Cray-1 supercomputer cost $7 million, weighed 10,500 pounds and had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The Raspberry Pi costs around $70 (CPU board, case, power supply, SD Card), weighs a few ounces, uses a five watt power supply and is more than 4.5 times faster than the #Cray1." hackster.io/news/roy-longbotto

  8. Roy Longbottom Pits 1976's #Cray-1 #Supercomputer Against the #RaspberryPi
    In 1978, the Cray-1 supercomputer cost $7 million, weighed 10,500 pounds and had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The Raspberry Pi costs around $70 (CPU board, case, power supply, SD Card), weighs a few ounces, uses a five watt power supply and is more than 4.5 times faster than the #Cray1." hackster.io/news/roy-longbotto

  9. Roy Longbottom Pits 1976's -1 Against the
    In 1978, the Cray-1 supercomputer cost $7 million, weighed 10,500 pounds and had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The Raspberry Pi costs around $70 (CPU board, case, power supply, SD Card), weighs a few ounces, uses a five watt power supply and is more than 4.5 times faster than the ." hackster.io/news/roy-longbotto

  10. Roy Longbottom Pits 1976's #Cray-1 #Supercomputer Against the #RaspberryPi
    In 1978, the Cray-1 supercomputer cost $7 million, weighed 10,500 pounds and had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The Raspberry Pi costs around $70 (CPU board, case, power supply, SD Card), weighs a few ounces, uses a five watt power supply and is more than 4.5 times faster than the #Cray1." hackster.io/news/roy-longbotto

  11. Roy Longbottom Pits 1976's #Cray-1 #Supercomputer Against the #RaspberryPi
    In 1978, the Cray-1 supercomputer cost $7 million, weighed 10,500 pounds and had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The Raspberry Pi costs around $70 (CPU board, case, power supply, SD Card), weighs a few ounces, uses a five watt power supply and is more than 4.5 times faster than the #Cray1." hackster.io/news/roy-longbotto

  12. How Cray-1 Supercomputer Compares to Raspberry Pi-Slashdot

    "In 1978, the #Cray 1 #supercomputer cost $7 Million, weighed 10,500 pounds & had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The #RaspberryPi costs around $70 (CPU board, case, power supply, SD card), weighs a few ounces, uses a 5 watt power supply & is more than 4.5 times faster than the #Cray1."

    tech.slashdot.org/story/23/12/

  13. How Cray-1 Supercomputer Compares to Raspberry Pi-Slashdot

    "In 1978, the #Cray 1 #supercomputer cost $7 Million, weighed 10,500 pounds & had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The #RaspberryPi costs around $70 (CPU board, case, power supply, SD card), weighs a few ounces, uses a 5 watt power supply & is more than 4.5 times faster than the #Cray1."

    tech.slashdot.org/story/23/12/

  14. How Cray-1 Supercomputer Compares to Raspberry Pi-Slashdot

    "In 1978, the #Cray 1 #supercomputer cost $7 Million, weighed 10,500 pounds & had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The #RaspberryPi costs around $70 (CPU board, case, power supply, SD card), weighs a few ounces, uses a 5 watt power supply & is more than 4.5 times faster than the #Cray1."

    tech.slashdot.org/story/23/12/

  15. How Cray-1 Supercomputer Compares to Raspberry Pi-Slashdot

    "In 1978, the 1 cost $7 Million, weighed 10,500 pounds & had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The costs around $70 (CPU board, case, power supply, SD card), weighs a few ounces, uses a 5 watt power supply & is more than 4.5 times faster than the ."

    tech.slashdot.org/story/23/12/

  16. How Cray-1 Supercomputer Compares to Raspberry Pi-Slashdot

    "In 1978, the #Cray 1 #supercomputer cost $7 Million, weighed 10,500 pounds & had a 115 kilowatt power supply. It was, by far, the fastest computer in the world. The #RaspberryPi costs around $70 (CPU board, case, power supply, SD card), weighs a few ounces, uses a 5 watt power supply & is more than 4.5 times faster than the #Cray1."

    tech.slashdot.org/story/23/12/

  17. @smallsco Yeah writing your own JSON parser isn’t something you just do. Tricky stuff. I was curious if there was a good small C JSON library around, as well as a small http one.

    That said before I get things in motion someone else have already risen to the occasion :)

    That said, if would be very cool to document the first #Toot on each retro computer. Like a little game.

    Imagine if someone could get a #Cray1 to toot :)

    #Retrocomputing

  18. @smallsco Yeah writing your own JSON parser isn’t something you just do. Tricky stuff. I was curious if there was a good small C JSON library around, as well as a small http one.

    That said before I get things in motion someone else have already risen to the occasion :)

    That said, if would be very cool to document the first #Toot on each retro computer. Like a little game.

    Imagine if someone could get a #Cray1 to toot :)

    #Retrocomputing

  19. @smallsco Yeah writing your own JSON parser isn’t something you just do. Tricky stuff. I was curious if there was a good small C JSON library around, as well as a small http one.

    That said before I get things in motion someone else have already risen to the occasion :)

    That said, if would be very cool to document the first #Toot on each retro computer. Like a little game.

    Imagine if someone could get a #Cray1 to toot :)

    #Retrocomputing

  20. @smallsco Yeah writing your own JSON parser isn’t something you just do. Tricky stuff. I was curious if there was a good small C JSON library around, as well as a small http one.

    That said before I get things in motion someone else have already risen to the occasion :)

    That said, if would be very cool to document the first #Toot on each retro computer. Like a little game.

    Imagine if someone could get a #Cray1 to toot :)

    #Retrocomputing

  21. @smallsco Yeah writing your own JSON parser isn’t something you just do. Tricky stuff. I was curious if there was a good small C JSON library around, as well as a small http one.

    That said before I get things in motion someone else have already risen to the occasion :)

    That said, if would be very cool to document the first #Toot on each retro computer. Like a little game.

    Imagine if someone could get a #Cray1 to toot :)

    #Retrocomputing

  22. @kalleboo I really wish someone would start making ATX/mini ITX versions of the coolest of the old classics. Like #x68000 #cray1 #amiga 2000/3000/4000 #sgi #NeXTCube #G4Cube etc.

    Amazed that the nostalgia hasn’t hit:( I’d be all over a few of those :)

  23. @kalleboo I really wish someone would start making ATX/mini ITX versions of the coolest of the old classics. Like #x68000 #cray1 #amiga 2000/3000/4000 #sgi #NeXTCube #G4Cube etc.

    Amazed that the nostalgia hasn’t hit:( I’d be all over a few of those :)

  24. @kalleboo I really wish someone would start making ATX/mini ITX versions of the coolest of the old classics. Like #x68000 #cray1 #amiga 2000/3000/4000 #sgi #NeXTCube #G4Cube etc.

    Amazed that the nostalgia hasn’t hit:( I’d be all over a few of those :)

  25. @kalleboo I really wish someone would start making ATX/mini ITX versions of the coolest of the old classics. Like #x68000 #cray1 #amiga 2000/3000/4000 #sgi #NeXTCube #G4Cube etc.

    Amazed that the nostalgia hasn’t hit:( I’d be all over a few of those :)

  26. Wer schon immer mal seine eigene, kleine Cray im Regal stehen haben wollte: 3D-Drucker, Raspberry Pi, XMP Emulator, COS drauf, Spaß haben. Das Gehäuse kann man auch in fertig kaufen: reddit.com/r/vintagecomputing/
    #vintagecomputing #cray #cray1